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I have a Visual C++ program that opens a file in one thread with FILE* fp = fopen(...). I want that thread to block on an event object while another thread reads the file, then signals the blocked thread when it is done, which will then close the file. Because fp is shared between threads, I have declared it as volatile FILE* fp. However, fread() won't accept a volatile as its FILE* argument. I tried using a local pointer, with FILE* fpLocal = fp; in the thread that will call fread(), but that got me this:

 Error: a value of type "volatile FILE*" cannot be assigned to an entity of type "FILE*"

Naturally, this has me worried that maybe I'm making a mistake by trying to open a file in one thread and read it in another to begin with, though I don't see why (yet).

Can someone help me with this? Why can't I assign a volatile FILE* to a FILE*?

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Drop the volatile. It has nothing to do with threads. –  R. Martinho Fernandes May 22 '12 at 15:35
You can't assign a volatile FILE* to a FILE* for the same reason as you can't assign a const FILE* to a FILE*, but as @R.MartinhoFernandes noted, using volatile here is very misguided to begin with. –  ildjarn May 22 '12 at 15:36
The only thing volatile guarantees is that every access to a volatile variable will result in a load/store (and AFAIK, this was meant to be useful for systems which mapped memory to I/O devices and such. The C standard for example, did not even once mention the word 'thread') –  ArjunShankar May 22 '12 at 15:40
Note that volatile in this context applies to the pointer, not the file object itself. Not terribly helpful even if it did what you wanted, which it doesn't. –  Mark Ransom May 22 '12 at 15:57
@Stevens - It also doesn't guarantee that other CPUs see the changes. They might have separate caches. And we don't know where the threads are running. –  Bo Persson May 22 '12 at 17:52

1 Answer 1

up vote 3 down vote accepted

Why can't I assign a volatile FILE* to a FILE*?

Because C++ has strict type checking and you cannot assign types that do not match to each other.
One needs to use casting operators if that be the case, however it is important to note that using them incorrectly might lead to Undefined Behaviors as well.
This behavior is same as for the const qualifier.

As a side note as already mentioned in comments, volatile is not the way to go here.

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Dropping volatile would make everything easy, but now I must ask why that's safe. I thought volatile was how you protected against one thread changing a cached value that another thread might read. That's what I gleaned from the MSDN where it says, "The volatile keyword is a type qualifier used to declare that an object can be modified in the program by something such as the operating system, the hardware, or a concurrently executing thread." –  Stevens Miller May 22 '12 at 15:42
@StevensMiller that doesn't give any ordering, atomicity, or visibility guarantees. It only means the compiler can't do certain optimisations by assuming the value won't change. –  R. Martinho Fernandes May 22 '12 at 15:44
@StevensMiller: This should get you started: Why is volatile not considered useful in multithreaded C or C++ programming? –  Alok Save May 22 '12 at 15:44
@Stevens : In VC++, volatile implies atomicity as well as a memory barrier (and has since at least VC++ 2003), but that's only an extension (even the docs note "Microsoft Specific") and does not hold true for standard C++, which is what everyone else is talking about. –  ildjarn May 22 '12 at 15:44
@StevensMiller: Sorry for delayed response.I was a bit caught up.As quoted from the answer volatile does guarantee the variable is not cached but is actually modified but it doesn't provide the reordering guarantee.What you need is actually an Memory barrier and most synchronization constructs implicitly provide an memory barrier.A simple mutex or an semaphore should serve you well. –  Alok Save May 22 '12 at 17:51

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