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An MCP server that gives AI agents the ability to observe and understand images via multi-provider vision, object detection, hierarchical analysis, and color ex

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Описание

An MCP server that gives AI agents the ability to observe and understand images via multi-provider vision, object detection, hierarchical analysis, and color extraction.

README

An MCP server that gives AI agents eyes - the ability to observe and understand images without stuffing raw pixels into their context window.

Features

  • Multi-provider vision: Describe images using Gemini, OpenAI, or Claude
  • Object detection: Find objects with bounding boxes (Gemini only - native bbox support)
  • Hierarchical analysis: Detect regions, then zoom in for detail
  • Precise color extraction: K-Means clustering in LAB color space (runs locally, no API needed)
  • Color naming: Human-readable color names via color.pizza API
  • URL support: Analyze images directly from the web (http/https)

TL;DR: A Gemini API key gives you full functionality. OpenAI/Claude are optional alternatives for image description only.

Installation

Install from npm:

npx @sanity-labs/mcp-see

Or install globally:

npm install -g @sanity-labs/mcp-see

Or clone and build locally:

git clone https://github.com/sanity-labs/mcp-see.git
cd mcp-see
npm install
npm run build

MCP Client Configuration

Claude Desktop

Add to your Claude Desktop config (~/Library/Application Support/Claude/claude_desktop_config.json on macOS):

{
  "mcpServers": {
    "mcp-see": {
      "command": "npx",
      "args": ["@sanity-labs/mcp-see"],
      "env": {
        "GEMINI_API_KEY": "your-gemini-api-key"
      }
    }
  }
}

Get your Gemini API key from Google AI Studio.

With all providers (optional):

{
  "mcpServers": {
    "mcp-see": {
      "command": "npx",
      "args": ["@sanity-labs/mcp-see"],
      "env": {
        "GEMINI_API_KEY": "your-gemini-api-key",
        "OPENAI_API_KEY": "sk-...",
        "ANTHROPIC_API_KEY": "sk-ant-..."
      }
    }
  }
}

Enterprise/Vertex AI users:

{
  "mcpServers": {
    "mcp-see": {
      "command": "npx",
      "args": ["@sanity-labs/mcp-see"],
      "env": {
        "GOOGLE_CLOUD_PROJECT": "your-gcp-project-id"
      }
    }
  }
}

Requires ADC setup: gcloud auth application-default login

Other MCP Clients

The server runs on stdio transport. Configure your client to spawn npx @sanity-labs/mcp-see.

Tools

describe

Get an AI-generated description of an image.

Input:

{
  "image": "/path/to/image.png or https://example.com/image.jpg",
  "prompt": "What is shown in this image?",
  "provider": "gemini",
  "detail": "detailed"
}

Example Output:

The image shows a vibrant and colorful salad bowl, viewed from directly above.
The bowl is made of a light brown, possibly biodegradable material. The salad
is composed of various ingredients arranged in distinct sections: two small
white peeled eggs, sliced red tomatoes topped with chopped green onions, cubed
seasoned tofu, bright green edamame beans, shredded purple cabbage, and
julienned carrots...

detect

Detect objects and return bounding boxes. Uses Gemini for native bbox support.

Input:

{
  "image": "/path/to/image.png",
  "prompt": "find all TV screens"
}

Example Output:

{
  "count": 3,
  "objects": [
    { "id": 1, "label": "television", "bbox": [178, 245, 433, 818] },
    { "id": 2, "label": "television", "bbox": [614, 518, 792, 898] },
    { "id": 3, "label": "television", "bbox": [617, 198, 792, 493] }
  ]
}

Coordinates are [ymin, xmin, ymax, xmax] normalized 0-1000.

describe_region

Crop to a bounding box and describe that region in detail.

Input:

{
  "image": "/path/to/image.png",
  "bbox": [200, 200, 800, 800],
  "prompt": "describe this in detail",
  "provider": "gemini"
}

Example Output:

{
  "bbox": [200, 200, 800, 800],
  "description": "The image showcases a vibrant and colorful salad bowl in close-up. The bowl contains fresh ingredients including cubed tofu with a seasoned exterior, bright green edamame, sliced tomatoes, and shredded purple cabbage..."
}

analyze_colors

Extract dominant colors from a region using K-Means clustering in LAB color space.

Input:

{
  "image": "/path/to/image.png",
  "bbox": [100, 200, 400, 600],
  "top": 5
}

Example Output:

{
  "dominant": [
    {
      "hex": "#e6e6e5",
      "rgb": [230, 230, 229],
      "hsl": { "h": 60, "s": 2, "l": 90 },
      "name": "Ambience White",
      "percentage": 75.91
    },
    {
      "hex": "#b16c39",
      "rgb": [177, 108, 57],
      "hsl": { "h": 26, "s": 51, "l": 46 },
      "name": "Ginger Dough",
      "percentage": 15.91
    }
  ],
  "average": {
    "hex": "#c4b8a8",
    "rgb": [196, 184, 168],
    "name": "Doeskin"
  },
  "confidence": "high",
  "region": {
    "bbox": [100, 200, 400, 600],
    "size": [200, 150],
    "totalPixels": 30000
  }
}

The confidence field indicates color precision:

  • high: Flat colors (UI elements) - clusters are tight
  • medium: Mixed content
  • low: Photographs/gradients - colors are approximate

Workflows

Hierarchical Image Understanding

The power of mcp-see is in combining tools for progressive analysis:

1. describe(image)
   → "A shelf displaying various vintage electronics and TVs"

2. detect(image, "find all screens")
   → [{label: "television", bbox: [178, 245, 433, 818]}, ...]

3. describe_region(image, [178, 245, 433, 818])
   → "A vintage CRT television with wood grain casing, displaying
      a test pattern. The screen shows horizontal color bars..."

4. analyze_colors(image, [178, 245, 433, 818])
   → dominant: ["#2b1810" Espresso Bean, "#c4a882" Sandcastle, ...]

Design Reference Analysis

Extract implementation-ready specs from design mockups:

1. describe(image, "explain this UI to a web developer")
   → Layout structure, component hierarchy, spacing patterns

2. detect(image, "find all buttons")
   → Bounding boxes for each button

3. For each button:
   - describe_region() → Button label, icon, state
   - analyze_colors() → Exact color tokens for CSS

API Keys

Quick Start: Gemini Only

For full functionality, you only need a Gemini API key:

Variable Description
GEMINI_API_KEY Get one from Google AI Studio

This gives you access to all tools: describe, detect, describe_region, and analyze_colors.

Tool Availability by Provider

Tool Gemini OpenAI Claude No API
describe
describe_region
detect
analyze_colors
  • detect (object detection with bounding boxes) requires Gemini - it's the only provider with native bounding box support
  • analyze_colors runs locally using K-Means clustering - no API key needed

All Environment Variables

Variable Required Description
GEMINI_API_KEY Recommended API key from Google AI Studio. Enables all tools.
GOOGLE_CLOUD_PROJECT Alternative GCP project ID for Vertex AI instead of Gemini API. Requires ADC setup (gcloud auth application-default login).
OPENAI_API_KEY Optional OpenAI API key for GPT-4o vision. Alternative provider for describe and describe_region.
ANTHROPIC_API_KEY Optional Anthropic API key for Claude vision. Alternative provider for describe and describe_region.

If both GEMINI_API_KEY and GOOGLE_CLOUD_PROJECT are set, GEMINI_API_KEY takes precedence.

Technical Details

Color Extraction Algorithm

The analyze_colors tool uses K-Means clustering in LAB color space:

  1. Convert pixels from RGB to LAB (perceptually uniform)
  2. Subsample to 50k pixels for performance
  3. K-Means++ initialization for better convergence
  4. Cluster centroids become dominant colors
  5. Convert back to RGB, name via color.pizza API

This approach groups perceptually similar colors together, working well for both flat UI colors and noisy photographs.

Bounding Box Format

All bounding boxes use [ymin, xmin, ymax, xmax] format with coordinates normalized to 0-1000. To convert to pixel coordinates:

const pixelX = (normalizedX / 1000) * imageWidth;
const pixelY = (normalizedY / 1000) * imageHeight;

License

MIT

from github.com/sanity-labs/mcp-see

Установка See

У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.

▸ github.com/sanity-labs/mcp-see

FAQ

See MCP бесплатный?

Да, See MCP бесплатный — установка в пару кликов через Unyly без оплаты.

Нужен ли API-ключ для See?

Нет, See работает без API-ключей и переменных окружения.

See — hosted или self-hosted?

Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.

Как установить See в Claude Desktop, Claude Code или Cursor?

Открой See на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.

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