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Capabilities
Capabilities allow exposing features in a dynamic and flexible way, without having to resort to directly implementing many interfaces.
In general terms, each capability provides a feature in the form of an interface, alongside with a default implementation which can be requested, and a storage handler for at least this default implementation. The storage handler can support other implementations, but this is up to the capability implementor, so look it up in their documentation before trying to use the default storage with non-default implementations.
Forge adds capability support to TileEntities
, Entities
, ItemStack
s, World
s and Chunk
s, which can be exposed either by attaching them through an event or by overriding the capability methods in your own implementations of the objects. This will be explained in more detail in the following sections.
Forge-provided Capabilities
Forge provides three capabilities: IItemHandler
, IFluidHandler
and IEnergyStorage
.
IItemHandler
exposes an interface for handling inventory slots. It can be applied to TileEntities
(chests, machines, etc.), Entities
(extra player slots, mob/creature inventories/bags), or ItemStacks
(portable backpacks and such). It replaces the old IInventory
and ISidedInventory
with an automation-friendly system.
IFluidHandler
exposes an interface for handling fluid inventories. It can also be applied to TileEntities
Entities
, or ItemStacks
. It replaces the old IFluidHandler
with a more consistent and automation-friendly system.
IEnergyStorage
exposes an interface for handling energy containers. It can be applied to TileEntities
, Entities
or ItemStacks
. It is based on the RedstoneFlux API by TeamCoFH.
Using an Existing Capability
As mentioned earlier, TileEntities
, Entities
, and ItemStacks
implement the capability provider feature, through the ICapabilityProvider
interface. This interface adds the method getCapability
, which can be used to query the capabilities present in the objects.
In order to obtain a capability, you will need to refer it by its unique instance. In the case of the IItemHandler
, this capability is primarily stored in CapabilityItemHandler#ITEM_HANDLER_CAPABILITY
, but it is possible to get other instance references by using the @CapabilityInject
annotation.
@CapabilityInject(IItemHandler.class) static Capability<IItemHandler> ITEM_HANDLER_CAPABILITY = null;
This annotation can be applied to fields and methods. When applied to a field, it will assign the instance of the capability (the same one gets assigned to all fields) upon registration of the capability, and left to the existing value (null
), if the capability was never registered. Because local static field accesses are fast, it is a good idea to keep your own local copy of the reference for objects that work with capabilities. This annotation can also be used on a method, in order to get notified when a capability is registered, so that certain features can be enabled conditionally.
Both the getCapability
methods have a second parameter, of type Direction
, which can be used in the to request the specific instance for that one face. If passed null
, it can be assumed that the request comes either from within the block, or from some place where the side has no meaning, such as a different dimension. In this case a general capability instance that does not care about sides will be requested instead. The return type of getCapability
will correspond to the type declared in the capability passed to the method. For the item handler capability, this is indeed IItemHandler
.
Exposing a Capability
In order to expose a capability, you will first need an instance of the underlying capability type. Note that you should assign a separate instance to each object that keeps the capability, since the capability will most probably be tied to the containing object.
There’s two ways to obtain such an instance, through the Capability
itself, or by explicitly instantiating an implementation of it. The first method is designed to use a default implementation via Capability#getDefaultInstance
, if those default values are useful for you. In the case of the item handler capability, the default implementation will expose a single slot inventory, which is most probably not what you want.
The second method can be used to provide custom implementations. In the case of IItemHandler
, the default implementation uses the ItemStackHandler
class, which has an optional argument in the constructor, to specify a number of slots. However, relying on the existence of these default implementations should be avoided, as the purpose of the capability system is to prevent loading errors in contexts where the capability is not present, so instantiation should be protected behind a check testing if the capability has been registered (see the remarks about @CapabilityInject
in the previous section).
Once you have your own instance of the capability interface, you will want to notify users of the capability system that you expose this capability and provide a holder of the instance. This is done by overriding the getCapability
method, and comparing the instance with the capability you are exposing. If your machine has different slots based on which side is being queried, you can test this with the side
parameter. For Entities
and ItemStack
s, this parameter can be ignored, but it is still possible to have side as a context, such as different armor slots on a player (top side => head slot?), or about the surrounding blocks in the inventory (west => slot on the left?). Don’t forget to fall back to super
, otherwise the attached capabilities will stop working. Make sure to invalidate the holder of the instance at the end of the provider's lifecycle.
// Somewhere in your TileEntity subclass LazyOptional<IItemHandler> inventoryHandlerLazyOptional; // After initializing inventoryHandler inventoryHandlerLazyOptional = LazyOptional.of(() -> inventoryHandler); public <T> LazyOptional<T> getCapability(Capability<T> cap, Direction side) { if (cap == CapabilityItemHandler.ITEM_HANDLER_CAPABILITY) { return inventoryHandlerLazyOptional.cast(); } return super.getCapability(cap, side); } @Override public void remove() { super.remove(); inventoryHandlerLazyOptional.invalidate(); }
Item
s are a special case since their capability providers are stored on an ItemStack
. Instead, a provider should be attached through Item#initCapabilities
when applicable. This should hold your capabilities for the lifecycle of the stack.
It is strongly suggested that direct checks in code are used to test for capabilities instead of attempting to rely on maps or other data structures, since capability tests can be done by many objects every tick, and they need to be as fast as possible in order to avoid slowing down the game.