CAD Agent
Give your AI agent eyes for CAD work.
Description
CAD Agent is a rendering server that lets AI agents see what they're building. Send modeling commands → receive rendered images → iterate visually.
Use when: designing 3D-printable parts, parametric CAD, mechanical design, build123d modeling
Architecture
Critical: All CAD logic runs inside the container. You (the agent) only:
- Send commands via HTTP
- View the returned images
- Decide what to do next
YOU (agent) CAD AGENT CONTAINER
───────────── ───────────────────
Send build123d code → Executes modeling
← Returns JSON status
Request render → VTK renders the model
← Returns PNG image
*Look at the image*
Decide: iterate or done
Never do STL manipulation, mesh processing, or rendering outside the container. The container handles everything — you just command and observe.
Setup
1. Clone the Repository
git clone https://github.com/clawd-maf/cad-agent.git
cd cad-agent
2. Build the Docker Image
docker build -t cad-agent:latest .
Or using docker-compose:
docker-compose build
3. Run the Server
# Using docker-compose (recommended)
docker-compose up -d
# Or using docker directly
docker run -d --name cad-agent -p 8123:8123 cad-agent:latest serve
4. Verify Installation
curl http://localhost:8123/health
# Should return: {"status": "healthy", ...}
Docker-in-Docker caveat: In nested container environments (e.g., Clawdbot sandbox), host networking may not work—
curl localhost:8123will fail even though the server binds to0.0.0.0:8123. Usedocker exec cad-agent python3 -c "..."commands instead. On a normal Docker host, localhost access works fine.
Workflow
1. Create Model
curl -X POST http://localhost:8123/model/create \
-H "Content-Type: application/json" \
-d '{
"name": "my_part",
"code": "from build123d import *\nresult = Box(60, 40, 30)"
}'
2. Render & View
# Get multi-view (front/right/top/iso)
curl -X POST http://localhost:8123/render/multiview \
-d '{"model_name": "my_part"}' -o views.png
# Or 3D isometric
curl -X POST http://localhost:8123/render/3d \
-d '{"model_name": "my_part", "view": "isometric"}' -o iso.png
Look at the image. Does it look right? If not, modify and re-render.
3. Iterate
curl -X POST http://localhost:8123/model/modify \
-d '{
"name": "my_part",
"code": "result = result - Cylinder(5, 50).locate(Pos(20, 10, 0))"
}'
# Re-render to check
curl -X POST http://localhost:8123/render/3d \
-d '{"model_name": "my_part"}' -o updated.png
4. Export
curl -X POST http://localhost:8123/export \
-d '{"model_name": "my_part", "format": "stl"}' -o part.stl
Endpoints
| Endpoint | What it does |
|---|---|
POST /model/create |
Run build123d code, create model |
POST /model/modify |
Modify existing model |
GET /model/list |
List models in session |
GET /model/{name}/measure |
Get dimensions |
POST /render/3d |
3D shaded render (VTK) |
POST /render/2d |
2D technical drawing |
POST /render/multiview |
4-view composite |
POST /export |
Export STL/STEP/3MF |
POST /analyze/printability |
Check if printable |
build123d Cheatsheet
from build123d import *
# Primitives
Box(width, depth, height)
Cylinder(radius, height)
Sphere(radius)
# Boolean
a + b # union
a - b # subtract
a & b # intersect
# Position
part.locate(Pos(x, y, z))
part.rotate(Axis.Z, 45)
# Edges
fillet(part.edges(), radius)
chamfer(part.edges(), length)
Important
- Don't bypass the container. No matplotlib, no external STL libraries, no mesh hacking.
- Renders are your eyes. Always request a render after changes.
- Iterate visually. The whole point is you can see what you're building.
Design File Safety
The project has safeguards against accidentally committing CAD outputs:
.gitignoreblocks *.stl, *.step, *.3mf, etc.- Pre-commit hook rejects design files
- User's designs stay local, never versioned