The BNR Core Data Stack is a small framework, written in Swift, that makes it easy to quickly set up a multi-threading ready Core Data stack.
For more details on the design methodology see: Introducing the Big Nerd Ranch Core Data Stack
For complete source documentation see: Documentation
- OS X 10.10
- tvOS 9.0
- iOS 8.0
- Xcode 7.3
- Swift 2.2
Add the following to your Cartfile:
github "BigNerdRanch/CoreDataStack"
Then run carthage update
.
Follow the current instructions in Carthage's README for up to date installation instructions.
Add the following to your Podfile:
pod 'BNRCoreDataStack'
You will also need to make sure you're opting into using frameworks:
use_frameworks!
Then run pod install
.
via: Carthage
import CoreDataStack
or via CocoaPods
import BNRCoreDataStack
CoreDataStack.constructSQLiteStack(withModelName: "TestModel") { result in
switch result {
case .Success(let stack):
self.myCoreDataStack = stack
print("Success")
case .Failure(let error):
print(error)
}
}
do {
myCoreDataStack = try CoreDataStack.constructInMemoryStack(withModelName: "TestModel")
} catch {
print(error)
}
This is the root level context with a PrivateQueueConcurrencyType
for asynchronous saving to the NSPersistentStore
. Fetching, Inserting, Deleting or Updating managed objects should occur on a child of this context rather than directly.
myCoreDataStack.privateQueueContext
This is our MainQueueConcurrencyType
context with its parent being the private persisting context. This context should be used for any main queue or UI related tasks. Examples include setting up an NSFetchedResultsController
, performing quick fetches, making UI related updates like a bookmark or favoriting an object. Performing a save() call on this context will automatically trigger a save on its parent via NSNotification
.
myCoreDataStack.mainQueueContext
Calling newChildContext()
will vend us a PrivateQueueConcurrencyType
child context of the main queue context. Useful for any longer running task, such as inserting or updating data from a web service. Calling save() on this managed object context will automatically trigger a save on its parent context via NSNotification
.
let workerContext = myCoreDataStack.newChildContext()
workerContext.performBlock() {
// fetch data from web-service
// update local data
workerContext.saveContext()
}
In most cases, offloading your longer running work to a background worker context will be sufficient in alleviating performance woes. If you find yourself inserting or updating thousands of objects then perhaps opting for a stand alone managed object context with a discrete persistent store like so would be the best option:
myCoreDataStack.newBatchOperationContext() { result in
switch result {
case .Success(let batchContext):
// my big import operation
case .Failure(let error):
print(error)
}
}
At times it can be necessary to completely reset your Core Data store and remove the file from disk, for example when a user logs out of your application. An instance of CoreDataStack
can be reset by using the function
resetStore(resetCallback: CoreDataStackStoreResetCallback)
.
myCoreDataStack.resetStore() { result in
switch result {
case .Success:
// proceed with fresh Core Data Stack
case .Failure(let error):
print(error)
}
}
CoreDataModelable
is a simple protocol that adds convenience methods on NSManagedObject
subclasses. These methods make fetching, inserting, deleting, and change management easier.
class Book: NSManagedObject, CoreDataModelable {
static let entityName = "Book"
}
let allBooks = try Book.allInContext(moc)
let anyBook = try Book.findFirstInContext(moc)
try Book.removeAllInContext(moc)
FetchedResultsController<T>
is a type safe wrapper around NSFetchedResultsController
using Swift generics.
See BooksTableViewController.swift for an example.
EntityMonitor<T>
is a class for monitoring inserts, deletes, and updates of a specific NSManagedObject
subclass within an NSManagedObjectContext
.
See EntityMonitorTests.swift for an example.
Please see our guide to contributing to the CoreDataStack
To validate that you are honoring all of the threading rules it's common to add the following to a project scheme under Run > Arguments > Arguments Passed On Launch
.
-com.apple.CoreData.ConcurrencyDebug 1
This will throw an exception if you happen to break a threading rule. For more on setting up Launch Arguments check out this article by NSHipster.
By default the CoreData store URL can be included in the backup of a device to both iCloud and local disk backups via iTunes. For sensitive information such as health records or other personally identifiable information, you should supply an NSURL
to the constructor that has been flagged as excluded from backup.
Example:
// Setup your URL
let documentsDirectory = NSFileManager.defaultManager().URLsForDirectory(.DocumentDirectory, inDomains: .UserDomainMask).first!
let storeFileURL = NSURL(string: "MyModel.sqlite", relativeToURL: documentsDirectory)!
do {
try storeFileURL.setResourceValue(true, forKey: NSURLIsExcludedFromBackupKey)
} catch {
//handle error ...
}
// Create your stack
CoreDataStack.constructSQLiteStack(withModelName: "MyModel", withStoreURL: storeFileURL) { result in
switch result {
case .Success(let stack):
// Use your new stack
case .Failure(let error):
//handle error ...
}
}