You may have just now noticed that the GNOME developers documentation website has changed after 15 years. You may also have noticed that it contains drastically less content than it used to. Before you pick up torches and pitchforks, let me give you a short tl;dr of the changes:

• Yes, this is entirely intentional
• Yes, I know that stuff has been moved
• Yes, I know that old URLs don’t work
• Yes, some redirections will be put in place
• No, we can’t go back

So let’s recap a bit the state of the developers documentation website in 2021, for those who weren’t in attendance at my GUADEC 2021 presentation:

• library-web is a Python application, which started as a Summer of Code project in 2006, whose job was to take Autotools release tarballs, explode them, fiddle with their contents, and then publish files on the gnome.org infrastructure.
• library-web relies heavily on Autotools and gtk-doc.
• library-web does a lot of pre-processing of the documentation to rewrite links and CSS from the HTML files it receives.
• library-web is very much a locally sourced, organic, artisanal pile of hacks that revolve very much around the GNOME infrastructure from around 2007-2009.
• library-web is incredibly hard to test locally, even when running inside a container, and the logging is virtually non-existent.
• library-web is still running on Python 2.
• library-web is entirely unmaintained.

That should cover the infrastructure side of things. Now let’s look at the content.

The developers documentation is divided in four sections:

• a platform overview
• the Human Interface guidelines
• guides and tutorials
• API references

The platform overview is slightly out of date; the design team has been reviewing the HIG and using a new documentation format; the guides and tutorials still like GTK1 and GTK2 content; or how to port GNOME 2 applications to GNOME 3; or how to write a Metacity theme.

This leaves us with the API references, which are a grab bag of miscellaneous things, listed by version numbers. Outside of the C API documentation, the only other references hosted on developer.gnome.org are the C++ bindings—which, incidentally, use Doxygen and when they aren’t broken by library-web messing about with the HTML, they have their own franken-style mash up of gtkmm.org and developer.gnome.org.

Why didn’t I know about this?

If you’re asking this question, allow me to be blunt for a second: the reason you never noticed that the developers documentation website was broken is that you never actually experienced it for its intended use case. Most likely, you either just looked in a couple of well known places and never ventured outside of those; and/or you are a maintainer, and you never literally cared how things worked (or didn’t work) after you uploaded a release tarball somewhere. Like all infrastructure, it was somebody else’s problem.

I completely understand that we’re all volunteers, and that things that work can be ignored because everyone has more important things to think about.

Sadly, things change: we don’t use Autotools (that much), which means release archives do not contain the generated documentation any more; this means library-web cannot be updated, unless somebody modifies the configuration to look for a separate documentation tarball that the maintainer has to generate manually and upload in a magic location on the gnome.org file server—this has happened for GTK4 and GLib for the past two years.

Projects change the way they lay out the documentation, or gtk-doc changes something, and that causes library-web to stop extracting the right files; you can look at the ATK reference for the past year and a half for an example.

Projects bump up their API, and now the cross-referencing gets broken, like the GTK3 pages linking GDK2 types.

Finally, projects decide to change how their documentation is generated, which means that library-web has no idea how to extract the HTML files, or how to fiddle with them.

If you’re still using Autotools and gtk-doc, and haven’t done an API bump in 15 years, and all you care about is copying a release archive to the gnome.org infrastructure I’m sure all of this will come as a surprise, and I’m sorry you’re just now being confronted with a completely broken infrastructure. Sadly, the infrastructure was broken for everybody else long before this point.

What did you do?

I tried to make library-web deal with the changes in our infrastructure. I personally built and uploaded multiple versions of the documentation for GLib (three different archives for each release) for a year and a half; I configured library-web to add more “extra tarball” locations for various projects; I tried making library-web understand the new layout of various projects; I even tried making library-web publish the gi-docgen references used by GTK, Pango, and other projects.

Sadly, every change broke something else—and I’m not just talking about the horrors of the code base. As library-web is responsible for determining the structure of the documentation, any change to how the documentation is handled leads to broken URLs, broken links, or broken redirections.

The entire castle of cards needed to go.

Which brings us to the plan.

What are you going to do?

Well, the first step has been made: the new developer.gnome.org website does not use library-web. The content has been refreshed, and more content is on the way.

Again, this leaves the API references. For those, there are two things that need to happen—and are planned for GNOME 41:

1. all the libraries that are part of the GNOME SDK run time, built by gnome-build-meta must also build their documentation, which will be published as part of the org.gnome.Sdk.Docs extension; the contents of the extension will also be published online.
2. every library that is hosted on gnome.org infrastructure should publish their documentation through their CI pipeline; for that, I’m working on a CI template file and image that should take care of the easy projects, and will act as model for projects that are more complicated.

I’m happy to guide maintainers to deal with that, and I’m also happy to open merge requests on various projects.

In the meantime, the old documentation is still available as a static snapshot, and the sysadmins are going to set up some redirections to bridge us from the old platform to the new—and hopefully we’ll soon be able to redirect to each project’s GitLab pages.

Can we go back, please?

Sadly, since nobody has ever bothered picking up the developers documentation when it was still possible to incrementally fix it, going back to a broken infrastructure isn’t going to help anybody.

We also cannot keep the old developer.gnome.org and add a new one, of course; now we’d have two websites, one of which broken and unmaintained and linked all over the place, and a new one that nobody knows exists.

The only way is forward, for better or worse.

What about Devhelp

Some of you may have noticed that I picked up the maintenance of Devhelp, and landed a few fixes to ensure that it can read the GTK4 documentation. Outside of some visual refresh for the UI, I also am working on making it load the contents of the org.gnome.Sdk.Docs run time extension, which means it’ll be able to load all the core API references. Ideally, we’re also going to see a port to GTK4 and libadwaita, as soon as WebKitGTK for GTK4 is more wideley available.

The type system at the base of our platform, GType, has various kinds of derivability:

• simple derivability, where you’re allowed to create your derived version of an existing type, but you cannot derive your type any further;
• deep derivability, where you’re allowed to derive types from other types;

An example of the first kind is any type inheriting from GBoxed, whereas an example of the second kind is anything that inherits from GTypeInstance, like GObject.

Additionally, any derivable type can be marked as abstract; an abstract type cannot be instantiated, but you can create your own derived type which may or may not be “concrete”. Looking at the GType reference documentation, you’ll notice various macros and flags that exist to implement this functionality—including macros that were introduced to cut down the boilerplate necessary to declare and define new types.

The G_DECLARE_* family of macros, though, introduced a new concept in the type system: a “final” type. Final types are leaf nodes in the type hierarchy: they can be instantiated, but they cannot be derived any further. GTK 4 makes use of this kind of types to nudge developers towards composition, instead of inheritance. The main problem is that the concept of a “final” type is entirely orthogonal to the type system; there’s no way to programmatically know that a type is “final”—unless you have access to the introspection data and start playing with heuristics about symbol visibility. This means that language bindings are unable to know without human intervention if a type can actually be inherited from or not.

In GLib 2.70 we finally plugged the hole in the type system, and we introduced the G_TYPE_FLAG_FINAL flag. Types defined as “final” cannot be derived any further: as soon as you attempt to register your new type that inherits from a “final” type, you’ll get a warning at run time. There are macros available that will let you define final types, as well.

Thanks to the “final” flag, we can also include this information into the introspection data; this will allow language bindings to warn you if you attempt at inheriting from a “final” type, likely using language-native tools, instead of getting a run time warning.

If you are using G_DECLARE_FINAL_TYPE in your code you should bump up your GObject dependency to 2.70, and switch your implementation from G_DEFINE_TYPE and friends to G_DEFINE_FINAL_TYPE.