Skip to content

Instantly share code, notes, and snippets.

@ChampionAsh5357
Last active September 26, 2024 17:26
Show Gist options
  • Save ChampionAsh5357/c21724bafbc630da2ed8899fe0c1d226 to your computer and use it in GitHub Desktop.
Save ChampionAsh5357/c21724bafbc630da2ed8899fe0c1d226 to your computer and use it in GitHub Desktop.
Minecraft 1.19.2 -> 1.19.3 Mod Migration Primer

Minecraft 1.19.2 -> 1.19.3 Mod Migration Primer

This is a high level, non-exhaustive overview on how to migrate your mod from 1.19.2 to 1.19.3 using Forge.

This primer is licensed under the Creative Commons Attribution 4.0 International, so feel free to use it as a reference and leave a link so that other readers can consume the primer.

If there's any incorrect or missing information, please leave a comment below. Thanks!

Feature Flags

Feature Flags are a behavior/logic toggle for blocks and items. They determine whether certain actions or generations related to the object can trigger (e.g. bamboo boats can only be placed when the minecraft:update_1_20 flag is enabled).

Vanilla currently provides three flags as of this version (via FeatureFlags):

  • minecraft:vanilla: For everything in vanilla minecraft
  • minecraft:bundle: For the bundle feature pack and in the creative tab
  • minecraft:update_1_20: For objects related to the upcoming 1.20 release

You can force an item or block to require one of these features by adding it as a property via #requiredFeatures. This will affect all behavior and logic associated with the object.

// In some supplied instance
new Block(BlockBehaviour.Properties.of(/*...*/).requiredFeatures(/*features here*/));

new Item(new Item.Properties().requiredFeatures(/*features here*/));

If you only want to affect some behavior or logic associated with the object, then you will need to check FeatureFlagSet#contains yourself on whatever system you are using.

Do not add your own FeatureFlags. Currently, they are limited to only 6 and are hardcoded to vanilla's highly-specific implementation.

Registries

Registries have received a significant overhaul, resulting in better stability.

No In-Code Entries in Dynamic Registries

Dynamic registries such as dimension types or features can no longer be declared in-code. Instead, a JSON of each must now be provided.

Key and Registry Locations

The locations of the registry keys and the registries themselves have moved. Registry keys are now in net.minecraft.core.registries.Registries. Static registries are now in net.minecraft.core.registries.BuiltInRegistries.

Dynamic registries can only be obtained from the RegistryAccess from the MinecraftServer. There is no more static access to it, such as using RegistryAccess#builtinCopy.

Registry Order

The registry order has changed as well due to a bunch of stability fixes. This should not matter in most cases if you want to support registry replacement as a Supplier of the value is necessary, but this will be noted down regardless. This is the current order in which registries load:

  • minecraft:sound_event
  • minecraft:fluid
  • minecraft:block
  • minecraft:attribute
  • minecraft:mob_effect
  • minecraft:particle_type
  • minecraft:item
  • minecraft:entity_type
  • minecraft:sensor_type
  • minecraft:memory_module_type
  • minecraft:potion
  • minecraft:game_event
  • minecraft:enchantment
  • minecraft:block_entity_type
  • minecraft:painting_variant
  • minecraft:stat_type
  • minecraft:custom_stat
  • minecraft:chunk_status
  • minecraft:rule_test
  • minecraft:pos_rule_test
  • minecraft:menu
  • minecraft:recipe_type
  • minecraft:recipe_serializer
  • minecraft:position_source_type
  • minecraft:command_argument_type
  • minecraft:villager_type
  • minecraft:villager_profession
  • minecraft:point_of_interest_type
  • minecraft:schedule
  • minecraft:activity
  • minecraft:loot_pool_entry_type
  • minecraft:loot_function_type
  • minecraft:loot_condition_type
  • minecraft:loot_number_provider_type
  • minecraft:loot_nbt_provider_type
  • minecraft:loot_score_provider_type
  • minecraft:float_provider_type
  • minecraft:int_provider_type
  • minecraft:height_provider_type
  • minecraft:block_predicate_type
  • minecraft:worldgen/carver
  • minecraft:worldgen/feature
  • minecraft:worldgen/structure_processor
  • minecraft:worldgen/structure_placement
  • minecraft:worldgen/structure_piece
  • minecraft:worldgen/structure_type
  • minecraft:worldgen/placement_modifier_type
  • minecraft:worldgen/block_state_provider_type
  • minecraft:worldgen/foliage_placer_type
  • minecraft:worldgen/trunk_placer_type
  • minecraft:worldgen/root_placer_type
  • minecraft:worldgen/tree_decorator_type
  • minecraft:worldgen/feature_size_type
  • minecraft:worldgen/biome_source
  • minecraft:worldgen/chunk_generator
  • minecraft:worldgen/material_condition
  • minecraft:worldgen/material_rule
  • minecraft:worldgen/density_function_type
  • minecraft:worldgen/structure_pool_element
  • minecraft:cat_variant
  • minecraft:frog_variant
  • minecraft:banner_pattern
  • minecraft:instrument
  • forge:biome_modifier_serializers
  • forge:entity_data_serializers
  • forge:fluid_type
  • forge:global_loot_modifier_serializers
  • forge:holder_set_type
  • forge:structure_modifier_serializers
  • minecraft:worldgen/biome

Existing Creative Tabs

CreativeModeTabs are no longer set through a property on the item; they are harcoded onto the creative tab itself. To get around this, the CreativeModeTabEvent was added, allowing a modder to create a creative tab or add items to an existing creative tab. All events are on the mod event bus.

Adding Items

Items can be added to a creative tab via CreativeModeTabEvent$BuildContents. The event contains the tab to add contents to, the set feature flags, and whether the user as OP permissions. An item can be added to the creative tab by calling #accept or #acceptAll. If you want to inject between an item already in the creative tab, you can call MutableHashedLinkedMap#putBefore or MutableHashedLinkedMap#putAfter within the provided entry list (#getEntries).

// Registered on the MOD event bus
// Assume we have RegistryObject<Item> and RegistryObject<Block> called ITEM and BLOCK
@SubscribeEvent
public void buildContents(CreativeModeTabEvent.BuildContents event) {
  // Add to ingredients tab
  if (event.getTab() == CreativeModeTabs.INGREDIENTS) {
    event.accept(ITEM);
    event.accept(BLOCK); // Takes in an ItemLike, assumes block has registered item
  }
}

Custom Creative Tab

A custom CreativeModeTab can be created via CreativeModeTabEvent$Register#registerCreativeModeTab. This takes in the name of the tab along with a consumer of the builder. An additional overload is specified to determine between which tabs this tab should be located.

// Registered on the MOD event bus
// Assume we have RegistryObject<Item> and RegistryObject<Block> called ITEM and BLOCK
@SubscribeEvent
public void buildContents(CreativeModeTabEvent.Register event) {
  event.registerCreativeModeTab(new ResourceLocation(MOD_ID, "example"), builder ->
    // Set name of tab to display
    builder.title(Component.translatable("item_group." + MOD_ID + ".example"))
    // Set icon of creative tab
    .icon(() -> new ItemStack(ITEM.get()))
    // Add default items to tab
    .displayItems((enabledFlags, populator, hasPermissions) -> {
      populator.accept(ITEM.get());
      populator.accept(BLOCK.get());
    })
  );
}

Additionally, to use a subclass of the CreativeModeTab, you can pass in a function which takes in the builder to #withTabFactory.

The JOML Library

Mojang has migrated from using their own math classes for rendering to using JOML, a open source math library for OpenGL. You can fix most of these issues by changing the package of the vector, matrix, etc. to org.joml; however it is not a 1 to 1 translation. Some changes are functional: Matrix* methods modify a mutable instance instead of creating a new one, or Quaternionf using AxisAngle* instead of Vector3f.

SoundEvent

SoundEvents have slightly changed in this version. Specifically, they are constructed through a static method constructor which introduces a new system: fixed range sound. The standard SoundEvent from previous versions can be constructed using SoundEvent#createVariableRangeEvent, whose range changes depending on the volume of the sound with a minimum of 16 blocks. Sounds constructed from SoundEvent#createFixedRangeEvent can be heard from the range specified, regardless of the volume.

// In some supplied instance

// Will change depending on volume, minimum 16 blocks
SoundEvent.createVariableRangeEvent("sound.example_mod.variable_example");

// Will only be heard within specified range (e.g. 5 blocks)
SoundEvent.createFixedRangeEvent("sound.example_mod.fixed_example", 5f);

Packs and PackResources

Packs and PackResources have changed slightly between the two versions.

First PackResources#hasResource no longer exists. Instead #getResource should be checked for nullability instead before getting the InputStream from the IoSupplier.

// Given some PackResources resources
var io = resources.getResource(PackType.SERVER_DATA, new ResourceLocation(/**/));

if (io != null) {
  InputStream input = io.get();
  // Same as before
}

Additionally, #getResources has been replaced by #listResources with the ResourceLocation predicate changing to a PackResources$ResourceOutput which acts as a consumer taking in the resource and the IoSupplier the resource would be located in.

Finally, Pack has become a private constructor, only constructed through one of the static constructors #readMetaAndCreate, which acts similarly to the 1.19.2 #create, or #create. A common case that this will encounter is for the AddPackFindersEvent. Here are the list of changes:

  • Supplier<PackResources> has turned into Pack$ResourcesSupplier which takes in the pack id.
  • PackType is now a parameter to check whether the pack is compatible for the current version.
  • The description, feature flags, and hidden check is stored on the Pack$Info, which is either obtained from the metadata file or constructed from the record.

Data Generators

Data Generators have changed quite a bit from how providers are added to the providers themselves.

Starting off, all providers now take in a PackOutput compared to the DataGenerator itself. The PackOutput simply specifies the directory where the pack will be generated. Because of this change, the #addProvider method now takes in either the provider instance or a function that takes in a PackOutput and constructs a DataProvider.

// On the mod event bus
@SubscribeEvent
public void gatherData(GatherDataEvent event) {
  event.addProvider(true, output -> /*create provider here*/);
}

The Lookup Provider

GatherDataEvent now provides a CompletableFuture containing a HolderLookup$Provider, which is used to get registries and their objects. This can be obtained via #getLookupProvider.

Data Providers and CompleteableFutures

All DataProviders now return a CompletableFuture on #run, which is used to write the data to its apropriate file.

RecipeProvider and RecipeCategory

RecipeProviders now construct recipes in #buildRecipes. Additionally, each recipe builder, besides dynamic recipes, must specify a RecipeCategory which determines the subdirectory on where the recipe will be generated.

// In RecipeProvider#buildRecipes(writer)
ShapedRecipeBuilder builder = ShapedRecipeBuilder.shaped(RecipeCategory.MISC, result)
  .pattern("a a") // Create recipe pattern
  .define('a', item) // Define what the symbol represents
  .unlockedBy("criteria", criteria) // How the recipe is unlocked
  .save(writer); // Add data to builder

TagsProvider and IntrinsicHolderTagsProvider

TagsProviders can only add objects through their ResourceKey. To add objects directly, an IntrinsicHolderTagsProvider should be used instead. This takes in a function which extracts a key from the object itself. Vanilla creates these for Items, EntityTypes, Fluids, and GameEvents with Forge adding one for Blocks. Any others need to specify the function.

// Subtype of `IntrinsicHolderTagsProvider`
public AttributeTagsProvider(PackOutput output, CompletableFuture<HolderLookup.Provider> registries, ExistingFileHelper fileHelper) {
  super(
    output,
    ForgeRegistries.Keys.ATTRIBUTES,
    registries,
    attribute -> ForgeRegistries.ATTRIBUTES.getResourceKey(attribute).get(),
    MOD_ID,
    fileHelper
  );
}

LootTableProvider

LootTableProvider has received a massive overhaul, no longer needing to subtype the class and instead just supply arguments to the constructor. In addition to the PackOutput, it takes in a set of table names to validate whether they have been created and a list of SubProviderEntrys, which are used to generate the tables for each LootContextParamSet.

// On the MOD event bus
@SubscribeEvent
public void gatherData(GatherDataEvent event) {
  event.getGenerator().addProvider(
    // Tell generator to run only when server data are generating
    event.includeServer(),
    output -> new MyLootTableProvider(
      output,
      // Specify registry names of tables that are required to generate, or can leave empty
      Collections.emptySet(),
      // Sub providers which generate the loot
      List.of(subProvider1, subProvider2, /*...*/)
    )
  );
}

A LootTableSubProvider is used to generate the loot tables in the SubProviderEntry, essentially functioning the same as a Supplier<Consumer<BiConsumer<ResourceLocation, LootTable.Builder>>>.

public class ExampleSubProvider implements LootTableSubProvider {

  // Used to create a factory method for the wrapping Supplier
  public ExampleSubProvider() {}

  // The method used to generate the loot tables
  @Override
  public void generate(BiConsumer<ResourceLocation, LootTable.Builder> writer) {
    // Generate loot tables here by calling writer#accept
  }
}

// In the list passed into the LootTableProvider constructor
new LootTableProvider.SubProviderEntry(
  ExampleSubProvider::new,
  // Loot table generator for the 'empty' param set
  LootContextParamSets.EMPTY
)

The overrides for blocks and entities still exist being called BlockLootSubProvider and EntityLootSubProvider respectively. They both take in the feature flags, with the block sub provider taking in a set of items to which are resistant to explosions. The method used to generate the tables have been changed from #addTables to #generate. You still need to override the #getKnown* methods for validation.

// In some BlockLootSubProvider subclass
public MyBlockLootSubProvider() {
  super(Collections.emptySet(), FeatureFlags.REGISTRY.allFlags());
}

@Override
public void generate() {
  // Add tables here
}

AdvancementProvider

AdvancementProvider has also received a massive overhaul, no longer needing to subtype the class and instead just supply arguments to the constructor. In addition to the PackOutput, it takes in the holder lookup for registries and the AdvancementSubProviders, which are used to generate the advancements. For ease of access to the ExistingFileHelper, Forge has added an extension on the provider aptly named ForgeAdvancementProvider which takes in ForgeAdvancementProvider$AdvancementGenerators which contain the ExistingFileHelper as a parameter.

// On the MOD event bus
@SubscribeEvent
public void gatherData(GatherDataEvent event) {
  event.getGenerator().addProvider(
    // Tell generator to run only when server data are generating
    event.includeServer(),
    output -> new ForgeAdvancementProvider(
      output,
      event.getLookupProvider(),
      event.getExistingFileHelper(),
      // Sub providers which generate the advancements
      List.of(subProvider1, subProvider2, /*...*/)
    )
  );
}

The ForgeAdvancementProvider$AdvancementGenerator is responsible for generating advancements. To be able to effectively generate advancements the ExistingFileHelper should be passed in such that the advancement can be built using the Advancement$Builder#save method which takes it in.

// In some ForgeAdvancementProvider$AdvancementGenerator or as a lambda reference

@Override
public void generate(HolderLookup.Provider registries, Consumer<Advancement> writer, ExistingFileHelper existingFileHelper) {
  // Build advancements here
}

DatapackBuiltinEntriesProvider and the removal of JsonCodecProvider#forDatapackRegistry

JsonCodecProvider#forDatapackRegistry was removed in favor of using the vanilla RegistriesDatapackGenerator for generating dynamic registry objects. To expand upon this provider, Forge introduced the DatapackBuiltinEntriesProvider, which can take in a RegistrySetBuilder to generate the specific dynamic objects to use, and a set of mod ids to determine which mod's dynamic registry objects to generate.

// On the MOD event bus
@SubscribeEvent
public void gatherData(GatherDataEvent event) {
  event.getGenerator().addProvider(
    // Tell generator to run only when server data are generating
    event.includeServer(),
    output -> new DatapackBuiltinEntriesProvider(
      output,
      event.getLookupProvider(),
      // The objects to generate
      new RegistrySetBuilder()
        .add(Registries.NOISE_SETTINGS, context -> {
          // Generate noise generator settings
          context.register(
            ResourceKey.create(Registries.NOISE_SETTINGS, new ResourceLocation(MOD_ID, "example_settings")),
            NoiseGeneratorSettings.floatingIslands(context)
          );
        }),
      // Generate dynamic registry objects for this mod
      Set.of(MOD_ID)
    )
  );
}

Rendering Changes

Rendering has changed a massive amount in this update. The most common being those explicitly mentioned by minecraft such as item and block textures only being in models/item and models/block respectively or the asynchronous loading and writing of assets and data. Textures for items and blocks are also required to be in textures/item and textures/block respectively as textures are loaded before model are processed. These texture directories are specified in JSON in the atlases directory.

This section will try to cover all the updates in 1.19.3 as these issues get fixed.

Resolving nested models

To resolve models that are nested within other models, IUnbakedGeometry#resolveParents was added. This is a defaulted method, so no issues should occur in custom loaders; however, those who are resolving models within models will need to pivot to use this new method.

ModelEvent$ModifyBakingResult

ModelEvent$ModifyBakingResult is an event fired on the mod event bus used to handle the caching of state -> model map done previously in ModelEvent$BakingCompleted. The usecases typically stem from users who need to make adjustments to models due to cases where custom loaders are not possible or that the context provided is insufficient.

Due to the event being fired on a worker thread, you should only access those objects provided by the event itself as it is otherwise unsafe.

Behaviors by DataFixerUpper

Behaviors are being migrated to use a new system built around the abstractions and overengineering provided by DataFixerUpper (DFU). As these systems tend to be complex and convoluted, this will only provide a brief overview of the changes and implementations.

In nearly all cases, I, ChampionAsh5357, would recommend using SmartBrainLib over a vanilla Brain implementation. It is much simpler to understand and more intuitive than the vanilla system.

BehaviorControl

The Behavior class is no longer the base for behavior logic. That has been relegated to BehaviorControl: an interface which Behavior implements. BehaviorControl checks whether the logic can start (#tryStart), its ticking and stop check (#tickOrStop), and finally the stop logic (#doStop).

Some classes affected by this are DoNothing and GateBehavior which implements BehaviorControl.

OneShot

OneShot is a behavior control which executes once via a Trigger statement. If the Trigger#trigger returns true, the behavior control is executed; though it only sets the state to running for a single tick.

BehaviorBuilder and TriggerGate

BehaviorBuilder and TriggerGate are essentially the DFU-implemented classes which creates OneShot triggers such as waking up or strolling to a point of interest.

For a basic understanding, a BehaviorBuilder acts similarly to a RecordCodecBuilder: it creates the behavior instance, takes in the necessary MemoryModuleTypes and whether it is registered, present, or absent, and then applies to construct a Trigger. The BehaviorBuilder also contains methods to make triggers act sequentially or if a given predicate is met.

TriggerGate is an holder of state methods for GateBehaviors. It either triggers a single instance at random (#triggerOneShuffled) or executed based on the ordering and run policy selected (#triggerGate).

Minor Changes

This is a list of minor changes which probably won't affect the modding experience but is convenient to know anyways.

Entity#getAddEntityPacket no longer abstract

Entity#getAddEntityPacket is no longer abstract, instead defaulting to the ClientboundAddEntityPacket. If you need to send additional data on entity creation, you should still use NetworkHooks#getEntitySpawningPacket.

AbstractContainerMenu#stillValid Static Method

AbstractContainerMenu has now migrated from using the Container to check whether the menu could still be kept open to using a static method called #stillValid in the instance of the same name. To use this method, you need to provide a ContainerLevelAccess, the player, and the Block the menu is attached to.

// Client menu constructor
public MyMenuAccess(int containerId, Inventory playerInventory) {
  this(containerId, playerInventory, ContainerLevelAccess.NULL);
}

// Server menu constructor
public MyMenuAccess(int containerId, Inventory playerInventory, ContainerLevelAccess access) {
  // ...
}

// Assume this menu is attached to RegistryObject<Block> MY_BLOCK
@Override
public boolean stillValid(Player player) {
  return AbstractContainerMenu.stillValid(this.access, player, MY_BLOCK.get());
}

BlockStateProvider#simpleBlockWithItem

The BlockStateProvider now contains a new method to generate a simple block state for a single block model along with an associated item model.

// In some BlockStateProvider#registerStatesAndModels
// Assume there is a RegistryObject<Block> BLOCK
this.simpleBlockWithItem(BLOCK.get(), this.cubeAll(BLOCK.get()));

Removal of Context-Sensitive Tree Growers

The context-sensitive methods within AbstractMegaTreeGrower and AbstractTreeGrower have been removed and as such no longer have access to the world or position as the methods now return the keys of the ConfiguredFeature rather than the feature itself.

Music, now with Holders

The Music class, used to provide a background track during different situations, now takes in a Holder<SoundEvent> rather than the SoundEvent itself.

KeyboardHandler#sendRepeatsToGui removed

Minecraft has removed KeyboardHandler#sendRepeatsToGui when a key was held down such that it repeated within a GUI. There is no replacement, so the handler will now always send repeats to the GUI.

Renames and Refactors

The following classes were renamed or refactored within Minecraft and Forge:

  • net.minecraft.client.gui.components.Widget -> net.minecraft.client.gui.components.Renderable
  • net.minecraft.data.tags.BlockTagsProvider -> net.minecraftforge.common.data.BlockTagsProvider
  • net.minecraft.data.loot.BlockLoot -> net.minecraft.data.loot.BlockLootSubProvider
  • net.minecraft.data.loot.EntityLoot -> net.minecraft.data.loot.EntityLootSubProvider
@TimeyDingo
Copy link

I'm attempting to backport a mod from 1.20.1 to 1.19.2, and I see that you said that net.minecraft.core.registries.Registries is the new position for registry keys but where did they used to be?

@ChampionAsh5357
Copy link
Author

I'm attempting to backport a mod from 1.20.1 to 1.19.2, and I see that you said that net.minecraft.core.registries.Registries is the new position for registry keys but where did they used to be?

I believe they were in the Registry class and suffixed with _KEY.

Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment