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I have a class X:

class X { ... }

I want to do this:

void f()
    thread_local static X x = ...;


(actually I'm using gcc so keyword is "__thread")

but I can't because you can only have trivial thread_locals.

What is the best work-around for this?

If I do it this way:

void f()
    thread_local static X* p = 0;

    if (!p)
       p = new X(...);

    X& x = *p;



  1. the destructor won't be called when thread exits
  2. unnecessary dynamic memory allocation.


Here is what I have so far:

#include <iostream>
#include <type_traits>

using namespace std;

class X { public: X() { cout << "X::X()" << endl; }; ~X() { cout << "X::~X()" << endl; } };

void f()
        static __thread bool x_allocated = false;
        static __thread aligned_storage<sizeof(X),
             alignment_of<X>::value>::type x_storage;

        if (!x_allocated)
                new (&x_storage) X;
                x_allocated = true;
                // add thread cleanup that calls destructor

        X& x = *((X*) &x_storage);

int main()

This fixes the dynamic memory allocation problem. I just need to add the thread cleanup handler. Is there a mechanism to do this with pthreads?

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Why you can have only trivial thread-locals? Par of standard? –  ForEveR Aug 21 '12 at 5:57
I thought so? GCC doesn't seem to like it. –  Andrew Tomazos Aug 21 '12 at 6:05
@ForEveR I don't think the standard has such restrictions, and GCC does not implement C++11 thread local storage yet. –  juanchopanza Aug 21 '12 at 6:08
That is a gcc extension, not C++11 thread_local. See here. So whenever it is implemented, you will not have the triviality problem. –  juanchopanza Aug 21 '12 at 6:15

2 Answers 2

up vote 4 down vote accepted

The Standard describes thread_local as a storage specifier like the others (static, extern etc.) in §7.1.1. There is no restriction to "simple" data types by any definition of that word.

The problem is briefly discussed in a pre-C++11 discussion document N2147 (see the section "Thread Variable Dynamic Initialization"). That includes a description of the key problems involved in the proper implementation. Apparently the GCC implementation (static __thread) hasn't solved these problems yet (which is consistent with the fact that GCC does not officially support C++11 thread_local).

One alternative is boost::thread_specfic_ptr<> mentioned in this earlier post and described here.

Another alternative is to use a std::thread object to implement the thread and ensure each instance maintains its own copy of the variable, possibly wrapped in a unique_ptr.

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I need to change my question slightly (maybe need to post new one). Using boost or std::thread is not an option in my environment. I have got the dynamic allocation problem fixed (see my update), however I still need a way to call the destructor on thread exit. Is there a way to do this with pthreads? (I realize this is now a gcc specific question) –  Andrew Tomazos Aug 21 '12 at 6:33
I'll post new question, it's easier. –  Andrew Tomazos Aug 21 '12 at 6:40

thread_local and __thread are, in fact, not the same thing. The main difference between them is precisely the one you stumbled upon - thread_local allows the variable to be non-POD. Unfortunately, this also has performance implications. See this question for more details about those performance implications.


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