Room for Royi Namir and shambulator

Royi Namir

13:56

?

shambulator

Hello!

Royi Namir

hi

finally!

:-)

shambulator

:D

Royi Namir

ok....I'll tell you what I think

regarding my Q yesterday

static void Main()
{
bool complete = false;
var t = new Thread(() = > {
bool toggle = false;
while(!complete) toggle = !toggle;
});
t.Start();
Thread.Sleep(1000);
complete = true;
t.Join(); // Blocks indefinitely
}

this code is not terminated becuase the JITER do some optimization

like Eric said

while (true) and stuff....

and NOT becuse of the fences

shambulator

Yup

Royi Namir

14:07

I repeat !

NOT becuase of the fences

shambulator

I agree

Royi Namir

(p.s. Im not saying that to you , Im thinking loud)

my test was :

to run this code without the optimize flag ( and without volatile)

and it did terminated after 1 sec.

however when I set the optimzie flag to true(default) it didnt terminate

BUT!

(as the problem shows)

Eric says it is becuase of the fences

and that part - I dont understand

?

r u here?

shambulator

Yeah, sorry, just referring back to his answer, because I interpreted it differently.

Royi Namir

8

A: Volatile fence demo?

Making complete volatile does two things: It prevents the C# compiler or the jitter from making optimizations that would cache the value of complete. It introduces a fence that tells the processor that caching optimizations of other reads and writes that involve either pre-fetching reads or del...

Why does he say it is becuase of the fences ?

and if you know about fences , hes example can't be in reality.

why ?

shambulator

I didn't think he said it was because of the fences.

Royi Namir

14:13

But what you are looking for is the second effect of volatile.

shambulator

I thought it was because of the compiler optimisations being disabled.

Royi Namir

he said to me : "But what you are looking for is the second effect of volatile. "

and look at the begining of his answer : there are 2 topics : 1) jitter 2)fences

meaning he's talking about fences.

(p.s. english is not my first language. maybe I read it wrong ?)

do you see where im stuck ?

shambulator

I think I do, and I think it has to do with his wording.

Royi Namir

at first he says 1) jitter 2)fences and then he say , "your problem is regarding the second section ( which is the fences and NOT THE JITTER)"

shambulator

I interpreted his answer like this:
Using volatile has two effects
1. Disabling optimisations (which is what is responsible for the change in behaviour in this example)
2. Introducing fences, which AFAIK have no effect on this example, but do have an effect on other examples, e.g. where you use a volatile variable to signal that other variables have been initialised.

I think his But what you are looking for refers to the fact that you were talking about fences and reordering in your question.

Royi Namir

14:17

oh....

(ive been thinking about it all day - about what youve just said)

shambulator

I'm not certain, but I think that's what he meant.

Because I also can't see how fences affect that situation :D

Royi Namir

Look

I asked this question once ( yes and I do like this subject a lot)

19

Q: Volatile Violates its main job?

According to MSDN: The volatile keyword indicates that a field might be modified by multiple threads that are executing at the same time. Fields that are declared volatile are not subject to compiler optimizations that assume access by a single thread. This ensures that the most up-to...

Brian ( one of the best threading persons here in SO) SHOWS how volatile can do harm

when there is a READ after WRITE

and he shows that Writes prevents all prev instructions from going to bottom...... and Reads prevents all next instructions from going up

**But I can't see how putting fences in THIS SAMPLE **

static void Main()
{
bool complete = false;
var t = new Thread(() = > {
bool toggle = false;
while(!complete) toggle = !toggle;
});
t.Start();
Thread.Sleep(1000);
complete = true;
t.Join(); // Blocks indefinitely
}

can solve it

shambulator

That's what Joe Duffy says as well (the article I linked in the comments on your other question) - that volatile gives you acquire on reads and store on writes, and nothing else.

Which is why Eric's answer got me all confused again!

Royi Namir

Do you mean the part that he added : ( volatile prevents jitter optimization) ??

shambulator

Yup

Royi Namir

14:22

But look

also Joe albahari says it :

shambulator

Also, after reading the article that Eric linked to, I can see that the point I made about reordering only being prevented within a thread is wrong.

Royi Namir

• The compiler, CLR, or CPU may reorder your program’s instructions to improve
efficiency.
• The compiler, CLR, or CPU may introduce caching optimizations such that
assignments to variables won’t be visible to other threads right away.

shambulator

It does happen across threads.

Royi Namir

Reordering within a thread cant be done cause the program wont work as expected.

the reordering is in POV of different threads

shambulator

It can be, as long as the results are the same as if the program were single-threaded

Royi Namir

14:24

NO

reordering is not like optimization!

the transition to while(true) is becuase of optimization

and not reordering

and volatile seems to prevent both

(which I agree)

as Eric says

shambulator

Yes, that's pretty much the point where I'm at too :P But still confused over the fact that some sources say volatile only affects reordering, while some say it affects compiler optimisations too.

Royi Namir

can you **guess** where fences CAN solve this issue ?
static void Main()
{
    bool complete = false;
    var t = new Thread(() = > {
        bool toggle = false;
        while(!complete) toggle = !toggle;
    });
    t.Start();
    Thread.Sleep(1000);
    complete = true;
    t.Join(); // Blocks indefinitely
}

shambulator

No, that's why I agree that that case must be due to compiler optimisations.

Royi Namir

Please confirm What I think that fence will do here:

shambulator

Could be worth linking Brian to the question that Eric answered :)

Royi Namir

14:32

I already did that.

stackoverflow.com/questions/10631629/…

shambulator

:D so you did

Royi Namir

the stage where complete = true; is volatile automatically

since all writes in .net are volatile

but lets talk about while(!complete) ( the non optimized ver)

since it is reading , so an aquire fence is created

which prevents from later instruction to move before the fence.

right ?

shambulator

OK...

Royi Namir

my question is WHICH " later instruction" ?

shambulator

That's what I don't get in that example either.

But we need to be careful of confusing instructions with memory operations.

One of the important realisations that I came to yesterday is that "reordering" refers to 2 different things, which both look the same:

Royi Namir

14:41

this subject will never ends....

shambulator

1. Actual *instruction* reordering by the compiler or jitter
2. Caching effects by the processor, which make memory accesses look out of order even if no optimisations have been performed

And I agree, it probably won't :)

Royi Namir

Listen. since you know where we both stuck,

and your english is much better than myne

can you please post a comment to Eric answer and describe exactly where we both stuck ?

cause I know what I dont understand

but to express it in precise word ( and you saw I apperently didnt understand his wording) - will be hard

shambulator

I think your last comment on his answer is a perfectly clear question; let's see what he says.

Royi Namir

ok...

do you have an email ?

shambulator

Have you read the article he linked to?

Royi Namir

14:45

I have myne in the profile

no

too deep for what i need to know

Im a web dev and a c# programmer

which read Joe's book

but when I see such sample , and such answer from Eric , Im getting mad.... :-)

I want to close this volatile topic once and for all

shambulator

I think it might help, at least the first part where Vance Morrison talks about memory models, the idea of "sequential consistency" and how processor caching can have the same effect as as physically reordering instructions.

msdn.microsoft.com/en-us/magazine/cc163715.aspx

It's a very difficult topic, but I think we're both close to some kind of breakthrough :)

Royi Namir

What's your email ?

( dont worry.... jsut for me and you to close this subject and update each other if anything regarding volatile has occured) myne is on my profile

p.s.

look at the LAST comment of brian to me :

19

Q: Volatile Violates its main job?

According to MSDN: The volatile keyword indicates that a field might be modified by multiple threads that are executing at the same time. Fields that are declared volatile are not subject to compiler optimizations that assume access by a single thread. This ensures that the most up-to...

c# .net multithreading thread-safety volatile

on his lat comment I asked him about what you said to me

"does it regarding thread instruction or from the same thread ?"

and look what he said to me

shambulator

[email protected]

Royi Namir

@RoyiNamir: It is from the perspective of other threads. The same thread will always perceive reads/writes in the order they were entered in the program code...otherwise no program would work correctly. Good question.

did u read it ?

shambulator

Sorry - conducting more than one conversation at a time here :)

Royi Namir

14:54

also about volatile ? :-)

shambulator

No, my fiancee would kill me :D

Royi Namir

hhhhh

lol

shambulator

OK, so he said the same thread will always perceive reads/writes in the order they were entered; that doesn't mean they can't happen in a different order, only that the result as seen by the same thread must be the same.

If you write:

x = 3;
y = 7;

then nothing prevents the compiler from rewriting it (for whatever reason) to this:

y = 7;
x = 3;

If it's run by only a single thread, there's no difference.

Royi Namir

so orders in the same thread can be swapped?

shambulator

Yes - this is where the compiler/JIT optimisations happen, e.g. the compiler might decide to group reads together. As long as the single-threaded result is the same, then this is legal

So the compiler couldn't reorder these two instructions:

x = 1;
y = x;

Because then the result *as seen by a single thread* would be different, because the read *depends* on the write.

Royi Namir

15:02

make sense

but again , do you see any relation to

static void Main()
{
bool complete = false;
var t = new Thread (() =>
{
bool toggle = false;
while (!complete) toggle = !toggle;
});
t.Start();
Thread.Sleep (1000);
complete = true;
t.Join(); // Blocks indefinitely
}

?????

shambulator

That's why fences are important in this case, if A and B are run on separate threads (from the Albahari book):
class Foo
{
int _answer;
bool _complete;

void A()
{
_answer = 123;
_complete = true;
}

void B()
{
if (_complete) Console.WriteLine (_answer);
}
}

But no, I still don't see how fences apply to your example :)

Royi Namir

ok

so lets talk about fences in YOUR sample

(not memory barrier - but half Fences!)

shambulator

OK

Royi Namir

putting volatile on answer will solve it

shambulator

No, making complete volatile does.

Royi Namir

15:04

No

write is always volatile

the Read is what causing us the pain

becuase _answer = 123; will happened before(!) _complete = true;

shambulator

If you assume that writes are always volatile, then this example isn't a problem and you have no need for the keyword.

Royi Namir

Im not assuming

Write is always volatile

Also Eric said it.

shambulator

On certain architectures, yes.

But the language can't assume any particular architecture; if you leave volatile out, it might work on x86 but fail on something else.

It doesn't matter why the writes are volatile though - if the write to complete is volatile (either because you used the keyword, or because the memory model says all writes are volatile), then you know that the write to answer (even if it isn't volatile) cannot move after the write to complete.

Royi Namir

you're right

the Write should prvent it from faling down

So What the hell is going here?

shambulator

So the point is that B never sees complete == true without answer also being set.

And that's where fences apply to this scenario.

Royi Namir

15:10

so even if write is volatile , I should write volatile ?

shambulator

B either sees complete == false (and ignores answer) or complete == true (and is guaranteed that answer is initialised).

Yes, because writes don't have to be volatile by default. That's part of the memory model of certain architectures.

But just as importantly, it helps to document the places where you depend on this behaviour.

Royi Namir

ok thanks man

well be in touch

when there is an answer from eric/brian

shambulator

@RoyiNamir Just emphasising this point - _answer = 123; is only guaranteed to happen before _complete = true; if _complete is volatile. The instructions themselves can be reordered, because it would make no difference to a single-threaded program.

Yup!

Great chatting to you, thanks :)

And will definitely be keeping an eye on those questions!

Royi Namir

Great chatting to you too

bye :-)

shambulator

Bye!

Transcript for

Room for Royi Namir and shambulator