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On the official website of gobject, we can read:

GObject, and its lower-level type system, GType, are used by GTK+ and most GNOME libraries to provide:

  • object-oriented C-based APIs and
  • automatic transparent API bindings to other compiled or interpreted languages

The first part seems clear to me but not the second one.

Indeed, when talking about gobject and binding, the concept introduced is often gobject-intropspection, but as far as I understand, gobject-introspection can be used to create .gir and .typelib for any documented C library, not only for gobject-based library.

Therefore I wonder what makes gobject particularly binding-friendly.

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as far as I understand, gobject-introspection can be used to create .gir and .typelib for any documented C library, not only for gobject-based library.

That's not really true in practice. You can do some very basic stuff, but you have to write the GIR by hand (instead of just running a program which scans the source code). The only ones I'm aware of are those distributed with gobject-introspection (the *.gir files, the *.c files there are to avoid cyclical dependencies), and even those are generally only a fairly small subset of the C API.

As for other features, almost everything in GObject helps… the basic idea is that bindings often need RTTI. There are types like GValue (a simple box to store a value + type information), GClosure (for callbacks), properties and signals describe themselves with GTypes, etc. If you use GObjects (instead of creating a new fundamental type) you get run-time data about inheritance and interfaces, and GObject's odd construction scheme even allows other languages to subclass types declared in C.

The reason g-ir-scanner can't really do much on non-GObject libraries is that all that information is missing. After scanning the source code looking for annotations, g-ir-scanner will actually load the compiled module and use GObject's API to grab this information (which makes cross-compiling painful). In other words, GObject-Introspection is a much smaller project than you think… a huge percentage of the data it needs it gets from the GObject API.

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  • Thanks, I did not know that g-ir-scanner was using GObject this way. As for RTTI, is this really useful for a non-interpreted language ? It is used successfully in PyGObject for instance, but does it make sense in a compiled language ?
    – eponier
    Feb 14, 2017 at 12:30
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    This makes more sense if you s/interpreted/dynamically typed/. But the answer is yes; it's definitely more useful when you don't have static type information, but there are lots of cases in C where you can avoid rewriting the same code over and over by using something like GValue, or adding a GType parameter.
    – nemequ
    Feb 14, 2017 at 17:50
  • Could you give an example illustrating your last sentence please ?
    – eponier
    Feb 14, 2017 at 22:19
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    The first one which comes to mind, I don't know why, is APIs like prepared statements for databases, or parsing data formats (think json). Wouldn't you like to avoid having a set_int, set_uint(unsigned int value), set_double(double), set_string(char*), set_data(uint8_t*), etc. for every level of your API, or would you rather just have a single set_value(GValue* value)? How about something like GBinding (developer.gnome.org/gobject/stable/GBinding.html)? If you're familiar with languages with generics or templates, basically any time you would use one of those.
    – nemequ
    Feb 15, 2017 at 2:11

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