name: r3f-fundamentals
description: React Three Fiber core setup, Canvas configuration, scene hierarchy, camera systems, lighting, render loop, and React integration patterns. Use when setting up a new R3F project, configuring the Canvas component, managing scene structure, or understanding the declarative Three.js-in-React paradigm. The foundational skill that all other R3F skills depend on.

React Three Fiber Fundamentals

Declarative Three.js via React components. R3F maps Three.js objects to JSX elements with automatic disposal, reactive updates, and React lifecycle integration.

Quick Start

import { Canvas } from '@react-three/fiber';

function App() {
  return (
    <Canvas>
      <ambientLight intensity={0.5} />
      <pointLight position={[10, 10, 10]} />
      <mesh>
        <boxGeometry args={[1, 1, 1]} />
        <meshStandardMaterial color="hotpink" />
      </mesh>
    </Canvas>
  );
}

Core Principle: Declarative Scene Graph

R3F converts Three.js imperative API to React's declarative model:

Canvas Configuration

import { Canvas } from '@react-three/fiber';

<Canvas
  // Renderer settings
  gl={{ antialias: true, alpha: false, powerPreference: 'high-performance' }}
  dpr={[1, 2]}                    // Device pixel ratio range
  shadows                          // Enable shadow maps

  // Camera (default: PerspectiveCamera)
  camera={{ 
    fov: 75, 
    near: 0.1, 
    far: 1000, 
    position: [0, 0, 5] 
  }}

  // Or use orthographic
  orthographic
  camera={{ zoom: 50, position: [0, 0, 100] }}

  // Performance
  frameloop="demand"              // 'always' | 'demand' | 'never'
  performance={{ min: 0.5 }}      // Adaptive performance

  // Events
  onCreated={({ gl, scene, camera }) => {
    // Access Three.js objects after mount
  }}

  // Sizing
  style={{ width: '100vw', height: '100vh' }}
/>

Frameloop Modes

// Demand mode with manual invalidation
import { useThree } from '@react-three/fiber';

function Controls() {
  const invalidate = useThree(state => state.invalidate);

  const handleDrag = () => {
    // Update state...
    invalidate(); // Request re-render
  };
}

Scene Hierarchy

JSX nesting = Three.js parent-child relationships:

<group position={[0, 2, 0]} rotation={[0, Math.PI / 4, 0]}>
  {/* Children inherit parent transforms */}
  <mesh position={[1, 0, 0]}>
    <sphereGeometry args={[0.5, 32, 32]} />
    <meshStandardMaterial color="blue" />
  </mesh>

  <mesh position={[-1, 0, 0]}>
    <boxGeometry args={[0.8, 0.8, 0.8]} />
    <meshStandardMaterial color="red" />
  </mesh>
</group>

Common Container Components

// Group: Transform container (no rendering)
<group position={[0, 0, 0]} />

// Object3D: Base class, rarely used directly
<object3D />

// Scene: Usually implicit (Canvas creates one)
<scene />

Camera Systems

Default Perspective Camera

<Canvas camera={{ 
  fov: 75,              // Field of view (degrees)
  aspect: width/height, // Auto-calculated
  near: 0.1,            // Near clipping plane
  far: 1000,            // Far clipping plane
  position: [0, 5, 10]
}} />

Custom Camera Component

import { PerspectiveCamera } from '@react-three/drei';

function Scene() {
  return (
    <>
      <PerspectiveCamera 
        makeDefault           // Set as active camera
        fov={60} 
        position={[0, 2, 8]} 
      />
      {/* Scene contents */}
    </>
  );
}

Camera Access

import { useThree } from '@react-three/fiber';

function CameraController() {
  const { camera } = useThree();

  useEffect(() => {
    camera.lookAt(0, 0, 0);
  }, [camera]);

  return null;
}

Lighting

Light Types

// Ambient: Uniform, directionless
<ambientLight intensity={0.4} color="#ffffff" />

// Directional: Sun-like, parallel rays
<directionalLight 
  position={[5, 10, 5]} 
  intensity={1} 
  castShadow 
/>

// Point: Radiates from position
<pointLight 
  position={[0, 5, 0]} 
  intensity={1} 
  distance={20}        // Range (0 = infinite)
  decay={2}            // Physical falloff
/>

// Spot: Cone-shaped
<spotLight 
  position={[0, 10, 0]} 
  angle={Math.PI / 6}  // Cone angle
  penumbra={0.5}       // Edge softness
  castShadow 
/>

// Hemisphere: Sky/ground gradient
<hemisphereLight 
  skyColor="#87ceeb" 
  groundColor="#362907" 
  intensity={0.6} 
/>

Shadow Setup

<Canvas shadows>
  <directionalLight
    castShadow
    position={[10, 10, 10]}
    shadow-mapSize={[2048, 2048]}
    shadow-camera-far={50}
    shadow-camera-left={-10}
    shadow-camera-right={10}
    shadow-camera-top={10}
    shadow-camera-bottom={-10}
  />

  <mesh castShadow>
    <boxGeometry />
    <meshStandardMaterial />
  </mesh>

  <mesh receiveShadow rotation={[-Math.PI / 2, 0, 0]} position={[0, -1, 0]}>
    <planeGeometry args={[20, 20]} />
    <meshStandardMaterial />
  </mesh>
</Canvas>

Render Loop (useFrame)

useFrame runs every frame (60fps target). This is where animation happens.

import { useFrame, useThree } from '@react-three/fiber';
import { useRef } from 'react';

function RotatingBox() {
  const meshRef = useRef<THREE.Mesh>(null!);

  useFrame((state, delta) => {
    // state: R3F state (camera, scene, clock, etc.)
    // delta: Time since last frame (seconds)

    meshRef.current.rotation.x += delta;
    meshRef.current.rotation.y += delta * 0.5;
  });

  return (
    <mesh ref={meshRef}>
      <boxGeometry />
      <meshNormalMaterial />
    </mesh>
  );
}

useFrame State Object

useFrame((state) => {
  state.clock        // THREE.Clock
  state.clock.elapsedTime  // Total time (seconds)
  state.camera       // Active camera
  state.scene        // Scene object
  state.gl           // WebGLRenderer
  state.size         // { width, height }
  state.viewport     // { width, height, factor, distance }
  state.mouse        // Normalized mouse position [-1, 1]
  state.raycaster    // THREE.Raycaster
});

Render Priority

// Lower priority runs first, higher runs later
// Default is 0

useFrame(() => {
  // Update physics
}, -1);  // Runs before default

useFrame(() => {
  // Update visuals
}, 0);   // Default

useFrame(() => {
  // Post-processing / camera
}, 1);   // Runs after default

Accessing Three.js Objects

useThree Hook

import { useThree } from '@react-three/fiber';

function SceneInfo() {
  const { 
    gl,           // WebGLRenderer
    scene,        // THREE.Scene
    camera,       // Active camera
    size,         // Canvas dimensions
    viewport,     // Viewport in Three.js units
    clock,        // THREE.Clock
    set,          // Update state
    get,          // Get current state
    invalidate,   // Request re-render (demand mode)
    advance,      // Advance one frame (never mode)
  } = useThree();

  return null;
}

Refs for Direct Access

import { useRef } from 'react';
import * as THREE from 'three';

function DirectAccess() {
  const meshRef = useRef<THREE.Mesh>(null!);
  const materialRef = useRef<THREE.MeshStandardMaterial>(null!);

  useEffect(() => {
    // Direct Three.js API access
    meshRef.current.geometry.computeBoundingBox();
    materialRef.current.needsUpdate = true;
  }, []);

  return (
    <mesh ref={meshRef}>
      <boxGeometry />
      <meshStandardMaterial ref={materialRef} />
    </mesh>
  );
}

Events

R3F provides pointer events on meshes:

<mesh
  onClick={(e) => console.log('click', e.point)}
  onContextMenu={(e) => console.log('right click')}
  onDoubleClick={(e) => console.log('double click')}
  onPointerOver={(e) => console.log('hover')}
  onPointerOut={(e) => console.log('unhover')}
  onPointerDown={(e) => console.log('down')}
  onPointerUp={(e) => console.log('up')}
  onPointerMove={(e) => console.log('move')}
>
  <boxGeometry />
  <meshStandardMaterial />
</mesh>

Event Object

onClick={(e) => {
  e.stopPropagation();    // Stop event bubbling
  e.point                 // THREE.Vector3 intersection point
  e.distance              // Distance from camera
  e.object                // Intersected object
  e.face                  // Intersected face
  e.faceIndex             // Face index
  e.uv                    // UV coordinates
  e.camera                // Camera used for raycasting
  e.delta                 // Distance from last event
}}

Suspense & Loading

R3F integrates with React Suspense for async loading:

import { Suspense } from 'react';
import { useLoader } from '@react-three/fiber';
import { GLTFLoader } from 'three/examples/jsm/loaders/GLTFLoader';

function Model() {
  const gltf = useLoader(GLTFLoader, '/model.glb');
  return <primitive object={gltf.scene} />;
}

function App() {
  return (
    <Canvas>
      <Suspense fallback={<LoadingSpinner />}>
        <Model />
      </Suspense>
    </Canvas>
  );
}

function LoadingSpinner() {
  const meshRef = useRef<THREE.Mesh>(null!);
  useFrame((_, delta) => {
    meshRef.current.rotation.z += delta * 2;
  });

  return (
    <mesh ref={meshRef}>
      <torusGeometry args={[1, 0.2, 16, 32]} />
      <meshBasicMaterial color="white" wireframe />
    </mesh>
  );
}

Dependencies

{
  "dependencies": {
    "@react-three/fiber": "^8.15.0",
    "three": "^0.160.0",
    "react": "^18.2.0",
    "react-dom": "^18.2.0"
  },
  "devDependencies": {
    "@types/three": "^0.160.0"
  }
}

File Structure

r3f-fundamentals/
├── SKILL.md
├── references/
│   ├── canvas-props.md       # Complete Canvas prop reference
│   ├── hooks-api.md          # useThree, useFrame, useLoader
│   └── event-system.md       # Event handling deep-dive
└── scripts/
    ├── templates/
    │   ├── basic-scene.tsx   # Minimal starter
    │   ├── lit-scene.tsx     # With proper lighting
    │   └── interactive.tsx   # With events and animation
    └── utils/
        └── canvas-config.ts  # Preset configurations

Reference

• references/canvas-props.md — Complete Canvas configuration options
• references/hooks-api.md — All R3F hooks with examples
• references/event-system.md — Pointer events and raycasting