Skip to content

danthorpe/YapDatabaseExtensions

Repository files navigation

Build status Coverage Status CocoaPods Compatible CocoaPods Documentation Platform Carthage compatible

YapDatabaseExtensions

Read my introductory blog post about YapDatabase & YapDatabaseExtensions, and a follow up on YapDatabaseExtensions 2.

YapDatabaseExtensions is a suite of convenience APIs for working with YapDatabase. If you’re not familiar with YapDatabase, it’s a powerful key value database for iOS and Mac - check it out!

Motivation

While YapDatabase is great, it’s lacking some out of the box convenience and Swift support. In particular, YapDatabase works heavily with AnyObject types, which is fine for Objective-C but means no type fidelity with Swift. Similarly saving value types like structs or enums in YapDatabase is problematic. This framework has evolved through 2015 to tackle these issues.

Value Types

The support for encoding and decoding value types, previously the Saveable and Archiver protocols, has been renamed and moved to their own project. ValueCoding is a dependency of this framework (along with YapDatabase itself). See its README for more info. However, essentially, if you used this project before version 2.1, you’ll need to rename some types - and Xcode should present Fix It options. Saveable is now ValueCoding, its nested type, previously ArchiverType is now Coder, and this type must conform to a protocol, previously Archiver, now CodingType. See how they were all mixed up? Now fixed.

Persistable

This protocol expresses what is required to support reading from and writing to YapDatabase. Objects are referenced inside the database with a key (a String) inside a collection (also a String).

public protocol Identifiable {
    typealias IdentifierType: CustomStringConvertible
    var identifier: IdentifierType { get }
}

public protocol Persistable: Identifiable {
    static var collection: String { get }
    var metadata: MetadataType? { get set }
}

The identifier property allows the type to support an identifier type such as NSUUID or Int.

While not a requirement of YapDatabase, for these extensions, it is required that values of the same type are stored in the same collection - it is a static property.

There is also a YapDB.Index struct which composes the key and collection into a single type. This is used internally for all access methods. Properties defined in an extension on Persistable provide access to key and index.

Metadata

YapDatabase supports storing metadata alongside the primary object. YapDatabaseExtensions supports automatic reading and writing of metadata as an optional property of the Persistable type.

By default, all types which conform to Persistable, will get a MetadataType of Void which is synthesized by default. Therefore if you do not want or need a metadata type, there is nothing to do.

To support a custom metadata type, just add the following to your Persistable type, e.g.:

struct MyCustomValue: Persistable, ValueCoding {
    typealias Coder = MyCustomValueCoder
    static let collection = “MyCustomValues”
    var metadata: MyCustomMetadata? = .None
    let identifier: NSUUID
}

where the type (MyCustomMetadata in the above snippet) implements either NSCoding or ValueCoding.

When creating a new item, set the metadata property before saving the item to the database. YapDatabaseExtensions will then save the metadata inside YapDatabase correctly. There is no need to encode the metadata inside the primary object. When reading objects which have a valid MetadataType, YapDatabaseExtensions will automatically read, decode and set the item’s metadata before returning the item.

Note that previous metadata protocols ObjectMetadataPersistable and ValueMetadataPersistable have been deprecated in favor of Persistable.

“Correct” Type Patterns

Because the generic protocols, ValueCoding and CodingType have self-reflective properties, they must be correctly implemented for the APIs to be available. This means that the equality ValueCoding.Coder.ValueType == Self must be met. The APIs are all composed with this represented in their generic where clauses. This means that if your ValueCoding type is not the ValueType of its Coder, your code will not compile.

Therefore, there are six valid Persistable type patterns as described in the table below:

Item encoding Metadata encoding Pattern
NSCoding Void Metadata Object
NSCoding NSCoding ObjectWithObjectMetadata
NSCoding ValueCoding ObjectWithValueMetadata
ValueCoding Void Metadata Value
ValueCoding NSCoding ValueWithObjectMetadata
ValueCoding ValueCoding ValueWithValueMetadata

Extension APIs

YapDatabaseExtensions provides two styles of API. The functional API works on YapDatabase types, YapDatabaseReadTransaction, YapDatabaseReadWriteTransaction and YapDatabaseConnection. The persistable API works on your Persistable types directly, and receives the YapDatabase type as arguments.

Functional API

The following “functional” APIs are available directly on the YapDatabase types.

// Get a YapDatabaseConnection
let connection = db.newConnection()

// Write a single item
connection.write(item) 

// Write an array of items, using one transaction.
connection.write(items)

// Write asynchronously
connection.asyncWrite(item) { print(“did finish writing”) }
connection.asyncWrite(items) { print(“did finish writing”) }

// Create a write transaction block for multiple writes.
connection.write { transaction in
    transaction.write(item)
    transaction.write(items) 
}

// Write many items asynchronously
connection.asyncWrite({ transaction in
    transaction.write(item)
    transaction.write(items) 
}, completion: { print(“did finish writing”) })

For reading:

if let item: Item? = connection.readAtIndex(index) {
  // etc
}

if let meta: Item.MetadataType? = connection.readMetadataAtIndex(index) {
  // etc
}

let items: [Item] = connection.readAtIndexes(indexes)

if let item: Item? = connection.readByKey(index) {
  // etc
}

let items: [Item] = connection.readByKeys(keys)

let all: [Item] = connection.readAll()

connection.read { transaction in
    let a: Item? = transaction.readAtIndex(index)
    let b: Item? = transaction.readByKey(key)
    let c: [Item] = transaction.readAtIndexes(indexes)
    let d: [Item] = transaction.readByKeys(keys)
    let all: [Item] = transaction.readAll()
    let meta: [Item.MetadataType] = transaction.readMetadataAtIndexes(indexes)
}

Persistable API

The APIs all work on single or sequences of Persistable items. To write to the database:

// Use a YapDatabaseReadWriteTransaction.
let written = item.write(transaction)

// Write synchronously using a YapDatabaseConnection.
let written = item.write(connection)

// Write asynchronously using a YapDatabaseConnection.
item.asyncWrite(connection) { written in
    print(“did finishing writing”)
}

// Return an NSOperation which will perform an sync write on a YapDatabaseConnection.
let write: NSOperation = item.write(connection)

Reading items from the database is a little different.

// Read using a YapDB.Index.
if let item = Item.read(transaction).byIndex(index) {
   // etc - item is correct type, no casting required.
}

// Read an array of items from an array of YapDB.Index(s)
let items = Item.read(transaction).atIndexes(indexes)

// Read using a key
if let item = Item.read(transaction).byKey(key) {
   // etc - item is correct type, no casting required.
}

// Read an array of items from an array of String(s)
let items = Item.read(transaction).byKeys(keys)

if let allItems = Item.read(transaction).all() {
   // etc - an array of Item types.
}

// Get the Items which exist for the given keys, and return the [String] keys which are missing.
let (items, missingKeys) = Item.read(transaction).filterExisting(someKeys)

Similarly, to work directly on a YapDatabaseConnection, use the following:

if let item = Item.read(connection).byIndex(index) {
   // etc - item is correct type, no casting required.
}

if let item = Item.read(connection).byKey(key) {
   // etc - item is correct type, no casting required.
}

if let allItems = Item.read(connection).all() {
   // etc - an array of Item types.
}

let (items, missingKeys) = Item.read(connection).filterExisting(someKeys)

Installation

YapDatabaseExtensions is available through CocoaPods. To install it, simply add the following line to your Podfile:

pod 'YapDatabaseExtensions'

If you don’t want the extensions API on Persistable, integrate the Functional subspec like this:

pod 'YapDatabaseExtensions/Functional’

API Documentation

API documentation is available on CocoaDocs.org.

Developing

To start working in this repository’s YapDatabaseExtensions.xcodeproj, you’ll need to use Carthage to download & build the project’s dependencies, with the commands carthage checkout and carthage build.

Author

Daniel Thorpe, @danthorpe

License

YapDatabaseExtensions is available under the MIT license. See the LICENSE file for more info.

About

YapDatabase extensions for use with Swift

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages