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I intend to perform opening for reading a single file from many threads using std::ifstream. My concern is if std::ifstream is thread-safe & lock-free?

More details:

  1. I use g++ 4.4 on Ubuntu & Windows XP, 4.0 on Leopard.
  2. Each thread creates its own instance of std::ifstream

Thanks in advance!

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3 Answers 3

See http://gcc.gnu.org/onlinedocs/libstdc++/manual/using_concurrency.html.

As of the writing of that manual page, GCC's standard library defers to the operating system's C stdio file buffering. They avoid keeping state outside the C FILE structure and achieve some level of safety through it.

Since the C stdio library implements a buffer of a single range within the file around the last I/O operation, I don't see how a lock-free implementation is possible. The operations on a file must be processed serially. Perhaps unbuffered mode could help; that's a little more research than I'd like to do right now.

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It's important to note that in the world of concurrency, lock-free is a "stronger"/stricter concept than thread-safety. –  Viet May 2 '10 at 19:02
    
How to verity that there is no single global I/O lock on the file opened purely for reading? –  Viet May 2 '10 at 19:04
    
@Viet: You need to check your OS documentation. Thanks for explaining that lock-free is a particular term, en.wikipedia.org/wiki/Lock-free. I think that most if not all C stdlib implementations will implement a lock per file in the course of buffering. It sounds like you want to implement your own buffering atop an unbuffered, hopefully lock-free, OS interface. –  Potatoswatter May 2 '10 at 19:14

That is implementation defined. Standard C++ says absolutely nothing about threading, and therefore any assumptions about threads inherently invoke unspecified or implementation defined behavior.

We need the platform you are using to be more specific, but it's probably unreasonable to assume ifstream is either thread safe or lock free. If nothing else, there are probably locks involved in the OS level calls that actually do the reading from the file, in which case no true lock-free implementation is possible. Even without that, each read from an ifstream needs to check several format flags, and needs to update the flags bits depending on what occurs during the read. (i.e. istream::good() and istream::operator bool) Since there is no way all of that can be done atomicly, it's unreasonable to assume much about istream's thread safety characteristics.

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"any assumptions about threads inherently invoke undefined behavior" Eh, I would think it merely means unspecified or implementation defined. –  GManNickG May 2 '10 at 17:54
    
@GMan: Any idea about the g++ 4.4 & g++ 4.0 implementations? –  Viet May 2 '10 at 17:55
    
@GMan: What's the difference? –  Billy ONeal May 2 '10 at 17:58
4  
@Billy "unspecified" behavior and "implementation defined" behavior mean that the operation must have some consistent result, although that result may differ between compilers (and in the case of "implementation defined", the compiler documentation must describe the expected result). "undefined behavior" on the other hand, means that the result may be unpredictable, inconsistent, and possibly bizarre, even on a single compiler or even within one execution of a program. –  Tyler McHenry May 2 '10 at 18:03
    
@Tyler McHenry: Thank you :) Edited. –  Billy ONeal May 2 '10 at 18:04

All std libraries are thread safe but not "async" safe. So you can call the same functions from different threads but not on the same objects.

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Err.. if you can't read from multiple threads than that is not thread safe. –  Billy ONeal May 2 '10 at 17:44
    
Treating "thread safe" as a simple boolean condition applying to an entire library is a bit silly. For instance, is a file library threadsafe if two threads can write at the same time to the same file, and the library merely guarantees that all bytes written end up in the file ? A reasonable result in the presence of buffering, after all. –  MSalters May 3 '10 at 10:23

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