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Unified Conda and Pip requirements management.

Project description

:rocket: UniDep - Unified Conda and Pip Dependency Management :rocket:

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unidep simplifies Python project dependency management by enabling a single requirements.yaml file to handle both Conda and Pip dependencies. This approach allows for creating a unified Conda environment.yaml, while also integrating with setup.py or pyproject.toml. In addition, it can be used as a CLI to combine multiple requirements.yaml files into a single environment.yaml file. Simplify your setup and maintain all your dependencies in one place with unidep.

:rocket: Features

  • 🔗 Unified Management: Single-file handling of Conda and Pip dependencies.
  • ⚙️ Project Tool Integration: Easily works with pyproject.toml and setup.py, so requirements.yaml is used during pip install.
  • 🏢 Monorepo Support: Merge multiple requirements.yaml into one Conda environment environment.yaml using the CLI tool.
  • 🌍 Platform-Specific Support: Specify dependencies for different operating systems or architectures.
  • 🛠️ Conflict Resolution: Simplifies complex dependency management by resolving version conflicts.
  • 🔄 unidep install CLI: Automates installation of Conda, Pip, and local package dependencies.

:books: Table of Contents

:package: Installation

To install unidep, run the following command:

pip install -U unidep

Or just copy the script to your project:

wget https://raw.githubusercontent.com/basnijholt/unidep/main/unidep.py

:page_facing_up: requirements.yaml structure

unidep processes requirements.yaml files with a specific format (similar but not the same as a Conda environment.yaml file):

  • name (Optional): For documentation, not used in the output.
  • channels: List of sources for packages, such as conda-forge.
  • dependencies: Mix of Conda and Pip packages.

Example

Example of a requirements.yaml file:

name: example_environment
channels:
  - conda-forge
dependencies:
  - numpy  # same name on conda and pip
  - conda: python-graphviz  # When names differ between Conda and Pip
    pip: graphviz
  - pip: slurm-usage  # pip-only
  - conda: mumps  # conda-only
  # Use platform selectors; below only on linux64
  - conda: cuda-toolkit  # [linux64]

⚠️ unidep can process this file in pyproject.toml or setup.py and create a environment.yaml file.

Key Points

  • Standard names (e.g., - numpy) are assumed to be the same for Conda and Pip.
  • Use conda: <package> and pip: <package> to specify different names across platforms.
  • Use pip: to specify packages that are only available through Pip.
  • Use conda: to specify packages that are only available through Conda.

Using the CLI unidep will combine these dependencies into a single conda installable environment.yaml file.

Platform Selectors

This tool supports a range of platform selectors that allow for specific handling of dependencies based on the user's operating system and architecture. This feature is particularly useful for managing conditional dependencies in diverse environments.

Supported Selectors

The following selectors are supported:

  • linux: For all Linux-based systems.
  • linux64: Specifically for 64-bit Linux systems.
  • aarch64: For Linux systems on ARM64 architectures.
  • ppc64le: For Linux on PowerPC 64-bit Little Endian architectures.
  • osx: For all macOS systems.
  • osx64: Specifically for 64-bit macOS systems.
  • arm64: For macOS systems on ARM64 architectures (Apple Silicon).
  • macos: An alternative to osx for macOS systems.
  • unix: A general selector for all UNIX-like systems (includes Linux and macOS).
  • win: For all Windows systems.
  • win64: Specifically for 64-bit Windows systems.

Usage

Selectors are used in requirements.yaml files to conditionally include dependencies based on the platform:

dependencies:
  - some-package  # [unix]
  - another-package  # [win]
  - special-package  # [osx64]
  - pip: cirq  # [macos]
    conda: cirq  # [linux]

In this example:

  • some-package is included only in UNIX-like environments (Linux and macOS).
  • another-package is specific to Windows.
  • special-package is included only for 64-bit macOS systems.
  • cirq is managed by pip on macOS and by conda on Linux. This demonstrates how you can specify different package managers for the same package based on the platform.

Implementation

The tool parses these selectors and filters dependencies according to the platform where it's being run. This is particularly useful for creating environment files that are portable across different platforms, ensuring that each environment has the appropriate dependencies installed.

Conflict Resolution

unidep features a conflict resolution mechanism to manage version conflicts and platform-specific dependencies in requirements.yaml files. This functionality ensures optimal package version selection based on specified requirements.

How It Works

  • Version Pinning Priority: unidep gives priority to version-pinned packages when multiple versions of the same package are specified. For instance, if both foo and foo <1 are listed, foo <1 is selected due to its specific version pin.

  • Minimal Scope Selection: unidep resolves platform-specific dependency conflicts by preferring the version with the most limited platform scope. For instance, given foo <1 # [linux64] and foo >1, it installs foo <1 exclusively on Linux-64 and foo >1 on all other platforms. This approach ensures platform-specific requirements are precisely met.

  • Resolving Intractable Conflicts: When conflicts are irreconcilable (e.g., foo >1 vs. foo <1), unidep issues a warning and defaults to the first encountered specification.

:memo: Usage

With pyproject.toml or setup.py

To use unidep in your project, you can configure it in pyproject.toml. This setup works alongside a requirements.yaml file located in the same directory. The behavior depends on your project's setup:

  • When using only pyproject.toml: The dependencies field in pyproject.toml will be automatically populated based on the contents of requirements.yaml.
  • When using setup.py: The install_requires field in setup.py will be automatically populated, reflecting the dependencies defined in requirements.yaml.

Here's an example pyproject.toml configuration:

[build-system]
build-backend = "setuptools.build_meta"
requires = ["setuptools", "wheel", "unidep"]

[project]
dynamic = ["dependencies"]

In this configuration, unidep is included as a build requirement, allowing it to process the Python dependencies in the requirements.yaml file and update the project's dependencies accordingly.

:memo: As a CLI

See example for more information or check the output of unidep -h for the available sub commands:

usage: unidep [-h] {merge,pip,conda,install} ...

Unified Conda and Pip requirements management.

positional arguments:
  {merge,pip,conda,install}
                        Subcommands
    merge               Merge requirements to conda installable
                        environment.yaml
    pip                 Get the pip requirements for the current platform
                        only.
    conda               Get the conda requirements for the current platform
                        only.
    install             Install the dependencies of a single
                        `requirements.yaml` file in the currently activated
                        conda environment with conda, then install the
                        remaining dependencies with pip, and finally install
                        the current package with `pip install [-e] .`.

options:
  -h, --help            show this help message and exit

unidep merge

Use unidep merge to scan directories for requirements.yaml file(s) and combine them into an environment.yaml file. See unidep merge -h for more information:

usage: unidep merge [-h] [-o OUTPUT] [-n NAME] [--depth DEPTH] [--stdout]
                    [-d DIRECTORY] [-v]

options:
  -h, --help            show this help message and exit
  -o OUTPUT, --output OUTPUT
                        Output file for the conda environment, by default
                        `environment.yaml`
  -n NAME, --name NAME  Name of the conda environment, by default `myenv`
  --depth DEPTH         Depth to scan for requirements.yaml files, by default
                        1
  --stdout              Output to stdout instead of a file
  -d DIRECTORY, --directory DIRECTORY
                        Base directory to scan for requirements.yaml file(s),
                        by default `.`
  -v, --verbose         Print verbose output

unidep install

Use unidep install on a requirements.yaml file and install the dependencies on the current platform using conda, then install the remaining dependencies with pip, and finally install the current package with pip install [-e] .. See unidep install -h for more information:

usage: unidep install [-h] [-f FILE] [-v] [-e]
                      [--conda-executable {conda,mamba,micromamba}]
                      [--dry-run]

options:
  -h, --help            show this help message and exit
  -f FILE, --file FILE  The requirements.yaml file to parse or folder that
                        contains that file, by default `requirements.yaml`
  -v, --verbose         Print verbose output
  -e, --editable        Install the project in editable mode
  --conda-executable {conda,mamba,micromamba}
                        The conda executable to use
  --dry-run             Only print the commands that would be run

unidep pip

Use unidep pip on a requirements.yaml file and output the pip installable dependencies on the current platform (default). See unidep pip -h for more information:

usage: unidep pip [-h] [-f FILE] [-v]
                  [--platform {linux-64,linux-aarch64,linux-ppc64le,osx-64,osx-arm64,win-64}]
                  [--separator SEPARATOR]

options:
  -h, --help            show this help message and exit
  -f FILE, --file FILE  The requirements.yaml file to parse or folder that
                        contains that file, by default `requirements.yaml`
  -v, --verbose         Print verbose output
  --platform {linux-64,linux-aarch64,linux-ppc64le,osx-64,osx-arm64,win-64}
                        The platform to get the requirements for, by default
                        the current platform (`linux-64`)
  --separator SEPARATOR
                        The separator between the dependencies, by default ` `

unidep conda

Use unidep conda on a requirements.yaml file and output the conda installable dependencies on the current platform (default). See unidep conda -h for more information:

usage: unidep conda [-h] [-f FILE] [-v]
                    [--platform {linux-64,linux-aarch64,linux-ppc64le,osx-64,osx-arm64,win-64}]
                    [--separator SEPARATOR]

options:
  -h, --help            show this help message and exit
  -f FILE, --file FILE  The requirements.yaml file to parse or folder that
                        contains that file, by default `requirements.yaml`
  -v, --verbose         Print verbose output
  --platform {linux-64,linux-aarch64,linux-ppc64le,osx-64,osx-arm64,win-64}
                        The platform to get the requirements for, by default
                        the current platform (`linux-64`)
  --separator SEPARATOR
                        The separator between the dependencies, by default ` `

Limitations

  • Conda-Focused: Best suited for Conda environments.

Try unidep today for a streamlined approach to managing your Conda environment dependencies across multiple projects! 🎉👏

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