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In intel's processor manual: link in section 8.2.3.4 it is stated that loads may be reordered with earlier stores to different locations, but not with earlier stores to the same location.

So I understand that the following two operations can be reordered:

x = 1;
y = z;

And that the following two operations can not be reordered:

x = 1;
y = x;

But what happens when the store and the load are for different locations, but the load encompasses the store completely, e.g:

typedef union {
  uint64_t shared_var;
  uint32_t individual_var[2];
} my_union_t;

my_union_t var;
var.shared_var = 0;

var.individual_var[1] = 1;
int y = var.shared_var;

So can 'y' in this case be 0?

EDIT (@Hans Passant) To further explain the situation I'm trying to see if I can use this technique to devise a sort of quasi-synchronisation between threads without using locked instructions.

So a more specific question is, given a global variable:

my_union_t var;
var.shared_var = 0;

And two threads executing the following code:

Thread 1:

var.individual_var[0] = 1;
int y = __builtin_popcountl(var.shared_var);

Thread 2:

var.individual_var[1] = 1;
int y = __builtin_popcountl(var.shared_var);

Can 'y' be 1 for both threads?

Note: __builtin_popcountl is the builtin gcc intrinsic for counting number of bits set in a variable.

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Ordering only plays a role when multiple cores access memory locations. Which isn't visible from your snippet, the posted code can never fail. Having multiple threads read and write the same memory location without synchronization has no practical use. –  Hans Passant Aug 5 '12 at 17:27
2  
Thinking about coherency and ordering issues from C complicates matters due to the reording and optimizations possible by the compiler itself. For example, your two threads example will be broken since you haven't told the compiler the union is volatile. –  srking Aug 6 '12 at 15:21

1 Answer 1

The CPU doesn't know or care that you've aliased the memory location. As such, the answer to your first question is "No."

The writes in your second example are not synchronized, so, yes, it's possible for the threads to have their own copies of the data.

The answer to the question you didn't ask ("Should I implement and use a custom synchronization primitive?") is "No."

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