🛠️ 開発・MCP コミュニティ
postfx-effects
Post-processing visual effects including chromatic aberration, vignette, depth of field, film grain, color grading, and LUT support. Use when adding cinematic polish, retro aesthetics, camera simulation, or atmospheric effects to 3D scenes. Essential for mood, style, and visual storytelling.
⚡ おすすめ: コマンド1行でインストール(60秒)
下記のコマンドをコピーしてターミナル(Mac/Linux)または PowerShell(Windows)に貼り付けてください。 ダウンロード → 解凍 → 配置まで全自動。
🍎 Mac / 🐧 Linux
mkdir -p ~/.claude/skills && cd ~/.claude/skills && curl -L -o postfx-effects.zip https://jpskill.com/download/23505.zip && unzip -o postfx-effects.zip && rm postfx-effects.zip
🪟 Windows (PowerShell)
$d = "$env:USERPROFILE\.claude\skills"; ni -Force -ItemType Directory $d | Out-Null; iwr https://jpskill.com/download/23505.zip -OutFile "$d\postfx-effects.zip"; Expand-Archive "$d\postfx-effects.zip" -DestinationPath $d -Force; ri "$d\postfx-effects.zip"完了後、Claude Code を再起動 → 普通に「動画プロンプト作って」のように話しかけるだけで自動発動します。
💾 手動でダウンロードしたい(コマンドが難しい人向け)
- 1. 下の青いボタンを押して
postfx-effects.zipをダウンロード - 2. ZIPファイルをダブルクリックで解凍 →
postfx-effectsフォルダができる - 3. そのフォルダを
C:\Users\あなたの名前\.claude\skills\(Win)または~/.claude/skills/(Mac)へ移動 - 4. Claude Code を再起動
⚠️ ダウンロード・利用は自己責任でお願いします。当サイトは内容・動作・安全性について責任を負いません。
🎯 このSkillでできること
下記の説明文を読むと、このSkillがあなたに何をしてくれるかが分かります。Claudeにこの分野の依頼をすると、自動で発動します。
📦 インストール方法 (3ステップ)
- 1. 上の「ダウンロード」ボタンを押して .skill ファイルを取得
- 2. ファイル名の拡張子を .skill から .zip に変えて展開(macは自動展開可)
- 3. 展開してできたフォルダを、ホームフォルダの
.claude/skills/に置く- · macOS / Linux:
~/.claude/skills/ - · Windows:
%USERPROFILE%\.claude\skills\
- · macOS / Linux:
Claude Code を再起動すれば完了。「このSkillを使って…」と話しかけなくても、関連する依頼で自動的に呼び出されます。
詳しい使い方ガイドを見る →- 最終更新
- 2026-05-18
- 取得日時
- 2026-05-18
- 同梱ファイル
- 1
📖 Claude が読む原文 SKILL.md(中身を展開)
この本文は AI(Claude)が読むための原文(英語または中国語)です。日本語訳は順次追加中。
Post-Processing Effects
Cinematic and stylistic effects using @react-three/postprocessing.
Quick Start
npm install @react-three/postprocessing postprocessingimport { Canvas } from '@react-three/fiber';
import { EffectComposer, ChromaticAberration, Vignette, Noise } from '@react-three/postprocessing';
function CinematicScene() {
return (
<Canvas>
<Scene />
<EffectComposer>
<ChromaticAberration offset={[0.002, 0.002]} />
<Vignette darkness={0.5} offset={0.3} />
<Noise opacity={0.05} />
</EffectComposer>
</Canvas>
);
}Core Effects
Chromatic Aberration
RGB channel separation for lens distortion or glitch effects.
import { ChromaticAberration } from '@react-three/postprocessing';
import { BlendFunction } from 'postprocessing';
import { Vector2 } from 'three';
// Subtle cinematic fringing
function SubtleChromaticAberration() {
return (
<ChromaticAberration
offset={new Vector2(0.001, 0.001)}
radialModulation
modulationOffset={0.2}
/>
);
}
// Intense glitch effect
function GlitchChromaticAberration() {
const offsetRef = useRef();
useFrame(({ clock }) => {
if (offsetRef.current) {
const glitch = Math.random() > 0.95 ? 0.01 : 0.002;
offsetRef.current.offset.set(glitch, glitch * 0.5);
}
});
return (
<ChromaticAberration
ref={offsetRef}
offset={new Vector2(0.002, 0.002)}
blendFunction={BlendFunction.NORMAL}
/>
);
}Vignette
Darkened edges for focus and cinematic framing.
import { Vignette } from '@react-three/postprocessing';
// Soft cinematic vignette
function CinematicVignette() {
return (
<Vignette
offset={0.3} // Distance from center before darkening
darkness={0.5} // How dark edges become
eskil={false} // Use natural vignette formula
/>
);
}
// Harsh spotlight effect
function SpotlightVignette() {
return <Vignette offset={0.1} darkness={0.9} eskil={true} />;
}Depth of Field
Simulated camera focus with bokeh blur.
import { DepthOfField } from '@react-three/postprocessing';
// Focus on specific distance
function StaticDOF() {
return (
<DepthOfField
focusDistance={0.02}
focalLength={0.05}
bokehScale={3}
height={480}
/>
);
}
// Focus follows target object
function TrackingDOF({ targetRef }) {
const dofRef = useRef();
const { camera } = useThree();
useFrame(() => {
if (targetRef.current && dofRef.current) {
const distance = camera.position.distanceTo(targetRef.current.position);
dofRef.current.target = distance;
}
});
return <DepthOfField ref={dofRef} focusDistance={0} focalLength={0.02} bokehScale={2} />;
}Noise / Film Grain
import { Noise } from '@react-three/postprocessing';
import { BlendFunction } from 'postprocessing';
// Subtle film grain
function FilmGrain() {
return <Noise opacity={0.04} blendFunction={BlendFunction.OVERLAY} />;
}
// Heavy VHS noise
function VHSNoise() {
return <Noise opacity={0.15} blendFunction={BlendFunction.SCREEN} />;
}Color Grading
import { HueSaturation, BrightnessContrast } from '@react-three/postprocessing';
// Desaturated cinematic look
function CinematicGrade() {
return (
<>
<HueSaturation hue={0} saturation={-0.2} />
<BrightnessContrast brightness={-0.05} contrast={0.1} />
</>
);
}
// Warm sunset mood
function SunsetGrade() {
return (
<>
<HueSaturation hue={0.05} saturation={0.15} />
<BrightnessContrast brightness={0.02} contrast={0.05} />
</>
);
}
// Cold sci-fi atmosphere
function SciFiGrade() {
return (
<>
<HueSaturation hue={-0.1} saturation={-0.1} />
<BrightnessContrast brightness={-0.1} contrast={0.15} />
</>
);
}LUT (Lookup Table)
import { LUT } from '@react-three/postprocessing';
import { LookupTexture } from 'postprocessing';
function LUTGrading() {
const [lut, setLut] = useState(null);
useEffect(() => {
LookupTexture.createLookupTexture('/luts/cinematic.cube').then(setLut);
}, []);
if (!lut) return null;
return <LUT lut={lut} tetrahedralInterpolation />;
}Tone Mapping
import { ToneMapping } from '@react-three/postprocessing';
import { ToneMappingMode } from 'postprocessing';
function CinematicToneMapping() {
return <ToneMapping mode={ToneMappingMode.ACES_FILMIC} />;
}Scanlines / CRT Effect
import { Scanline } from '@react-three/postprocessing';
function CRTScanlines() {
return <Scanline density={1.25} opacity={0.15} blendFunction={BlendFunction.OVERLAY} />;
}God Rays
import { GodRays } from '@react-three/postprocessing';
function VolumetricLight() {
const sunRef = useRef();
return (
<>
<mesh ref={sunRef} position={[0, 5, -10]}>
<sphereGeometry args={[1, 32, 32]} />
<meshBasicMaterial color="#FFF8E0" />
</mesh>
<EffectComposer>
{sunRef.current && <GodRays sun={sunRef.current} exposure={0.5} decay={0.9} blur />}
</EffectComposer>
</>
);
}Combining Effects
Cinematic Stack
function CinematicStack() {
return (
<EffectComposer>
<ToneMapping mode={ToneMappingMode.ACES_FILMIC} />
<HueSaturation saturation={-0.15} />
<BrightnessContrast brightness={-0.05} contrast={0.1} />
<ChromaticAberration offset={[0.001, 0.001]} />
<Vignette darkness={0.4} offset={0.3} />
<Noise opacity={0.03} blendFunction={BlendFunction.OVERLAY} />
</EffectComposer>
);
}Retro VHS Stack
function VHSStack() {
return (
<EffectComposer>
<HueSaturation saturation={-0.3} />
<BrightnessContrast contrast={0.2} />
<ChromaticAberration offset={[0.005, 0.002]} />
<Scanline density={1.5} opacity={0.1} />
<Noise opacity={0.1} blendFunction={BlendFunction.SCREEN} />
<Vignette darkness={0.6} offset={0.2} />
</EffectComposer>
);
}Dream Sequence Stack
function DreamStack() {
return (
<EffectComposer>
<DepthOfField focusDistance={0.01} focalLength={0.1} bokehScale={4} />
<Bloom luminanceThreshold={0.3} intensity={0.8} />
<HueSaturation saturation={0.2} hue={0.05} />
<BrightnessContrast brightness={0.1} />
<Vignette darkness={0.3} offset={0.4} />
</EffectComposer>
);
}Animated Effects
Time-Driven Color Shift
function TimeDrivenEffects() {
const hueRef = useRef();
const vignetteRef = useRef();
useFrame(({ clock }) => {
const t = clock.elapsedTime;
if (hueRef.current) hueRef.current.hue = Math.sin(t * 0.1) * 0.1;
if (vignetteRef.current) vignetteRef.current.darkness = 0.4 + Math.sin(t * 2) * 0.1;
});
return (
<EffectComposer>
<HueSaturation ref={hueRef} saturation={0} hue={0} />
<Vignette ref={vignetteRef} darkness={0.4} offset={0.3} />
</EffectComposer>
);
}Audio-Reactive Effects
function AudioReactiveEffects({ audioData }) {
const chromaRef = useRef();
const vignetteRef = useRef();
useFrame(() => {
if (!audioData) return;
const bass = audioData[0] / 255;
const mid = audioData[4] / 255;
if (chromaRef.current) {
const offset = 0.001 + bass * 0.005;
chromaRef.current.offset.set(offset, offset * 0.5);
}
if (vignetteRef.current) {
vignetteRef.current.darkness = 0.3 + mid * 0.3;
}
});
return (
<EffectComposer>
<ChromaticAberration ref={chromaRef} offset={[0.001, 0.001]} />
<Vignette ref={vignetteRef} darkness={0.4} offset={0.3} />
</EffectComposer>
);
}Temporal Collapse Theme
Effects stack for cosmic countdown aesthetic:
function TemporalCollapseEffects() {
const chromaRef = useRef();
useFrame(({ clock }) => {
if (chromaRef.current) {
const pulse = Math.sin(clock.elapsedTime * 1.5) * 0.001;
chromaRef.current.offset.set(0.002 + pulse, 0.001 + pulse * 0.5);
}
});
return (
<EffectComposer>
<ToneMapping mode={ToneMappingMode.ACES_FILMIC} />
<HueSaturation hue={-0.05} saturation={-0.1} />
<BrightnessContrast brightness={-0.05} contrast={0.1} />
<ChromaticAberration ref={chromaRef} offset={[0.002, 0.001]} />
<Vignette darkness={0.5} offset={0.25} />
<Noise opacity={0.02} blendFunction={BlendFunction.OVERLAY} />
</EffectComposer>
);
}Performance Tips
| Technique | Impact | Solution |
|---|---|---|
| Multiple blur effects | High | Combine DOF with bloom carefully |
| High DOF resolution | High | Use height={480} or lower |
| LUT loading | Medium | Preload, cache texture |
| Many effects | Medium | Order effects efficiently |
function OptimizedEffects() {
return (
<EffectComposer multisampling={0}>
<ToneMapping mode={ToneMappingMode.ACES_FILMIC} />
<Vignette darkness={0.4} />
<Noise opacity={0.02} />
<Bloom intensity={1} mipmapBlur levels={4} />
</EffectComposer>
);
}Reference
- See
postfx-composerfor EffectComposer setup and render targets - See
postfx-bloomfor dedicated bloom techniques - See
postfx-routerfor effect selection guidance