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Inspired by this question: http://stackoverflow.com/questions/443423/in-complexity-analysis-why-is-considered-to-be-2-operations

Take the following psuedo code:

class test
{
   int _counter;
   void Increment()
   {
     _counter++;
   } 
}

Would this be considered thread safe on an x86 architechure? Further more are the Inc / Dec assembly instructions thread safe?

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jit compiler? of which platform? –  chakrit Jan 14 '09 at 16:04
    
Are we talking Java or C# or something else? –  Michael Myers Jan 14 '09 at 16:04
2  
This question is definitely not language-agnostic! It depends a lot on which language and/or platform you're using! –  Joachim Sauer Jan 14 '09 at 16:21
    
Sorry I mean to leave the jit part of the question... –  JoshBerke Jan 14 '09 at 17:38

2 Answers 2

up vote 21 down vote accepted

No, incrementing is not thread-safe. Neither are the INC and DEC instructions. They all require a load and a store, and a thread running on another CPU could do its own load or store on the same memory location interleaved between those operations.

Some languages have built-in support for thread synchronization, but it's usually something you have to ask for, not something you get automatically on every variable. Those that don't have built-in support usually have access to a library that provides similar functionality.

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In a word, no.

You can use something like InterlockedIncrement() depending on your platform. On .NET you can use the Interlocked class methods (Interlocked.Increment() for example).

A Rob Kennedy mentioned, even if the operation is implemented in terms of a single INC instruction, as far as the memory is concerned a read/increment/write set of steps is performed. There is the opportunity on a multi-processor system for corruption.

There's also the volatile issue, which would be a necessary part of making the operation thread-safe - however, marking the variable volatile is not sufficient to make it thread-safe. Use the interlocked support the platform provides.

This is true in general, and on x86/x64 platforms certainly.

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