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Thanks in advance. I'm now developing a plugin for a big system in C++. In my plugin I have some static variable. I find that when it is compiled in debug mode on Linux, it works fine without any problem. When it is compiled in RELEASE mode, namely some optimization is done by the compiler, then when I unload the plugin, the static variable is not deleted ( the destructor of the static variable class is never called.) so the memory is never released and next time when I reload the plugin, it causes the main program crash!

Can anybody explain me why the static variable is not destroyed when the plugin is unloaded? NOTE: the static variable is a static instance, not a pointer!

class MySettings
{
   public:
      static MySettings& Instance() {
         static MySettings theSingleton;
         return theSingleton;
      }

      virtual ~MySettings();
}

in the plugin somewhere, it is called like this

....
MySettings &s = MySettings::Instance();
s.xxx();
....

When I compiled and run in debug mode, I printed some information from the destructor, it looks like the instance is destructred properly, when the plugin is unpluged. But when I compile and run in release mode, the destructor is never called when the plugin is unpluged. I'm not the plugin manager developer, cannot tell too much about it. Thanks a lot for your help!

Here is the piece of code which loaded the plugin libs.

newLib._libHandle = ::dlopen(path_to_the_plugin_lib, RTLD_LAZY | RTLD_GLOBAL);
if(! newLib._libHandle) {
  cerr << "dlopen failed for: " << path << " - "
             << ::dlerror();
  return "";

I finally get it work. But still don't understand why. Here is what I did:

class MySettings
{
   public:
      static MySettings& Instance() {
         return theSingleton;
      }

   private:
      static MySettings theSingleton;
      virtual ~MySettings();
}

MySettings MySettins:theSingleton;

Sinece the application is very big with millions of lines of code. My doubt is that when gcc compiles in RELEASE mode, something goes wrong with the optimization.

share|improve this question
    
Do you want us to look at the source code or should we use our crystal balls? –  karlphillip Nov 30 '11 at 16:10
    
class MySettings { public: static MySettings& Instance() { static MySettings theSingleton; return theSingleton; } virtual ~MySettings(); –  user1073719 Nov 30 '11 at 16:17
    
Edit the question and add this information there! –  karlphillip Nov 30 '11 at 16:22
1  
That depends on how the plugin is loaded. Plugin for what? –  BЈовић Nov 30 '11 at 16:26
    
For testing purposes I would use a pointer instead of reference, and then delete it when the plugin is no longer needed. Is there any reason for you not be using a pointer? –  karlphillip Nov 30 '11 at 16:31

1 Answer 1

I've never tried this myself, the documentation seems to specify that static variables should be "reinitialized" upon reload. It's not at all obvious to me how that interacts with C++'s pre-main() hooks. You can try to understand that (check your vendor's documentation, or just open up the binary and look), but it's probably simpler to redesign. Some ideas:

If you can, get rid of your singletons. As mentioned in the comments, the industry consensus these days is that most of the time, the singleton pattern is more trouble than it's worth - as you are finding! In fairness, you wouldn't have this problem in Java or Ruby, but still.

If you're compiling with gcc, you may be able to register some hooks for "before dlopen() returns" and "after dlclose() is called". From the docs again:

...libraries should export routines using the __attribute__((constructor)) and __attribute__((destructor)) function attributes. See the gcc info pages for information on these. Constructor routines are executed before dlopen() returns, and destructor routines are executed before dlclose() returns."

I'm pretty sure this is gcc-specific; if you're not using gcc, your platform may offer something similar.

If you can't do that, try switching to the "initialize on first use" style of singleton implementation. The idea is to detect in Instance() whether your MySettings singleton has been created already, and create it first if it hasn't. Something like:

static MySettings* theSingleton = NULL;
if(theSingleton == NULL)
  theSingleton = new MySettings();
return *theSingleton;

Note that this version of Instance() is not thread-safe; if you want that you will have to go to some trouble. Also: theSingleton will never be deleted, so your problem will leak some memory/file descriptors/whatever every time your plugin is reloaded. Depending on what sorts of things you're keeping in MySettings, and how often you expect users to reload your plugin between process restarts, this may or may not be acceptable.

Hope this helps.

share|improve this answer
    
Thanks for the answer. I tried your method of creating the singleton, but ran into another problem. The constructor of MySettings does not initialize everything needed, some kind of lazy initialization. In my use case I need to set some initial values, so immediately after new MySettings(), I called the method to initialize some private members, which involves to allocate memory to them. then I got something like memory overflow, it crashes the application immediately. –  user1073719 Dec 5 '11 at 19:34

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