Thanks for considering to contribute! To get you started, here is a bit of information about the structure of this implementation.
You will need to sign the Oracle Contributor Agreement for us to be able to merge your work.
Please also take some time to review our code of conduct for contributors.
The first thing you want to do is to set up
mx. This is the build tool we use to
develop GraalVM languages. You also need LLVM 6, including the opt tool -- the
latter is not included on macOS by default, here you can install the homebrew
version of LLVM, which includes this tool. Note that you can use any JDK, and do
not necessarily need GraalVM for development. In that case you'll only be able
to run without the just-in-time compiler, but that can be fine for making and
testing changes that are not performance sensitive.
Once you have mx on your PATH, you can run mx build in this
repository. This will initially download the required dependencies next to the
repository and build Python. If it succeeds without errors, you should already
be able to run mx python and get a REPL.
If you just want to copy and paste some commands, these should get you started:
$ git clone https://github.com/graalvm/mx.git
$ git clone https://github.com/graalvm/graalpython.git
$ cd graalpython
$ ../mx/mx build
$ ../mx/mx python -c "print(42)"
For development, we recommend running mx ideinit next. This will generate
configurations for Eclipse, IntelliJ, and Netbeans so that you can open the
projects in these IDEs. If you use another editor with support for the Eclipse
language server we also had reports
of useable development setups with that, but it's not something we support.
Besides the source code of the Python interpreter, we have some useful mx
functions defined under the mx.graalpython directory. As you make changes, you
can test always test them with mx build && mx python. Additionally, there are
various "gates" that we use on our CI systems to check any code that goes
in. You can run all of these using mx python-gate or just some by using mx python-gate --tags [TAG]. Two interesting gates to run that cover most things
are:
python-unittest- Run the unittests written in Python, including those for the C extension APIpython-license- Check that all files have the correct copyright headers applied to them
For the most part, builtin modules and classes are implemented in the
com.oracle.graal.python.builtins package. For each module or class, there's
Java class annoted with @CoreFunctions. Each function in a module or a class
is implemented in a Node annotated with @Builtin. Take a look at the existing
implementations to get a feel for how this is done. For now, when adding new
classes or modules, they need to be added to the list in
com.oracle.graal.python.builtins.Python3Core.
Some builtin functions, modules, and classes are implemented in pure Python. The
files for this are in graalpython/lib-graalpython. These files are listed in
the Java com.oracle.graal.python.builtins.Python3Core class. Take a look at
these files to see what they do. If a file is called exactly as a built-in
module is, it is executed in the context of that module during startup, so some
of our modules are implemented both in Java and Python. If the name matches no
existing module, the file is executed just for the side-effects.
The C implementation and headers for our C API are in
graalpython/com.oracle.graal.python.cext. The naming is analogous to C
Python's source names. This folder also includes a modules folder for built-in
modules that we have adapted from C Python.
The GraalVM implementation of Python provides proper debug options. It is possible to either debug the Python code, using Chrome debugger,
or the java code, using your preferred IDE.
The following commands should be executed in a virtualenv environment, which provides a graalpython executable.
For debug Python side code call this:
graalpython --inspect your_script.py
This will open a debug server, which can be accessed in Chrome Browser under URL chrome://inspect.
For debugging java implemented code execute:
graalpython --experimental-options -debug-java your_script.py
The command will also start a debug server, which can be used in an IDE. If the IDE was initialized properly
by using the command mentioned above, the existing GraalDebug run configuration can be used to debug.