Features
- Uses Swift Reflection to convert value types to NSManagedObjects
- iOS and Mac OS X support
- Use with
structs - Works fine with
letandvarbased properties - Swift 5.0
Rationale
Swift introduced versatile value types into the iOS and Cocoa development domains. They're lightweight, fast, safe, enforce immutability and much more. However, as soon as the need for CoreData in a project manifests itself, we have to go back to reference types and @objc.
CoreValue is a lightweight wrapper framework around Core Data. It takes care of boxing value types into Core Data objects and unboxing Core Data objects into value types. It also contains simple abstractions for easy querying, updating, saving, and deleting.
Usage
The following struct supports boxing, unboxing, and keeping object state:
struct Shop: CVManagedPersistentStruct {
// The name of the CoreData entity
static let EntityName = "Shop"
// The ObjectID of the CoreData object we saved to or loaded from
var objectID: NSManagedObjectID?
// Our properties
let name: String
var age: Int32
var owner: Owner?
// Create a Value Type from an NSManagedObject
// If this looks too complex, see below for an explanation and alternatives
static func fromObject(_ o: NSManagedObject) throws -> XShop {
return try curry(self.init)
<^> o <|? "objectID"
<^> o <| "name"
<^> o <| "age"
<^> o <|? "owner"
}
}That's it. Everything else it automated from here. Here're some examples of what you can do with Shop then:
// Get all shops (`[Shop]` is required for the type checker to get your intent!)
let shops: [Shop] = Shop.query(self.context, predicate: nil)
// Create a shop
let aShop = Shop(objectID: nil, name: "Household Wares", age: 30, owner: nil)
// Store it as a managed object
aShop.save(self.context)
// Change the age
aShop.age = 40
// Update the managed object in the store
aShop.save(self.context)
// Delete the object
aShop.delete(self.context)
// Convert a managed object into a shop (see below)
let nsShop: Shop? = try? Shop.fromObject(aNSManagedObject)
// Convert a shop into an nsmanagedobject
let shopObj = nsShop.mutatingToObject(self.context)Querying
There're two ways of querying objects from Core Data into values:
// With Sort Descriptors
public static func query(context: NSManagedObjectContext, predicate: NSPredicate?, sortDescriptors: [NSSortDescriptor]) -> Array
// Without sort descriptors
public static func query(context: NSManagedObjectContext, predicate: NSPredicate?) -> ArrayIf no NSPredicate is given, all objects for the selected Entity are returned.
Usage in Detail
CVManagedPersistentStruct is a typealias for the two primary protocols of CoreValue: BoxingPersistentStruct and UnboxingStruct.
Let's see what they do.
BoxingPersistentStruct
Boxing is the process of taking a value type and returning an NSManagedObject. CoreValue really loves you and that's why it does all the hard work for you via Swift's Reflection feature. See for yourself:
struct Counter: BoxingStruct
static let EntityName = "Counter"
var count: Int
let name: String
}That's it. Your value type is now CoreData compliant. Just call aCounter.toObject(context) and you'll get a properly encoded NSManagedObject!
If you're interested, have a look at the internalToObject function in CoreValue.swift, which takes care of this.
Boxing in Detail
Keen observers will have noted that the structure above actually doesn't implement the BoxingPersistentStruct protocol, but instead something different called BoxingStruct, what's happening here?
By default, Value types are immutable, so even if you define a property as a var, you still can't change it from within except by declaring your function mutable. Swift also doesn't allow us to define properties in protocol extensions, so any state that we wish to assign on a value type has to be via specific properties on the value type.
When we create or load an NSManagedObject from CoreData, we need a way to store the connection to the original NSManagedObject in the value type. Otherwise, calling save again (say after updating the value type) would not update the NSManagedObject in question, but instead insert a new NSManagedObject into the store. That's obviously not what we want.
Since we cannot implicitly add any state whatsoever to a protocol, we have to do this explicitly. That's why there's a separate protocol for persistent storage:
struct Counter: BoxingPersistentStruct
let EntityName = "Counter"
var objectID: NSManagedObjectID?
var count: Int
let name: String
}The main difference here is the addition of objectID. Once this property is there, BoxingPersistentStruct's bag of wonders (.save, .delete, .mutatingToObject) can be used.
What's the usecase of the BoxingStruct protocol then, you may ask. The advantage is that BoxingStruct does not require your value type to be mutable, and does not extend it with any mutable functions by default, keeping it a truly immutable value type. It still can use .toObject to convert a value type into an NSManagedObject, however it can't modify this object afterwards. So it is still useful for all scenarios where you're only performing insertions (like a cache, or a log) or where any modifications are performed in bulk (delete all), or where updating will be performed on the NSManagedObject itself (.valueForKey, .save).
Boxing and Sub Properties
A word of advice: If you have value types in your value types, like:
struct Employee: BoxingPersistentStruct {
let EntityName = "Employee"
var objectID: NSManagedObjectID?
let name: String
}
struct Shop: BoxingPersistentStruct {
let EntityName = "Counter"
var objectID: NSManagedObjectID?
let employees: [Employee]
}Then you have to make sure that all value types conform to the same boxing protocol, either BoxingPersistentStruct or BoxingStruct. The type checker cannot check this and report this as an error.
Ephemeral Objects
Most protocols in CoreValue mark the NSManagedObjectContext as an optional, which means that you don't have to supply it. Boxing will still work as expected, only the resulting NSManagedObjects will be ephemeral, that is, they're not bound to a context, they can't be stored. There're few use cases for this, but it is important to note that not supplying a NSManagedObjectContext will not result in an error.
UnboxingStruct
In CoreValue, boxed refers to values in an NSManagedObject container. I.e. NSNumber is boxing an Int, NSOrderedSet an Array, and NSManagedObject itself is boxing a value type (i.e. Shop).
UnboxingStruct can be applied to any struct or class that you intend to initialize from a NSManagedObject. It only has one requirement that needs to be implemented, and that's fromObject which takes an NSManagedObject and should return a value type. Here's a very simple and unsafe example:
struct Counter: UnboxingStruct
var count: Int
let name: String
static func fromObject(_ object: NSManagedObject) throws -> Counter {
return Counter(
count: object.valueForKey("count")!.integerValue,
name: object.valueForKey("name") as! String
)
}
}Even though this example is not safe, we can observe several things from it. First, the implementation overhead is minimal. Second, the method can throw an error. That's because unboxing can fail in a multitude of ways (wrong value, no value, wrong entity, unknown entity, etc). If unboxing fails in any way, we throw an NSError. The other benefit of unboxing, that it allows us to take a shortcut (which CoreValue deviously copied from Argo). Utilizing several custom operators, the unboxing process can be greatly simplified:
struct Counter: UnboxingStruct
var count: Int
let name: String
static func fromObject(_ object: NSManagedObject) throws -> Counter {
return try curry(self.init) <^> object <| "count" <^> object <| "name"
}
}This code takes the automatic initializer, curries it and maps it over multiple incarnations of unboxing functions (<|) until it can return a Counter (or throw an error).
But what about these weird runes? Here's an in-detail overview of what's happening here:
Unboxing in Detail
curry(self.init)
Convert (A, B) -> T into A -> B -> C so that it can be called step by step
<^>
Map the following operations over the A -> B -> fn that we just created
object <| "count"
First operation: Take object, call valueForKey with the key "count" and assign this as the value for the first type of the curryed init function A
object <| "name"
Second operation: Take object, call valueForKey with the key "count" and assign this as the value for the second type of the curryed init function B
Other Operators
Custom Operators are observed as a critical Swift feature, and rightly so. Too many of those make a codebase difficult to read and understand. The following custom operators are the same as in several other Swift Frameworks (see Runes and Argo). They're basically a verbatim copy from Haskell, so while that doesn't make them less custom or even official, they're at least unofficially agreed upon.
<| is not the only operator needed to encode objects. Here's a list of all supported operators:
| Operator | Description |
|---|---|
<^> |
Map the following operations (i.e. combine map operations) |
<| |
Unbox a normal value (i.e. var shop: Shop) |
<|| |
Unbox a set/list of values (i.e. var shops: [Shops]) |
<|? |
Unbox an optional value (i.e. var shop: Shop?) |
CVManagedStruct
Since most of the time you probably want boxing and unboxing functionality, CoreValue includes two handy typealiases, CVManagedStruct and CVManagedPersistentStruct which contain Boxing and Unboxing in one type.
RawRepresentable Enum support
By extending RawRepresentable, you can use Swift enums right away without having to first make sure your enum conforms to CVManagedStruct.
enum CarType: String {
case pickup
case sedan
case hatchback
}
extension CarType: Boxing, Unboxing {}
struct Car: CVManagedPersistentStruct {
static let EntityName = "Car"
var objectID: NSManagedObjectID?
var name: String
var type: CarType
static func fromObject(_ o: NSManagedObject) throws -> Car {
return try curry(self.init)
<^> o <|? "objectID"
<^> o <| "name"
<^> o <| "type"
}
}Docs
Have a look at CoreValue.swift, it's full of docstrings.
Alternatively, there's a lot of usage in the Unit Tests.
Here's a more complex example of CoreValue in use:
struct Employee: CVManagedPersistentStruct {
static let EntityName = "Employee"
var objectID: NSManagedObjectID?
let name: String
var age: Int16
let position: String?
let department: String
let job: String
static func fromObject(_ o: NSManagedObject) throws -> Employee {
return try curry(self.init)
<^> o <| "objectID"
<^> o <| "name"
<^> o <| "age"
<^> o <|? "position"
<^> o <| "department"
<^> o <| "job"
}
}
struct Shop: CVManagedPersistentStruct {
static let EntityName = "Shop"
var objectID: NSManagedObjectID?
var name: String
var age: Int16
var employees: [Employee]
static func fromObject(_ o: NSManagedObject) throws -> Shop {
return try curry(self.init)
<^> o <| "objectID"
<^> o <| "age"
<^> o <| "name"
<^> o <|| "employees"
}
}
// One year has passed, update the age of our shops and employees by one
let shops: [Shop] = Shop.query(self.managedObjectContext, predicate: nil)
for shop in shops {
shop.age += 1
for employee in shop.employees {
employee.age += 1
}
shop.save()
}
CVManagedUniqueStruct and REST / Serialization / JSON
All the examples we've seen so far resolve around a use case where data is contained within your app. This means that the unique identifier of an NSManagedObject or struct is dicated by the NSManagedObjectID unique identifier which CoreData generates. This is fine as long as you don't plan to interact with outside data. If your data is loaded from external sources (i.e. JSON from a Rest API) then it may already have a unique identifier. CVManagedUniqueStruct allows you to force CoreValue / CoreData to use this external unique identifier in NSManagedObjectID's stead. The implementation is easy. You just have to conform to the BoxingUniqueStruct protocol which requires the implementation of a var naming the unique id field and a function returning the current ID value:
/// Name of the Identifier in the CoreData (e.g: 'id')
static var IdentifierName: String { get }
/// Value of the Identifier for the current struct (e.g: 'self.id')
func IdentifierValue() -> IdentifierTypeHere's a complete & simple example:
struct Author: CVManagedUniqueStruct {
static let EntityName = "Author"
static var IdentifierName: String = "id"
func IdentifierValue() -> IdentifierType { return self.id }
let id: String
let name: String
static func fromObject(_ o: NSManagedObject) throws -> Author {
return try curry(self.init)
<^> o <| "id"
<^> o <| "name"
}
}Please not that CVManagedUniqueStruct adds an (roughly) O(n) overhead on top of NSManagedObjectID based solutions due to the way object lookup is currently implemented.
State
All CoreData Datatypes are supported, with the following exceptions:
- Transformable
- Unordered Collections /
NSSet(Currently, only ordered collections are supported)
Fetched properties are not supported yet.
Installation (iOS and macOS)
CocoaPods
Add the following to your Podfile:
pod 'CoreValue'You will also need to make sure you're opting into using frameworks:
use_frameworks!Then run pod install with CocoaPods 1.01 or newer.
Carthage
Add the following to your Cartfile:
github "terhechte/CoreValue" ~> 0.3.0
Then run carthage update.
Follow the current instructions in Carthage's README for up to date installation instructions.
The import CoreValue directive is required in order to use CoreValue.
Manually
- Copy the
CoreValue.swiftandcurry.swiftfile into your project. - Add the
CoreDataframework to your project
There is no need for import CoreValue when manually installing.
Contact
Benedikt Terhechte
Changelog
Version 0.4.0
- Swift 5 Support thanks to DaGerry
Version 0.3.0
- Swift 3 Support
- Added CVManagedUniqueStruct thanks to tkohout
Version 0.2.0
- Switched Error Handling from
Unboxedto Swift's nativethrow. Big thanks to Adlai Holler for spearheading this! - Huge Performance improvements: Boxing is roughly 80% faster and Unboxing is roughly 90% faster
- Improved support for nested collections thanks to Roman Kříž.
- RawRepresentable support (see documentation above) thanks to tkohout
Version 0.1.6
- Made
CVManagedPersistentStructpublic - Fixed issue with empty collections
Version 0.1.4
Included pull request from AlexanderKaraberov which includes a fix to the delete function
Version 0.1.3
Updated to most recent Swift 2.0 b4 changes
Version 0.1.2
Renamed NSManagedStruct and NSPersistentManagedStruct to CVManagedStruct and CVPersistentManagedStruct as NS is preserved prefix for Apple classes
Version 0.1.1
Added CocoaPods support
Version 0.1.0
Initial Release
Acknoledgements
CoreValue uses ideas and code from thoughtbot's Argo framework for JSON decoding. Most notably their curry implementation. Have a look at it, it is an awesome framework.
License
The CoreValue source code is available under the MIT License.
Open Tasks
- test unboxing with custom initializers (init(...))
- change the protocol composition so that the required implementations (entityname, objectID, fromObject) form an otherwise empty protocol so it is easier to see the protocol and implement the requirements
- add travis build
- support aggregation
- add support for nsset / unordered lists
- add support for fetched properties (could be a struct a la (objects, predicate))
- support transformable: https://developer.apple.com/library/mac/documentation/Cocoa/Conceptual/CoreData/Articles/cdNSAttributes.html
- add jazzy for docs and update headers to have proper docs
- document multi threading support via objectID