docs/process.md - external/github.com/emscripten-core/emscripten - Git at Google

 # Development Processes

 More information can be found in the [Contribution
 section](https://emscripten.org/docs/contributing/contributing.html) of the
 webside.

 ## Landing PRs

  * Even after the code of a PR is approved, it should only be landed if the
    CI on github is green, or the failures are known intermittent things
    (with very strong reason to think they unrelated to the current PR).
  * If you see an approved PR of someone without commit access (that either
    you or someone else approved), land it for them (after checking CI as
    mentioned earlier).
  * If you approve a PR by someone with commit access, if there is no urgency
    then leave it for them to land. (They may have other PRs to land alongside
    it, etc.)
  * It is strongly recommended to land PRs with github's "squash" option, which
    turns the PR into a single commit. This makes sense if the PR is small,
    which is also strongly recommended. However, sometimes separate commits may
    make more sense, *if and only if*:
     * The PR is not easily separable into a series of small PRs (e.g., review
       must consider all the commits, either because the commits are hard to
       understand by themselves, or because review of a later PR may influence
       an earlier PR's discussion).
     * The individual commits have value (e.g., they are easier to understand
       one by one).
     * The individual commits are compatible with bisection (i.e., all tests
       should pass after each commit).
    When landing multiple commits in such a scenario, use the "rebase" option,
    to avoid a merge commit.
  * Add `NFC` to the end of the PR title for Non-Functional Changes (i.e.,
    changes that do not add/modify functionality, such as internal refactoring).
  * Add a `[prefix]` to start of the PR title to signify the subsystem or area
    that the PR targets. e.g. `[test] Update foo test` or `[ports] Fix zlib port`

 ## Coding Style

 ### C/C++ Code

 When writing new C/C++ in emscripten follow the LLVM style (as does binaryen).
 You can use `clang-format` to automatically format new code (and `git
 clang-format origin/main` to format just the lines you are changing).
 See [`.clang-format`][clang-format] for more details.

 When editing third party code such (e.g. musl, libc++) follow the upstream
 conventions.

 ### JavaScript Code

 We use the same LLVM-based style as for C/C++.  Sadly, `clang-format` doesn't
 always work well with our library code since it can use custom macros and
 pre-processor.  See [`.clang-format`][clang-format] for more details.

 ### Python Code

 We generally follow the pep8 standard with the major exception that we use 2
 spaces for indentation.  `ruff` is run on all PRs to ensure that Python code
 conforms to this style.  See [`pyproject.toml`][pyproject.toml] for more details.

 #### Static Type Checking

 We are beginning to use python3's type annotation syntax, along with the `mypy`
 tool to check python types statically.  See [`.mypy`][mypy] for more details.

 The goal is to one day check all type by running `mypy` with
 `--disallow-untyped-defs`, but this is happening incrementally over time.

 # Release Processes

 ## Minor version updates (1.X.Y to 1.X.Y+1)

 When:

  * Such an update ensures we clear the cache, so it should be done when required
    (for example, a change to libc or libc++).
  * The emsdk compiled versions are based on the version number, so periodically
    we can do this when we want a new precompiled emsdk version to be available.

 Requirements:

  * [emscripten-releases build CI][waterfall] is green on all OSes for the
    desired hash (where the hash is the git hash in the
    [emscripten-releases][releases_repo] repo, which then specifies through
    [DEPS][DEPS] exactly which revisions to use in all other repos).
  * [GitHub CI](https://github.com/emscripten-core/emscripten/branches) is green
    on the `main` branch for the emscripten commit referred to in [DEPS][DEPS].

 How:

 1. Pick a version for a release and make sure it meets the requirements above.
    Let this version SHA be `<non-LTO-sha>`.
 1. If we want to do an LTO release as well, create a CL that copies [DEPS][DEPS]
    from <non-lto-sha> to [DEPS.tagged-release][DEPS.tagged-release] in
    [emscripten-releases][releases_repo] repo. When this CL is committed, let the
    resulting SHA be `<LTO-sha>`. An example of this CL is
    https://chromium-review.googlesource.com/c/emscripten-releases/+/3781978.
    After landing the CL, wait for a couple hours before proceeding because
    building and archiving for the new commit will take some time. Check
    https://ci.chromium.org/p/emscripten-releases/g/main/console to see if the
    commit has passed "Archive Binaries" phase for all three platforms and
    additionally "Archive Binaries (arm64)" for Mac.
 1. Run [`scripts/create_release.py`][create_release_emsdk] in the emsdk
    repository. When we do both an LTO and a non-LTO release, run:
    ```
    ./scripts/create_release.py <LTO-sha> <non-LTO-sha>
    ```
    This will make the `<LTO-sha>` point to the versioned name release (e.g.
    `3.1.7`) and the `<non-LTO-sha>` point to the assert build release (e.g.
    `3.1.7-asserts`). When we do only a non-LTO release, run:
    ```
    ./scripts/create_release.py <non-LTO-sha>
    ```
    This will make the `<non-LTO-sha>` point directly to the versioned name
    release (e.g. `3.1.7`) and there will be no assert build release. If we run
    [`scripts/create_release.py`][create_release_emsdk] without any arguments, it
    will automatically pick a tot version from
    [emscripten-releases][releases_repo] repo and make it point to the versioned
    name release. Running this
    [`scripts/create_release.py`][create_release_emsdk] script will update
    [emscripten-releases-tags.json][emscripten_releases_tags], adding a new
    version. The script will create a new local git branch and push it up to
    ``origin``.  An example of this PR is emscripten-core/emsdk#1071.
 1. [Tag][emsdk_tags] the `emsdk` repo with the new version number, on the commit
    that does the update, after it lands on main.
 1. [Tag][emscripten_tags] the `emscripten` repo with the new version number, on
    the commit referred to in the [DEPS][DEPS] (or DEPS.tagged-release) file
    above.
 1. Run the [`tools/maint/create_release.py`][create_release_emscripten]
    tool in the emscripten repo to update
    [`emscripten-version.txt`][emscripten_version] and
    [`ChangeLog.md`][changelog].  An example of such PR is
    emscripten-core/emscripten#17439.

 ## Major version update (1.X.Y to 1.(X+1).0)

 When:

  * We should do such an update when we have a reasonable assurance of stability.

 Requirements:

  * All the requirements for a minor update.
  * No major change recently landed.
  * No major recent regressions have been filed.
  * All tests pass locally for the person doing the update, including the main
    test suite (no params passed to `runner.py`), `other`, `browser`, `sockets`,
    `sanity`, `binaryen*`. (Not all of those are run on all the bots.)
  * A minor version was recently tagged, no major bugs have been reported on it,
    and nothing major landed since it did. (Bugs are often only found on tagged
    versions, so a big feature should first be in a minor version update before
    it is in a major one.)

 How:

 1. Follow the same steps for a minor version update.


 ## Updating the `emscripten.org` Website

 The site is currently hosted in `gh-pages` branch of the separate [site
 repository][site_repo]. To update the docs, rebuild them and copy them into
 this repository.  There is a script that will perform these steps automatically:
 [`tools/maint/update_docs.py`][update_docs].  Just run this script with no
 arguments if the emscripten-site repository is checked out alongside emscripten
 itself, or pass the location of the checkout if not.

 You will need the specific sphinx version installed, which you can do using
 `pip3 install -r requirements-dev.txt` (depending on your system, you may then
 need to add `~/.local/bin` to your path, if pip installs to there).


 ### Building and viewing the Website locally

 To build the site locally for testing purposes you only need a subset of the
 `update_docs.py` command just mentioned above. Specifically:

 1. Run `pip3` to install python dependencies, as described above.
 2. Run `make -C site html`.
 3. Run a local webserver on the outout of that command, e.g.,
    `python3 -m http.server 8000 -d site/build/html`.
 4. Browse to `http://localhost:8000/` (assuming you use port 8000 as above).


 ## Updating the `emcc.py` help text

 `emcc --help` output is generated from the main documentation under `site/`,
 so it is the same as shown on the website, but it is rendered to text. After
 updating `emcc.rst` in a PR, the following should be done:

 1. In your emscripten repo checkout, enter `site`.
 2. Run `make clean` (without this, it may not emit the right output).
 2. Run `make text`.
 3. Copy the output `build/text/docs/tools_reference/emcc.txt` to
    `../docs/emcc.txt` (both paths relative to the `site/` directory in
    emscripten that you entered in step 1), and add that change to your PR.

 See notes above on installing sphinx.


 ## Updating the LLVM libraries

 We maintain our ports of compiler-rt, libcxx, libcxxabi, and libunwind under
 https://github.com/emscripten-core/emscripten/tree/main/system/lib from
 [the upstream LLVM repository][llvm_repo] and periodically update them to a newer
 version when a new LLVM release comes out.

 We maintain [a fork of LLVM][llvm_emscripten_fork] for library updates, where we
 create a branch for each new LLVM major release. For example, the branch for
 LLVM 16 is
 https://github.com/emscripten-core/llvm-project/tree/emscripten-libs-16. We
 create a new branch for a major version update and reuse the existing branch for
 a minor version update. We mostly do updates per LLVM major release.

 To update our libraries to a newer LLVM release:

 1. If you are updating an existing branch the first step is to run
    [`push_llvm_changes.py`][push_llvm_changes_emscripten] to make sure the
    current branch is up-to-date with the current emscripten codebase.
    ```
    ./system/lib/push_llvm_changes.py <Emscripten's LLVM fork directory>
    ```
    (The existing library branch should be checked out in your Emscripten's LLVM
    fork directory.)
    An example of such PR is emscripten-core/llvm-project#5.

    If you are creating a new branch, first make sure the previous/existing
    branch is up-to-date using
    [`push_llvm_changes.py`][push_llvm_changes_emscripten]. Then
    create the new branch and cherry-pick all the emscripten-specific changes
    from the old branch, resolving any conflicts that might arise.

    In either case, once that branch is up-to-date use the update scripts to copy
    the llvm branch contents into the emscripten tree. Its important in both
    cases to run [`push_llvm_changes.py`][push_llvm_changes_emscripten] first to
    ensure that no emscripten changes are lost in the process.
 1. Create a PR to merge new LLVM release tag in the upstream repo into our new
    library branch. For example, if we want to merge `llvmorg-16.0.6` tag into
    our `emscripten-libs-16` branch, you can do
    ```
    git co emscripten-libs-16
    git remote add upstream git@github.com:llvm/llvm-project.git
    git fetch --tags upstream
    git merge llvmorg-16.0.6
    ```
    An example of such PR is emscripten-core/llvm-project#3.
 1. Now we have merged all the changes to our LLVM fork branch, pull those
    changes with the new version back into the Emscripten repo. You can use
    [`update_compiler_rt.py`][update_compiler_rt_emscripten],
    [`update_libcxx.py`][update_libcxx_emscripten],
    [`update_libcxxabi.py`][update_libcxxabi_emscripten],
    [`update_libunwind.py`][update_libunwind_emscripten] for that. For example,
    ```
    ./system/lib/update_comiler_rt.py <Emscripten's LLVM fork directory>
    ```
    (The library branch should be checked out in your Emscripten's LLVM fork
    directory.)
    An example of such PR is emscripten-core/emscripten#19515.


 ## Updating musl

 We maintain our musl in
 https://github.com/emscripten-core/emscripten/tree/main/system/lib/libc/musl.
 We maintain a fork of musl in https://github.com/emscripten-core/musl for
 updates and periodically update it to a newer version.

 The process for updating musl is similar to that of updating the LLVM libraries.
 To update our libraries to a newer musl release:

 1. If you are updating an existing branch the first step is to run
    [`push_musl_changes.py`][push_musl_changes_emscripten] to make sure the
    current branch is up-to-date with the current emscripten codebase.

    If you are creating a new branch, first make sure the previous/existing
    branch is up-to-date using
    [`push_musl_changes.py`][push_musl_changes_emscripten]. Then
    create the new branch and cherry-pick all the emscripten-specific changes
    from the old branch, resolving any conflicts that might arise.
 1. Create a PR to merge new mrelease tag in the upstream repo into our new
    library branch. For example, if we want to merge musl's `v1.2.4` tag into our
    `merge-v1.2.4` branch, you can do
    ```
    git co merge-v1.2.4
    git remote add upstream git://git.musl-libc.org/musl
    git fetch --tags upstream
    git merge v1.2.4
    ```
 1. Now we have merged all the changes to our musl fork branch, pull those
    changes with the new version back into the Emscripten repo. You can use
    [`update_musl.py`][update_musl_emscripten] for that.


 ## Deprecating settings and features

 Emscripten has a lot of settings and features which makes combinatorial testing
 practically unfeasible.  In order to manage the complexity and reduce
 technical debt we constantly strive to deprecate and remove settings and features
 that are no longer in use.

 In order to manage these deprecations in a way that minimizes user impact and
 unintended consequences we have designed the following process.  A primary
 purpose of this process is to engage with the user community in order to assess
 the impact of removing a given feature.  At any point in the process we could
 decide collectively to abandon the deprecation, or to delay it.

 1. Create an "Intent to deprecate" bug for the setting or feature.

 2. Send a message to the emscripten-discuss mailing with the title `[PSA] Indent
    to deprecate XXX` where `XXX` is the name of the feature or setting in
    question.  Please include a link to the bug created above.

 3. If possible, update emscripten such that it will generate a `deprecated`
    warning when the feature is used.  For settings this is normally as simple
    as adding it to `DEPRECATED_SETTINGS` in `settings.py`.

 4. Perform a [global search][global_github_search] of public GitHub repositories
    for usage of the feature.  If you work for a company with a large internal
    codebase (e.g. Google) please also search globally there.

 5. Feedback from steps (2), (3) and (4) should be summarized in the bug where
    discussions about the impact of deprecation can then proceed.

 6. After at least 4 emscripten releases, or 2 months (whichever is shorter) a
    final decision on the deprecation may be agreed upon.  The final decision
    will be made by the Emscripten maintainers.

 7. If the decision is to proceed the feature can then be removed.   If the
    decision goes the other way the deprecation warning should be removed.   When
    the feature is removed, it should, where possible, continue to be detected
    by the code so that users of the old feature see an actionable message.  An
    entry in `ChangeLog.md` should also be added.

 [site_repo]: https://github.com/kripken/emscripten-site
 [releases_repo]: https://chromium.googlesource.com/emscripten-releases
 [waterfall]: https://ci.chromium.org/p/emscripten-releases/g/main/console
 [emscripten_version]: https://github.com/emscripten-core/emscripten/blob/main/emscripten-version.txt
 [changelog]: https://github.com/emscripten-core/emscripten/blob/main/ChangeLog.md
 [create_release_emsdk]: https://github.com/emscripten-core/emsdk/blob/main/scripts/create_release.py
 [create_release_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/tools/maint/create_release.py
 [emscripten_releases_tags]: https://github.com/emscripten-core/emsdk/blob/main/emscripten-releases-tags.json
 [DEPS]: https://chromium.googlesource.com/emscripten-releases/+/refs/heads/main/DEPS
 [DEPS.tagged-release]: https://chromium.googlesource.com/emscripten-releases/+/refs/heads/main/DEPS.tagged-release
 [emsdk_tags]: https://github.com/emscripten-core/emsdk/tags
 [emscripten_tags]: https://github.com/emscripten-core/emscripten/tags
 [clang-format]: https://github.com/emscripten-core/emscripten/blob/main/.clang-format
 [pyproject.toml]: https://github.com/emscripten-core/emscripten/blob/main/pyproject.toml
 [mypy]: https://github.com/emscripten-core/emscripten/blob/main/.mypy
 [update_docs]: https://github.com/emscripten-core/emscripten/blob/main/tools/maint/update_docs.py
 [llvm_repo]: https://github.com/llvm/llvm-project
 [llvm_emscripten_fork]: https://github.com/emscripten-core/llvm-project
 [push_llvm_changes_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/push_llvm_changes.py
 [push_musl_changes_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/push_musl_changes.py
 [update_compiler_rt_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_compiler_rt.py
 [update_libcxx_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_libcxx.py
 [update_libcxxabi_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_libcxxabi.py
 [update_libunwind_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_libunwind.py
 [update_musl_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_musl.py
 [global_github_search]: https://github.com/search?q=%2F%28%3F-i%29%5CbMY_SETTING%5Cb%2F+-org%3Aemscripten-core+-path%3Aemcc.*+-path%3Asettings.*+-path%3Asettings_reference.*&type=code
	# Development Processes

	More information can be found in the [Contribution
	section](https://emscripten.org/docs/contributing/contributing.html) of the
	webside.

	## Landing PRs

	* Even after the code of a PR is approved, it should only be landed if the
	CI on github is green, or the failures are known intermittent things
	(with very strong reason to think they unrelated to the current PR).
	* If you see an approved PR of someone without commit access (that either
	you or someone else approved), land it for them (after checking CI as
	mentioned earlier).
	* If you approve a PR by someone with commit access, if there is no urgency
	then leave it for them to land. (They may have other PRs to land alongside
	it, etc.)
	* It is strongly recommended to land PRs with github's "squash" option, which
	turns the PR into a single commit. This makes sense if the PR is small,
	which is also strongly recommended. However, sometimes separate commits may
	make more sense, if and only if:
	* The PR is not easily separable into a series of small PRs (e.g., review
	must consider all the commits, either because the commits are hard to
	understand by themselves, or because review of a later PR may influence
	an earlier PR's discussion).
	* The individual commits have value (e.g., they are easier to understand
	one by one).
	* The individual commits are compatible with bisection (i.e., all tests
	should pass after each commit).
	When landing multiple commits in such a scenario, use the "rebase" option,
	to avoid a merge commit.
	* Add `NFC` to the end of the PR title for Non-Functional Changes (i.e.,
	changes that do not add/modify functionality, such as internal refactoring).
	* Add a `[prefix]` to start of the PR title to signify the subsystem or area
	that the PR targets. e.g. `[test] Update foo test` or `[ports] Fix zlib port`

	## Coding Style

	### C/C++ Code

	When writing new C/C++ in emscripten follow the LLVM style (as does binaryen).
	You can use `clang-format` to automatically format new code (and `git
	clang-format origin/main` to format just the lines you are changing).
	See [`.clang-format`][clang-format] for more details.

	When editing third party code such (e.g. musl, libc++) follow the upstream
	conventions.

	### JavaScript Code

	We use the same LLVM-based style as for C/C++. Sadly, `clang-format` doesn't
	always work well with our library code since it can use custom macros and
	pre-processor. See [`.clang-format`][clang-format] for more details.

	### Python Code

	We generally follow the pep8 standard with the major exception that we use 2
	spaces for indentation. `ruff` is run on all PRs to ensure that Python code
	conforms to this style. See [`pyproject.toml`][pyproject.toml] for more details.

	#### Static Type Checking

	We are beginning to use python3's type annotation syntax, along with the `mypy`
	tool to check python types statically. See [`.mypy`][mypy] for more details.

	The goal is to one day check all type by running `mypy` with
	`--disallow-untyped-defs`, but this is happening incrementally over time.

	# Release Processes

	## Minor version updates (1.X.Y to 1.X.Y+1)

	When:

	* Such an update ensures we clear the cache, so it should be done when required
	(for example, a change to libc or libc++).
	* The emsdk compiled versions are based on the version number, so periodically
	we can do this when we want a new precompiled emsdk version to be available.

	Requirements:

	* [emscripten-releases build CI][waterfall] is green on all OSes for the
	desired hash (where the hash is the git hash in the
	[emscripten-releases][releases_repo] repo, which then specifies through
	[DEPS][DEPS] exactly which revisions to use in all other repos).
	* [GitHub CI](https://github.com/emscripten-core/emscripten/branches) is green
	on the `main` branch for the emscripten commit referred to in [DEPS][DEPS].

	How:

	1. Pick a version for a release and make sure it meets the requirements above.
	Let this version SHA be `<non-LTO-sha>`.
	1. If we want to do an LTO release as well, create a CL that copies [DEPS][DEPS]
	from <non-lto-sha> to [DEPS.tagged-release][DEPS.tagged-release] in
	[emscripten-releases][releases_repo] repo. When this CL is committed, let the
	resulting SHA be `<LTO-sha>`. An example of this CL is
	https://chromium-review.googlesource.com/c/emscripten-releases/+/3781978.
	After landing the CL, wait for a couple hours before proceeding because
	building and archiving for the new commit will take some time. Check
	https://ci.chromium.org/p/emscripten-releases/g/main/console to see if the
	commit has passed "Archive Binaries" phase for all three platforms and
	additionally "Archive Binaries (arm64)" for Mac.
	1. Run [`scripts/create_release.py`][create_release_emsdk] in the emsdk
	repository. When we do both an LTO and a non-LTO release, run:
	```
	./scripts/create_release.py <LTO-sha> <non-LTO-sha>
	```
	This will make the `<LTO-sha>` point to the versioned name release (e.g.
	`3.1.7`) and the `<non-LTO-sha>` point to the assert build release (e.g.
	`3.1.7-asserts`). When we do only a non-LTO release, run:
	```
	./scripts/create_release.py <non-LTO-sha>
	```
	This will make the `<non-LTO-sha>` point directly to the versioned name
	release (e.g. `3.1.7`) and there will be no assert build release. If we run
	[`scripts/create_release.py`][create_release_emsdk] without any arguments, it
	will automatically pick a tot version from
	[emscripten-releases][releases_repo] repo and make it point to the versioned
	name release. Running this
	[`scripts/create_release.py`][create_release_emsdk] script will update
	[emscripten-releases-tags.json][emscripten_releases_tags], adding a new
	version. The script will create a new local git branch and push it up to
	``origin``. An example of this PR is emscripten-core/emsdk#1071.
	1. [Tag][emsdk_tags] the `emsdk` repo with the new version number, on the commit
	that does the update, after it lands on main.
	1. [Tag][emscripten_tags] the `emscripten` repo with the new version number, on
	the commit referred to in the [DEPS][DEPS] (or DEPS.tagged-release) file
	above.
	1. Run the [`tools/maint/create_release.py`][create_release_emscripten]
	tool in the emscripten repo to update
	[`emscripten-version.txt`][emscripten_version] and
	[`ChangeLog.md`][changelog]. An example of such PR is
	emscripten-core/emscripten#17439.

	## Major version update (1.X.Y to 1.(X+1).0)

	When:

	* We should do such an update when we have a reasonable assurance of stability.

	Requirements:

	* All the requirements for a minor update.
	* No major change recently landed.
	* No major recent regressions have been filed.
	* All tests pass locally for the person doing the update, including the main
	test suite (no params passed to `runner.py`), `other`, `browser`, `sockets`,
	`sanity`, `binaryen*`. (Not all of those are run on all the bots.)
	* A minor version was recently tagged, no major bugs have been reported on it,
	and nothing major landed since it did. (Bugs are often only found on tagged
	versions, so a big feature should first be in a minor version update before
	it is in a major one.)

	How:

	1. Follow the same steps for a minor version update.


	## Updating the `emscripten.org` Website

	The site is currently hosted in `gh-pages` branch of the separate [site
	repository][site_repo]. To update the docs, rebuild them and copy them into
	this repository. There is a script that will perform these steps automatically:
	[`tools/maint/update_docs.py`][update_docs]. Just run this script with no
	arguments if the emscripten-site repository is checked out alongside emscripten
	itself, or pass the location of the checkout if not.

	You will need the specific sphinx version installed, which you can do using
	`pip3 install -r requirements-dev.txt` (depending on your system, you may then
	need to add `~/.local/bin` to your path, if pip installs to there).


	### Building and viewing the Website locally

	To build the site locally for testing purposes you only need a subset of the
	`update_docs.py` command just mentioned above. Specifically:

	1. Run `pip3` to install python dependencies, as described above.
	2. Run `make -C site html`.
	3. Run a local webserver on the outout of that command, e.g.,
	`python3 -m http.server 8000 -d site/build/html`.
	4. Browse to `http://localhost:8000/` (assuming you use port 8000 as above).


	## Updating the `emcc.py` help text

	`emcc --help` output is generated from the main documentation under `site/`,
	so it is the same as shown on the website, but it is rendered to text. After
	updating `emcc.rst` in a PR, the following should be done:

	1. In your emscripten repo checkout, enter `site`.
	2. Run `make clean` (without this, it may not emit the right output).
	2. Run `make text`.
	3. Copy the output `build/text/docs/tools_reference/emcc.txt` to
	`../docs/emcc.txt` (both paths relative to the `site/` directory in
	emscripten that you entered in step 1), and add that change to your PR.

	See notes above on installing sphinx.


	## Updating the LLVM libraries

	We maintain our ports of compiler-rt, libcxx, libcxxabi, and libunwind under
	https://github.com/emscripten-core/emscripten/tree/main/system/lib from
	[the upstream LLVM repository][llvm_repo] and periodically update them to a newer
	version when a new LLVM release comes out.

	We maintain [a fork of LLVM][llvm_emscripten_fork] for library updates, where we
	create a branch for each new LLVM major release. For example, the branch for
	LLVM 16 is
	https://github.com/emscripten-core/llvm-project/tree/emscripten-libs-16. We
	create a new branch for a major version update and reuse the existing branch for
	a minor version update. We mostly do updates per LLVM major release.

	To update our libraries to a newer LLVM release:

	1. If you are updating an existing branch the first step is to run
	[`push_llvm_changes.py`][push_llvm_changes_emscripten] to make sure the
	current branch is up-to-date with the current emscripten codebase.
	```
	./system/lib/push_llvm_changes.py <Emscripten's LLVM fork directory>
	```
	(The existing library branch should be checked out in your Emscripten's LLVM
	fork directory.)
	An example of such PR is emscripten-core/llvm-project#5.

	If you are creating a new branch, first make sure the previous/existing
	branch is up-to-date using
	[`push_llvm_changes.py`][push_llvm_changes_emscripten]. Then
	create the new branch and cherry-pick all the emscripten-specific changes
	from the old branch, resolving any conflicts that might arise.

	In either case, once that branch is up-to-date use the update scripts to copy
	the llvm branch contents into the emscripten tree. Its important in both
	cases to run [`push_llvm_changes.py`][push_llvm_changes_emscripten] first to
	ensure that no emscripten changes are lost in the process.
	1. Create a PR to merge new LLVM release tag in the upstream repo into our new
	library branch. For example, if we want to merge `llvmorg-16.0.6` tag into
	our `emscripten-libs-16` branch, you can do
	```
	git co emscripten-libs-16
	git remote add upstream git@github.com:llvm/llvm-project.git
	git fetch --tags upstream
	git merge llvmorg-16.0.6
	```
	An example of such PR is emscripten-core/llvm-project#3.
	1. Now we have merged all the changes to our LLVM fork branch, pull those
	changes with the new version back into the Emscripten repo. You can use
	[`update_compiler_rt.py`][update_compiler_rt_emscripten],
	[`update_libcxx.py`][update_libcxx_emscripten],
	[`update_libcxxabi.py`][update_libcxxabi_emscripten],
	[`update_libunwind.py`][update_libunwind_emscripten] for that. For example,
	```
	./system/lib/update_comiler_rt.py <Emscripten's LLVM fork directory>
	```
	(The library branch should be checked out in your Emscripten's LLVM fork
	directory.)
	An example of such PR is emscripten-core/emscripten#19515.


	## Updating musl

	We maintain our musl in
	https://github.com/emscripten-core/emscripten/tree/main/system/lib/libc/musl.
	We maintain a fork of musl in https://github.com/emscripten-core/musl for
	updates and periodically update it to a newer version.

	The process for updating musl is similar to that of updating the LLVM libraries.
	To update our libraries to a newer musl release:

	1. If you are updating an existing branch the first step is to run
	[`push_musl_changes.py`][push_musl_changes_emscripten] to make sure the
	current branch is up-to-date with the current emscripten codebase.

	If you are creating a new branch, first make sure the previous/existing
	branch is up-to-date using
	[`push_musl_changes.py`][push_musl_changes_emscripten]. Then
	create the new branch and cherry-pick all the emscripten-specific changes
	from the old branch, resolving any conflicts that might arise.
	1. Create a PR to merge new mrelease tag in the upstream repo into our new
	library branch. For example, if we want to merge musl's `v1.2.4` tag into our
	`merge-v1.2.4` branch, you can do
	```
	git co merge-v1.2.4
	git remote add upstream git://git.musl-libc.org/musl
	git fetch --tags upstream
	git merge v1.2.4
	```
	1. Now we have merged all the changes to our musl fork branch, pull those
	changes with the new version back into the Emscripten repo. You can use
	[`update_musl.py`][update_musl_emscripten] for that.


	## Deprecating settings and features

	Emscripten has a lot of settings and features which makes combinatorial testing
	practically unfeasible. In order to manage the complexity and reduce
	technical debt we constantly strive to deprecate and remove settings and features
	that are no longer in use.

	In order to manage these deprecations in a way that minimizes user impact and
	unintended consequences we have designed the following process. A primary
	purpose of this process is to engage with the user community in order to assess
	the impact of removing a given feature. At any point in the process we could
	decide collectively to abandon the deprecation, or to delay it.

	1. Create an "Intent to deprecate" bug for the setting or feature.

	2. Send a message to the emscripten-discuss mailing with the title `[PSA] Indent
	to deprecate XXX` where `XXX` is the name of the feature or setting in
	question. Please include a link to the bug created above.

	3. If possible, update emscripten such that it will generate a `deprecated`
	warning when the feature is used. For settings this is normally as simple
	as adding it to `DEPRECATED_SETTINGS` in `settings.py`.

	4. Perform a [global search][global_github_search] of public GitHub repositories
	for usage of the feature. If you work for a company with a large internal
	codebase (e.g. Google) please also search globally there.

	5. Feedback from steps (2), (3) and (4) should be summarized in the bug where
	discussions about the impact of deprecation can then proceed.

	6. After at least 4 emscripten releases, or 2 months (whichever is shorter) a
	final decision on the deprecation may be agreed upon. The final decision
	will be made by the Emscripten maintainers.

	7. If the decision is to proceed the feature can then be removed. If the
	decision goes the other way the deprecation warning should be removed. When
	the feature is removed, it should, where possible, continue to be detected
	by the code so that users of the old feature see an actionable message. An
	entry in `ChangeLog.md` should also be added.

	[site_repo]: https://github.com/kripken/emscripten-site
	[releases_repo]: https://chromium.googlesource.com/emscripten-releases
	[waterfall]: https://ci.chromium.org/p/emscripten-releases/g/main/console
	[emscripten_version]: https://github.com/emscripten-core/emscripten/blob/main/emscripten-version.txt
	[changelog]: https://github.com/emscripten-core/emscripten/blob/main/ChangeLog.md
	[create_release_emsdk]: https://github.com/emscripten-core/emsdk/blob/main/scripts/create_release.py
	[create_release_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/tools/maint/create_release.py
	[emscripten_releases_tags]: https://github.com/emscripten-core/emsdk/blob/main/emscripten-releases-tags.json
	[DEPS]: https://chromium.googlesource.com/emscripten-releases/+/refs/heads/main/DEPS
	[DEPS.tagged-release]: https://chromium.googlesource.com/emscripten-releases/+/refs/heads/main/DEPS.tagged-release
	[emsdk_tags]: https://github.com/emscripten-core/emsdk/tags
	[emscripten_tags]: https://github.com/emscripten-core/emscripten/tags
	[clang-format]: https://github.com/emscripten-core/emscripten/blob/main/.clang-format
	[pyproject.toml]: https://github.com/emscripten-core/emscripten/blob/main/pyproject.toml
	[mypy]: https://github.com/emscripten-core/emscripten/blob/main/.mypy
	[update_docs]: https://github.com/emscripten-core/emscripten/blob/main/tools/maint/update_docs.py
	[llvm_repo]: https://github.com/llvm/llvm-project
	[llvm_emscripten_fork]: https://github.com/emscripten-core/llvm-project
	[push_llvm_changes_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/push_llvm_changes.py
	[push_musl_changes_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/push_musl_changes.py
	[update_compiler_rt_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_compiler_rt.py
	[update_libcxx_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_libcxx.py
	[update_libcxxabi_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_libcxxabi.py
	[update_libunwind_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_libunwind.py
	[update_musl_emscripten]: https://github.com/emscripten-core/emscripten/blob/main/system/lib/update_musl.py
	[global_github_search]: https://github.com/search?q=%2F%28%3F-i%29%5CbMY_SETTING%5Cb%2F+-org%3Aemscripten-core+-path%3Aemcc.+-path%3Asettings.+-path%3Asettings_reference.*&type=code