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Example:

struct Foo { Foo() { printf("foo\n"); } };
static Foo foo;

__attribute__((constructor)) static void _bar() { printf("bar\n"); }

Is it deterministic wether foo or bar is printed first?

(I hope and would expect that constructors of static objects are always executed first but not sure and GCCs doc about the constructor attribute doesn't say anything about it.)

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Where do you use such kind of compiler features?? –  AlexTheo Dec 9 '11 at 15:47
    
@AlexTheo: That is quite common. See e.g. <codesearch.google.com/#search/…;. You usually use it everytime you want to initialize something. –  Albert Dec 9 '11 at 15:51
    
Actually I prefer something like static const bool _isInitialized and making an private initialization function with which I initialize my object like const bool MyClass::_isInitialized = initFunction(); But these is only for objects which I like initialize first of all. Otherwise constructor should do a job. –  AlexTheo Dec 9 '11 at 16:10
    
@AlexTheo That approach doesn't work in C. Sure you can use a constructor in C++, but this has the same effect as a static initializer in C. –  nevelis Sep 28 '12 at 6:08
    
@nevelis we are talking about c++!!! –  AlexTheo Sep 28 '12 at 10:24
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2 Answers

up vote 6 down vote accepted

foo will be printed first, as the objects are initialized in the order of their declarations. Run and see:

By the way, __attribute__((constructor)) is not Standard C++. It is GCC's extension. So the behavior of your program depends on how GCC has defined it. In short, it is implementation-defined, according to it foo is printed first.

The doc says,

The constructor attribute causes the function to be called automatically before execution enters main (). Similarly, the destructor attribute causes the function to be called automatically after main () has completed or exit () has been called. Functions with these attributes are useful for initializing data that will be used implicitly during the execution of the program.

You may provide an optional integer priority to control the order in which constructor and destructor functions are run. A constructor with a smaller priority number runs before a constructor with a larger priority number; the opposite relationship holds for destructors. So, if you have a constructor that allocates a resource and a destructor that deallocates the same resource, both functions typically have the same priority. The priorities for constructor and destructor functions are the same as those specified for namespace-scope C++ objects (see C++ Attributes).

I think the text in bold implies, the objects are initialized in the order of their declarations, as I said before, which is pretty much confirmed by online demo also.

I guess you would also like to read this:

If you want to control/alter the initialization order, you can use init_priority attribute, providing priority. Taken from the page:

Some_Class  A  __attribute__ ((init_priority (2000)));
Some_Class  B  __attribute__ ((init_priority (543)));

Here, B is initialized before A.

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Hm, all comments were deleted? How is that possible. So, here is my comment again: The interesting bit for me was this information together with the last link, esp. this: In Standard C++, objects defined at namespace scope are guaranteed to be initialized in an order in strict accordance with that of their definitions in a given translation unit. –  Albert Dec 8 '11 at 18:55
    
Actually, I just tested it on another example, and it doesn't seem to be the case there. –  Albert Dec 9 '11 at 14:01
    
@Albert: Post the code. The actual code, without changing it a bit. Also post the output you get. –  Nawaz Dec 9 '11 at 14:04
    
See my other answer. –  Albert Dec 9 '11 at 14:18
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It seems non-deterministic. I also had foo\nbar\n as the output of the example in my question when compiled with GCC. However, when compiled with LLVM/Clang, I get bar\nfoo\n.

But, as I'm not sure if this might be a bug in Clang, I filled a bug report here. Edit: I got an answer there and it seems to be really a bug in Clang which is not yet fixed. Not sure what to conclude from that. The expected and should-be behavior really is deterministic here, however, you can't depend on it as there is at least one major compiler (Clang) which does it wrong (or different than GCC, if we take that as the spec for __attribute__((constructor))).

Note that this can be really relevant and important in real world code. E.g. here is an example which seeds a random generator which fails with Clang.

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Delete this post. And edit your question, and post this to there. An answer should be an answer, not a question. –  Nawaz Dec 9 '11 at 14:29
    
@Nawaz: What do you mean? Why? This is an answer, my question is a question. If it isn't clear for you how this answer answer's the actual question: It basically says that it is undeterministic. –  Albert Dec 9 '11 at 14:31
    
Alright. How can you say it is non-deterministic, and how can you say this : "So, it seems that the constructor of rnd is executed after _rand_engine__init". Post some explanation also! –  Nawaz Dec 9 '11 at 14:36
    
I added another sentence for explanation, added some more printf in the code and also put it on GitHub. Is it clear now with my further explanation? –  Albert Dec 9 '11 at 15:03
    
Clang appears broken. Sometimes its silently broken (attribute init_priority), other times its loud and clear (attribute align). They really should stop saying they are GCC (Clang defines GNUC to 4). –  jww Sep 4 '13 at 1:29
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