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<h1> <a href="https://github.com/prefix-dev/rattler-build/"> <img alt="banner" src="https://github.com/prefix-dev/rattler-build/assets/885054/43a2e357-6ab3-40f9-8e3f-45d59658ce94"> </a> </h1> <h1 align="center">

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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

You can grab a prerelease version of rattler-build from the Github Releases.

It is (of course) also available from conda-forge:

pixi global install rattler-build
# or with micromamba
micromamba install rattler-build -c conda-forge

Distro Packages

Packaging status

Homebrew

You can install rattler-build via Homebrew:

brew install rattler-build

Arch Linux

rattler-build is available on Arch Linux in the extra repository:

pacman -S rattler-build

Alpine Linux

rattler-build is available for Alpine Edge. It can be installed via apk after enabling the testing repository.

apk add rattler-build

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.

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

Documentation

We have extensive documentation for rattler-build. You can find the book here.

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.

Usage

rattler-build comes with two commands: build and test.

The build command takes a --recipe recipe.yaml as input and produces a package as output. The test subcommand can be used to test existing packages (tests are shipped with the package).

There is also a terminal user interface (TUI) that can help with building multiple packages and easily viewing logs.

The recipe format

Note You can find all examples below in the examples folder 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 "Ninja" -D BUILD_TESTS=OFF -D CMAKE_INSTALL_PREFIX=%LIBRARY_PREFIX% %SRC_DIR%
        ninja install
      else: |
        cmake ${CMAKE_ARGS} -G "Ninja" -DBUILD_TESTS=OFF -DCMAKE_INSTALL_PREFIX=$PREFIX $SRC_DIR -DCMAKE_INSTALL_LIBDIR=lib
        ninja install

requirements:
  build:
    - ${{ compiler('cxx') }}
    - cmake
    - ninja
  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
<details> <summary> A recipe for the `rich` Python package (using `noarch`) </summary>
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

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
</details> <details> <summary>A recipe for the `curl` library</summary>
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 this 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
</details>