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I apologize for the abstract nature of this question. However, it is exactly the question I need answered. It may be that the answers are links to articles discussing various approaches or frameworks and so on. That's perfectly fine with me.

The question however never seems to be answered in the various things I read and listen to and so on:

How do I efficiently manage shared data in a multithreaded application?

The evolution of applications programming has been to move to doing work in worker threads, leaving the UI thread to remain responsive to the user while the work initiated by the user's actions is completed.

Sometimes there are problems which have local data - or data that can be copied and made independent for the worker thread, so that no data synchronization is needed.

However, I am often faced with the the need to do one of:

  1. Have read-only access to the entire shared data domain (the document).
  2. Have write access to the shared data.

In the case of 1 (read only access), I wonder what sort of approaches others use to deliver that data to many readers, ensuring that the data remains stable for the duration of the worker's computation?

In the case of 2 (write access), I wonder what sort of approaches others use to ensure that the worker can make whatever transforms are necessary while ensuring efficient read-only access is available to other threads / tasks?

The main thing I can think of doing:

  • Anytime an action is taken that needs write-access, first requires that a copy of the data be created for sole access by the write-access thread. That thread then does its work against this local copy of the data, and when finished, signals the UI thread to change over to using this data as the new common data for all new actions (existing actions would complete using the now-out-of-date data, and perhaps it is implemented using shared_ptr and hence is deleted when the last read-oonly worker finishes using it).

This does mean that there can only be one writer-thread executing at once (but multiple reader-threads), and that this writer thread must be kept track of (i.e. the UI thread needs to know when it is finished, and update the current document data when it is done).

Is this a model that makes sense (after all, the data can be quite large - think CAD design or game-state).

After all, if the various threads all work with a single data set in situ, then they have to be serialized (or at least serialized with regards to writers, and writers now need to wait for some sort of join on all extant readers before it can begin updating the data).

Or are there other data models that make sense for an application's shared data (the document)?

I can imagine using finer grained locks on parts of the document - analogous to locking a given paragraph for editing by a given thread. However, the more locks you have (even checking them), the more performance degrades. And when you need to be able to ensure that the entire design's state remain coherent for a given thread (e.g. in order to save it to disk), then there has to be some sort of meta-lock that blocks all other worker threads & locks, which sounds like a performance (and possibly deadlock) nightmare.

I've been puzzled by this question for some time, and hence I'm asking the SO community for some pointers on how to approach this problem, or for pointers to others who discuss various approaches / solutions. (Again, my apologies for the abstract nature of this question: if administrators would like to point to a different venue where this is more welcome, please let me know and I can move it there).

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closed as too broad by Joe, usr, Mark B, jeffamaphone, Daniel Frey Sep 16 '13 at 18:11

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs. If this question can be reworded to fit the rules in the help center, please edit the question.

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I don't think there is a single answer that can be said to be "the answer" - it will all depend on what kind of data, what the relationship is between certain sets of data, etc, etc. For example, a basic "fixed size" array can be added to without affecting the other content - you just need to ensure the update to the count is atomic, where a std::map can't (the std::map may end up being rebalanced, at which point almost any element is liable to "move"). –  Mats Petersson Sep 16 '13 at 17:45
    
Another factor may be the number of "reads" vs. "writes" - if you are "editing" a drawing in a cad-program, it may update the one simple element in the structure describing the drawing, but it will read all of the elements to figure out how to redraw the thing, now that you have added a screw to hold the wheel into place - so there is one "update" and potentially thousands of "reads". –  Mats Petersson Sep 16 '13 at 17:47
    
Databases go with the fine-grained locking model and add snapshots for readers as well as deadlock resolution for writers. –  usr Sep 16 '13 at 17:50
    
And yet other factors are whether you may need to convert the multi-threaded program into a distributed one and whether you have any possible write parallelism, such as concurrent writing of non-interacting portions of CAD data. –  Michael Sep 16 '13 at 17:52
    
There are lock-free data structs you can use for your data to give you choices and how your data is contained and maintains safety with multiple-threads. –  andre Sep 16 '13 at 17:55

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