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I have a map<uint, Order*> orders where Order is a defined class with applicable fields such as id, time, price and volume. I also have a thread which listens for incoming order additions and deletions for the map defined below.

void System::OrderDeleted_Thread(unsigned int order_id)
    if(orders.find(order_id) != orders.end())
            Order* order = orders[order_id];
            delete order;

My problem is very similar to this one:

Segmentation fault in std function std::_Rb_tree_rebalance_for_erase ()

My question is, how can I iterate through my orders map without the program giving me an error when it comes time to re balance the tree? Just like the solution in the link says, I have taken out the .erase(uint) method and gotten it to work. Unfortunately, I cannot keep a map of several tens of thousands keys around.

Thanks in advance!

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Can you add some more detail about the synchronizing of your threads - in particular do you allow one thread to read while another deletes?Also, what are your constraints, a map of <uint, pointer> is easily within the memory capabilities of most machines? –  Tim Gee Jan 13 '12 at 20:15
@TimGee I do allow threads to add as well as delete. Throughout the day there could by upwards of 100k-200k entries, wouldn't it take too long to search for a specific order by key? –  Joshua Jan 13 '12 at 20:17
I think your problem is thread synchronization and is being answered elsewhere. On the performance cost of a 100k-200k map - note that maps have logarithmic lookup performance. In English - they are extremely fast even on maps this size. –  Tim Gee Jan 13 '12 at 20:57

3 Answers 3

up vote 4 down vote accepted

I also have a thread which listens for incoming order additions and deletions for the map defined below.

You need to synchronize access to the map. STL containers are not thread-safe with multiple writers (and erasing elements is writing to the container) without some sort of external synchronization.

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I added a mutex around the orders.erase(order_id) line, but it is still having the same issues... or is this not what you are referring to? –  Joshua Jan 13 '12 at 20:19
@Joshua, you need to use that mutex around every use of the map if you are going to modify it from a different thread. –  MSN Jan 13 '12 at 20:25
You have to synchronize all operations including iteration and finds, not just the erase. –  Mark B Jan 13 '12 at 20:25
the map can change its state everytime you use it, especially with operator[] so I think you should mutex that, too. –  bamboon Jan 13 '12 at 20:26
You need to synchronize all accesses to the map, not just the erase. –  Adrian McCarthy Jan 13 '12 at 20:27

Queue up your additions and deletions in a seperate data structure, and then process them at a safe time, that is when you are guaranteed to not be iterating through the map. That safe time can be after you have acquired a mutex which protects the map, or some other way, depending on your program.

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Apart from synchronisation issues, that's a costly way to write the loop. Instead, try this:

std::map<uint, Order*>::iterator it;
Order * p = NULL;

{ // enter critical section
    if ((it = orders.find(id)) != orders.end())
        p = it->second;
} // leave critical section

delete p;
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True, but really doesn't answer the OP's question. –  Billy ONeal Jan 13 '12 at 21:37
@BillyONeal: True... I don't think we can solve the OP's issue without seeing more code. My bet is on a synchronization issue, and my answer will make the synchronized solution less costly, if that's worth anything :-S (In fact I just added a little improvement.) –  Kerrek SB Jan 13 '12 at 22:13
@KerrekSB Thanks, Can you explain why it is cheaper to have that iterator, rather than just seeing if it exists, then getting it using the [] operator? –  Joshua Jan 17 '12 at 19:15
@Joshua: This way you don't have to search the map twice. –  Kerrek SB Jan 18 '12 at 0:11

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