ocaml/HACKING.adoc

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= Hacking the compiler :camel:
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This document is a work-in-progress attempt to provide useful
information for people willing to inspect or modify the compiler
distribution's codebase. Feel free to improve it by sending change
proposals for it.
If you already have a patch that you would like to contribute to the
official distribution, please see link:CONTRIBUTING.md[].
=== Your first compiler modification
1. Create a new git branch to store your changes.
+
----
git checkout -b my-modification
----
Usually, this branch wants to be based on `trunk`. If your changes must be on a
specific release, use its release branch (*not* the release tag) instead. For
example, to make a fix for 4.11.1, base your branch on *4.11* (not on *4.11.1*).
The `configure` step for the compiler recognises a development build from the
`+dev` in the version number (see file `VERSION`), and release tarballs and the tagged Git commits do
not have this which causes some important development things to be disabled
(ocamltest and converting C compiler warnings to errors).
2. Consult link:INSTALL.adoc[] for build instructions. Here is the gist of it:
+
----
./configure
make
----
If you are on a release build and need development options, you can add
`--enable-ocamltest` (to allow running the testsuite) and `--enable-warn-error`
(so you don't get caught by CI later!).
3. Try the newly built compiler binaries `ocamlc`, `ocamlopt` or their
`.opt` version. To try the toplevel, use:
+
----
make runtop
----
4. Hack frenetically and keep rebuilding.
5. Run the testsuite from time to time.
+
----
make tests
----
6. You did it, Well done! Consult link:CONTRIBUTING.md[] to send your contribution upstream.
See also our <<tips,development tips and tricks>>, for example on how to
<<opam-switch,create an opam switch>> to test your modified compiler.
=== What to do
There is always a lot of potential tasks, both for old and
newcomers. Here are various potential projects:
* https://github.com/ocaml/ocaml/issues[The OCaml
bugtracker] contains reported bugs and feature requests. Some
changes that should be accessible to newcomers are marked with the
tag link:++https://github.com/ocaml/ocaml/issues?q=is%3Aopen+is%3Aissue+label%3Anewcomer-job++[
newcomer-job].
* The
https://github.com/ocamllabs/compiler-hacking/wiki/Things-to-work-on[OCaml
Labs compiler-hacking wiki] contains various ideas of changes to
propose, some easy, some requiring a fair amount of work.
* Documentation improvements are always much appreciated, either in
the various `.mli` files or in the official manual
(See link:manual/README.md[]). If you invest effort in understanding
a part of the codebase, submitting a pull request that adds
clarifying comments can be an excellent contribution to help you,
next time, and other code readers.
* The https://github.com/ocaml/ocaml[github project] contains a lot of
pull requests, many of them being in dire need of a review -- we
have more people willing to contribute changes than to review
someone else's change. Picking one of them, trying to understand the
code (looking at the code around it) and asking questions about what
you don't understand or what feels odd is super-useful. It helps the
contribution process, and it is also an excellent way to get to know
various parts of the compiler from the angle of a specific aspect or
feature.
+
Again, reviewing small or medium-sized pull requests is accessible to
anyone with OCaml programming experience, and helps maintainers and
other contributors. If you also submit pull requests yourself, a good
discipline is to review at least as many pull requests as you submit.
== Structure of the compiler
The compiler codebase can be intimidating at first sight. Here are
a few pointers to get started.
=== Compilation pipeline
==== The driver -- link:driver/[]
The driver contains the "main" function of the compilers that drive
compilation. It parses the command-line arguments and composes the
required compiler passes by calling functions from the various parts
of the compiler described below.
==== Parsing -- link:parsing/[]
Parses source files and produces an Abstract Syntax Tree (AST)
(link:parsing/parsetree.mli[] has lot of helpful comments). See
link:parsing/HACKING.adoc[].
The logic for Camlp4 and Ppx preprocessing is not in link:parsing/[],
but in link:driver/[], see link:driver/pparse.mli[] and
link:driver/pparse.ml[].
==== Typing -- link:typing/[]
Type-checks the AST and produces a typed representation of the program
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(link:typing/typedtree.mli[] has some helpful comments). See
link:typing/HACKING.adoc[].
==== The bytecode compiler -- link:bytecomp/[]
==== The native compiler -- link:middle_end/[] and link:asmcomp/[]
=== Runtime system
=== Libraries
link:stdlib/[]:: The standard library. Each file is largely
independent and should not need further knowledge.
link:otherlibs/[]:: External libraries such as `unix`, `threads`,
`dynlink`, `str` and `bigarray`.
Instructions for building the full reference manual are provided in
link:manual/README.md[]. However, if you only modify the documentation
comments in `.mli` files in the compiler codebase, you can observe the
result by running
----
make html_doc
----
and then opening link:./ocamldoc/stdlib_html/index.html[] in a web browser.
=== Tools
link:lex/[]:: The `ocamllex` lexer generator.
link:yacc/[]:: The `ocamlyacc` parser generator. We do not recommend
using it for user projects in need of a parser generator. Please
consider using and contributing to
link:http://gallium.inria.fr/~fpottier/menhir/[menhir] instead, which
has tons of extra features, lets you write more readable grammars, and
has excellent documentation.
=== Complete file listing
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BOOTSTRAP.adoc:: instructions for bootstrapping
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Changes:: what's new with each release
CONTRIBUTING.md:: how to contribute to OCaml
HACKING.adoc:: this file
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INSTALL.adoc:: instructions for installation
LICENSE:: license and copyright notice
Makefile:: main Makefile
Makefile.common:: common Makefile definitions
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Makefile.tools:: used by manual/ and testsuite/ Makefiles
README.adoc:: general information on the compiler distribution
README.win32.adoc:: general information on the Windows ports of OCaml
VERSION:: version string. Run `make configure` after changing.
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asmcomp/:: native-code compiler and linker
boot/:: bootstrap compiler
build-aux/: autotools support scripts
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bytecomp/:: bytecode compiler and linker
compilerlibs/:: the OCaml compiler as a library
configure:: configure script
configure.ac: autoconf input file
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debugger/:: source-level replay debugger
driver/:: driver code for the compilers
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flexdll/:: git submodule -- see link:README.win32.adoc[]
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lex/:: lexer generator
man/:: man pages
manual/:: system to generate the manual
middle_end/:: the flambda optimisation phase
ocamldoc/:: documentation generator
ocamltest/:: test driver
otherlibs/:: several additional libraries
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parsing/:: syntax analysis -- see link:parsing/HACKING.adoc[]
runtime/:: bytecode interpreter and runtime systems
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stdlib/:: standard library
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testsuite/:: tests -- see link:testsuite/HACKING.adoc[]
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tools/:: various utilities
toplevel/:: interactive system
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typing/:: typechecking -- see link:typing/HACKING.adoc[]
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utils/:: utility libraries
yacc/:: parser generator
[#tips]
== Development tips and tricks
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=== Keep merge commits when merging and cherry-picking Github PRs
Having the Github PR number show up in the git log is very useful for
later triaging. We recently disabled the "Rebase and merge" button,
precisely because it does not produce a merge commit.
When you cherry-pick a PR in another branch, please cherry-pick this
merge-style commit rather than individual commits, whenever
possible. (Picking a merge commit typically requires the `-m 1`
option.) You should also use the `-x` option to include the hash of
the original commit in the commit message.
----
git cherry-pick -x -m 1 <merge-commit-hash>
----
[#opam-switch]
=== Testing with `opam`
If you are working on a development version of the compiler, you can create an
opam switch from it by running the following from the development repository:
-----
-opam switch create . --empty
-opam install .
-----
If you want to test someone else's development version from a public
git repository, you can build a switch directly (without cloning their
work locally) by pinning:
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----
opam switch create my-switch-name --empty
# Replace $VERSION by the trunk version
opam pin add ocaml-variants.$VERSION+branch git+https://$REPO#branch
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----
=== Useful Makefile targets
Besides the targets listed in link:INSTALL.adoc[] for build and
installation, the following targets may be of use:
`make runtop` :: builds and runs the ocaml toplevel of the distribution
(optionally uses `rlwrap` for readline+history support)
`make natruntop`:: builds and runs the native ocaml toplevel (experimental)
`make partialclean`:: Clean the OCaml files but keep the compiled C files.
`make depend`:: Regenerate the `.depend` file. Should be used each time new dependencies are added between files.
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`make -C testsuite parallel`:: see link:testsuite/HACKING.adoc[]
Additionally, there are some developer specific targets in link:Makefile.dev[].
These targets are automatically available when working in a Git clone of the
repository, but are not available from a tarball.
=== Automatic configure options
If you have options to `configure` which you always (or at least frequently)
use, it's possible to store them in Git, and `configure` will automatically add
them. For example, you may wish to avoid building the debug runtime by default
while developing, in which case you can issue
`git config --global ocaml.configure '--disable-debug-runtime'`. The `configure`
script will alert you that it has picked up this option and added it _before_
any options you specified for `configure`.
Options are added before those passed on the command line, so it's possible to
override them, for example `./configure --enable-debug-runtime` will build the
debug runtime, since the enable flag appears after the disable flag. You can
also use the full power of Git's `config` command and have options specific to
particular clone or worktree.
=== Speeding up configure
`configure` includes the standard `-C` option which caches various test results
in the file `config.cache` and can use those results to avoid running tests in
subsequent invocations. This mechanism works fine, except that it is easy to
clean the cache by mistake (e.g. with `git clean -dfX`). The cache is also
host-specific which means the file has to be deleted if you run `configure` with
a new `--host` value (this is quite common on Windows, where `configure` is
also quite slow to run).
You can elect to have host-specific cache files by issuing
`git config --global ocaml.configure-cache .`. The `configure` script will now
automatically create `ocaml-host.cache` (e.g. `ocaml-x86_64-pc-windows.cache`,
or `ocaml-default.cache`). If you work with multiple worktrees, you can share
these cache files by issuing `git config --global ocaml.configure-cache ..`. The
directory is interpreted _relative_ to the `configure` script.
=== Bootstrapping
The OCaml compiler is bootstrapped. This means that
previously-compiled bytecode versions of the compiler and lexer are
included in the repository under the
link:boot/[] directory. These bytecode images are used once the
bytecode runtime (which is written in C) has been built to compile the
standard library and then to build a fresh compiler. Details can be
found in link:BOOTSTRAP.adoc[].
=== Speeding up builds
Once you've built a natively-compiled `ocamlc.opt`, you can use it to
speed up future builds by copying it to `boot`:
----
cp ocamlc.opt boot/
----
If `boot/ocamlc` changes (e.g. because you ran `make bootstrap`), then
the build will revert to the slower bytecode-compiled `ocamlc` until
you do the above step again.
=== Using merlin
During the development of the compiler, the internal format of compiled object
files evolves, and quickly becomes incompatible with the format of the last
OCaml release. In particular, even an up-to-date merlin will be unable to use
them during most of the development cycle: opening a compiler source file with
merlin gives a frustrating error message.
To use merlin on the compiler, you want to build the compiler with an older
version of itself. One easy way to do this is to use the experimental build
rules for Dune, which are distributed with the compiler (with no guarantees that
the build will work all the time). Assuming you already have a recent OCaml
version installed with merlin and dune, you can just run the following from the
compiler sources:
----
./configure # if not already done
make clean && dune build @libs
----
which will do a bytecode build of all the distribution (without linking
the executables), using your OCaml compiler, and generate a .merlin
file.
Merlin will be looking at the artefacts generated by dune (in `_build`), rather
than trying to open the incompatible artefacts produced by a Makefile build. In
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particular, you need to repeat the dune build every time you change the interface
of some compilation unit, so that merlin is aware of the new interface.
You only need to run `configure` once, but you will need to run `make clean`
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every time you want to run `dune` after you built something with `make`;
otherwise dune will complain that build artefacts are present among the sources.
Finally, there will be times where the compiler simply cannot be built with an
older version of itself. One example of this is when a new primitive is added to
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the runtime, and then used in the standard library straight away, since the rest
of the compiler requires the `stdlib` library to build, nothing can be build. In
such situations, you will have to either live without merlin, or develop on an
older branch of the compiler, for example the maintenance branch of the last
released version. Developing a patch from a release branch can later introduce a
substantial amount of extra work, when you rebase to the current development
version. But it also makes it a lot easier to test the impact of your work on
third-party code, by installing a local <<opam-switch,opam switch>>: opam
packages tend to be compatible with released versions of the compiler, whereas
most packages are incompatible with the in-progress development version.
=== Continuous integration
==== Github's CI: Travis and AppVeyor
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The script that is run on Travis continuous integration servers is
link:tools/ci/travis/travis-ci.sh[]; its configuration can be found as
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a Travis configuration file in link:.travis.yml[].
For example, if you want to reproduce the default build on your
machine, you can use the configuration values and run command taken from
link:.travis.yml[]:
----
CI_KIND=build XARCH=x64 bash -ex tools/ci/travis/travis-ci.sh
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----
The scripts support two other kinds of tests (values of the
`CI_KIND` variable) which both inspect the patch submitted as part of
a pull request. `tests` checks that the testsuite has been modified
(hopefully, improved) by the patch, and `changes` checks that the
link:Changes[] file has been modified (hopefully to add a new entry).
These tests rely on the `$TRAVIS_COMMIT_RANGE` variable which you can
set explicitly to reproduce them locally.
The `changes` check can be disabled by including "(no change
entry needed)" in one of your commit messages -- but in general all
patches submitted should come with a Changes entry; see the guidelines
in link:CONTRIBUTING.md[].
==== INRIA's Continuous Integration (CI)
INRIA provides a Jenkins continuous integration service that OCaml
uses, see link:https://ci.inria.fr/ocaml/[]. It provides a wider
architecture support (MSVC and MinGW, a zsystems s390x machine, and
various MacOS versions) than the Travis/AppVeyor testing on github,
but only runs on commits to the trunk or release branches, not on every
PR.
You do not need to be an INRIA employee to open an account on this
jenkins service; anyone can create an account there to access build
logs and manually restart builds. If you
would like to do this but have trouble doing it, please email
ocaml-ci-admin@inria.fr.
To be notified by email of build failures, you can subscribe to the
ocaml-ci-notifications@inria.fr mailing list by visiting
https://sympa.inria.fr/sympa/info/ocaml-ci-notifications[its web page.]
==== Running INRIA's CI on a publicly available git branch
If you have suspicions that your changes may fail on exotic architectures
(they touch the build system or the backend code generator,
for example) and would like to get wider testing than github's CI
provides, it is possible to manually start INRIA's CI on arbitrary git
branches even before opening a pull request as follows:
1. Make sure you have an account on Inria's CI as described before.
2. Make sure you have been added to the ocaml project.
3. Prepare a branch with the code you'd like to test, say "mybranch". It
is probably a good idea to make sure your branch is based on the latest
trunk.
4. Make your branch publicly available. For instance, you can fork
OCaml's GitHub repository and then push "mybranch" to your fork.
5. Visit https://ci.inria.fr/ocaml/job/precheck and log in. Click on
"Build with parameters".
6. Fill in the REPO_URL and BRANCH fields as appropriate and run the build.
7. You should receive a bunch of e-mails with the build logs for each
slave and each tested configuration (with and without flambda) attached.
==== Changing what the CI does
INRIA's CI "main" and "precheck" jobs run the script
tools/ci-build. In particular, when running the CI on a publicly
available branch via the "precheck" job as explained in the previous
section, you can edit this script to change what the CI will test.
For instance, parallel builds are only tested for the "trunk"
branch. In order to use "precheck" to test parallel build on a custom
branch, add this at the beginning of tools/ci-build:
----
OCAML_JOBS=10
----
=== The `caml-commits` mailing list
If you would like to receive email notifications of all commits made to the main
git repository, you can subscribe to the caml-commits@inria.fr mailing list by
visiting https://sympa.inria.fr/sympa/info/caml-commits[its web page.]
Happy Hacking!