Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I was looking for a good general-purpose library for C on top of the standard C library, and have seen several suggestions to use glib. How 'obtrusive' is it in your code? To explain what I mean by obtrusiveness, the first thing I noticed in the reference manual is the basic types section, thinking to myself, "what, am I going to start using gint, gchar, and gprefixing geverything gin gmy gcode gnow?"

More generally, can you use it only locally without other functions or files in your code having to be aware of its use? Does it force certain assumptions on your code, or constraints on your compilation/linking process? Does it take up a lot of memory in runtime for global data structures? etc.

share|improve this question
Could the close warriors please go back to trolling wikipedia for articles to delete rather than interfering with SO? This question is perfectly answerable, and there are plenty of reasonable ways to interpret "unobtrustive" such that the question has objective answers. –  R.. Jul 3 '13 at 15:54
Voting to reopen, we have plenty of C expertise on SO to answer a question like this with expertise rather than opinion, as evidenced by the extant answers. –  djechlin Jul 3 '13 at 16:06
add comment

3 Answers 3

up vote 2 down vote accepted

The most obtrustive thing about glib is that any program or library using it is non-robust against resource exhaustion. It unconditionally calls abort when malloc fails and there's nothing you can do to fix this, as the entire library is designed around the concept that their internal allocation function g_malloc "can't fail"

As for the ugly "g" types, you definitely don't need any casts. The types are 100% equivalent to the standard types, and are basically just cruft from the early (mis)design of glib. Unfortunately the glib developers lack much understanding of C, as evidenced by this FAQ:

Why use g_print, g_malloc, g_strdup and fellow glib functions?

"Regarding g_malloc(), g_free() and siblings, these functions are much safer than their libc equivalents. For example, g_free() just returns if called with NULL.

(Source: https://developer.gnome.org/gtk-faq/stable/x908.html)

FYI, free(NULL) is perfectly valid C, and does the exact same thing: it just returns.

share|improve this answer
Really? That's quite terrible. Would dynamically replacing abort() with something else help me? ... (or maybe I should think of doing those kinds of things.) –  einpoklum Jul 3 '13 at 13:08
No, because the code in glib is not prepared to get a NULL return value. The interface contract of g_malloc is that it never returns without succeeding, and the only way to meet this contract is by terminating the program if it doesn't succeed. In principle you could catch SIGABRT and longjmp out, but then you would leave the objects that were in the process of being manipulated in an indeterminate state, so any further access to them would be potentially dangerous. –  R.. Jul 3 '13 at 13:10
So, glib is out of the question then. Thanks :-( –  einpoklum Jul 3 '13 at 13:20
+1 for shattering my assumption that glib was written by C experts. –  djechlin Jul 3 '13 at 16:04
Yes. It's rather ironic that glib was originally designed as part of GIMP, which is just about the worst-possible program to have abort when malloc fails, and one where malloc is very likely to fail due to allocation of huge resources... –  R.. Jul 3 '13 at 16:13
add comment

Of course you can "forget about it elsewhere", unless of course those other places somehow interact with glib code, then there's a connection (and, arguable, you're not really "elsewhere").

You don't have to use the types that are just regular types with a prepended g (gchar, gint and so on); they're guaranteed to be the same as char, int and so on. You never need to cast to/from gint for instance.

I think the intention is that application code should never use gint, it's just included so that the glib code can be more consistent.

share|improve this answer
I'm not clear what you last sentence means... –  R.. Jul 3 '13 at 12:34
Thanks, I rewrote it. –  unwind Jul 3 '13 at 12:40
add comment

I have used GLib professionally for over 6 years, and have nothing but praise for it. It is very light-weight, with lots of great utilities like lists, hashtables, rand-functions, io-libraries, threads/mutexes/conditionals and even GObject. All done in a portable way. In fact, we have compiled the same GLib-code on Windows, OSX, Linux, Solaris, iOS, Android and Arm-Linux without any hiccups on the GLib side.

In terms of obtrusiveness, I have definitely "bought into the g", and there is no doubt in my mind that this has been extremely beneficial in producing stable, portable code at great speed. Maybe specially when it comes to writing advanced tests.

And if g_malloc don't suit your purpose, simply use malloc instead, which of course goes for all of it.

share|improve this answer
What about @R.'s claim in his [answer here]((stackoverflow.com/a/17448240/1593077), that glib, when malloc'ing on its own, assumes the allocation is successful and aborts when that is not the case? –  einpoklum Jul 4 '13 at 11:15
Also, as for "buying into the g", do you mean glib-oriented style necessitated by whoever is using your code, or just the fact that you use the library a lot yourself? If it's the former, then this is a problem for me, as I work in a group and am limited in what I can change in others' code. –  einpoklum Jul 4 '13 at 11:17
@HavardGraff: All of the glib functions internally use g_malloc to obtain memory. It doesn't matter if you abstain from using g_malloc directly; as long as you're using any function in glib that needs to allocate memory, it will call g_malloc, and then you're screwed. –  R.. Jul 5 '13 at 3:13
@R: Most of the internals uses the slice-allocator which is superior to malloc in most cases. And there is no universal truth to being "screwed" by calling abort when out of memory, it is a choice of implementation and opinions / requirements differs from writing hyper-defensive code to "fail early". Calling abort when out of memory is a contract you can choose to accept or not, and if you accept it, GLib is an excellent choice. (Saying GLib developers lacks knowledge of C is a very rude and flippant comment, not cool) –  Havard Graff Jul 5 '13 at 8:45
@HavardGraff: If calling various glib functions can abort() my process, then I am screwed. I need to write (among other things) apps or daemons which don't crash, period. And a general-purpose library cannot take the liberty of crashing the process. –  einpoklum Jul 5 '13 at 11:45
show 2 more comments

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.