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So we created a map. We want to get some_type blah = map_variable[some_not_inserted_yet_value] this would call add new item to map if one was not previosly created. So I wonder if read is really thread safe with std::map or it is only possible to thread safly try{ ...find(..)->second...?

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4 Answers

up vote 3 down vote accepted

The idea that calling find(...)->second is thread-safe is very dependent of your view of thread-safety. If you simply mean that it won't crash, then as long as no one is mutating the dictionary at the same time you're reading it, I suppose you're okay.

That said, indeed, no matter what your minimum thread safety requirements are, calling the operator[] method is inherently not thread-safe as it can mutate the collection.

If a method has no const overload, it means it can mutate the object, so unless the documentation indicates methods are thread-safe, the method is very unlikely to be.

Then again, a const method might not be thread-safe as well, because your object could depend on non-const global state or have mutable fields, so you'll want to be very, very careful if you use unsynchronized classes as if they were.

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If you're 100% sure that the map contains the key, then it is technically thread-safe if all other threads are also only invoking read-only methods on the map. Note however, that there is no const version of map<k,v>::operator[](const k&).

The correct way to access the map in a thread-safe fashion is indeed:

map<k,v>::const_iterator match = mymap.find(key);
if ( match != mymap.end() ) {
    // found item.
}

As stated before, this only applies if all concurrent access is read-only. One way this can be guaranteed is to use a readers-writers lock.

Note that in C++03, there is no mention of threads in the standard, so even that is not guaranteed to be thread-safe. Make sure to check your implementation's documentation.

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And in C++11?=) –  Spender Aug 26 '11 at 3:09
1  
How can you say that's the correct way to access the map in a thread-safe fashion? How do you know there are no a concurrent write operations that can displace the end iterator? –  Emile Cormier Aug 26 '11 at 3:14
    
@Kabumbus, in C++03, the standard didn't even acknowledge threads, so a question such as yours doesn't make sense (in regard of the standard). In C++11, threads are acknowledged, but what you're asking for is specified to be undefined behavior. –  zneak Aug 26 '11 at 3:14
    
@Emile: I specified "if all other threads are also only invoking read-only methods on the map". This can be ensured by your application. –  André Caron Aug 26 '11 at 11:52
    
@Andre: It's not obvious that the "all other threads are read-only" condition still applies to your second paragraph. It won't let me undo the downvote until the answer is edited. –  Emile Cormier Aug 26 '11 at 14:02
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Standard library containers have no notion of thread safety. You have to synchronize concurrent read/write access to the container yourself.

try has nothing to do with multithreading. It's used for exception handling.

find does not throw an exception if the key is not found. If the key is not found, find returns the map's end() iterator.

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I think he thought find threw an exception when it didn't find the item, I don't think it was being used for thread safety. –  Seth Carnegie Aug 26 '11 at 3:06
    
try has nothing to do with multithreading - I agree but in case of find(..)->second not exists error will be thrown and we would have to create new what ever we were searching for, fill it with data lock the mutex and insert new data into map. –  Spender Aug 26 '11 at 3:08
1  
@Kabumbus According to this site find it doesn't throw an exception but returns std::map::end when the item doesn't exist. –  Seth Carnegie Aug 26 '11 at 3:10
    
@Seth: can we call ->second on end with out error? –  Spender Aug 26 '11 at 3:15
1  
Calling ->second on end results in undefined behavior. As is the case for dereferecing any container's end iterator. –  Emile Cormier Aug 26 '11 at 3:18
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You are correct, operator[] is not "thread safe" because it can mutate the container. You should use the find method and compare the result to std::map::end to see if it found the item. (Also notice that find has a const version while operator[] does not).

Like others have said, the version of C++ before C++11 has no notion of threads or thread safety. However, you can feel safe using find without synchronization because it doesn't change the container, so it's only doing read operations (unless you have a weird implementation, so make sure to check the docs). As with most containers, reading from it from different threads won't cause any harm, however writing to it might.

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You can't "feel safe using find without synchronization" if there's the possibility of a concurrent write operation. –  Emile Cormier Aug 26 '11 at 3:09
    
@Emile if you say so I believe you, but why is this? What could happen if you use find while some other thread is writing to the container? And why did you not also downvote Andre's answer since it's also "wrong"? –  Seth Carnegie Aug 26 '11 at 3:11
    
I did downvote Andre's answer. :-) Using find like you suggest is not thread safe because it is not an atomic operation. A concurrent write operation will disturb the internal state of the map without find knowing about it. For example, what if a node that find is walking through is suddenly deleted? –  Emile Cormier Aug 26 '11 at 3:22
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