vtkapi-mcp
An MCP server that validates VTK Python code by checking class and method existence, import correctness, and provides structured error reporting to catch API hallucinations.
README
VTK API Validation via MCP
Post-generation validation of VTK Python code using Model Context Protocol (MCP).
Overview
This module provides automatic validation of generated VTK code to catch API hallucinations:
- ✅ Direct API lookups - No vector search overhead, exact class/method verification
- ✅ Method existence validation - Detects when LLM invents non-existent methods
- ✅ Import validation - Verifies VTK classes are imported from correct modules
- ✅ Fast in-memory index - Loads ~2,900 VTK classes at startup
- ✅ Structured error reporting - Clear error messages with suggestions
Quick Start
1. Install the Package
From PyPI (recommended once published):
pip install vtkapi-mcp
For local development we standardize on uv to manage the virtualenv and extras:
uv venv .venv
source .venv/bin/activate
uv sync --extra dev # runtime + pytest + ruff
Note: The 64 MB
data/vtk-python-docs.jsonlfile is required at runtime but is not bundled in the wheel. Place it underdata/(or pass--api-docs /path/to/file) before launching the MCP server.
Prefer automation? ./setup.sh now wraps the same uv workflow and accepts --dev to include the testing toolchain.
2. Test MCP Integration (Optional)
uv run python demo_mcp_integration.py
This runs a complete demo showing how to use vtkapi-mcp as an MCP server (not as standalone Python library). It demonstrates all 18 MCP tools and error detection.
3. Developer Workflow (uv-native)
| Task | Command |
|---|---|
| Run unit + integration tests | uv run pytest |
| Run tests with coverage report | uv run pytest --cov=vtkapi_mcp --cov-report=term-missing |
| Run Ruff lint & format checks | uv run ruff check / uv run ruff format --check |
These commands automatically reuse the
.venvcreated viauv venv/uv sync. No manual activation is required.
3. Configure MCP Client
Add to your MCP settings (e.g., Claude Desktop config):
{
"mcpServers": {
"vtk-api": {
"command": "python",
"args": [
"-m",
"vtkapi_mcp",
"--api-docs",
"/absolute/path/to/vtkapi-mcp/data/vtk-python-docs.jsonl"
]
}
}
}
4. Use VTK Tools
The MCP server provides 18 tools for VTK API validation and lookup. See MCP Tools below.
Project Structure
Package Organization
vtkapi_mcp/
├── core/ # API indexing and data loading
│ └── api_index.py
├── validation/ # Code validation logic
│ ├── models.py
│ ├── validator.py
│ ├── import_validator.py
│ ├── class_validator.py
│ └── method_validator.py
├── server/ # MCP server implementation
│ ├── mcp_server.py
│ └── tools.py
└── utils/ # Utilities for parsing and search
├── extraction.py
└── search.py
Supporting Files
| File | Purpose |
|---|---|
demo_mcp_integration.py |
Demo showing proper MCP integration (not standalone) |
pyproject.toml |
Python package configuration and dependencies |
README.md |
This file |
Data
| File | Purpose | Size |
|---|---|---|
data/vtk-python-docs.jsonl |
VTK API documentation (~2,900 classes) | ~64 MB |
Architecture
VTKAPIIndex (vtkapi_mcp/core/api_index.py)
Fast in-memory index of all VTK classes and methods:
VTKAPIIndex
├── Classes Dict: {class_name → {module, methods, docs}}
├── Modules Dict: {module_name → [class_names]}
└── Load Time: <1 second for ~2,900 classes
Key Methods:
get_class_info(class_name)- Get module and documentationsearch_classes(query)- Search by name or keywordget_module_classes(module)- List classes in moduleclass_exists(class_name)- Check if class exists
VTKCodeValidator (vtkapi_mcp/validation/validator.py)
AST-based validation of generated Python code:
VTKCodeValidator
├── Parse Code: Uses Python's ast module
├── Extract VTK Usage:
│ ├── Import statements
│ ├── Class instantiations
│ └── Method calls
├── Validate Against Index:
│ ├── Check classes exist
│ ├── Check imports correct
│ └── Check methods exist
└── Generate Error Report
Validation Types:
- Import Validation - Verifies module paths
- Class Validation - Checks class existence
- Method Validation - Detects hallucinated methods
MCP Tools Provided
When running as MCP server, provides these 18 tools:
1. vtk_get_class_info
Get complete information about a VTK class.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"module": "vtkmodules.vtkRenderingCore",
"content_preview": "vtkPolyDataMapper - map vtkPolyData to graphics primitives..."
}
2. vtk_search_classes
Search for VTK classes by name or keyword.
Input:
{
"query": "reader",
"limit": 5
}
Output:
[
{
"class_name": "vtkSTLReader",
"module": "vtkmodules.vtkIOGeometry",
"description": "Read ASCII or binary stereo lithography files."
}
]
5. vtk_validate_import
Validate and correct VTK import statements.
Input:
{
"import_statement": "from vtkmodules.vtkCommonDataModel import vtkPolyDataMapper"
}
Output:
{
"valid": false,
"message": "Incorrect module. 'vtkPolyDataMapper' is in 'vtkmodules.vtkRenderingCore'",
"suggested": "from vtkmodules.vtkRenderingCore import vtkPolyDataMapper"
}
6. vtk_get_method_info
Get full information about a specific method including section context.
Input:
{
"class_name": "vtkPolyDataMapper",
"method_name": "SetInputData"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"method_name": "SetInputData",
"content": "SetInputData(vtkDataObject) - Set the input data...",
"section": "Methods defined here"
}
7. vtk_get_method_doc
Get just the docstring for a specific method.
Input:
{
"class_name": "vtkPolyDataMapper",
"method_name": "SetInputData"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"method_name": "SetInputData",
"docstring": "SetInputData(vtkDataObject) - Set the input data...",
"found": true
}
8. vtk_get_class_doc
Get the class documentation string.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"class_doc": "vtkPolyDataMapper - map vtkPolyData to graphics primitives. Superclass: vtkMapper",
"found": true
}
9. vtk_get_class_synopsis
Get a brief synopsis/summary of what a class does.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"synopsis": "Maps polygonal data (vtkPolyData) to graphics primitives for rendering.",
"found": true
}
10. vtk_get_class_action_phrase
Get the action phrase describing what a class does.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"action_phrase": "polygon mapping",
"found": true
}
11. vtk_get_class_role
Get the functional role/category of a class.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"role": "rendering",
"found": true
}
12. vtk_get_class_visibility
Get the visibility/exposure level of a class.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"visibility": "likely",
"found": true
}
13. vtk_get_module_classes
List all classes in a specific module.
Input:
{
"module": "vtkmodules.vtkRenderingCore"
}
Output:
{
"module": "vtkmodules.vtkRenderingCore",
"classes": ["vtkActor", "vtkPolyDataMapper", ...],
"count": 42
}
14. vtk_get_class_module
Return the vtkmodules.* import path for a given VTK class.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"module": "vtkmodules.vtkRenderingCore",
"found": true
}
15. vtk_get_class_input_datatype
Get the input data type for a VTK class.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"input_datatype": "vtkPolyData",
"found": true
}
16. vtk_get_class_output_datatype
Get the output data type for a VTK class.
Input:
{
"class_name": "vtkContourFilter"
}
Output:
{
"class_name": "vtkContourFilter",
"output_datatype": "vtkPolyData",
"found": true
}
17. vtk_get_class_semantic_methods
Get semantically tagged methods for a VTK class (input setters, output getters, configuration methods).
Input:
{
"class_name": "vtkContourFilter"
}
Output:
{
"class_name": "vtkContourFilter",
"semantic_methods": {
"input_setters": ["SetInputData", "SetInputConnection"],
"output_getters": ["GetOutput", "GetOutputPort"],
"configuration": ["SetValue", "SetNumberOfContours"]
},
"found": true
}
18. vtk_is_a_class
Check if a given name is a valid VTK class.
Input:
{
"class_name": "vtkPolyDataMapper"
}
Output:
{
"class_name": "vtkPolyDataMapper",
"is_vtk_class": true
}
Benefits Over RAG Retrieval
| Aspect | RAG Retrieval | MCP Validation |
|---|---|---|
| Speed | Vector search + reranking | Direct hash lookup (instant) |
| Accuracy | Semantic similarity (can drift) | Exact API match (100%) |
| Coverage | Top-K only (~10 results) | All ~2,900 classes available |
| Tokens | Consumes prompt tokens | Tool calls (minimal cost) |
| Errors | Silent hallucinations | Explicit error messages |
Validation Examples
Example 1: Method Hallucination (CAUGHT ✅)
Generated Code:
stencil = vtkImageStencilToImage()
stencil.SetOutputWholeExtent([0, 10, 0, 10, 0, 10]) # ❌ Doesn't exist!
Validation Error:
UNKNOWN_METHOD: Method 'SetOutputWholeExtent' not found on class 'vtkImageStencilToImage'
Suggestion: Did you mean SetOutputOrigin or SetOutputSpacing?
Example 2: Wrong Import Module (CAUGHT ✅)
Generated Code:
from vtkmodules.vtkCommonDataModel import vtkPolyDataMapper # ❌ Wrong module!
Validation Error:
IMPORT_ERROR: 'vtkPolyDataMapper' is not in module 'vtkmodules.vtkCommonDataModel'
Correct import: from vtkmodules.vtkRenderingCore import vtkPolyDataMapper
Example 3: Non-existent Class (CAUGHT ✅)
Generated Code:
converter = vtkImageDataToPolyDataConverter() # ❌ Class doesn't exist!
Validation Error:
UNKNOWN_CLASS: Class 'vtkImageDataToPolyDataConverter' not found in VTK
Suggestion: Did you mean vtkImageDataGeometryFilter?
Data Source
Input: data/vtk-python-docs.jsonl
Each line is a VTK class documentation in JSON format:
{
"class_name": "vtkPolyDataMapper",
"module_name": "vtkmodules.vtkRenderingCore",
"class_doc": "vtkPolyDataMapper - map vtkPolyData to graphics primitives. Superclass: vtkMapper",
"synopsis": "Maps polygonal data (vtkPolyData) to graphics primitives for rendering.",
"action_phrase": "polygon mapping",
"role": "rendering",
"visibility_score": "likely",
"input_datatype": "vtkPolyData",
"output_datatype": "",
"semantic_methods": { "input_setters": [...], "output_getters": [...] },
"structured_docs": { "sections": { ... } }
}
Coverage: ~2,900 VTK classes from VTK Python API
Future Enhancements
- [ ] Method signature validation - Check parameter types and counts
- [ ] Deprecation warnings - Flag deprecated VTK methods
- [ ] Pipeline validation - Verify data flow compatibility
- [ ] Auto-fix suggestions - Generate corrected code automatically
- [ ] Performance profiling - Track validation overhead
- [ ] Cache layer - Cache frequent lookups for speed
License
This is a standalone MCP server for VTK API validation. Extracted from the vtk-rag project.
Status: Production ready MCP server for VTK API validation.
Recommended Servers
playwright-mcp
A Model Context Protocol server that enables LLMs to interact with web pages through structured accessibility snapshots without requiring vision models or screenshots.
Magic Component Platform (MCP)
An AI-powered tool that generates modern UI components from natural language descriptions, integrating with popular IDEs to streamline UI development workflow.
Audiense Insights MCP Server
Enables interaction with Audiense Insights accounts via the Model Context Protocol, facilitating the extraction and analysis of marketing insights and audience data including demographics, behavior, and influencer engagement.
VeyraX MCP
Single MCP tool to connect all your favorite tools: Gmail, Calendar and 40 more.
graphlit-mcp-server
The Model Context Protocol (MCP) Server enables integration between MCP clients and the Graphlit service. Ingest anything from Slack to Gmail to podcast feeds, in addition to web crawling, into a Graphlit project - and then retrieve relevant contents from the MCP client.
Kagi MCP Server
An MCP server that integrates Kagi search capabilities with Claude AI, enabling Claude to perform real-time web searches when answering questions that require up-to-date information.
E2B
Using MCP to run code via e2b.
Neon Database
MCP server for interacting with Neon Management API and databases
Exa Search
A Model Context Protocol (MCP) server lets AI assistants like Claude use the Exa AI Search API for web searches. This setup allows AI models to get real-time web information in a safe and controlled way.
Qdrant Server
This repository is an example of how to create a MCP server for Qdrant, a vector search engine.