@Mikhail Two threads should never be trying to write to the same data if you can find an alternative... Even if you deep copy the state into each thread, figuring out how to merge their changes to the data can become an extremely difficult task. Ideally the output of each thread should be clearly independent of eachother, even if they rely on the same input
That's the kind of state leak I was mentioning which deep copies can't prevent
If anything, deep copying solve the case where you're trying to read a mutating object. (read + write race) Then you can lock down the entire object, make a deep copy and hand it off to the reader.
But it doesn't solve the write+write race situation.
Well, deep copying really helps if each thread just needs a mutable object temporarily for record-keeping (e.g, progress flags). But really, immutable references are better. Both approaches prevent shared state. Neither solution prevents state leaks when the threads need to synchronize back to the same object.
@LucDanton Ah. Yeah, in the recursion status example that I posted earlier, I was trying to find a way to not have to lock down the entire computation and stall all the threads while the reader thread walks the tree and prints out the status.
I should clarify that I didn’t take 'lock down' in the concurrency sense. it’s not that mutations to the object are queued or serialised, they’re not allowed at all
@Mysticial Read-only access to a shared resource. A second thread might see the resource after it changes, but finish before the first thread. Then the first thread overwrites some other resource they both dump to... Access to data should branch outwards, never being merged back by multiple threads. But practically, sometimes you need to write to the same object using multiple threads; in which case the data they produce shouldn't overlap without a protocol for merging without loss
It makes intuitive sense if you imagine threads as chefs in a kitchen. But in practice it's remarkably easy to accidentally have two threads sharing the same responsibility and tripping over eachother.
And considering that git doesn't always get merges right, it's a good idea to avoid their problems if at all possible ;) @Mysticial You assign the threads to 'cook different meals', or different parts of one meal. You don't want 3 chefs in charge of salting the soup because they're bound to mess it up.
@Aaron3468 Yup--I'd also note that a number of distributed file systems have encountered and dealt with the same basic problem with varying degrees of success--but to be successful at all, most include some sort of way to customize merging by file type (and, like Git, you still end up with manual merging semi-regularly).
Exactly. No matter how you approach it, overlap of responsibilities (particularly writing/mutation) creates a threading problem with no perfect solution @Mysticial