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Under Windows/C++, if I have a struct:

struct ListItem {
    ListItem* next;
    ListItem* prev;

together with multiple threads running in both the main process and in several dynamically loaded DLLs, and all of those threads need to share the above struct, how do I stop them stomping on each other? Something like:

ListItem* list = ...


list->next = ...


What do I put at A and B to prevent no more than one thread at a time running list->next = ...?

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The first thing to do is encapsulate the entire list and everything that accesses it directly in a class and force anything wanting access to it to use the class. This will prevent duplicate code an ensure that anything using the list abides by whatever synchronization method you come up with. – Blrfl Dec 14 '10 at 18:14
up vote 5 down vote accepted

There are two main ways. One, possibly the simplest, is to simply send each thread it's own copy of the data structure. This way you won't have to use synchronization to protect the data, since no thread shares another thread's data.

But that won't work in a lot of situations. Sometimes you really do need to share a common data structure. In which case, you need to protect the data structure with some form of synchronization object. Boost.Threads provides some cross-platform ones, and I'm sure someone will show you how to use them. Since you asked specifically about Windows, I'll show you a Windows way.

You can use a CRITICAL_SECTION. First, you need to initialize the critical section in your main thread, before you kick off your worker threads:

int main()
// ...
// ...

Then pass the pointer to the cs to each worker thread. (This is left as an excercise.) In each worker thread, enter the cs before working with your data, and leave it when you're done.

CRITICAL_SECTION* pcs = ...; // passed in from main thread
EnterCriticalSection(pcs); // this will block until the cs is "available"
list->next = ...
LeaveCriticalSection(pcs); // makes the cs available to other threads

The above is psudocode, and has much room for improvement. For example, the critical section should be wrapped in an RAII object so it is automatically destroyed when you're done with it. Similarly, the locking and unlocking should also be done in an RAII object so that it is always unlocked no matter how you exit your thread function, even in the face of exceptions.

You should note that a CRITICAL_SECTION can only be used by a single process. If you need to use a mutex-type object across multiple processes (not what you seem to need here), then you need to use a named mutex instead.

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Thanks! Sorry I didn't know the correct words for it, but after looking at your CRITICAL_SECTION link I see that that is what I need. :) – storm Dec 14 '10 at 18:31
@storm: Enjoy & good luck – John Dibling Dec 14 '10 at 18:33

Use Windows Mutex objects where you have multiple processes that may access one resource.

If your threads are all on one process then you can use EnterCriticalSection / LeaveCriticalSection.

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How can this struct possibly be shared inter-process? CriticalSection is what is needed, or better a lock_guard class that encapsulates it. – Steve Townsend Dec 14 '10 at 18:13
I haven't actually done this, but in Windows one can create interprocess shared memory. Cast a pointer within this memory to Stack *. Protect access with a named mutex. There you have it. – ThomasMcLeod Dec 14 '10 at 21:17
Windows Shared Files and Memory: – ThomasMcLeod Dec 14 '10 at 21:18

You are looking for synchronization. Take a look at mutex.

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No, Mutex is not correct here. – Steve Townsend Dec 14 '10 at 18:13
@Steve: It could be correct. Its just not optimal. – John Dibling Dec 14 '10 at 18:16
@John, fair point in general. For this application though? – Steve Townsend Dec 14 '10 at 18:23
@Steve: I can't think of any situation where a CRITICAL_SECTION is correct but a Mutex is technically incorrect. Can you? But again, correct is not the same as optimal. – John Dibling Dec 14 '10 at 18:31
@John - CritSec allows re-entry by same thread – Steve Townsend Dec 14 '10 at 18:38

Depending on what you need the structure for, you can use some lockless data structure, like Win API interlocked SList. This way even when multiple threads are performing operations, the data structure is still consistent.

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Is this homework? In any case, try googling "Critical Section".

share|improve this answer
I doubt this is homework. – John Dibling Dec 14 '10 at 18:14

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