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The following code:

while (x == 1) { ... }

might be optimized to

while (true) { ... }

if x gets assigned in another thread only. See Illustrating usage of the volatile keyword in C# . The answer there solves this by setting x to be volatile.

However, it looks like that is not the correct way to go about it according to these three contributors (with a combined reputation of over 1 million :) )

Hans Passant A reproducable example of volatile usage : "never assume that it is useful in a multi-threading scenario."

Marc Gravell Value of volatile variable doesn't change in multi-thread : "volatile is not the semantic I usually use to guarantee the behavior"

Eric Lippert Atomicity, volatility and immutability are different, part three : "I discourage you from ever making a volatile field."

Assuming a Backgroundworker is treated like any other multithreading (as opposed to having some built-in mechanism to prevent optimization) - How can bad-optimization be prevented?

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Your question is unclear without context. Please show a specific example. –  Jim Mischel Aug 23 '13 at 13:37
@JimMischel See the first link in my question (starting with "Illustrating usage..."). –  ispiro Aug 23 '13 at 13:38
Not clear how use in a Backgroundworker is just like the link. Please post code. Do you have code that is not actually reading? –  Blam Aug 23 '13 at 14:05
@Blam If test.foo is changed in a Backgroudworker's DoWork method instead of by a new Thread. (This is actually a side point. The main point is - what should be used instead of volatile.) –  ispiro Aug 23 '13 at 14:09
@Vlad Exactly why I am asking for code. What is the problem OP is trying to solve? Why would you use that design when Backgroundworker supports cancellation. –  Blam Aug 23 '13 at 14:14

1 Answer 1

up vote 13 down vote accepted

You're mischaracterizing my position slightly. Making the field volatile will prevent the optimization. Volatile is not broken in C#. (C++, that's another story.)

My point is not that volatile does not work as expected. My point is that reading and writing the same variable on two different threads is a bad idea in the first place. If you have to use volatile to make your program correct, consider redesigning your program so that it doesn't need volatile at all.

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Ok, same difference. Shared memory is a bad idea. If you can avoid it, do so. –  Eric Lippert Aug 23 '13 at 14:08
Imagine the background worker was a process, not a thread. How would you pass information to it? –  Eric Lippert Aug 23 '13 at 14:16
I'm not such an expert (to say the least). How should it be done? –  ispiro Aug 23 '13 at 14:23
@ispiro: My point is that there are lots of ways to share data between what are logically two processes that do not involve one of them saying "here's an address; watch it until it changes". Draw your inspiration from one of them. Or, better, don't have a background worker that requires consuming new information all the time. If new information comes in, as Brian suggests, cancel the existing background worker and start a new one with the new information. There are many ways to solve this problem. –  Eric Lippert Aug 23 '13 at 14:52
@ispiro: Basically the intuition I want to convey here is: if your worker is logically a server, akin to a web server, then make a client-server interface to it. Web servers do not share memory with their clients; they have a well-defined interface between the client and the server. If by contrast your worker is just a drone doing some task and signaling when it is done, then don't use a background worker directly. Make a Task and have the Task Parallel Library handle the progress, result reporting and cancellation. –  Eric Lippert Aug 23 '13 at 14:55

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