Koota

Data-oriented

Behavior is separated from data. Data is defined as traits, entities compose traits, and systems mutate data on traits via queries. See Basic usage for a complete example.

Composable systems

Design systems as small, single-purpose units rather than monolithic functions that do everything in sequence. Each system should handle one concern so that behaviors can be toggled on/off independently.

// Good: Composable systems - each can be enabled/disabled independently
function applyVelocity(world: World) {}
function applyGravity(world: World) {}
function applyFriction(world: World) {}
function syncToDOM(world: World) {}

// Bad: Monolithic system - can't disable gravity without disabling everything
function updatePhysicsAndRender(world: World) {
  // velocity, gravity, friction, DOM sync all in one function
}

This enables feature flags, debugging (disable one system to isolate issues), and flexible runtime configurations.

Decouple view from logic

Separate core state and logic (the "core") from the view ("app"):

• Run logic independent of rendering
• Swap views while keeping state (2D ↔ 3D)
• Run logic in a worker or on a server

Prefer traits + actions over classes

Prefer not to use classes to encapsulate data and behavior. Use traits for data and actions for behavior. Only use classes when required by external libraries (e.g., THREE.js objects) or the user prefers it.

Directory structure

If the user has a preferred structure, follow it. Otherwise, use this guidance: the directory structure should mirror how the app's data model is organized. Separate core state/logic from the view layer:

• Core - Pure TypeScript. Traits, systems, actions, world. No view imports.
• View - Reads from world, mutates via actions. Organized by domain/feature.

src/
├── core/              # Pure TypeScript, no view imports
│   ├── traits/
│   ├── systems/
│   ├── actions/
│   └── world.ts
└── features/          # View layer, organized by domain

Files are organized by role, not by feature slice. Traits and systems are composable and don't map cleanly to features.

For detailed patterns and monorepo structures, see references/architecture.md.

Trait types

Trait naming conventions

Relations

Relations build graphs between entities such as hierarchies, inventories, targeting.

import { relation, trait } from 'koota'

const ChildOf = relation({ autoDestroy: 'orphan' }) // Hierarchy
const Contains = relation({ store: { amount: 0 } }) // With data
const Targeting = relation({ exclusive: true }) // One target only

// Build graph
const parent = world.spawn()
const child = world.spawn(ChildOf(parent))
const gold = world.spawn()
const silver = world.spawn()
const inventory = world.spawn(Contains(gold), Contains(silver))

// Query children of parent
const children = world.query(ChildOf(parent))

// Query all entities with any ChildOf relation
const allChildren = world.query(ChildOf('*'))

// Query relation targets
const targets = inventory.targetsFor(Contains)

// Filter by traits on the target entity
const IsRare = trait()
silver.add(IsRare)
// Target filters can use any legal query, not just a single trait
const rareInventories = world.query(Contains(IsRare))

// Get targets from entity
const items = inventory.targetsFor(Contains) // Entity[]
const target = child.targetFor(ChildOf) // Entity | undefined

For detailed patterns, traversal, ordered relations, and anti-patterns, see references/relations.md.

Basic usage

import { trait, createWorld } from 'koota'

// 1. Define traits
const Position = trait({ x: 0, y: 0 })
const Velocity = trait({ x: 0, y: 0 })
const IsPlayer = trait()

// 2. Create world and spawn entities
const world = createWorld()
const player = world.spawn(Position({ x: 100, y: 50 }), Velocity, IsPlayer)

// 3. Query and update
world.query(Position, Velocity).updateEach(([pos, vel]) => {
  pos.x += vel.x
  pos.y += vel.y
})

Entities

Entities are unique identifiers that compose traits. Spawned from a world.

// Spawn
const entity = world.spawn(Position, Velocity)

// Read/write traits
entity.get(Position) // Read trait data
entity.set(Position, { x: 10 }) // Write (triggers change events)
entity.add(IsPlayer) // Add trait
entity.remove(Velocity) // Remove trait
entity.has(Position) // Check if has trait

// Destroy
entity.destroy()

Entity IDs

An entity is internally a number packed with entity ID, generation ID (for recycling), and world ID. Safe to store directly for persistence or networking.

entity.id() // Just the entity ID (reused after destroy)
entity // Full packed number (unique forever)

Typing

Use TraitRecord to get the type that entity.get() returns

type PositionRecord = TraitRecord<typeof Position>

Queries

Queries fetch entities matching an archetype and are the primary way to batch update state.

// Query and update
world.query(Position, Velocity).updateEach(([pos, vel]) => {
  pos.x += vel.x
  pos.y += vel.y
})

// Read-only iteration (no write-back)
const data: Array<{ x: number; y: number }> = []
world.query(Position, Velocity).readEach(([pos, vel]) => {
  data.push({ x: pos.x, y: pos.y })
})

// Get first match
const player = world.queryFirst(IsPlayer, Position)

// Filter with modifiers
world.query(Position, Not(Velocity)) // Has Position but not Velocity
world.query(Or(IsPlayer, IsEnemy)) // Has either trait

Prefer updateEach/readEach over for...of + entity.get() for data-bearing queries. readEach still gives you the entity as the second argument.

Note: updateEach/readEach only return data-bearing traits (SoA/AoS). Tags, Not(), and relation filters are excluded:

world.query(IsPlayer, Position, Velocity).updateEach(([pos, vel]) => {
  // Array has 2 elements - IsPlayer (tag) excluded
})

For tracking changes, caching queries, and advanced patterns, see references/queries.md.

React integration

Imports: Core types (World, Entity) from 'koota'. React hooks from 'koota/react'.

Change detection: entity.set() and world.set() trigger change events that cause hooks like useTrait to rerender. For AoS traits where you mutate objects directly, manually signal with entity.changed(Trait).

For React hooks and actions, see references/react-hooks.md.

For component patterns (App, Startup, Renderer, view sync, input), see references/react-patterns.md.

Runtime

Systems query the world and update entities. Run them via frameloop (continuous) or event handlers (discrete).

For systems, frameloop, event-driven patterns, and time management, see references/runtime.md.