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zincware PyPI version DOI codecov 'Threejs

ZnDraw

Welcome to ZnDraw, a powerful tool for visualizing and interacting with your trajectories.

Installation

It is recommended to install ZnDraw from PyPi via:

pip install zndraw

Quick Start

Visualize your trajectories with a single command:

zndraw <file>

Note

ZnDraw's webapp-based approach allows you to use port forwarding to work with trajectories on remote systems.

ZnDraw UI ZnDraw UI

Multi-User and Multi-Client Support

ZnDraw supports multiple users and clients. Connect one or more Python clients to your ZnDraw instance:

  1. Click on Python access in the ZnDraw UI.
  2. Connect using the following code:
from zndraw import ZnDraw

vis = ZnDraw(url="http://localhost:1234", token="<your-token>")

ZnDraw UI ZnDraw UI

The vis object provides direct access to your visualized scene. It inherits from abc.MutableSequence, so any changes you make are reflected for all connected clients.

from ase.collections import s22
vis.extend(list(s22))

Additional Features

You can modify various aspects of the visualization:

  • vis.camera
  • vis.points
  • vis.selection
  • vis.step
  • vis.figures
  • vis.bookmarks
  • vis.geometries

For example, to add a geometry:

from zndraw import Box

vis.geometries = [Box(position=[0, 1, 2])]

ZnDraw UI ZnDraw UI

Analyzing Data

ZnDraw enables you to analyze your data and generate plots using Plotly. It automatically detects available properties and offers a convenient drop-down menu for selection.

ZnDraw UI ZnDraw UI

ZnDraw will look for the step and atom index in the customdata[0] and [1] respectively to highlight the steps and atoms.

Writing Extensions

Make your tools accessible via the ZnDraw UI by writing an extension:

from zndraw import Extension

class AddMolecule(Extension):
    name: str

    def run(self, vis, **kwargs) -> None:
        structures = kwargs["structures"]
        vis.append(structures[self.name])
        vis.step = len(vis) - 1

vis.register(AddMolecule, run_kwargs={"structures": s22}, public=True)
vis.socket.wait()  # This can be ignored when using Jupyter

The AddMolecule extension will appear for all tokens and can be used by any client.

Hosted Version

A hosted version of ZnDraw is available at https://zndraw.icp.uni-stuttgart.de . To upload data, use:

zndraw <file> --url https://zndraw.icp.uni-stuttgart.de

Self-Hosting

To host your own version of ZnDraw, use the following docker-compose.yaml setup:

version: "3.9"

services:
  zndraw:
    image: pythonf/zndraw:latest
    command: --no-standalone /src/file.xyz
    volumes:
      - /path/to/files:/src
    restart: unless-stopped
    ports:
      - 5003:5003
    depends_on:
      - redis
      - worker
    environment:
      - FLASK_STORAGE=redis://redis:6379/0
      - FLASK_AUTH_TOKEN=super-secret-token

  worker:
    image: pythonf/zndraw:latest
    entrypoint: celery -A zndraw.make_celery worker --loglevel=info -P eventlet
    volumes:
      - /path/to/files:/src
    restart: unless-stopped
    depends_on:
      - redis
    environment:
      - FLASK_STORAGE=redis://redis:6379/0
      - FLASK_SERVER_URL="http://zndraw:5003"
      - FLASK_AUTH_TOKEN=super-secret-token

  redis:
    image: redis:latest
    restart: always
    environment:
      - REDIS_PORT=6379

If you want to host zndraw as subdirectory domain.com/zndraw you need to adjust the environmental variables as well as update base: "/", in the app/vite.config.ts before building the ap..

References

If you use ZnDraw in your research and find it helpful please cite us.

@misc{elijosiusZeroShotMolecular2024,
  title = {Zero {{Shot Molecular Generation}} via {{Similarity Kernels}}},
  author = {Elijo{\v s}ius, Rokas and Zills, Fabian and Batatia, Ilyes and Norwood, Sam Walton and Kov{\'a}cs, D{\'a}vid P{\'e}ter and Holm, Christian and Cs{\'a}nyi, G{\'a}bor},
  year = {2024},
  eprint = {2402.08708},
  archiveprefix = {arxiv},
}

Acknowledgements

The creation of ZnDraw was supported by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) in the framework of the priority program SPP 2363, “Utilization and Development of Machine Learning for Molecular Applications - Molecular Machine Learning” Project No. 497249646. Further funding though the DFG under Germany's Excellence Strategy - EXC 2075 - 390740016 and the Stuttgart Center for Simulation Science (SimTech) was provided.

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