crosstraffic/highway-capacity-manual-mcp
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The HCM-LLM MCP Server is a FastAPI-based server designed for Highway Capacity Manual (HCM) analysis and transportation engineering calculations, focusing on two-lane highway analysis as per HCM Chapter 15.
HCM-LLM MCP Server
A FastAPI-based Model Context Protocol (MCP) server for Highway Capacity Manual (HCM) analysis and transportation engineering calculations. So far, this server provides comprehensive two-lane highway analysis following HCM Chapter 15 methodology.
Features
- Semantic search over HCM documentation
- Complete HCM Chapter 15 two-lane highway analysis
- YAML-based function registry for easy extensibility
- Function calling interface with 15+ transportation analysis functions
- MCP server compatibility for integration with AI assistants (supporting Claude)
- RESTful API endpoints for direct access
- Dynamic endpoint generation based on registry
- Comprehensive test suite and validation tools
Connect to Remote MCP Server
This server can be used as a backend for AI code agents like Claude Desktop, allowing them to perform complex transportation analyses and access HCM documentation dynamically.
To enable this functionality, add the server to your AI assistant's configuration as an MCP server.
For Claude Desktop Users
From user setting, you can find Connectors tab and click Add custom connector.
Then add https://api.hcm-calculator.com/mcp to you Claude configuration.
For GitHub Copilot on VSCode Users
You can also use this server with GitHub Copilot by configuring it as a custom MCP server.
To do this, type Ctrl+p and select MCP: Open User Configuration and modify the following to your mcp.json:
{
"servers": {
"hcm-mcp": {
"url": "https://api.hcm-calculator.com/mcp"
}
}
}
Connect to Local MCP Server
You can also run this server locally for development or testing purposes.
uv venv
# Windows
.venv\Scripts\activate
# Linux
source .venv/bin/activate
uv pip install .
Then running the server.
# Setup the database.
python hcm_mcp_server/scripts/import_hcm_docs.py
# Start the server.
python mcp_server_fastapi.py
For Claude Desktop Users
Open Claude Desktop and add the server as a custom MCP server with the URL http://localhost:8000/mcp.
Add to your Claude Desktop configuration (claude_desktop_config.json):
Note: Seems like this json settings are not working these days (https://github.com/anthropics/claude-code/issues/4188), and it did not work in my desktop environment, either.
{
"mcpServers": {
"hcm-mcp-local": {
"url": "http://127.0.0.1:8000/mcp"
}
}
}
For GitHub Copilot on VSCode Users
Same thing as above, you can use this server with GitHub Copilot by configuring it as a custom MCP server.
To do this, type Ctrl+p and select MCP: Open User Configuration and modify the following to your mcp.json:
{
"servers": {
"hcm-mcp-local": {
"url": "http://127.0.0.1:8000/mcp"
}
}
}
Then you can use the function calling interface directly in your code editor.
Project Structure
hcm-mcp-server/
├── mcp_server_fastapi.py # Main FastAPI application
├── functions_registry.yaml # Function registry configuration
├── hcm_mcp_server/
│ ├── example_prompts/
│ │ ├── *.txt # Example prompts for function calling
│ │ └── *.json # Example json files for web validation
│ ├── core/ # Core application modules
│ │ ├── dependencies.py # Dependency injection and utilities
│ │ ├── registry.py # Function registry implementation
│ │ ├── models.py # Pydantic data models
│ │ └── endpoints.py # Dynamic endpoint creation
│ ├── functions/
│ │ ├── chapter15.py # Chapter 15: Two-Lane Highways
│ │ └── research.py # Research and documentation
│ └── scripts/
│ ├── import_hcm_docs.py # Import HCM documentation and setup ChromaDB
│ └── validate_registry.py # Registry validation
├── data/
│ └── hcm_files/ # HCM documentation files
└── chroma_db/ # ChromaDB storage
Configuration
Environment Variables
Create a .env file based on .env.example. Copy and paste the following content, or cp .env.example .env:
CHROMA_DB_PATH=./chroma_db
HOST=127.0.0.1
PORT=8000
ALLOWED_ORIGINS=http://localhost:3000,http://localhost:3001
LOG_LEVEL=INFO
DB_MODE=local
PUBLIC_SUPABASE_URL=https://
PUBLIC_SUPABASE_API=your-anon-key / service-role-key
Function Registry
Functions are defined in functions_registry.yaml:
functions:
chapter15:
identify_vertical_class:
module: "functions.chapter15"
function: "identify_vertical_class_function"
description: "Identify vertical alignment class range"
category: "transportation"
chapter: 15
step: 1
parameters:
type: "object"
properties:
segment_index:
type: "integer"
highway_data:
type: "object"
required: ["segment_index", "highway_data"]
API Usage
Complete Highway Analysis
curl -X POST "http://localhost:8000/analysis/chapter15/complete" \
-H "Content-Type: application/json" \
-d '{
"segments": [{
"passing_type": 0,
"length": 2.0,
"grade": 2.0,
"spl": 50.0,
"volume": 760.0,
"volume_op": 1500.0,
"phf": 0.95,
"phv": 5.0
}],
"lane_width": 12.0,
"shoulder_width": 6.0,
"apd": 5.0
}'
Function Calling Interface
curl -X POST "http://localhost:8000/tools/call" \
-H "Content-Type: application/json" \
-d '{
"function": {
"name": "chapter15_determine_free_flow_speed",
"arguments": {
"segment_index": 0,
"highway_data": {
"segments": [{"passing_type": 0, "length": 2.0, "grade": 2.0, "spl": 50.0}],
"lane_width": 12.0,
"shoulder_width": 6.0
}
}
}
}'
List Available Functions
# List all functions
curl -X POST "http://localhost:8000/tools/list"
# Filter by category
curl -X POST "http://localhost:8000/tools/list" \
-H "Content-Type: application/json" \
-d '{"category": "transportation"}'
# Filter by chapter
curl -X POST "http://localhost:8000/tools/list" \
-H "Content-Type: application/json" \
-d '{"chapter": 15}'
Query HCM Documentation
curl -X POST "http://localhost:8000/tools/query-hcm" \
-H "Content-Type: application/json" \
-d '{
"question": "What factors affect free flow speed in two-lane highways?",
"top_k": 5
}'
Available Functions
Chapter 15 Functions
chapter15_identify_vertical_class- Step 1: Identify vertical alignment class rangechapter15_determine_demand_flow- Step 2: Calculate demand flow rates and capacitychapter15_determine_vertical_alignment- Step 3: Determine vertical alignment classificationchapter15_determine_free_flow_speed- Step 4: Calculate free flow speedchapter15_estimate_average_speed- Step 5: Estimate average travel speedchapter15_estimate_percent_followers- Step 6: Estimate percentage of following vehicleschapter15_determine_follower_density_pl- Step 8a: Follower density for passing laneschapter15_determine_follower_density_pc_pz- Step 8b: Follower density for PC/PZ segmentschapter15_determine_segment_los- Step 9: Calculate segment Level of Servicechapter15_determine_facility_los- Step 10: Calculate facility Level of Servicechapter15_complete_analysis- Complete HCM Chapter 15 procedure
Research Functions
query_hcm- Query HCM documentation database
API Endpoints
Hit the API endpoints directory to perform analyses or query HCM documentation.
Note: /docs for detail api endpoints description is under construction and will be available soon.
Core Endpoints
POST /tools/call- Execute any registered functionPOST /tools/list- List available functions with filteringGET /mcp/discovery- MCP capability discovery
Chapter 15 Analysis
POST /analysis/chapter15/complete- Complete HCM analysisPOST /analysis/chapter15/segment- Single segment analysis
Research
POST /tools/query-hcm- Query HCM databasePOST /research/search_hcm_by_chapter- Search HCM content by specific chapterGET /research/get_hcm_section- Get specific HCM section contentPOST /research/summarize_hcm_content- Summarize HCM content for a topic
Utility
GET /health- Health checkGET /registry/info- Registry informationPOST /registry/reload- Reload function registry
Data Models
Highway Segment
{
"passing_type": 0, # 0=PC, 1=PZ, 2=PL
"length": 2.0, # miles
"grade": 2.0, # percent
"spl": 50.0, # speed limit (mph)
"volume": 760.0, # vehicles/hour
"volume_op": 1500.0, # opposing volume
"phf": 0.95, # peak hour factor
"phv": 5.0 # percent heavy vehicles
}
Highway Facility
{
"segments": [...], # list of segments
"lane_width": 12.0, # feet
"shoulder_width": 6.0, # feet
"apd": 5.0, # access points/mile
"pmhvfl": 0.02, # percent HV in fast lane
"l_de": 0.0 # effective passing distance
}
Adding New HCM Chapters
1. Create Function Module
Create functions/chapter16.py:
def new_analysis_function(data: Dict[str, Any]) -> Dict[str, Any]:
"""Implementation for new analysis."""
try:
# Your implementation here
return {"success": True, "result": "analysis_result"}
except Exception as e:
return {"success": False, "error": str(e)}
2. Update Registry
Add to functions_registry.yaml:
functions:
chapter16:
new_analysis:
module: "functions.chapter16"
function: "new_analysis_function"
description: "New analysis function"
category: "transportation"
chapter: 16
parameters:
type: "object"
properties:
input_param:
type: "string"
required: ["input_param"]
3. Restart Server
The registry will automatically load the new functions.
Development
Running Tests
Note: Test will be added soon.
pytest tests/
Validating Registry
Note: Not used yet.
python scripts/validate_registry.py
Setting Up Development Database
python scripts/import_hcm_docs.py
Customization
Custom Analysis Models
Extend models in core/models.py:
class CustomAnalysisInput(BaseModel):
parameter1: float = Field(description="Custom parameter")
parameter2: str = Field(description="Another parameter")
Custom Functions
- Implement function in appropriate module
- Add to
functions_registry.yaml - Restart server or call
/registry/reload
Support
This project is beta version and mainly for research purpose for now. It is widely appreciated for any contributions or feedback!
For issues and questions:
- Open an issue on GitHub
- Check the API documentation at
/docs - Review function registry at
/registry/info - Validate setup with utility scripts