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maeriil 2025-12-01 14:03:14 -05:00
parent b974dd9e52
commit 3fdef1cf4a
1 changed files with 240 additions and 240 deletions
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480
src/jecs.d.ts vendored
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@ -3,12 +3,12 @@
* The generic type T defines the data type when this entity is used as a component
*/
export type Entity<TData = unknown> = number & {
readonly __nominal_Entity: unique symbol;
readonly __type_TData: TData;
readonly __nominal_Entity: unique symbol;
readonly __type_TData: TData;
};
type TagDiscriminator = {
readonly __nominal_Tag: unique symbol;
readonly __nominal_Tag: unique symbol;
};
/**
@ -22,27 +22,27 @@ export type Tag = Entity<TagDiscriminator>;
* - `obj` is the type of the "object" entity.
*/
export type Pair<P = unknown, O = unknown> = number & {
readonly __nominal_Pair: unique symbol;
readonly __pred: P;
readonly __obj: O;
readonly __nominal_Pair: unique symbol;
readonly __pred: P;
readonly __obj: O;
};
/**
* An `Id` can be either a single Entity or a Pair of Entities.
* By providing `TData`, you can specifically require an Id that yields that type.
*/
export type Id<TData = unknown> =
| Entity<TData>
| Pair<TData, unknown>
| Pair<TagDiscriminator, TData>;
| Entity<TData>
| Pair<TData, unknown>
| Pair<TagDiscriminator, TData>;
export type InferComponent<E> =
E extends Entity<infer D>
? D
: E extends Pair<infer P, infer O>
? P extends TagDiscriminator
? O
: P
: never;
E extends Entity<infer D>
? D
: E extends Pair<infer P, infer O>
? P extends TagDiscriminator
? O
: P
: never;
type FlattenTuple<T extends unknown[]> = T extends [infer U] ? U : LuaTuple<T>;
type Nullable<T extends unknown[]> = { [K in keyof T]: T[K] | undefined };
@ -52,260 +52,260 @@ type ArchetypeId = number;
export type Column<T> = T[];
export type Archetype<T extends Id[]> = {
id: number;
types: Entity[];
type: string;
entities: Entity[];
columns: Column<unknown>[];
columns_map: { [K in T[number]]: Column<InferComponent<K>> };
id: number;
types: Entity[];
type: string;
entities: Entity[];
columns: Column<unknown>[];
columns_map: { [K in T[number]]: Column<InferComponent<K>> };
};
type IterFn<T extends Id[]> = IterableFunction<LuaTuple<[Entity, ...InferComponents<T>]>>;
type Iter<T extends Id[]> = IterFn<T> & {
/**
* This isn't callable
* @hidden
* @deprecated
*/
(): never;
/**
* This isn't callable
* @hidden
* @deprecated
*/
(): never;
};
export type CachedQuery<T extends Id[]> = {
/**
* Returns an iterator that produces a tuple of [Entity, ...queriedComponents].
*/
iter(): IterFn<T>;
/**
* Returns an iterator that produces a tuple of [Entity, ...queriedComponents].
*/
iter(): IterFn<T>;
/**
* Returns the matched archetypes of the query
* @returns An array of archetypes of the query
*/
archetypes(): Archetype<T>[];
/**
* Returns the matched archetypes of the query
* @returns An array of archetypes of the query
*/
archetypes(): Archetype<T>[];
has(entity: Entity): boolean;
has(entity: Entity): boolean;
ids: Id<any>[];
ids: Id<any>[];
filter_with?: Id<any>[];
filter_with?: Id<any>[];
filter_without?: Id<any>[];
filter_without?: Id<any>[];
archetypes_map: Map<number, number>;
archetypes_map: Map<number, number>;
} & Iter<T>;
export type Query<T extends Id[]> = {
/**
* Returns an iterator that produces a tuple of [Entity, ...queriedComponents].
*/
iter(): IterFn<T>;
/**
* Returns an iterator that produces a tuple of [Entity, ...queriedComponents].
*/
iter(): IterFn<T>;
/**
* Creates and returns a cached version of this query for efficient reuse.
* Call refinement methods (with/without) on the query before caching.
* @returns A cached query
*/
cached(): CachedQuery<T>;
/**
* Creates and returns a cached version of this query for efficient reuse.
* Call refinement methods (with/without) on the query before caching.
* @returns A cached query
*/
cached(): CachedQuery<T>;
/**
* Modifies the query to include specified components.
* @param components The components to include.
* @returns A new Query with the inclusion applied.
*/
with(...components: Id[]): Query<T>;
/**
* Modifies the query to include specified components.
* @param components The components to include.
* @returns A new Query with the inclusion applied.
*/
with(...components: Id[]): Query<T>;
/**
* Modifies the Query to exclude specified components.
* @param components The components to exclude.
* @returns A new Query with the exclusion applied.
*/
without(...components: Id[]): Query<T>;
/**
* Modifies the Query to exclude specified components.
* @param components The components to exclude.
* @returns A new Query with the exclusion applied.
*/
without(...components: Id[]): Query<T>;
/**
* Returns the matched archetypes of the query
* @returns An array of archetypes of the query
*/
archetypes(): Archetype<T>[];
/**
* Returns the matched archetypes of the query
* @returns An array of archetypes of the query
*/
archetypes(): Archetype<T>[];
has(entity: Entity): boolean;
has(entity: Entity): boolean;
ids: Id<any>[];
ids: Id<any>[];
filter_with?: Id<any>[];
filter_with?: Id<any>[];
filter_without?: Id<any>[];
filter_without?: Id<any>[];
} & Iter<T>;
export class World {
/**
* Creates a new World.
*/
private constructor();
/**
* Creates a new World.
*/
private constructor();
/**
* Enforces a check for entities to be created within a desired range.
* @param range_begin The starting point
* @param range_end The end point (optional)
*/
range(range_begin: number, range_end?: number): void;
/**
* Enforces a check for entities to be created within a desired range.
* @param range_begin The starting point
* @param range_end The end point (optional)
*/
range(range_begin: number, range_end?: number): void;
/**
* Creates a new entity.
* @returns An entity (Tag) with no data.
*/
entity(): Tag;
entity<T extends Entity>(id: T): T;
/**
* Creates a new entity.
* @returns An entity (Tag) with no data.
*/
entity(): Tag;
entity<T extends Entity>(id: T): T;
/**
* Creates a new entity in the first 256 IDs, typically used for static
* components that need fast access.
* @returns A typed Entity with `TData`.
*/
component<TData = unknown>(): Entity<TData>;
/**
* Creates a new entity in the first 256 IDs, typically used for static
* components that need fast access.
* @returns A typed Entity with `TData`.
*/
component<TData = unknown>(): Entity<TData>;
/**
* Gets the target of a relationship. For example, if we say
* `world.target(entity, ChildOf)`, this returns the parent entity.
* @param entity The entity using a relationship pair.
* @param relation The "relationship" component/tag (e.g., ChildOf).
* @param index If multiple targets exist, specify an index. Defaults to 0.
*/
target(entity: Entity, relation: Entity, index?: number): Entity | undefined;
/**
* Gets the target of a relationship. For example, if we say
* `world.target(entity, ChildOf)`, this returns the parent entity.
* @param entity The entity using a relationship pair.
* @param relation The "relationship" component/tag (e.g., ChildOf).
* @param index If multiple targets exist, specify an index. Defaults to 0.
*/
target(entity: Entity, relation: Entity, index?: number): Entity | undefined;
/**
* Deletes an entity (and its components/relationships) from the world entirely.
* @param entity The entity to delete.
*/
delete(entity: Entity): void;
/**
* Deletes an entity (and its components/relationships) from the world entirely.
* @param entity The entity to delete.
*/
delete(entity: Entity): void;
/**
* Adds a component (with no value) to the entity.
* @param entity The target entity.
* @param component The component (or tag) to add.
*/
add<C>(
entity: Entity,
component: TagDiscriminator extends InferComponent<C> ? C : Id<TagDiscriminator>,
): void;
/**
* Adds a component (with no value) to the entity.
* @param entity The target entity.
* @param component The component (or tag) to add.
*/
add<C>(
entity: Entity,
component: TagDiscriminator extends InferComponent<C> ? C : Id<TagDiscriminator>,
): void;
/**
* Installs a hook on the given component.
* @param component The target component.
* @param hook The hook to install.
* @param value The hook callback.
*/
set<T>(
component: Entity<T>,
hook: StatefulHook,
value: (e: Entity, id: Id<T>, data: T) => void,
): void;
set<T>(component: Entity<T>, hook: StatelessHook, value: (e: Entity, id: Id<T>) => void): void;
/**
* Assigns a value to a component on the given entity.
* @param entity The target entity.
* @param component The component definition (could be a Pair or Entity).
* @param value The value to store with that component.
*/
set<E extends Id<unknown>>(entity: Entity, component: E, value: InferComponent<E>): void;
/**
* Installs a hook on the given component.
* @param component The target component.
* @param hook The hook to install.
* @param value The hook callback.
*/
set<T>(
component: Entity<T>,
hook: StatefulHook,
value: (e: Entity, id: Id<T>, data: T) => void,
): void;
set<T>(component: Entity<T>, hook: StatelessHook, value: (e: Entity, id: Id<T>) => void): void;
/**
* Assigns a value to a component on the given entity.
* @param entity The target entity.
* @param component The component definition (could be a Pair or Entity).
* @param value The value to store with that component.
*/
set<E extends Id<unknown>>(entity: Entity, component: E, value: InferComponent<E>): void;
/**
* Cleans up the world by removing empty archetypes and rebuilding the archetype collections.
* This helps maintain memory efficiency by removing unused archetype definitions.
*/
cleanup(): void;
/**
* Cleans up the world by removing empty archetypes and rebuilding the archetype collections.
* This helps maintain memory efficiency by removing unused archetype definitions.
*/
cleanup(): void;
/**
* Removes all instances of specified component
*/
// purge<T>(component: Id<T>): void
/**
* Removes all instances of specified component
*/
// purge<T>(component: Id<T>): void
/**
* Clears all components and relationships from the given entity, but
* does not delete the entity from the world.
* @param entity The entity to clear.
*/
clear(entity: Entity): void;
/**
* Clears all components and relationships from the given entity, but
* does not delete the entity from the world.
* @param entity The entity to clear.
*/
clear(entity: Entity): void;
/**
* Removes a component from the given entity.
* @param entity The target entity.
* @param component The component to remove.
*/
remove(entity: Entity, component: Id): void;
/**
* Removes a component from the given entity.
* @param entity The target entity.
* @param component The component to remove.
*/
remove(entity: Entity, component: Id): void;
/**
* Retrieves the values of up to 4 components on a given entity. Missing
* components will return `undefined`.
* @param entity The entity to query.
* @param components Up to 4 components/tags to retrieve.
* @returns A tuple of data (or a single value), each possibly undefined.
*/
get<T extends [Id] | [Id, Id] | [Id, Id, Id] | [Id, Id, Id, Id]>(
entity: Entity,
...components: T
): FlattenTuple<Nullable<InferComponents<T>>>;
/**
* Retrieves the values of up to 4 components on a given entity. Missing
* components will return `undefined`.
* @param entity The entity to query.
* @param components Up to 4 components/tags to retrieve.
* @returns A tuple of data (or a single value), each possibly undefined.
*/
get<T extends [Id] | [Id, Id] | [Id, Id, Id] | [Id, Id, Id, Id]>(
entity: Entity,
...components: T
): FlattenTuple<Nullable<InferComponents<T>>>;
/**
* Returns `true` if the given entity has all of the specified components.
* A maximum of 4 components can be checked at once.
* @param entity The entity to check.
* @param components Upto 4 components to check for.
*/
has(entity: Entity, ...components: Id[]): boolean;
/**
* Returns `true` if the given entity has all of the specified components.
* A maximum of 4 components can be checked at once.
* @param entity The entity to check.
* @param components Upto 4 components to check for.
*/
has(entity: Entity, ...components: Id[]): boolean;
/**
* Gets the parent (the target of a `ChildOf` relationship) for an entity,
* if such a relationship exists.
* @param entity The entity whose parent is queried.
*/
parent(entity: Entity): Entity | undefined;
/**
* Gets the parent (the target of a `ChildOf` relationship) for an entity,
* if such a relationship exists.
* @param entity The entity whose parent is queried.
*/
parent(entity: Entity): Entity | undefined;
/**
* Checks if an entity exists in the world.
* @param entity The entity to verify.
*/
contains(entity: Entity): boolean;
/**
* Checks if an entity exists in the world.
* @param entity The entity to verify.
*/
contains(entity: Entity): boolean;
/**
* Checks if an entity exists in the world.
* @param entity The entity to verify.
*/
contains(entity: number): entity is Entity;
/**
* Checks if an entity exists in the world.
* @param entity The entity to verify.
*/
contains(entity: number): entity is Entity;
/**
* Checks if an entity with the given ID is currently alive, ignoring its generation.
* @param entity The entity to verify.
* @returns boolean true if any entity with the given ID exists (ignoring generation), false otherwise
*/
exists(entity: Entity): boolean;
/**
* Checks if an entity with the given ID is currently alive, ignoring its generation.
* @param entity The entity to verify.
* @returns boolean true if any entity with the given ID exists (ignoring generation), false otherwise
*/
exists(entity: Entity): boolean;
/**
* Returns an iterator that yields all entities that have the specified component or relationship.
* @param id The component or relationship ID to search for
* @returns An iterator function that yields entities
*/
each(id: Id): IterableFunction<Entity>;
/**
* Returns an iterator that yields all entities that have the specified component or relationship.
* @param id The component or relationship ID to search for
* @returns An iterator function that yields entities
*/
each(id: Id): IterableFunction<Entity>;
/**
* Returns an iterator that yields all child entities of the specified parent entity.
* Uses the ChildOf relationship internally.
* @param parent The parent entity to get children for
* @returns An iterator function that yields child entities
*/
children(parent: Entity): IterableFunction<Entity>;
/**
* Returns an iterator that yields all child entities of the specified parent entity.
* Uses the ChildOf relationship internally.
* @param parent The parent entity to get children for
* @returns An iterator function that yields child entities
*/
children(parent: Entity): IterableFunction<Entity>;
/**
* Searches the world for entities that match specified components.
* @param components The list of components to query.
* @returns A Query object to iterate over results.
*/
query<T extends Id[]>(...components: T): Query<T>;
/**
* Searches the world for entities that match specified components.
* @param components The list of components to query.
* @returns A Query object to iterate over results.
*/
query<T extends Id[]>(...components: T): Query<T>;
added<T>(component: Entity<T>, listener: (e: Entity, id: Id<T>, value: T) => void): () => void;
changed<T>(
component: Entity<T>,
listener: (e: Entity, id: Id<T>, value: T) => void,
): () => void;
removed<T>(component: Entity<T>, listener: (e: Entity, id: Id<T>) => void): () => void;
added<T>(component: Entity<T>, listener: (e: Entity, id: Id<T>, value: T) => void): () => void;
changed<T>(
component: Entity<T>,
listener: (e: Entity, id: Id<T>, value: T) => void,
): () => void;
removed<T>(component: Entity<T>, listener: (e: Entity, id: Id<T>) => void): () => void;
}
export function world(): World;
@ -352,10 +352,10 @@ export function ECS_PAIR_FIRST(pair: Pair): number;
export function ECS_PAIR_SECOND(pair: Pair): number;
type StatefulHook = Entity<<T>(e: Entity<T>, id: Id<T>, data: T) => void> & {
readonly __nominal_StatefulHook: unique symbol;
readonly __nominal_StatefulHook: unique symbol;
};
type StatelessHook = Entity<<T>(e: Entity<T>, id: Id<T>) => void> & {
readonly __nominal_StatelessHook: unique symbol;
readonly __nominal_StatelessHook: unique symbol;
};
export declare const OnAdd: StatefulHook;
@ -374,34 +374,34 @@ export declare const Exclusive: Tag;
export declare const Rest: Entity;
export type ComponentRecord = {
records: Map<Id, number>;
counts: Map<Id, number>;
size: number;
records: Map<Id, number>;
counts: Map<Id, number>;
size: number;
};
export function component_record(world: World, id: Id): ComponentRecord;
type TagToUndefined<T> = T extends TagDiscriminator ? undefined : T;
type TrimOptional<T extends unknown[]> = T extends [...infer L, infer R]
? unknown extends R
? L | T | TrimOptional<L>
: R extends undefined
? L | T | TrimOptional<L>
: T
: T;
? unknown extends R
? L | T | TrimOptional<L>
: R extends undefined
? L | T | TrimOptional<L>
: T
: T;
export function bulk_insert<const C extends Id[]>(
world: World,
entity: Entity,
ids: C,
values: TrimOptional<{ [K in keyof C]: TagToUndefined<InferComponent<C[K]>> }>,
world: World,
entity: Entity,
ids: C,
values: TrimOptional<{ [K in keyof C]: TagToUndefined<InferComponent<C[K]>> }>,
): void;
export function bulk_remove(world: World, entity: Entity, ids: Id[]): void;
export type EntityRecord<T extends Id[]> = {
archetype: Archetype<T>;
row: number;
dense: number;
archetype: Archetype<T>;
row: number;
dense: number;
};
export function record<T extends Id[] = []>(world: World, entity: Entity): EntityRecord<T>;