This package provides a json encoder and decoder in pure Swift (without the use of Foundation or any other dependency). The implementation is RFC8259 compliant. It offers a significant performance improvement compared to the Foundation implementation on Linux.
If you like the idea of using pure Swift without any dependencies, you might also like my reimplementation of Base64 in pure Swift: swift-base64-kit
- does not use Foundation at all
- does not use
unsafe
Swift syntax - no external dependencies other than the Swift STL
- faster than Foundation implementation
- custom encoder and decoder for
Data
andDate
- parsing/decoding of UTF-16 and UTF-32 encoded json
- transforming
CodingKey
s to camelCase or snake_case (I want to look into this)
- IkigaJSON super fast encoding and decoding especially for server side Swift code. Depends on
SwiftNIO
. - Foundation Coding
Add pure-swift-json
as dependency to your Package.swift
:
dependencies: [
.package(url: "https://github.com/fabianfett/pure-swift-json.git", .upToNextMajor(from: "0.2.1")),
],
Add PureSwiftJSON
to the target you want to use it in.
targets: [
.target(name: "MyFancyTarget", dependencies: [
.product(name: "PureSwiftJSON", package: "pure-swift-json"),
])
]
Use it as you would use the Foundation encoder and decoder.
import PureSwiftJSON
let bytesArray = try PSJSONEncoder().encode(myEncodable)
let myDecodable = try PSJSONDecoder().decode(MyDecodable.self, from: bytes)
For maximal performance create an [UInt8]
from your ByteBuffer
, even though buffer.readableBytesView
would technically work as well.
let result = try pureDecoder.decode(
[SampleStructure].self,
from: buffer.readBytes(length: buffer.readableBytes)!)
let bytes = try pureEncoder.encode(encodable)
var buffer = byteBufferAllocator.buffer(capacity: bytes.count)
buffer.writeBytes(bytes)
Increase the performance of your Vapor 4 API by using pure-swift-json
instead of the default Foundation implementation. First you'll need to implement the conformance to Vapor's ContentEncoder
and ContentDecoder
as described in the Vapor docs.
import Vapor
import PureSwiftJSON
extension PSJSONEncoder: ContentEncoder {
public func encode<E: Encodable>(
_ encodable: E,
to body: inout ByteBuffer,
headers: inout HTTPHeaders) throws
{
headers.contentType = .json
let bytes = try self.encode(encodable)
// the buffer's storage is resized in case its capacity is not sufficient
body.writeBytes(bytes)
}
}
extension PSJSONDecoder: ContentDecoder {
public func decode<D: Decodable>(
_ decodable: D.Type,
from body: ByteBuffer,
headers: HTTPHeaders) throws -> D
{
guard headers.contentType == .json || headers.contentType == .jsonAPI else {
throw Abort(.unsupportedMediaType)
}
var body = body
return try self.decode(D.self, from: body.readBytes(length: body.readableBytes)!)
}
}
Next, register the encoder and decoder for use in Vapor:
let decoder = PSJSONDecoder()
ContentConfiguration.global.use(decoder: decoder, for: .json)
let encoder = PSJSONEncoder()
ContentConfiguration.global.use(encoder: encoder, for: .json)
All tests have been run on a 2019 MacBook Pro (16" – 2,4 GHz 8-Core Intel Core i9). You can run the tests yourself by cloning this repo and
# change dir to perf tests
$ cd PerfTests
# compile in release mode - IMPORTANT ‼️
$ swift build -c release
# run tests
$ .build/release/PureSwiftJSONCodingPerfTests
macOS Swift 5.1 | macOS Swift 5.2 | Linux Swift 5.1 | Linux Swift 5.2 | |
---|---|---|---|---|
Foundation | 2.61s | 2.62s | 13.03s | 12.52s |
PureSwiftJSON | 1.23s | 1.25s | 1.13s | 1.05s |
Speedup | ~2x | ~2x | ~10x | ~10x |
macOS Swift 5.1 | macOS Swift 5.2 | Linux Swift 5.1 | Linux Swift 5.2 | |
---|---|---|---|---|
Foundation | 2.72s | 3.04s | 10.27s | 10.65s |
PureSwiftJSON | 1.70s | 1.72s | 1.39s | 1.16s |
Speedup | ~1.5x | ~1.5x | ~7x | ~8x |
Date and Data are particular cases for encoding and decoding. They do have default implementations that are kind off special:
-
Date will be encoded as a float
Example:
2020-03-17 16:36:58 +0000
will be encoded as606155818.503831
-
Data will be encoded as a numeric array.
Example:
0, 1, 2, 3, 255
will be encoded as:[0, 1, 2, 3, 255]
Yes, that is the default implementation. Only Apple knows why it is not ISO 8601 and Base64. 🙃
Since I don't want to link against Foundation, it is not possible to implement default encoding and decoding strategies for Date
and Data
like the Foundation implementation does. That's why, if you want to use another encoding/decoding strategy than the default, you need to overwrite encode(to: Encoder)
and init(from: Decoder)
.
This could look like this:
struct MyEvent: Decodable {
let eventTime: Date
enum CodingKeys: String, CodingKey {
case eventTime
}
init(from decoder: Decoder) {
let container = try decoder.container(keyedBy: CodingKeys.self)
let dateString = try container.decode(String.self, forKey: .eventTime)
guard let timestamp = MyEvent.dateFormatter.date(from: dateString) else {
let dateFormat = String(describing: MyEvent.dateFormatter.dateFormat)
throw DecodingError.dataCorruptedError(forKey: .eventTime, in: container, debugDescription:
"Expected date to be in format `\(dateFormat)`, but `\(dateString) does not fulfill format`")
}
self.eventTime = timestamp
}
private static let dateFormatter: DateFormatter = MyEvent.createDateFormatter()
private static func createDateFormatter() -> DateFormatter {
let formatter = DateFormatter()
formatter.dateFormat = "yyyy-MM-dd'T'HH:mm:ss.SSSZ"
formatter.timeZone = TimeZone(secondsFromGMT: 0)
formatter.locale = Locale(identifier: "en_US_POSIX")
return formatter
}
}
You can find more information about encoding and decoding custom types in Apple's documentation.
Of course you can use @propertyWrapper
s to make this more elegant:
import Foundation
@propertyWrapper
struct DateStringCoding: Decodable {
var wrappedValue: Date
init(wrappedValue: Date) {
self.wrappedValue = wrappedValue
}
init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
let dateString = try container.decode(String.self)
guard let date = Self.dateFormatter.date(from: dateString) else {
let dateFormat = String(describing: Self.dateFormatter.dateFormat)
throw DecodingError.dataCorruptedError(in: container, debugDescription:
"Expected date to be in format `\(dateFormat)`, but `\(dateString) does not fulfill format`")
}
self.wrappedValue = date
}
private static let dateFormatter: DateFormatter = Self.createDateFormatter()
private static func createDateFormatter() -> DateFormatter {
let formatter = DateFormatter()
formatter.dateFormat = "yyyy-MM-dd'T'HH:mm:ss.SSSZ"
formatter.timeZone = TimeZone(secondsFromGMT: 0)
formatter.locale = Locale(identifier: "en_US_POSIX")
return formatter
}
}
struct MyEvent: Decodable {
@DateStringCoding
var eventTime: Date
}
Checkout a full example in the test file DateCodingTests.
If your input is UTF-16 or UTF-32 encoded, you can easily convert it to UTF-8:
let utf16 = UInt16[]() // your utf-16 encoded data
let utf8 = Array(String(decoding: utf16, as: Unicode.UTF16.self).utf8)
let utf32 = UInt32[]() // your utf-32 encoded data
let utf8 = Array(String(decoding: utf32, as: Unicode.UTF32.self).utf8)
Please feel welcome and encouraged to contribute to pure-swift-json
. This is a very young endeavour and help is always welcome.
If you've found a bug, have a suggestion, or need help getting started, please open an Issue or a PR. If you use this package, I'd be grateful for sharing your experience.
Focus areas for the time being:
- ensuring safe use of nested containers while encoding and decoding
- supporting camelCase and snakeCase aka
KeyEncodingStrategy
- @weissi thanks for answering all my questions and for opening tickets SR-12125 and SR-12126
- @dinhhungle thanks for your quality assurance. It helped a lot!
- @Ro-M thanks for checking my README.md
- @Trzyipolkostkicukru thanks for your advice on
@propertyWrappers
and for finding typos.