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rattler-build: A Fast Conda Package Builder#

The rattler-build tooling and library creates cross-platform relocatable binaries / packages from a simple recipe format. The recipe format is heavily inspired by conda-build and boa, and the output of a regular rattler-build run is a package that can be installed using mamba, rattler or conda.

rattler-build does not have any dependencies on conda-build or Python and works as a standalone binary.

Installation#

The recommended way of installing rattler-build, being a conda-package builder, is through a conda package manager. Next to rattler-build we are also building pixi.

With pixi you can install rattler-build globally:

pixi global install rattler-build

Other options are:

conda install rattler-build -c conda-forge

mamba install rattler-build -c conda-forge
micromamba install rattler-build -c conda-forge

pixi global install rattler-build
pixi add rattler-build # To a pixi project
brew install rattler-build
pacman -S rattler-build

# Download the latest release from the GitHub releases page, for example the linux x86 version with curl:
curl -SL --progress-bar https://github.com/prefix-dev/rattler-build/releases/latest/download/rattler-build-x86_64-unknown-linux-musl
You can grab version of rattler-build from the Github Releases.

Completion#

When installing rattler-build you might want to enable shell completion. Afterwards, restart the shell or source the shell config file.

Bash (default on most Linux systems)#

echo 'eval "$(rattler-build completion --shell bash)"' >> ~/.bashrc

Zsh (default on macOS)#

echo 'eval "$(rattler-build completion --shell zsh)"' >> ~/.zshrc

PowerShell (pre-installed on all Windows systems)#

Add-Content -Path $PROFILE -Value '(& rattler-build completion --shell powershell) | Out-String | Invoke-Expression'

Failure because no profile file exists

Make sure your profile file exists, otherwise create it with:

New-Item -Path $PROFILE -ItemType File -Force

Fish#

echo 'rattler-build completion --shell fish | source' >> ~/.config/fish/config.fish

Nushell#

Add the following to the end of your Nushell env file (find it by running $nu.env-path in Nushell):

mkdir ~/.cache/rattler-build
rattler-build completion --shell nushell | save -f ~/.cache/rattler-build/completions.nu

And add the following to the end of your Nushell configuration (find it by running $nu.config-path):

use ~/.cache/rattler-build/completions.nu *

Elvish#

echo 'eval (rattler-build completion --shell elvish | slurp)' >> ~/.elvish/rc.elv

Dependencies#

Currently rattler-build needs some dependencies on the host system which are executed as subprocess. We plan to reduce the number of external dependencies over time by writing what we need in Rust to make rattler-build fully self-contained.

  • tar to unpack tarballs downloaded from the internet in a variety of formats. .gz, .bz2 and .xz are widely used and one might have to install the compression packages as well (e.g. gzip, bzip2, ...)
  • patch to patch source code after downloading
  • install_name_tool is necessary on macOS to rewrite the rpath of shared libraries and executables to make it relative
  • patchelf is required on Linux to rewrite the rpath and runpath of shared libraries and executables
  • git to checkout Git repositories (not implemented yet, but will require git in the future)
  • msvc on Windows because we cannot ship the MSVC compiler on conda-forge (needs to be installed on the host machine)

On Windows, to obtain these dependencies from conda-forge, one can install m2-patch, m2-bzip2, m2-gzip, m2-tar.

GitHub Action#

There is a GitHub Action for rattler-build. It can be used to install rattler-build in CI/CD workflows and run a build command. Please check out the GitHub Action documentation for more information.

The recipe format#

Note You can find all examples below in the examples folder in the codebase and run them with rattler-build.

A simple example recipe for the xtensor header-only C++ library:

# yaml-language-server: $schema=https://raw.githubusercontent.com/prefix-dev/recipe-format/main/schema.json

context:
  name: xtensor
  version: 0.24.6

package:
  name: ${{ name|lower }}
  version: ${{ version }}

source:
  url: https://github.com/xtensor-stack/xtensor/archive/${{ version }}.tar.gz
  sha256: f87259b51aabafdd1183947747edfff4cff75d55375334f2e81cee6dc68ef655

build:
  number: 0
  script:
    - if: win
      then: |
        cmake -G "NMake Makefiles" -D BUILD_TESTS=OFF -D CMAKE_INSTALL_PREFIX=%LIBRARY_PREFIX% %SRC_DIR%
        nmake
        nmake install
      else: |
        cmake ${CMAKE_ARGS} -DBUILD_TESTS=OFF -DCMAKE_INSTALL_PREFIX=$PREFIX $SRC_DIR -DCMAKE_INSTALL_LIBDIR=lib
        make install

requirements:
  build:
    - ${{ compiler('cxx') }}
    - cmake
    - if: unix
      then: make
  host:
    - xtl >=0.7,<0.8
  run:
    - xtl >=0.7,<0.8
  run_constraints:
    - xsimd >=8.0.3,<10

tests:
  - script:
    - if: unix or emscripten
      then:
        - test -d ${PREFIX}/include/xtensor
        - test -f ${PREFIX}/include/xtensor/xarray.hpp
        - test -f ${PREFIX}/share/cmake/xtensor/xtensorConfig.cmake
        - test -f ${PREFIX}/share/cmake/xtensor/xtensorConfigVersion.cmake
    - if: win
      then:
        - if not exist %LIBRARY_PREFIX%\include\xtensor\xarray.hpp (exit 1)
        - if not exist %LIBRARY_PREFIX%\share\cmake\xtensor\xtensorConfig.cmake (exit 1)
        - if not exist %LIBRARY_PREFIX%\share\cmake\xtensor\xtensorConfigVersion.cmake (exit 1)

about:
  homepage: https://github.com/xtensor-stack/xtensor
  license: BSD-3-Clause
  license_file: LICENSE
  summary: The C++ tensor algebra library
  description: Multi dimensional arrays with broadcasting and lazy computing
  documentation: https://xtensor.readthedocs.io
  repository: https://github.com/xtensor-stack/xtensor

extra:
  recipe-maintainers:
    - some-maintainer

A recipe for the rich Python package (using noarch):

context:
  version: "13.4.2"

package:
  name: "rich"
  version: ${{ version }}

source:
  - url: https://pypi.io/packages/source/r/rich/rich-${{ version }}.tar.gz
    sha256: d653d6bccede5844304c605d5aac802c7cf9621efd700b46c7ec2b51ea914898

build:
  # Thanks to `noarch: python` this package works on all platforms
  noarch: python
  script:
    - python -m pip install . -vv --no-deps --no-build-isolation

requirements:
  host:
    - pip
    - poetry-core >=1.0.0
    - python 3.10
  run:
    # sync with normalized deps from poetry-generated setup.py
    - markdown-it-py >=2.2.0
    - pygments >=2.13.0,<3.0.0
    - python 3.10
    - typing_extensions >=4.0.0,<5.0.0

tests:
  - python:
      imports:
        - rich
      pip_check: true

about:
  homepage: https://github.com/Textualize/rich
  license: MIT
  license_file: LICENSE
  summary: Render rich text, tables, progress bars, syntax highlighting, markdown and more to the terminal
  description: |
    Rich is a Python library for rich text and beautiful formatting in the terminal.

    The Rich API makes it easy to add color and style to terminal output. Rich
    can also render pretty tables, progress bars, markdown, syntax highlighted
    source code, tracebacks, and more — out of the box.
  documentation: https://rich.readthedocs.io
  repository: https://github.com/Textualize/rich

A recipe for the curl library:

context:
  version: "8.0.1"

package:
  name: curl
  version: ${{ version }}

source:
  url: http://curl.haxx.se/download/curl-${{ version }}.tar.bz2
  sha256: 9b6b1e96b748d04b968786b6bdf407aa5c75ab53a3d37c1c8c81cdb736555ccf

build:
  number: 0

requirements:
  build:
    - ${{ compiler('c') }}
    - if: win
      then:
        - cmake
        - ninja
    - if: unix
      then:
        - make
        - perl
        - pkg-config
        - libtool
  host:
    - if: linux
      then:
        - openssl

about:
  homepage: http://curl.haxx.se/
  license: MIT/X derivate (http://curl.haxx.se/docs/copyright.html)
  license_file: COPYING
  summary: tool and library for transferring data with URL syntax
  description: |
    Curl is an open source command line tool and library for transferring data
    with URL syntax. It is used in command lines or scripts to transfer data.
  documentation: https://curl.haxx.se/docs/
  repository: https://github.com/curl/curl

For the curl library recipe, two additional script files (build.sh and build.bat) are needed.

build.sh

#!/bin/bash

# Get an updated config.sub and config.guess
cp $BUILD_PREFIX/share/libtool/build-aux/config.* .

if [[ $target_platform =~ linux.* ]]; then
    USESSL="--with-openssl=${PREFIX}"
else
    USESSL="--with-secure-transport"
fi;

./configure \
    --prefix=${PREFIX} \
    --host=${HOST} \
    ${USESSL} \
    --with-ca-bundle=${PREFIX}/ssl/cacert.pem \
    --disable-static --enable-shared

make -j${CPU_COUNT} ${VERBOSE_AT}
make install

# Includes man pages and other miscellaneous.
rm -rf "${PREFIX}/share"

build.bat

mkdir build

cmake -GNinja ^
      -DCMAKE_BUILD_TYPE=Release ^
      -DBUILD_SHARED_LIBS=ON ^
      -DCMAKE_INSTALL_PREFIX=%LIBRARY_PREFIX% ^
      -DCMAKE_PREFIX_PATH=%LIBRARY_PREFIX% ^
      -DCURL_USE_SCHANNEL=ON ^
      -DCURL_USE_LIBSSH2=OFF ^
      -DUSE_ZLIB=ON ^
      -DENABLE_UNICODE=ON ^
      %SRC_DIR%

IF %ERRORLEVEL% NEQ 0 exit 1

ninja install --verbose