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I'm writing a tiny kernel with c++11 and have two instances with the same type which have to be constructed before any other static objects are created.

The code I wrote is as follows:

// test.hpp
class test {
  // blahblah...
};

// test.cpp
typedef char fake_inst[sizeof(test)] __attribute__((aligned(alignof(test))));

fake_inst inst1;
fake_inst inst2;

// main.cpp
extern test inst1;
extern test inst2;

int kmain() {
    // copy data section

    // initialize bss section

    new (&inst1) test();
    new (&inst2) test();

    // call constructors in .init_array

    // kernel stuffs
}

It builds and works as expected without no warning messages, but not with LTO.

I get tons of warning messages complaining the type matching and I wonder if there's a workaround since it confuses me to find the other 'real' warning or error messages.

Any suggestion?

share|improve this question
    
What are you really trying to do? In the comments to Pubby's answer below you say you want to initialize several objects of the same type. To me, it seems you would want to initialize structures relating to C++ support, such as the heap, before letting the implementation call other constructors. But that doesn't sound like what you're attempting. Also, what kind of "type matching" do you get warnings about? –  Potatoswatter Mar 17 '12 at 9:24
    
@Potatoswatter a lot of warning: type of ‘xxx’ does not match original declaration [enabled by default] things. It's because the actual type is not test but char[]. I thought I could disable static constructor but seems there's no way to do it. –  kukyakya Mar 17 '12 at 10:37
    
Ah, I see. What you should do is char fake_inst1[ sizeof (test) ]; test *const inst1 = reinterpet_cast< test * >( fake_inst1 ); –  Potatoswatter Mar 17 '12 at 11:44
    
The way to disable the static constructor is to put the variable in a wrapper function. The constructor will be called only the first time the wrapper is called. This is very idiomatic and always preferred over putting a global at namespace scope. However, in your case you need to make sure the multithreading operations used to implement the "only the first time" functionality are supported at the time this runs. –  Potatoswatter Mar 17 '12 at 11:48
    
Regardless to whether you find a way to suppress your warnings or not, this is IMHO the only really correct way to deal with global/static objects with non-trivial c'tor/d'tor. This way not only you control their initialization/destruction order, but also have the actual control of the program flow. For instance, you may throw exceptions from their initialization code and catch them appropriately. And all this without compromising the performance. –  valdo Mar 17 '12 at 15:13
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4 Answers

up vote 0 down vote accepted

Perhaps like this?

// ... .h
template<typename T>
union FakeUnion {
  FakeUnion() {}
  ~FakeUnion() {}

  T inst;
};

extern FakeUnion<test> inst1_;
extern FakeUnion<test> inst2_;
static constexpr test& inst1 = inst1_.inst;
static constexpr test& inst2 = inst2_.inst;
// ... .h end

// ... .cpp
FakeUnion<test> inst1_;
FakeUnion<test> inst2_;
// ... .cpp end

Within main, you can then say new (&inst1) test;. It should not give warnings about type inconsistency violations anymore now, because unlike in your code, this code does not contain variables that have different types in different files.

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While this does solve the name conflict, it does not ensure that the constructor of inst1 and inst2 are called before any other. –  Matthieu M. Mar 17 '12 at 15:52
    
@Matt if he calls them in main with placement new, it does ensure so if all other ctors are called after main in a controlled manner. –  Johannes Schaub - litb Mar 17 '12 at 18:03
    
Can you advice on what is the "magic" happening here? I.e. why do we need an union and why does the union have ctor/dtor? –  Farcaller Nov 11 '13 at 16:13
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C++ does not offer you ways to manage the order of initialization for global objects across multiple files. If you need to manage the order of initialization of these objects this tightly, then I would strongly advise you to not make them global objects. Make them global functions that contain static objects and return pointers to them.

But even then, that's less dangerous than full-on manual initialization. Just make a few pointers to those objects available to those who need them (preferably not globally), and you'll be fine.

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I considered using global functions returning the reference or pointer to function-scope static objects but the compiler generates acquire/release things to create the instance and the acquire/release stuffs are implemented with kernel mutex, which can't be used in the kernel initialization. –  kukyakya Mar 17 '12 at 9:02
    
@kukyakya: Then you're going to have to initialize these objects manually. That's the only way to be sure without kernel mutexes. –  Nicol Bolas Mar 17 '12 at 9:08
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Could you use GCC's init_priority attribute?

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

http://gcc.gnu.org/onlinedocs/gcc/C_002b_002b-Attributes.html#C_002b_002b-Attributes

share|improve this answer
    
I've read about that but it's hard to manage the order of constructors since the priority things are spread over the source files. –  kukyakya Mar 17 '12 at 7:12
    
@kukyakya so the issue is initializing the two objects first, or ordering all global constructors in general? –  Potatoswatter Mar 17 '12 at 8:47
    
@Potatoswatter Actually it's not about just two instances, but more than one instances for the same type, so I can't use singleton pattern. The other static objects' construction order doesn't matter. –  kukyakya Mar 17 '12 at 8:59
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// in an .h file

typedef char fake_inst[sizeof(test)] __attribute__((aligned(__alignof__(test))));

extern fake_inst fake_inst1;
extern fake_inst fake_inst2;

inline test& f_inst1() { return *reinterpret_cast<test*>(fake_inst1); }
inline test& f_inst2() { return *reinterpret_cast<test*>(fake_inst2); }

// and for readability

static test& inst1 (f_inst1());
static test& inst2 (f_inst2());

Hopefully both inst1 and f_inst1() will be optimized out.

share|improve this answer
    
This is exactly the way i'm using, but I wonder if there is a neater way. I want global objects like std::cout or std::cin because it seems more readable than instance returning function. –  kukyakya Mar 17 '12 at 9:06
    
See updated version. –  n.m. Mar 17 '12 at 15:02
    
maybe try a global reference variable, initialized to the retval of inst1? This is also optimized (in msvc) –  valdo Mar 17 '12 at 15:14
    
The problem with global variables is their init order, which is what we're trying to solve... –  n.m. Mar 17 '12 at 15:59
    
@n.m.: correct point. But in this particular case it's ok. The reference itself is a global variable, which is initialized before main to the placeholder. –  valdo Mar 17 '12 at 17:16
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