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This is a simple test code:

#include <stdlib.h>

__thread int a = 0;

int main() {

    #pragma omp parallel default(none)
        a = 1;

    return 0;

gcc compiles this without any problems with -fopenmp, but icc (ICC) 12.0.2 20110112 with -openmp complains with

test.c(7): error: "a" must be specified in a variable list at enclosing OpenMP parallel pragma #pragma omp parallel default(none)

I have no clue which paradigm (i.e. shared, private, threadprivate) applies to this type of variables. Which one is the correct one to use?

I get the expected behaviour when calling a function that accesses that thread local variable, but I have trouble accessing it from within an explicit parallel section.


My best solution so far is to return a pointer to the variable through a function

static inline int * get_a() { return &a; }
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Mixing different thread models is probably not such a good idea. Semantically threadprivate is probably the closest. Since __thread is a compiler extension, you will probably not find much of documentation that links this and OpenMP. –  Jens Gustedt Nov 14 '13 at 15:40
Which compiler are you using? GCC should not ask you to give a an explicit data-sharing class, even when default(none) is specified. –  Hristo Iliev Nov 14 '13 at 19:18
@HristoIliev I am using icc 12.0.2. And you are right that this seems to be an issue with icc. gcc accepts this. –  Sergey L. Nov 14 '13 at 20:02
Try adding #pragma omp threadprivate(a) on the next line after the declaration of a. It is a bit of tautology since to a great extent both do the same (with some exceptional cases concerning C++ objects). –  Hristo Iliev Nov 14 '13 at 20:43
@HristoIliev This is the one! Getting rid of the __thread specifier and putting #pragma omp threadprivate instead even makes my code compatible with Mach-O since __thread is unsupported in Mach-O executables. If you post this as an answer then I will happily give you credit. –  Sergey L. Nov 15 '13 at 12:02

1 Answer 1

up vote 2 down vote accepted

__thread is roughly analogous to the effect that the threadprivate OpenMP directive has. To a great extent (read as when no C++ objects are involved), both are often implemented using the same underlying compiler mechanism and therefore are compatible but this is not guaranteed to always work. Of course, the real world is far from ideal and we have to sometimes sacrifice portability for just having things working within the given development constraints.

threadprivate is a directive and not a clause, therefore you have to do something like:

#include "header_providing_a.h"

#pragma omp threadprivate(a)

void parallel_using_a()
   #pragma omp parallel default(none) ...
     ... use 'a' here

GCC (at least version 4.7.1) treats __thread as implicit threadprivate declaration and you don't have to do anything.

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Funny thing: For gcc on Linux __thread and threadprivate are synonymous and uses the FS segment register on x86. On OS X (Mach-O) threadprivate causes gcc to use some emulation called ___emutls_get_address. For icc the presence of __thread (irrelevant of threadprivate) on Linux x86 causes the same behaviour as gcc: use of the FS segment register. In the absence of __thread, but with threadprivate icc kicks in with some fairly complicated emulation on both Linux and OS X. –  Sergey L. Nov 15 '13 at 13:35
Passing -openmp-threadprivate=compat to icc causes it to treat threadprivate in the same way as __thread on compatible OSes/architectures. –  Sergey L. Nov 15 '13 at 13:47

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