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I have a variable in my function that is static, but I would like it to be static on a per thread basis.

How can I allocate the memory for my C++ class such that each thread has its own copy of the class instance?

AnotherClass::threadSpecificAction()
{
  // How to allocate this with thread local storage?
  static MyClass *instance = new MyClass();

  instance->doSomething();
}

This is on Linux. I'm not using C++0x and this is gcc v3.4.6.

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2  
Depends on whether you are on Windows or someplace else. –  bmargulies May 16 '11 at 17:53
    
depends. if you use boost: drdobbs.com/cpp/184401518?pgno=6 –  Anycorn May 16 '11 at 17:54
    
You need to provide more information on the actual platform, including whether you can/want to use the C++0x features (which might or might not be available in your platform, so again, the platform is important: OS, compiler and version) –  David Rodríguez - dribeas May 16 '11 at 18:11

7 Answers 7

up vote 47 down vote accepted
#include <boost/thread/tss.hpp>
static boost::thread_specific_ptr< MyClass> instance;
if( ! instance.get() ) {
    // first time called by this thread
    // construct test element to be used in all subsequent calls from this thread
    instance.reset( new MyClass);
}
    instance->doSomething();
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6  
This. Don't bother with OS specific stuff, boost::thread_specific_ptr is clean, portable, and idiomatic. –  Alexandre C. May 16 '11 at 18:52
1  
For the super-lazy: #include <boost/thread/tss.hpp> –  entheh Apr 19 '13 at 13:42
5  
@entheh: By super-lazy you mean those who value well-constructed example code? =). –  Claudiu May 6 '14 at 16:49

It is worth noting that C++11 introduces the thread_local keyword.

Here is an example from Storage duration specifiers:

#include <iostream>
#include <string>
#include <thread>
#include <mutex>

thread_local unsigned int rage = 1; 
std::mutex cout_mutex;

void increase_rage(const std::string& thread_name)
{
    ++rage;
    std::lock_guard<std::mutex> lock(cout_mutex);
    std::cout << "Rage counter for " << thread_name << ": " << rage << '\n';
}

int main()
{
    std::thread a(increase_rage, "a"), b(increase_rage, "b");
    increase_rage("main");

    a.join();
    b.join();

    return 0;
}

Possible output:

Rage counter for a: 2
Rage counter for main: 2
Rage counter for b: 2
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GCC added support for thread_local in 4.8. If you're using 4.7 or earlier, you'll need to use __thread instead to specify the storage class. –  Drew Noakes May 24 '13 at 17:39

If you're using Pthreads you can do the following:

//declare static data members
pthread_key_t AnotherClass::key_value;
pthread_once_t AnotherClass::key_init_once = PTHREAD_ONCE_INIT;

//declare static function
void AnotherClass::init_key()
{
    //while you can pass a NULL as the second argument, you 
    //should pass some valid destrutor function that can properly
    //delete a pointer for your MyClass
    pthread_key_create(&key_value, NULL);
}

void AnotherClass::threadSpecificAction()
{
  //Initialize the key value
  pthread_once(&key_init_once, init_key);

  //this is where the thread-specific pointer is obtained
  //if storage has already been allocated, it won't return NULL

  MyClass *instance = NULL;
  if ((instance = (MyClass*)pthread_getspecific(key_value)) == NULL)
  {
    instance = new MyClass;
    pthread_setspecific(key_value, (void*)instance);
  }

  instance->doSomething();
}
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boost::thread_specific_ptr is the best way as it portable solution.

On Linux & GCC you may use __thread modifier.

So your instance variable will look like:

static __thread MyClass *instance = new MyClass();
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1  
Beware of the destructor not being executed on MyClass when using __thread. (boost::thread_specific_ptr<MyClass> or thread_local MyClass do execute the destructor.) –  user1182474 Oct 30 '13 at 10:26

If you're working with MSVC++, you can read Thread Local Storage (TLS)

And then you can see this example.

Also, be aware of the Rules and Limitations for TLS

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2  
@Downvoter: Specify the reason! –  Nawaz May 16 '11 at 18:52

On Windows you can use TlsAlloc and TlsFree to allocate storage in the threads local storage.

To set and retrieve values in with TLS, you can use TlsSetValue and TlsGetValue, respectively

Here you can see an example on how it would be used.

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Just a side note... MSVC++ supports declspec(thread) from VSC++2005

#if (_MSC_VER >= 1400)
  #ifndef thread_local     
    #define thread_local __declspec(thread)
  #endif
#endif

Main problem is(which is solved in boost::thread_specific_ptr) variables marked with it can't contain ctor or dtor.

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