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Is reference to object in std::map is thread safe?

std::map< std::string, Object >   _objects;

map can be changed from many threads and this access is synchronized, but reference to value (Object &) accessable just from 1 instance and thread. is write operations with Object & is safe if another thread will add items to map? will it reallocate?

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It isn't thread safe, insert from two threads and you can end up in an inconstant state. –  paulm Feb 25 '13 at 12:44
@paulm, "map can be changed from many threads and this access is synchronized" –  Jonathan Wakely Feb 25 '13 at 14:38
Ah, I completely missed the point of the question :) –  paulm Feb 25 '13 at 14:40

2 Answers 2

up vote 4 down vote accepted

The C++11 standard guarantees that const method access to containers is safe from different threads (ie, both use const methods).

In addition, [container.requirements.dataraces] states

implementations are required to avoid data races when the contents of the contained object in different elements in the same sequence, excepting vector<bool>

In other words, except for vector<bool> modifying distinct contents is not a data race.

Now, if one thread invalidates an iterator used by another thread, clearly this is a data race (and results in undefined behavior). If one thread does non-const access to a container, and another does const access, that is a data race (and undefined behavior). (Note: a number of functions are "considered const" for the purpose of multithreading, including begin, end and other functions (and methods) that are non-const simply because they return non-const iterators. [] is included in this set of pseudo-const for thread safety reasons, except for map and unordered_set etc --

However, it appears that if you have a reference to an element within the container, and engage in operations that do not invalidate that reference in another thread, and never write to that element in another thread, you can safely read from that reference. Similarly, if other threads never even read from the element, then writing to that element shouldn't result in undefined behavior.

For standards references, seems to guarantee that functions from the standard library won't run away and read/write elements needlessly.

So the short answer: you are safe, so long as the other thread doesn't directly mess with that particular entry in the map.

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see [container.requirements.dataraces]/3. That ensures distinct elements can be modified concurrently, and as you say the element won't be modified by updates to the map in other threads, as stated by [associative.reqmnts]/9 –  Jonathan Wakely Feb 25 '13 at 13:06
You certain there isn't a tortured reading? Concurrent access to elements is safe, using const members is safe, some non-const members won't invalidate references or iterators -- but are non-const members guaranteed to not read (and thus cause a data race with element writes) when doing innocuous operations on the container? I see no reason for a container to do this, but I see nothing in 23.2.2 that disallows it. –  Yakk Feb 25 '13 at 14:28
I guess –  Yakk Feb 25 '13 at 14:29
A std::map should only read an element's key (because it doesn't know what to do with the rest of the element, so has no reason to look at it) and the key is const, so although I don't think there's explicit wording saying so, there's no reason for any member of std::map to read any non-const part of an element while modifying the map. –  Jonathan Wakely Feb 25 '13 at 14:38
1 then? "required by its specifications" might cover this. –  Yakk Feb 25 '13 at 15:10

Elements in a map are stable, they do not get moved or invalidated unless the element is erased from the map. If only one thread is writing to a given object, and changes to the map itself are correctly synchronized, then I believe it will be safe. I'm sure it's safe in practice, and I think it's safe in theory too.

The standard guarantees that distinct elements can be modified by different threads, in [container.requirements.dataraces]

Notwithstanding (, implementations are required to avoid data races when the contents of the contained object in different elements in the same sequence, excepting vector<bool>, are modified concurrently.

This only allows you to modify the elements, not to insert new elements into the map while modifying elements. For some containers, such as std::vector, modifying the vector itself might also modify elements by reallocating and moving them, but [associative.reqmts]/9 ensures std::map won't invalidate existing elements.

Since no member function of std::map is required to access the second member of its elements (i.e. the mapped_type) I think [res.on.data.races]/5 says no other thread will conflict with writes to that member when modifying the map. (Thanks to Yakk for that final piece of the puzzle)

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i keep reference to the value in thread1 (and just in this thread), but add another values with another key from another threads –  deeptowncitizen Feb 25 '13 at 12:45

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