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This page is written for version:
1.20.4
This page is written for version:
1.20.4
Fabric API provides a system that allows mods to react to actions or occurrences, also defined as events that occur in the game.
Events are hooks that satisfy common use cases and/or provide enhanced compatibility and performance between mods that hook into the same areas of the code. The use of events often substitutes the use of mixins.
Fabric API provides events for important areas in the Minecraft codebase that multiple modders may be interested in hooking into.
Events are represented by instances of net.fabricmc.fabric.api.event.Event
which stores and calls callbacks. Often there is a single event instance for a callback, which is stored in a static field EVENT
of the callback interface, but there are other patterns as well. For example, ClientTickEvents
groups several related events together.
Callbacks are a piece of code that is passed as an argument to an event. When the event is triggered by the game, the passed piece of code will be executed.
Each event has a corresponding callback interface, conventionally named <EventName>Callback
. Callbacks are registered by calling register()
method on an event instance, with an instance of the callback interface as the argument.
All event callback interfaces provided by Fabric API can be found in the net.fabricmc.fabric.api.event
package.
This example registers an AttackBlockCallback
to damage the player when they hit blocks that don't drop an item when hand-mined.
AttackBlockCallback.EVENT.register((player, world, hand, pos, direction) -> {
BlockState state = world.getBlockState(pos);
// Manual spectator check is necessary because AttackBlockCallbacks fire before the spectator check
if (!player.isSpectator() && player.getMainHandStack().isEmpty() && state.isToolRequired()) {
player.damage(world.getDamageSources().generic(), 1.0F);
}
return ActionResult.PASS;
});
Sometimes you may want to add items to loot tables. For example, adding your drops to a vanilla block or entity.
The simplest solution, replacing the loot table file, can break other mods. What if they want to change them as well? We'll take a look at how you can add items to loot tables without overriding the table.
We'll be adding eggs to the coal ore loot table.
Fabric API has an event that is fired when loot tables are loaded, LootTableEvents.MODIFY
. You can register a callback for it in your mod initializer. Let's also check that the current loot table is the coal ore loot table.
// Let's only modify built-in loot tables and leave data pack loot tables untouched by checking the source.
// We also check that the loot table ID is equal to the ID we want.
if (source.isBuiltin() && COAL_ORE_LOOT_TABLE_ID.equals(id)) {
In loot tables, items are stored in loot pool entries, and entries are stored in loot pools. To add an item, we'll need to add a pool with an item entry to the loot table.
We can make a pool with LootPool#builder
, and add it to the loot table.
Our pool doesn't have any items either, so we'll make an item entry using ItemEntry#builder
and add it to the pool.
LootTableEvents.MODIFY.register((resourceManager, lootManager, id, tableBuilder, source) -> {
// Let's only modify built-in loot tables and leave data pack loot tables untouched by checking the source.
// We also check that the loot table ID is equal to the ID we want.
if (source.isBuiltin() && COAL_ORE_LOOT_TABLE_ID.equals(id)) {
// We make the pool and add an item
LootPool.Builder poolBuilder = LootPool.builder().with(ItemEntry.builder(Items.EGG));
tableBuilder.pool(poolBuilder);
}
});
Some areas of the game do not have hooks provided by the Fabric API, so you can either use a mixin or create your own event.
We'll look at creating an event that is triggered when sheep are sheared. The process of creating an event is:
The callback interface describes what must be implemented by event listeners that will listen to your event. The callback interface also describes how the event will be called from our mixin. It is conventional to place an Event
object as a field in the callback interface, which will identify our actual event.
For our Event
implementation, we will choose to use an array-backed event. The array will contain all event listeners that are listening to the event.
Our implementation will call the event listeners in order until one of them does not return ActionResult.PASS
. This means that a listener can say "cancel this", "approve this" or "don't care, leave it to the next event listener" using its return value.
Using ActionResult
as a return value is a conventional way to make event handlers cooperate in this fashion.
You'll need to create an interface that has an Event
instance and method for response implementation. A basic setup for our sheep shear callback is:
public interface SheepShearCallback {
Event<SheepShearCallback> EVENT = EventFactory.createArrayBacked(SheepShearCallback.class,
(listeners) -> (player, sheep) -> {
for (SheepShearCallback listener : listeners) {
ActionResult result = listener.interact(player, sheep);
if (result != ActionResult.PASS) {
return result;
}
}
return ActionResult.PASS;
});
ActionResult interact(PlayerEntity player, SheepEntity sheep);
}
Let's look at this more in-depth. When the invoker is called, we iterate over all listeners:
(listeners) -> (player, sheep) -> {
for (SheepShearCallback listener : listeners) {
We then call our method (in this case, interact
) on the listener to get its response:
ActionResult interact(PlayerEntity player, SheepEntity sheep);
If the listener says we have to cancel (ActionResult.FAIL
) or fully finish (ActionResult.SUCCESS
), the callback returns the result and finishes the loop. ActionResult.PASS
moves on to the next listener, and in most cases should result in success if there are no more listeners registered:
if (result != ActionResult.PASS) {
return result;
}
}
return ActionResult.PASS;
We can add Javadoc comments to the top of callback classes to document what each ActionResult
does. In our case, it might be:
/**
* Callback for shearing a sheep.
* Called before the sheep is sheared, items are dropped, and items are damaged.
* Upon return:
* - SUCCESS cancels further processing and continues with normal shearing behavior.
* - PASS falls back to further processing and defaults to SUCCESS if no other listeners are available
* - FAIL cancels further processing and does not shear the sheep.
*/
We now have the basic event skeleton, but we need to trigger it. Because we want to have the event called when a player attempts to shear a sheep, we call the event invoker
in SheepEntity#interactMob
when sheared()
is called (i.e. sheep can be sheared, and the player is holding shears):
@Mixin(SheepEntity.class)
public class SheepEntityMixin {
@Inject(at = @At(value = "INVOKE", target = "Lnet/minecraft/entity/passive/SheepEntity;sheared(Lnet/minecraft/sound/SoundCategory;)V"), method = "interactMob", cancellable = true)
private void onShear(final PlayerEntity player, final Hand hand, final CallbackInfoReturnable<ActionResult> info) {
ActionResult result = SheepShearCallback.EVENT.invoker().interact(player, (SheepEntity) (Object) this);
if (result == ActionResult.FAIL) {
info.setReturnValue(result);
}
}
}
Now we need to test our event. You can register a listener in your initialization method (or another area, if you prefer) and add custom logic there. Here's an example that drops a diamond instead of wool at the sheep's feet:
SheepShearCallback.EVENT.register((player, sheep) -> {
sheep.setSheared(true);
// Create diamond item entity at sheep's position.
ItemStack stack = new ItemStack(Items.DIAMOND);
ItemEntity itemEntity = new ItemEntity(player.getWorld(), sheep.getX(), sheep.getY(), sheep.getZ(), stack);
player.getWorld().spawnEntity(itemEntity);
return ActionResult.FAIL;
});
If you enter into your game and shear a sheep, a diamond should drop instead of wool.