First of all, enums should only have one raw value. However if you want to have something that can use multiple raw values... there is a way to 'hack' this, but you have to make it codable and hashable yourself, implement custom init's etc.
enum MyCustomEnum: Codable, Hashable {
// duplicate every case with associated value of Codable.Type
case myFirstCase, _myFirstCase(Codable.Type)
case mySecondCase, _mySecondCase(Codable.Type)
case myThirdCase, _myThirdCase(Codable.Type)
case unknown(Any), _unknown(Codable.Type, Any) // handles unknown values
// define an allCases value to determine the only values your app 'sees'.
static var allCases: [Self] {
return [
.myFirstCase,
.mySecondCase,
.myThirdCase
// unknown(String) // you can add unknown as well, but this is too mask any unknown values.
]
}
static func == (lhs: MyCustomEnum, rhs: MyCustomEnum) -> Bool {
return lhs.stringValue == rhs.stringValue // can be either one of your custom raw values.
}
// add this per raw value. In this case one for Int and one for String
init(rawValue: Int) {
guard let value = Self.allCases.first(where:{ $0.intValue == rawValue }) else {
self = ._unknown(Int.self, rawValue)
return
}
switch value {
case .myFirstCase: self = ._myFirstCase(Int.self)
case .mySecondCase: self = ._mySecondCase(Int.self)
case .myThirdCase: self = ._myThirdCase(Int.self)
default: self = ._unknown(Int.self, rawValue)
}
}
init(rawValue: String) {
guard let value = Self.allCases.first(where:{ $0.stringValue == rawValue }) else {
self = ._unknown(String.self, rawValue)
return
}
switch value {
case .myFirstCase: self = ._myFirstCase(String.self)
case .mySecondCase: self = ._mySecondCase(String.self)
case .myThirdCase: self = ._myThirdCase(String.self)
default: self = ._unknown(Int.self, rawValue)
}
}
// add this per raw value. In this case one for Int and one for String
var intValue: Int {
switch self {
case .myFirstCase, ._myFirstCase(_): return 1
case .mySecondCase, ._mySecondCase(_): return 2
case .myThirdCase, ._myThirdCase(_): return 3
case .unknown(let value), ._unknown(_, let value): return value as? Int ?? -1 // you can also choose to let intValue return optional Int.
}
}
var stringValue: String {
switch self {
case .myFirstCase, ._myFirstCase(_): return "my first case"
case .mySecondCase, ._mySecondCase(_): return "my second case"
case .myThirdCase, ._myThirdCase(_): return "my third case"
case .unknown(let value), ._unknown(_, let value): return value as? String ?? "not a String" // you can also choose to let stringValue return optional String.
}
}
// determine the codable type using Mirror
private func getCodableType() -> Codable.Type? {
let mirrorOfModuleType = Mirror.init(reflecting: self)
guard let childOfModuleType = mirrorOfModuleType.children.first else { // no children, means no associated values.
return nil
}
let value = childOfModuleType.value // can be either Codable.Type, String or (Codable.Type & String)
if let rawValue = value as? Codable.Type {
return rawValue
} else {
guard let rawValue = value as? (Codable.Type, String) else {
// unknown(String), we don't know the rawValue as given, but try in this part of the code to guess what type fits best.
if self.stringValue != "\(self.intValue)" { // e.g. "1" might match 1 but "1.0" and 1 don't match
return String.self
} else {
return Int.self // return either a default value, or nil. It's your choice.
}
}
return rawValue.0
}
}
// confine to hashable using getCodableType
func hash(into hasher: inout Hasher) {
if self.getCodableType() is String.Type {
hasher.combine(self.stringValue)
} else { // if you don't call hasher.combine at all, you can expect strange issues. If you do not know the type, choose one that is most common.
hasher.combine(self.intValue)
}
}
// confine to Decodable
init(from decoder: Decoder) throws {
if let rawValue = try? Int.init(from: decoder) {
self.init(rawValue: rawValue)
} else if let rawValue = try? String.init(from: decoder) {
self.init(rawValue: rawValue)
} else {
throw DecodingError.valueNotFound(Self.self, DecodingError.Context(codingPath: [], debugDescription: "no matching value was found"))
}
}
// confine to Encodable using getCodableType
func encode(to encoder: Encoder) throws {
let rawValue = self.getCodableType()
if rawValue is String.Type {
try self.stringValue.encode(to: encoder)
} else if rawValue is Int.Type {
try self.intValue.encode(to: encoder)
} else {
// getCodableType returns nil if it does not know what value it is. (e.g. myFirstCase without associated value) If you want to support this as well, you can encode using one of your rawValues to the encoder.
throw EncodingError.invalidValue(Self.self, EncodingError.Context.init(codingPath: [], debugDescription: "this enum does not have a correct value", underlyingError: nil))
}
}
}
this code is scalable to any number of raw value as long as they are Codable