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How to define local static variables (that keeps its value between function calls) that are not shared among different threads?

I am looking for an answer both in C and C++

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What OS are you using? TLS is not portable between unixen and windows. – bdonlan Sep 30 '11 at 6:22
C++11 introduces another storage duration called thread_local. Try using it. – Nawaz Sep 30 '11 at 6:25
OS is windows... – Hayri Uğur Koltuk Sep 30 '11 at 6:32
@Nawaz: Both C++11 and C11. In C11, it's _Thread_local, unless you also include <threads.h> (which adds a #define to thread_local, as is usual for C99 and later). – Tim Čas Feb 11 at 18:12

6 Answers 6

up vote 7 down vote accepted

on Windows using Windows API: TlsAlloc()/TlsSetValue()/TlsGetValue()

on Windows using compiler intrinsic: use _declspec(thread)

on Linux (other POSIX???) : get_thread_area() and related

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after reading on MSDN, Tls functions are exactly what i was looking for. – Hayri Uğur Koltuk Sep 30 '11 at 6:42
you forgot TlsFree :-) – Emilio Garavaglia Sep 30 '11 at 7:11

Just use static and __thread in your function.


int test(void)
        static __thread a;

        return a++;
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is __thread standard? – Hayri Uğur Koltuk Sep 30 '11 at 8:09
@Ali: no, it's an extension provided by GCC and a few other compilers. On MSVC, I think you use __declspec(thread) instead. – Mike Seymour Sep 30 '11 at 8:50
__thread works on linux, bsd, aix, and with the xl_c, gcc, and many other compilers. it can be trivially #defined to __declspec(thread) on windows. – Erik Aronesty Mar 26 at 20:35

The current C standard has no model for threads or alike, so you can't get an answer, there.

The utility foreseen by POSIX for that is pthread_[gs]etspecific.

The next version of the C standard adds threads and has a concept of thread local storage.

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You can make your own thread specific local storage as singleton per thread ID. Something like this:

struct ThreadLocalStorage
        // initialization here
    int my_static_variable_1;
    // more variables

class StorageManager
    std::map<int, ThreadLocalStorage *> m_storages;

    {   // storage cleanup
        std::map<int, ThreadLocalStorage *>::iterator it;
        for(it = m_storages.begin(); it != m_storages.end(); ++it)
            delete it->second;

    ThreadLocalStorage * getStorage()
        int thread_id = GetThreadId();
        if(m_storages.find(thread_id) == m_storages.end())
            m_storages[thread_id] = new ThreadLocalStorage;

        return m_storages[thread_id];

    static ThreadLocalStorage * threadLocalStorage()
        static StorageManager instance;
        return instance.getStorage();

GetThreadId(); is a platform specific function for determining caller's thread id. Something like this:

int GetThreadId()
    int id;
#ifdef linux
    id = (int)gettid();
#else  // windows
    id = (int)GetCurrentThreadId();
    return id;

Now, within a thread function you can use it's local storage:

void threadFunction(void*)
  StorageManager::threadLocalStorage()->my_static_variable_1 = 5; //every thread will have
                                                           // his own instance of local storage.
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You'll also need synchronisation (such as a read/write mutex) to protect m_storages from access by multiple threads. – Mike Seymour Sep 30 '11 at 8:52
of course. you are correct. – GreenScape Sep 30 '11 at 8:59
Not only m_storages, but also std::map and the locally "static StorageManager instance;" is not thread safe. In native code implement a high efficiency singleton is not a easy task, see "C++ and the Perils of Double-Checked Locking" by Scott Meyers and Andrei Alexandrescu. – zhaorufei Jun 9 '13 at 1:21

You can also use the C++11 thread local storage additions if you have access to C++11.

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You could create data structure that is allocated from the heap for every thread.


struct ThreadLocal
    int var1;
    float var2;
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