HAMT implementation for a content-addressed storage system.
Project description
py-hamt
This is a python implementation of a HAMT, inspired by rvagg's IAMap project written in JavaScript.
py-hamt provides efficient storage and retrieval of large sets of key-value mappings in a content-addressed storage system. The main target is IPFS, and the data model used is IPLD.
dClimate primarily created this for storing large zarrs on IPFS. To see this in action, see our data ETLs.
Installation and Usage
pip install py-hamt
For usage information, take a look at our API documentation, major items have example code.
You can also see this library used in either our data ETLs or Jupyter notebooks for data analysis.
Development Guide
Setting Up
py-hamt uses uv for project management. Make sure you install that first.
Once uv is installed, run
uv sync
source .venv/bin/activate
pre-commit install
to create the project virtual environment at .venv.
Then you can run pre-commit across the whole codebase with
pre-commit run --all-files
the below command run-checks.sh in the next section will also run this command inside its bash script.
Run tests, formatting, linting
First, make sure you have the ipfs kubo daemon installed and running with the default endpoints open. Then run the script
bash run-checks.sh
This will run tests with code coverage, and check formatting and linting. Under the hood it will be using the pre-commit command to run through all the checks within .pre-commit-config.yaml. If a local ipfs daemon is not running it will not run all tests, but it will spawn a docker ipfs container if docker is installed and run as many integration tests as possible.
We use pytest with 100% code coverage, and with test inputs that are both handwritten as well as generated by hypothesis. This allows us to try out millions of randomized inputs to create a more robust library.
[!NOTE] Due to the randomized test inputs, it is possible sometimes to get 99% or lower test coverage by pure chance. Rerun the tests to get back complete code coverage. If this happens on a GitHub action, try rerunning the action.
[!NOTE] Due to the restricted performance on GitHub actions runners, you may also sometimes see hypothesis tests running with errors because they exceeded test deadlines. Rerun the action if this happens.
Tests
Due to the dependency on IPFS in order to be able to run all integration tests which use IPFS a local ipfs daemon is required. The Github Actions found in .github/workflows/run-checks.yaml uses the setup-ipfs step which ensures that a local ipfs daemon is available. Locally if you wish to run the full integration tests you must ensure a local ipfs daemon is running (by running ipfs daemon once installed). If not, pytest will spawn a local docker image to run the ipfs tests. If Docker is not installed then tests will simply run the unit tests.
To summarize:
In GitHub Actions:
uv run pytest --ipfs # All tests run, including test_kubo_default_urls
Locally with Docker (no local daemon):
pytest --ipfs # test_kubo_default_urls auto-skips, other tests use Docker
Locally with IPFS daemon:
pytest --ipfs # All tests run
Quick local testing (no IPFS):
pytest # All IPFS tests skip
CPU and Memory Profiling
We use python's native cProfile for running CPU profiles and snakeviz for visualizing the profile. We use memray for the memory profiling. We will walk through using the profiling tools on the test suite.
Creating the CPU and memory profile requires manual activation of the virtual environment.
source .venv/bin/activate
python -m cProfile -o profile.prof -m pytest
python -m memray run -m pytest
The profile viewers can be directly invoked from uv.
uv run snakeviz .
uv run memray flamegraph <memray output> # e.g. <memray-output> = memray-pytest.12398.bin
Generating documentation
py-hamt uses pdoc. To see a live documentation preview on your local machine, run
uv run pdoc py_hamt
LLMs
If you are an LLM reading this repo, refer to the AGENTS.md file.
Managing dependencies
Use uv add and uv remove, e.g. uv add numpy or uv add pytest --group dev. For more information please see the uv documentation.
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