threejs-materials-lighting
Light and shade a three.js scene: choose materials (MeshStandardMaterial PBR vs unlit MeshBasicMaterial), add ambient/hemisphere/directional/point/spot lights, turn on shadow maps, and use an environment map (IBL) for realistic reflections. Use when a three.js model looks black, flat, or wrong — when the user mentions three.js materials, MeshStandardMaterial, lights, shadows, envMap, or PBR. For renderer/loop setup use threejs-scene-setup; for loading models use threejs-gltf-loading.
How do I install this agent skill?
npx skills add https://github.com/gamedev-skills/awesome-gamedev-agent-skills --skill threejs-materials-lightingIs this agent skill safe to install?
- Gen Agent Trust Hubpass
The skill provides standard educational content and code patterns for Three.js lighting and materials with no security risks detected.
- Socketpass
No alerts
- Snykpass
Risk: LOW · No issues
What does this agent skill do?
three.js Materials & Lighting
Make three.js surfaces look right: pick the correct material, light the scene, enable shadows, and add image-based lighting. Patterns target r165+, verified against r184 (lighting is physically based by default since r155).
When to use
- Use when a mesh renders black or flat, when choosing a material, adding lights, enabling shadows, or setting up environment-map reflections (IBL).
- Use when code constructs
MeshStandardMaterial,DirectionalLight, etc., or setsrenderer.shadowMap.enabledorscene.environment.
When not to use: the renderer/camera/loop → threejs-scene-setup. Loading
models (whose PBR materials this complements) → threejs-gltf-loading. Custom
GLSL/ShaderMaterial is its own topic; for the portable concept see
shader-programming.
Core workflow
- Pick a material by need.
MeshStandardMaterial(PBR:roughness,metalness, reacts to lights/IBL) for realism;MeshPhysicalMaterialfor clearcoat/transmission;MeshBasicMaterial(unlit, ignores lights) for UI/flat;MeshNormalMaterial/MeshDepthMaterialfor debugging. - Add light, or nothing shows. Lit materials need a light source and/or
scene.environment. Combine a soft fill (AmbientLight/HemisphereLight) with a keyDirectionalLight. - Mind light intensity. Since r155, lighting is physically based; modern
intensities are higher than old tutorials (a key
DirectionalLight≈ 1–3). - Enable shadows in three places.
renderer.shadowMap.enabled = true, the light'scastShadow = true, and each mesh'scastShadow/receiveShadow. Then fit the light's shadow camera to the scene. - Use an environment map for grounded reflections. Assign an equirectangular or
PMREM-processed texture to
scene.environment; PBR materials pick it up automatically. - Verify under real lighting — confirm the surface responds to the key light (highlights move), shadows land where expected, and reflections look plausible.
Patterns
1. PBR material under a 3-light rig
import * as THREE from 'three';
const material = new THREE.MeshStandardMaterial({
color: 0xcc4444,
roughness: 0.5, // 0 = mirror, 1 = fully matte
metalness: 0.0, // 0 = dielectric (plastic/wood), 1 = metal
});
const mesh = new THREE.Mesh(new THREE.SphereGeometry(1, 32, 16), material);
scene.add(mesh);
// Soft sky/ground fill + a directional key light.
scene.add(new THREE.HemisphereLight(0xbbddff, 0x443322, 1.0)); // sky, ground, intensity
const key = new THREE.DirectionalLight(0xffffff, 2.5);
key.position.set(5, 10, 7);
scene.add(key);
2. Unlit material (no light needed)
// MeshBasicMaterial ignores lights — for flat color, UI, or sprites/labels.
const flat = new THREE.MeshBasicMaterial({ color: 0x44aa88 });
// A textured color map should be tagged sRGB so colors aren't washed out:
const tex = new THREE.TextureLoader().load('assets/logo.png');
tex.colorSpace = THREE.SRGBColorSpace;
const logo = new THREE.MeshBasicMaterial({ map: tex, transparent: true });
3. Shadows (the three required switches + camera fit)
renderer.shadowMap.enabled = true;
renderer.shadowMap.type = THREE.PCFSoftShadowMap; // softer edges
const sun = new THREE.DirectionalLight(0xffffff, 3);
sun.position.set(8, 12, 6);
sun.castShadow = true;
sun.shadow.mapSize.set(2048, 2048); // default 512; raise for crisp
// DirectionalLight uses an OrthographicCamera — fit it tightly to the scene:
const cam = sun.shadow.camera;
cam.near = 1; cam.far = 40;
cam.left = -15; cam.right = 15; cam.top = 15; cam.bottom = -15;
scene.add(sun);
mesh.castShadow = true;
ground.receiveShadow = true; // a plane to catch the shadow
4. PBR textures on a material
const loader = new THREE.TextureLoader();
const colorMap = loader.load('assets/brick_color.jpg');
colorMap.colorSpace = THREE.SRGBColorSpace; // color maps are sRGB
const normalMap = loader.load('assets/brick_normal.jpg'); // data maps stay linear
const roughMap = loader.load('assets/brick_rough.jpg');
const brick = new THREE.MeshStandardMaterial({
map: colorMap,
normalMap,
roughnessMap: roughMap,
metalness: 0,
});
5. Image-based lighting from an HDR environment
import { RGBELoader } from 'three/addons/loaders/RGBELoader.js';
new RGBELoader().load('assets/studio.hdr', (hdr) => {
hdr.mapping = THREE.EquirectangularReflectionMapping;
scene.environment = hdr; // lights + reflects all PBR materials
scene.background = hdr; // optional: show it as the backdrop
});
// Optional cinematic tone curve:
renderer.toneMapping = THREE.ACESFilmicToneMapping;
renderer.toneMappingExposure = 1.0;
Pitfalls
- Mesh is pure black → a lit material with no light and no
scene.environment. Add a light or an environment map; to confirm geometry, temporarily swap toMeshBasicMaterial/MeshNormalMaterial. - Scene too dark even with lights → old tutorial intensities. r155+ is physically based; raise intensities (key light ≈ 2–3) or add an environment map.
- Shadows don't appear → you missed one of the three switches
(
renderer.shadowMap.enabled,light.castShadow, meshcastShadow/receiveShadow). - Shadows are cut off or blocky → the
DirectionalLight's orthographicshadow.camerafrustum is too big/small or doesn't cover the scene; tightenleft/right/top/bottom/near/farand raiseshadow.mapSize. Visualise it withnew THREE.CameraHelper(light.shadow.camera). - Shadow acne / peter-panning → adjust
light.shadow.bias(small negative) andlight.shadow.normalBias. - Colors look washed out / too bright → color (albedo) textures need
texture.colorSpace = THREE.SRGBColorSpace; normal/roughness/metalness maps must stay linear (leave them asNoColorSpace). - PointLight shadows tank performance → a point light renders the scene 6 times
(cube map). Prefer one shadow-casting
DirectionalLight; use cheaper fakes elsewhere.
References
- For the material cheat-sheet (which
Mesh*Materialfor which look), light types and their parameters/units, transparency vsalphaTestordering, and thePMREMGenerator/RoomEnvironmentroute to IBL without an HDR file, readreferences/materials-lights-table.md.
Related skills
threejs-scene-setup— renderer, camera, and loop (setshadowMap, tone mapping).threejs-gltf-loading— models arrive with PBR materials this skill tunes.shader-programming— custom shader effects (engine-agnostic concept).
How can the creator link this skill?
Add the canonical catalog link to the repository README so users can inspect current installs and available audits. The publishing guide covers the complete discovery path.
<a href="https://skillzs.dev/skills/gamedev-skills/awesome-gamedev-agent-skills/threejs-materials-lighting">View threejs-materials-lighting on skillZs</a>