# Building from sources Building is easiest on Linux and relatively straightforward on Mac. For Windows, we currently recommend using the Docker image (described below) to build Pyodide. ## Build using `make` Make sure the prerequisites for [emsdk](https://github.com/emscripten-core/emsdk) are installed. Pyodide will build a custom, patched version of emsdk, so there is no need to build it yourself prior. Additional build prerequisites are: - A working native compiler toolchain, enough to build CPython. - A native Python 3.7 to run the build scripts. - PyYAML - [lessc](http://lesscss.org/) to compile less to css. - [uglifyjs](https://github.com/mishoo/UglifyJS) to minify Javascript builds. - gfortran (GNU Fortran 95 compiler) - [f2c](http://www.netlib.org/f2c/) - [ccache](https://ccache.samba.org) (optional) *highly* recommended for much faster rebuilds. On Mac, you will also need: - [Homebrew](https://brew.sh/) for installing dependencies - System libraries in the root directory (`sudo installer -pkg /Library/Developer/CommandLineTools/Packages/macOS_SDK_headers_for_macOS_10.14.pkg -target /` should do it, see https://github.com/pyenv/pyenv/issues/1219#issuecomment-428305417) - coreutils for md5sum and other essential Unix utilities (`brew install coreutils`) - cmake (`brew install cmake`) - pkg-config (`brew install pkg-config`) - openssl (`brew install openssl`) - gfortran (`brew cask install gfortran`) - f2c: Install wget (`brew install wget`), and then run the buildf2c script from the root directory (`sudo ./tools/buildf2c`) After installing the build prerequisites, run from the command line: ```bash make ``` ## Using Docker We provide a Debian-based Docker image on Docker Hub with the dependencies already installed to make it easier to build Pyodide. Note that building from the Docker image is *very* slow on Mac, building on the host machine is preferred if at all possible. 1. Install Docker 2. From a git checkout of Pyodide, run `./run_docker` 3. Run `make` to build. If running ``make`` deterministically stops at one point in each subsequent try, increasing the maximum RAM usage available to the docker container might help [This is different from the physical RAM capacity inside the system]. Ideally, at least 3 GB of RAM should be available to the docker container to build `pyodide` smoothly. These settings can be changed via Docker Preferences [See [here](https://stackoverflow.com/questions/44533319/how-to-assign-more-memory-to-docker-container)]. You can edit the files in your source checkout on your host machine, and then repeatedly run `make` inside the Docker environment to test your changes. ## Partial builds To build a subset of available packages in pyodide, set the environment variable `PYODIDE_PACKAGES` to a comma separated list of packages. For instance, ``` PYODIDE_PACKAGES="toolz,attrs" make ``` Note that this environment variable must contain both the packages and their dependencies. The package names must match the folder names in `packages/` exactly; in particular they are case sensitive. To build a minimal version of pyodide, set `PYODIDE_PACKAGES="micropip"`. The micropip and package is generally always included for any non empty value of `PYODIDE_PACKAGES`. If scipy is included in `PYODIDE_PACKAGES`, BLAS/LAPACK must be manually built first with `make -c CLAPACK`.