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I am writing a program which has one process reading and writing to a shared memory and another process only reading it. In the shared memory there is a struct like this:

struct A{
    int a;
    int b;
    double c;

what I expect is to read the struct at once because while I am reading, the other process might be modifying the content of the struct. This can be achieved if the struct assignment is atomic, that is not interrupted. Like this:

struct A r = shared_struct;

So, is struct assignment atomic in C/C++? I tried searching the web but cannot find helpful answers. Can anyone help? Thank you.

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Even assigning a single char is not atomic in C or C++. –  Serge Dundich Mar 31 '11 at 12:32
@Serge: more correctly, C99 doesn't define that at all, it's up to the CPU memory model. C1x, OTOH, explicitly defines that it's not guaranteed to be atomic if the type is not an atomic type. –  ninjalj Mar 31 '11 at 19:45

4 Answers 4

up vote 17 down vote accepted

No, both C and C++ standard don't guarantee assignment operations to be atomic. You need some implementation-specific stuff for that - either something in the compiler or in the operating system.

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Neither C not C++ support atomic types in their current standards.

C++11 will introduce support for atomic types.

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I would like to know why this was d/v'ed –  John Dibling Mar 31 '11 at 11:12
@John Looks like you scared the down-voter away! –  David Heffernan Mar 31 '11 at 11:16
As far as I understand it sig_atomic_t (C89) guarantees atomic access, right? (Not that this helps the OP) –  John Ledbetter Mar 31 '11 at 19:24
@John, only for signal handlers, not for multiple threads. –  ninjalj Mar 31 '11 at 19:47

No it isn't.

That is actually a property of the CPU architecture in relation to the memory layout of struck

You could use the 'atomic pointer swap' solution, which can be made atomic, and could be used in a lockfree scenario. Be sure to mark the respective shared pointer (variables) as volatile if it is important that changes are seen by other threads 'immediately'This, in real life (TM) is not enough to guarantee correct treatment by the compiler. Instead program against atomic primitives/intrinsics directly when you want to have lockfree semantics. (see comments and linked articles for background)

Of course, inversely, you'll have to make sure you take a deep copy at the relevant times in order to do processing on the reading side of this.

Now all of this quickly becomes highly complex in relation to memory management and I suggest you scrutinize your design and ask yourself seriously whether all the (perceived?) performance benefits justify the risk. Why don't you opt for a simple (reader/writer) lock, or get your hands on a fancy shared pointer implementation that is threadsafe ?

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volatile isn't sufficient on modern compilers. You need some sort of membar or fence instruction (inline assembler) as well. (Arguably, volatile should be sufficient, and I think more recent versions of VC++ than the one I'm using do make it sufficient, but it's not sufficient with VC++ 2005, g++ or Sun CC.) –  James Kanze Mar 31 '11 at 11:04
The question is not about threads, but about processes –  BЈовић Mar 31 '11 at 11:08
-1 for the dangerous suggestion to make the pointer volatile. We have discussed volatile on SO many times before. Do a little reading. One of many examples: stackoverflow.com/questions/4136900/… –  John Dibling Mar 31 '11 at 11:11
@John/@James: Ok - this is educational. The most interesting part is the upcoming changes for C++11. I'll leave my answer up with a warning so that any new readers will get the info. @VJo: good point as well... –  sehe Mar 31 '11 at 12:48
@sehe: Your edit is excellent; I'll reverse my d/v to an u/v because this is a very useful response. –  John Dibling Mar 31 '11 at 14:42

Well definitely not atomic, but the compiler will most likely issue the copy as a memcpy() of N bytes, where the bytes is the size of the structur

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