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I have a linux multithread application in C++. In this application in class App offer variable Status:

class App {
typedef enum { asStop=0, asStart, asRestart, asWork, asClose } TAppStatus;
TAppStatus Status; 

All threads are often check Status by calling GetStatus() function.

inline TAppStatus App::GetStatus(){ return Status };

Other functions of the application can assign a different values to a Status variable by calling SetStatus() function and do not use Mutexes.

void App::SetStatus( TAppStatus aStatus ){ Status=aStatus };

Edit: All threads use Status in switch operator:

switch ( App::GetStatus() ){ case asStop: ... case asStart: ... };
  1. Is the assignment in this case, an atomic operation?
  2. Is this correct code?


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I strongly doubt that enums are threadsafe... I doubt that the assignment is a atomic operation. –  Tony The Lion May 11 '11 at 10:03

3 Answers 3

up vote 3 down vote accepted

There is no portable way to implement synchronized variables in C99 or C++03 and pthread library does not provide one either. You can:

  • Use C++0x <atomic> header (or C1x <stdatomic.h>). Gcc does support it for C++ if given -std=c++0x or -std=gnu++0x option since version 4.4.
  • Use the Linux-specific <linux/atomic.h> (this is implementation used by kernel, but it should be usable from userland as well).
  • Use GCC-specific __sync_* builtin functions.
  • Use some other library that provides atomic operations like glib.
  • Use locks, but that's orders of magnitude slower compared to the fast operation itself.

Note: As Martinho pointed out, while they are called "atomic", for store and load it's not the atomic property (operation cannot be interrupted and load always sees or does not see the whole store, which is usually true of 32-bit stores and loads) but the ordering property (if you store a and than b, nobody may get new value of b and than old value of a) that is hard to get but necessary in this case.

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Sorry, what "the Linux-specific"? Didn't you forget a word there? –  R. Martinho Fernandes May 11 '11 at 11:30
Thank you, Jan. –  nick May 11 '11 at 18:45
@Martinho: Oops, sorry, forgot quotes so the header name in <> got dropped. –  Jan Hudec May 12 '11 at 9:56

This depends entirely upon the enum representation chosen. For x86, I believe, then all assignment operations of the operating system's word size (so 32bit for x86 and 64bit for x64) and alignment of that size as well are atomic, so a simple read and write is atomic.

Even assuming that it is the correct size and alignment, this doesn't mean that these functions are thread-safe, depends on what the status is used for.

Edit: In addition, the compiler's optimizer may well wreak havoc if there are no uses of atomic operations or other volatile accesses.

Edit to your edit: No, that's not thread safe at all. If you converted it manually into a jump table then you might be thread-safe, I'll need to think about it for a little while.

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Without volatile keyword, it's never atomic. –  Jan Hudec May 11 '11 at 10:18
"Operations on volatile variables are not atomic, nor do they establish a proper happens-before relationship for threading." volatile only means "Hey, you there, the compiler, don't optimize access to this thing, ok?" –  R. Martinho Fernandes May 11 '11 at 10:21
@Martinho: On some platforms declaring things volatile is enough to make store and load atomic and the "don't optimize access" implies "don't reorder across sequencing point" which on some platforms is enough to define ordering (the instructions are ordered correctly, but caches may break it). –  Jan Hudec May 11 '11 at 11:02
@Jan: Ok, it works sometimes. But "Without volatile keyword, it's never atomic." is wrong. Atomic only means it happens on a single step. It can certainly be atomic without volatile. They're related, but orthogonal things. –  R. Martinho Fernandes May 11 '11 at 11:14
@DeadMG: It will never be thread-safe unless you make the operation use appropriate barrier instruction or lock prefix (as appropriate for given platform) and you need inline assembly for that. Most CPUs don't ensure coherency between L1 caches of multiple CPUs/cores without those. –  Jan Hudec May 11 '11 at 11:15

On certain architecture this assignment might be atomic (by accident), but even if it is, this code is wrong. Compiler and hardware may perform various optimizations, with might break this "atomicity". Look at: http://video.google.com/videoplay?docid=-4714369049736584770#

Use locks or atomic http://www.stdthread.co.uk/doc/headers/atomic/atomic.html variable to fix it.

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std::atomic is C++0x only. –  Jan Hudec May 11 '11 at 11:11

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