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threejs-loaders skill

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This skill helps you manage three.js asset loading with loaders, progress tracking, and best practices for textures, models, and HDR environments.

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---
name: threejs-loaders
description: Three.js asset loading - GLTF, textures, images, models, async patterns. Use when loading 3D models, textures, HDR environments, or managing loading progress.
---

# Three.js Loaders

## Quick Start

```javascript
import * as THREE from "three";
import { GLTFLoader } from "three/addons/loaders/GLTFLoader.js";

// Load GLTF model
const loader = new GLTFLoader();
loader.load("model.glb", (gltf) => {
  scene.add(gltf.scene);
});

// Load texture
const textureLoader = new THREE.TextureLoader();
const texture = textureLoader.load("texture.jpg");
```

## LoadingManager

Coordinate multiple loaders and track progress.

```javascript
const manager = new THREE.LoadingManager();

// Callbacks
manager.onStart = (url, loaded, total) => {
  console.log(`Started loading: ${url}`);
};

manager.onLoad = () => {
  console.log("All assets loaded!");
  startGame();
};

manager.onProgress = (url, loaded, total) => {
  const progress = (loaded / total) * 100;
  console.log(`Loading: ${progress.toFixed(1)}%`);
  updateProgressBar(progress);
};

manager.onError = (url) => {
  console.error(`Error loading: ${url}`);
};

// Use manager with loaders
const textureLoader = new THREE.TextureLoader(manager);
const gltfLoader = new GLTFLoader(manager);

// Load assets
textureLoader.load("texture1.jpg");
textureLoader.load("texture2.jpg");
gltfLoader.load("model.glb");
// onLoad fires when ALL are complete
```

## Texture Loading

### TextureLoader

```javascript
const loader = new THREE.TextureLoader();

// Callback style
loader.load(
  "texture.jpg",
  (texture) => {
    // onLoad
    material.map = texture;
    material.needsUpdate = true;
  },
  undefined, // onProgress - not supported for image loading
  (error) => {
    // onError
    console.error("Error loading texture", error);
  },
);

// Synchronous (returns texture, loads async)
const texture = loader.load("texture.jpg");
material.map = texture;
```

### Texture Configuration

```javascript
const texture = loader.load("texture.jpg", (tex) => {
  // Color space (important for color accuracy)
  tex.colorSpace = THREE.SRGBColorSpace; // For color/albedo maps
  // tex.colorSpace = THREE.LinearSRGBColorSpace;  // For data maps (normal, roughness)

  // Wrapping
  tex.wrapS = THREE.RepeatWrapping;
  tex.wrapT = THREE.RepeatWrapping;
  // ClampToEdgeWrapping, RepeatWrapping, MirroredRepeatWrapping

  // Repeat/offset
  tex.repeat.set(2, 2);
  tex.offset.set(0.5, 0.5);
  tex.rotation = Math.PI / 4;
  tex.center.set(0.5, 0.5);

  // Filtering
  tex.minFilter = THREE.LinearMipmapLinearFilter; // Default
  tex.magFilter = THREE.LinearFilter; // Default
  // NearestFilter - pixelated
  // LinearFilter - smooth
  // LinearMipmapLinearFilter - smooth with mipmaps

  // Anisotropic filtering (sharper at angles)
  tex.anisotropy = renderer.capabilities.getMaxAnisotropy();

  // Flip Y (usually true for standard textures)
  tex.flipY = true;

  tex.needsUpdate = true;
});
```

### CubeTextureLoader

For environment maps and skyboxes.

```javascript
const loader = new THREE.CubeTextureLoader();

// Load 6 faces
const cubeTexture = loader.load([
  "px.jpg",
  "nx.jpg", // positive/negative X
  "py.jpg",
  "ny.jpg", // positive/negative Y
  "pz.jpg",
  "nz.jpg", // positive/negative Z
]);

// Use as background
scene.background = cubeTexture;

// Use as environment map
scene.environment = cubeTexture;
material.envMap = cubeTexture;
```

### HDR/EXR Loading

```javascript
import { RGBELoader } from "three/addons/loaders/RGBELoader.js";
import { EXRLoader } from "three/addons/loaders/EXRLoader.js";

// HDR
const rgbeLoader = new RGBELoader();
rgbeLoader.load("environment.hdr", (texture) => {
  texture.mapping = THREE.EquirectangularReflectionMapping;
  scene.environment = texture;
  scene.background = texture;
});

// EXR
const exrLoader = new EXRLoader();
exrLoader.load("environment.exr", (texture) => {
  texture.mapping = THREE.EquirectangularReflectionMapping;
  scene.environment = texture;
});
```

### PMREMGenerator

Generate prefiltered environment maps for PBR.

```javascript
import { RGBELoader } from "three/addons/loaders/RGBELoader.js";

const pmremGenerator = new THREE.PMREMGenerator(renderer);
pmremGenerator.compileEquirectangularShader();

new RGBELoader().load("environment.hdr", (texture) => {
  const envMap = pmremGenerator.fromEquirectangular(texture).texture;

  scene.environment = envMap;
  scene.background = envMap;

  texture.dispose();
  pmremGenerator.dispose();
});
```

## GLTF/GLB Loading

The most common 3D format for web.

```javascript
import { GLTFLoader } from "three/addons/loaders/GLTFLoader.js";

const loader = new GLTFLoader();

loader.load("model.glb", (gltf) => {
  // The loaded scene
  const model = gltf.scene;
  scene.add(model);

  // Animations
  const animations = gltf.animations;
  if (animations.length > 0) {
    const mixer = new THREE.AnimationMixer(model);
    animations.forEach((clip) => {
      mixer.clipAction(clip).play();
    });
  }

  // Cameras (if any)
  const cameras = gltf.cameras;

  // Asset info
  console.log(gltf.asset); // Version, generator, etc.

  // User data from Blender/etc
  console.log(gltf.userData);
});
```

### GLTF with Draco Compression

```javascript
import { GLTFLoader } from "three/addons/loaders/GLTFLoader.js";
import { DRACOLoader } from "three/addons/loaders/DRACOLoader.js";

const dracoLoader = new DRACOLoader();
dracoLoader.setDecoderPath(
  "https://www.gstatic.com/draco/versioned/decoders/1.5.6/",
);
dracoLoader.preload();

const gltfLoader = new GLTFLoader();
gltfLoader.setDRACOLoader(dracoLoader);

gltfLoader.load("compressed-model.glb", (gltf) => {
  scene.add(gltf.scene);
});
```

### GLTF with KTX2 Textures

```javascript
import { GLTFLoader } from "three/addons/loaders/GLTFLoader.js";
import { KTX2Loader } from "three/addons/loaders/KTX2Loader.js";

const ktx2Loader = new KTX2Loader();
ktx2Loader.setTranscoderPath(
  "https://cdn.jsdelivr.net/npm/[email protected]/examples/jsm/libs/basis/",
);
ktx2Loader.detectSupport(renderer);

const gltfLoader = new GLTFLoader();
gltfLoader.setKTX2Loader(ktx2Loader);

gltfLoader.load("model-with-ktx2.glb", (gltf) => {
  scene.add(gltf.scene);
});
```

### Process GLTF Content

```javascript
loader.load("model.glb", (gltf) => {
  const model = gltf.scene;

  // Enable shadows
  model.traverse((child) => {
    if (child.isMesh) {
      child.castShadow = true;
      child.receiveShadow = true;
    }
  });

  // Find specific mesh
  const head = model.getObjectByName("Head");

  // Adjust materials
  model.traverse((child) => {
    if (child.isMesh && child.material) {
      child.material.envMapIntensity = 0.5;
    }
  });

  // Center and scale
  const box = new THREE.Box3().setFromObject(model);
  const center = box.getCenter(new THREE.Vector3());
  const size = box.getSize(new THREE.Vector3());

  model.position.sub(center);
  const maxDim = Math.max(size.x, size.y, size.z);
  model.scale.setScalar(1 / maxDim);

  scene.add(model);
});
```

## Other Model Formats

### OBJ + MTL

```javascript
import { OBJLoader } from "three/addons/loaders/OBJLoader.js";
import { MTLLoader } from "three/addons/loaders/MTLLoader.js";

const mtlLoader = new MTLLoader();
mtlLoader.load("model.mtl", (materials) => {
  materials.preload();

  const objLoader = new OBJLoader();
  objLoader.setMaterials(materials);
  objLoader.load("model.obj", (object) => {
    scene.add(object);
  });
});
```

### FBX

```javascript
import { FBXLoader } from "three/addons/loaders/FBXLoader.js";

const loader = new FBXLoader();
loader.load("model.fbx", (object) => {
  // FBX often has large scale
  object.scale.setScalar(0.01);

  // Animations
  const mixer = new THREE.AnimationMixer(object);
  object.animations.forEach((clip) => {
    mixer.clipAction(clip).play();
  });

  scene.add(object);
});
```

### STL

```javascript
import { STLLoader } from "three/addons/loaders/STLLoader.js";

const loader = new STLLoader();
loader.load("model.stl", (geometry) => {
  const material = new THREE.MeshStandardMaterial({ color: 0x888888 });
  const mesh = new THREE.Mesh(geometry, material);
  scene.add(mesh);
});
```

### PLY

```javascript
import { PLYLoader } from "three/addons/loaders/PLYLoader.js";

const loader = new PLYLoader();
loader.load("model.ply", (geometry) => {
  geometry.computeVertexNormals();
  const material = new THREE.MeshStandardMaterial({ vertexColors: true });
  const mesh = new THREE.Mesh(geometry, material);
  scene.add(mesh);
});
```

## Async/Promise Loading

### Promisified Loader

```javascript
function loadModel(url) {
  return new Promise((resolve, reject) => {
    loader.load(url, resolve, undefined, reject);
  });
}

// Usage
async function init() {
  try {
    const gltf = await loadModel("model.glb");
    scene.add(gltf.scene);
  } catch (error) {
    console.error("Failed to load model:", error);
  }
}
```

### Load Multiple Assets

```javascript
async function loadAssets() {
  const [modelGltf, envTexture, colorTexture] = await Promise.all([
    loadGLTF("model.glb"),
    loadRGBE("environment.hdr"),
    loadTexture("color.jpg"),
  ]);

  scene.add(modelGltf.scene);
  scene.environment = envTexture;
  material.map = colorTexture;
}

// Helper functions
function loadGLTF(url) {
  return new Promise((resolve, reject) => {
    new GLTFLoader().load(url, resolve, undefined, reject);
  });
}

function loadRGBE(url) {
  return new Promise((resolve, reject) => {
    new RGBELoader().load(
      url,
      (texture) => {
        texture.mapping = THREE.EquirectangularReflectionMapping;
        resolve(texture);
      },
      undefined,
      reject,
    );
  });
}

function loadTexture(url) {
  return new Promise((resolve, reject) => {
    new THREE.TextureLoader().load(url, resolve, undefined, reject);
  });
}
```

## Caching

### Built-in Cache

```javascript
// Enable cache
THREE.Cache.enabled = true;

// Clear cache
THREE.Cache.clear();

// Manual cache management
THREE.Cache.add("key", data);
THREE.Cache.get("key");
THREE.Cache.remove("key");
```

### Custom Asset Manager

```javascript
class AssetManager {
  constructor() {
    this.textures = new Map();
    this.models = new Map();
    this.gltfLoader = new GLTFLoader();
    this.textureLoader = new THREE.TextureLoader();
  }

  async loadTexture(key, url) {
    if (this.textures.has(key)) {
      return this.textures.get(key);
    }

    const texture = await new Promise((resolve, reject) => {
      this.textureLoader.load(url, resolve, undefined, reject);
    });

    this.textures.set(key, texture);
    return texture;
  }

  async loadModel(key, url) {
    if (this.models.has(key)) {
      return this.models.get(key).clone();
    }

    const gltf = await new Promise((resolve, reject) => {
      this.gltfLoader.load(url, resolve, undefined, reject);
    });

    this.models.set(key, gltf.scene);
    return gltf.scene.clone();
  }

  dispose() {
    this.textures.forEach((t) => t.dispose());
    this.textures.clear();
    this.models.clear();
  }
}

// Usage
const assets = new AssetManager();
const texture = await assets.loadTexture("brick", "brick.jpg");
const model = await assets.loadModel("tree", "tree.glb");
```

## Loading from Different Sources

### Data URL / Base64

```javascript
const loader = new THREE.TextureLoader();
const texture = loader.load("data:image/png;base64,iVBORw0KGgo...");
```

### Blob URL

```javascript
async function loadFromBlob(blob) {
  const url = URL.createObjectURL(blob);
  const texture = await loadTexture(url);
  URL.revokeObjectURL(url);
  return texture;
}
```

### ArrayBuffer

```javascript
// From fetch
const response = await fetch("model.glb");
const buffer = await response.arrayBuffer();

// Parse with loader
const loader = new GLTFLoader();
loader.parse(buffer, "", (gltf) => {
  scene.add(gltf.scene);
});
```

### Custom Path/URL

```javascript
// Set base path
loader.setPath("assets/models/");
loader.load("model.glb"); // Loads from assets/models/model.glb

// Set resource path (for textures referenced in model)
loader.setResourcePath("assets/textures/");

// Custom URL modifier
manager.setURLModifier((url) => {
  return `https://cdn.example.com/${url}`;
});
```

## Error Handling

```javascript
// Graceful fallback
async function loadWithFallback(primaryUrl, fallbackUrl) {
  try {
    return await loadModel(primaryUrl);
  } catch (error) {
    console.warn(`Primary failed, trying fallback: ${error}`);
    return await loadModel(fallbackUrl);
  }
}

// Retry logic
async function loadWithRetry(url, maxRetries = 3) {
  for (let i = 0; i < maxRetries; i++) {
    try {
      return await loadModel(url);
    } catch (error) {
      if (i === maxRetries - 1) throw error;
      await new Promise((r) => setTimeout(r, 1000 * (i + 1)));
    }
  }
}

// Timeout
async function loadWithTimeout(url, timeout = 30000) {
  const controller = new AbortController();
  const timeoutId = setTimeout(() => controller.abort(), timeout);

  try {
    const response = await fetch(url, { signal: controller.signal });
    clearTimeout(timeoutId);
    return response;
  } catch (error) {
    if (error.name === "AbortError") {
      throw new Error("Loading timed out");
    }
    throw error;
  }
}
```

## Performance Tips

1. **Use compressed formats**: DRACO for geometry, KTX2/Basis for textures
2. **Load progressively**: Show placeholders while loading
3. **Lazy load**: Only load what's needed
4. **Use CDN**: Faster asset delivery
5. **Enable cache**: `THREE.Cache.enabled = true`

```javascript
// Progressive loading with placeholder
const placeholder = new THREE.Mesh(
  new THREE.BoxGeometry(1, 1, 1),
  new THREE.MeshBasicMaterial({ wireframe: true }),
);
scene.add(placeholder);

loadModel("model.glb").then((gltf) => {
  scene.remove(placeholder);
  scene.add(gltf.scene);
});
```

## See Also

- `threejs-textures` - Texture configuration
- `threejs-animation` - Playing loaded animations
- `threejs-materials` - Material from loaded models

Overview

This skill provides a practical guide and helpers for loading 3D assets in Three.js: GLTF/GLB models, textures, HDR/EXR environments, and other model formats. It focuses on loader configuration, progress management, caching, and async patterns so you can integrate assets reliably into scenes. Use it to standardize loading workflows and improve load-time UX and runtime performance.

How this skill works

It demonstrates using Three.js loaders (GLTFLoader, TextureLoader, CubeTextureLoader, RGBELoader, EXRLoader, and format-specific loaders) together with a LoadingManager to coordinate and report progress. Examples show texture configuration (color space, wrapping, filtering), environment prefiltering via PMREMGenerator, and optional compression support (DRACO, KTX2). Async wrappers, caching, and asset manager patterns are provided for promise-based loading, retries, and reuse.

When to use it

  • Loading GLTF/GLB models with animations or embedded cameras
  • Applying color/roughness/normal textures and HDR environment maps for PBR materials
  • Coordinating multiple simultaneous loads and showing progress UI
  • Serving compressed assets (DRACO, KTX2) to reduce bandwidth and memory
  • Loading models from Blob, ArrayBuffer, CDN, or fallback URLs

Best practices

  • Use LoadingManager to track and display overall progress
  • Set correct colorSpace on textures (SRGB for albedo, linear for data maps)
  • Generate PMREM for HDR/EXR environments and dispose temporary textures
  • Enable THREE.Cache for repeat requests and implement a custom AssetManager for cloning and disposal
  • Use compressed formats (DRACO for geometry, KTX2/Basis for textures) and lazy-load distant assets

Example use cases

  • Promise-wrap GLTFLoader for async/await loading and error handling
  • Use RGBELoader + PMREMGenerator to add realistic scene lighting from HDRI
  • Set up DRACOLoader and KTX2Loader when serving compressed models and textures
  • Build an AssetManager that caches textures and clones models to avoid repeated parsing
  • Show a placeholder mesh while a large model downloads and replace it on load

FAQ

How do I show overall loading progress?

Use THREE.LoadingManager and its onStart/onProgress/onLoad callbacks; attach loaders to the manager so onLoad fires when all tracked assets finish.

When should I use PMREMGenerator?

Run PMREMGenerator on equirectangular HDR/EXR textures to produce a prefiltered environment map for PBR materials; dispose the original texture and the generator when done.

How can I retry failed loads or provide fallbacks?

Wrap loaders in Promises and implement retry logic with exponential backoff, or attempt a fallback URL on catch. Also consider timeouts with AbortController for fetch-based loads.