I need to populate my map with annotations. Each annotation has corresponding Place resource that is being fetched from remote server. Each Place has associated Category - it is fetched from the server too as a separate resource.
Let's assume that to populate a given region I need to fetch 100 places, each belonging to the one of 20 categories (actually there are much more of them).
I use AFNetworking to fetch the both of resources. I try to cache both places and categories for offline use, so before the annotations are displayed on map, I write fetched resources to the Core Data tables.
Each place retrieves its associated category resource by demand and I need to write both a place in the 'places' table, and category in the 'categories' table.
Because of fetching is being done asynchronously, when writing particular category to table I can't know if maybe another place "thread" attempts to write the same associated category to 'categories' table.
So, the question is: what is the pattern for working with Core Data tables, when they need to be populated with information retrieved asynchronously? Specifically how any given thread which is going to write a category could know that there is already one trying to do that?
UPDATE 1: My current problem is that currently I am having the duplication of categories. My guess is that obviously each category which attempts to be written is not aware about the parallel write of the same category.
UPDATE 2: The most simple description of my case is the following:
I create a new Category entity with some fields in one thread and in the meantime in another thread I create exactly the same Category entity with the same fields aiming to be the same Category object like the first thread has.
One thread wins calling [managedObjectContext save:&error], but then before the actual record is appeared in the PersistentStore, the second does call the save too. The question is: how to prevent the duplication of records in 'categories' table?
UPDATE 3: I am considering both variants of using managed object contexts: 1) reusing one shared moc instance by all threads 2) instantiate a new moc on each thread