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dpearson2699/swift-ios-skills

Agent skills for iOS, iPadOS, Swift, SwiftUI, and modern Apple framework development.

90

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SKILL.mdskills/swift-codable/

name:
swift-codable
description:
Implement Swift Codable models for JSON and property-list encoding and decoding with JSONDecoder, JSONEncoder, CodingKeys, and custom init(from:) or encode(to:). Use when parsing API responses, remapping keys, flattening nested JSON, handling date or data decoding strategies, decoding heterogeneous arrays, or integrating Codable with URLSession, SwiftData, or UserDefaults.

Swift Codable

Encode and decode Swift types using Codable (Encodable & Decodable) with JSONEncoder, JSONDecoder, and related APIs. Targets Swift 6.3 / iOS 26+.

Contents

Basic Conformance

When all stored properties are themselves Codable, the compiler synthesizes conformance automatically:

struct User: Codable {
    let id: Int
    let name: String
    let email: String
    let isVerified: Bool
}

let user = try JSONDecoder().decode(User.self, from: jsonData)
let encoded = try JSONEncoder().encode(user)

Prefer Decodable for read-only API responses and Encodable for write-only. Use Codable only when both directions are required.

Custom CodingKeys

Rename JSON keys without writing a custom decoder by declaring a CodingKeys enum:

struct Product: Codable {
    let id: Int
    let displayName: String
    let imageURL: URL
    let priceInCents: Int

    enum CodingKeys: String, CodingKey {
        case id
        case displayName = "display_name"
        case imageURL = "image_url"
        case priceInCents = "price_in_cents"
    }
}

Every stored property must appear in the enum. Omitting a property from CodingKeys excludes it from encoding/decoding -- provide a default value or compute it separately.

Custom Decoding and Encoding

Override init(from:) and encode(to:) for transformations the synthesized conformance cannot handle:

struct Event: Codable {
    let name: String
    let timestamp: Date
    let tags: [String]

    enum CodingKeys: String, CodingKey {
        case name, timestamp, tags
    }

    init(from decoder: Decoder) throws {
        let container = try decoder.container(keyedBy: CodingKeys.self)
        name = try container.decode(String.self, forKey: .name)
        // Decode Unix timestamp as Double, convert to Date
        let epoch = try container.decode(Double.self, forKey: .timestamp)
        timestamp = Date(timeIntervalSince1970: epoch)
        // Default to empty array when key is missing
        tags = try container.decodeIfPresent([String].self, forKey: .tags) ?? []
    }

    func encode(to encoder: Encoder) throws {
        var container = encoder.container(keyedBy: CodingKeys.self)
        try container.encode(name, forKey: .name)
        try container.encode(timestamp.timeIntervalSince1970, forKey: .timestamp)
        try container.encode(tags, forKey: .tags)
    }
}

Nested and Flattened Containers

Use nestedContainer(keyedBy:forKey:) to navigate and flatten nested JSON:

// JSON: { "id": 1, "location": { "lat": 37.7749, "lng": -122.4194 } }
struct Place: Decodable {
    let id: Int
    let latitude: Double
    let longitude: Double

    enum CodingKeys: String, CodingKey { case id, location }
    enum LocationKeys: String, CodingKey { case lat, lng }

    init(from decoder: Decoder) throws {
        let container = try decoder.container(keyedBy: CodingKeys.self)
        id = try container.decode(Int.self, forKey: .id)
        let location = try container.nestedContainer(
            keyedBy: LocationKeys.self, forKey: .location)
        latitude = try location.decode(Double.self, forKey: .lat)
        longitude = try location.decode(Double.self, forKey: .lng)
    }
}

Chain multiple nestedContainer calls to flatten deeply nested structures. Also use nestedUnkeyedContainer(forKey:) for nested arrays.

Heterogeneous Arrays

Decode arrays of mixed types using a discriminator field:

// JSON: [{"type":"text","content":"Hello"},{"type":"image","url":"pic.jpg"}]
enum ContentBlock: Decodable {
    case text(String)
    case image(URL)

    enum CodingKeys: String, CodingKey { case type, content, url }

    init(from decoder: Decoder) throws {
        let container = try decoder.container(keyedBy: CodingKeys.self)
        let type = try container.decode(String.self, forKey: .type)
        switch type {
        case "text":
            let content = try container.decode(String.self, forKey: .content)
            self = .text(content)
        case "image":
            let url = try container.decode(URL.self, forKey: .url)
            self = .image(url)
        default:
            throw DecodingError.dataCorruptedError(
                forKey: .type, in: container,
                debugDescription: "Unknown type: \(type)")
        }
    }
}

let blocks = try JSONDecoder().decode([ContentBlock].self, from: jsonData)

Date Decoding Strategies

Configure JSONDecoder.dateDecodingStrategy to match your API:

let decoder = JSONDecoder()

// ISO 8601 (e.g., "2024-03-15T10:30:00Z")
decoder.dateDecodingStrategy = .iso8601

// Unix timestamp in seconds (e.g., 1710499800)
decoder.dateDecodingStrategy = .secondsSince1970

// Custom DateFormatter
let formatter = DateFormatter()
formatter.dateFormat = "yyyy-MM-dd"
formatter.locale = Locale(identifier: "en_US_POSIX")
formatter.timeZone = TimeZone(secondsFromGMT: 0)
decoder.dateDecodingStrategy = .formatted(formatter)

// Custom closure for multiple formats
decoder.dateDecodingStrategy = .custom { decoder in
    let container = try decoder.singleValueContainer()
    let string = try container.decode(String.self)
    if let date = ISO8601DateFormatter().date(from: string) { return date }
    throw DecodingError.dataCorruptedError(
        in: container, debugDescription: "Cannot decode date: \(string)")
}

Set the matching strategy on JSONEncoder: encoder.dateEncodingStrategy = .iso8601

Data and Key Strategies

let decoder = JSONDecoder()
decoder.dataDecodingStrategy = .base64           // Base64-encoded Data fields
decoder.keyDecodingStrategy = .convertFromSnakeCase  // simple keys only; not URL/ID spelling
// {"user_name": "Alice"} maps to `var userName: String` -- no CodingKeys needed

let encoder = JSONEncoder()
encoder.dataEncodingStrategy = .base64
encoder.keyEncodingStrategy = .convertToSnakeCase

Use key strategies only for mechanical snake_case-to-camelCase mappings. convertFromSnakeCase maps by spelling, not Swift acronym/initialism policy: image_url, base_uri, and user_id match imageUrl, baseUri, and userId only. If the Swift model uses imageURL, baseURI, or userID, declare explicit CodingKeys; the strategy will not synthesize those names.

Lossy Array Decoding

By default, one invalid element fails the entire array. Use a wrapper to skip invalid elements:

struct LossyArray<Element: Decodable>: Decodable {
    let elements: [Element]

    init(from decoder: Decoder) throws {
        var container = try decoder.unkeyedContainer()
        var elements: [Element] = []
        while !container.isAtEnd {
            if let element = try? container.decode(Element.self) {
                elements.append(element)
            } else {
                _ = try? container.decode(AnyCodableValue.self) // advance past bad element
            }
        }
        self.elements = elements
    }
}
private struct AnyCodableValue: Decodable {}

Single Value Containers

Wrap primitives for type safety using singleValueContainer():

struct UserID: Codable, Hashable {
    let rawValue: String

    init(_ rawValue: String) { self.rawValue = rawValue }

    init(from decoder: Decoder) throws {
        let container = try decoder.singleValueContainer()
        rawValue = try container.decode(String.self)
    }

    func encode(to encoder: Encoder) throws {
        var container = encoder.singleValueContainer()
        try container.encode(rawValue)
    }
}
// JSON: "usr_abc123" decodes directly to UserID

Default Values for Missing Keys

Stored property defaults such as var theme = "system" do not make synthesized Decodable tolerate a missing nonoptional key; synthesis still fails unless the property is optional or decoded manually. Use decodeIfPresent with nil-coalescing when a missing or null key should fall back:

struct Settings: Decodable {
    let theme: String
    let fontSize: Int
    let notificationsEnabled: Bool

    enum CodingKeys: String, CodingKey {
        case theme, fontSize = "font_size"
        case notificationsEnabled = "notifications_enabled"
    }

    init(from decoder: Decoder) throws {
        let container = try decoder.container(keyedBy: CodingKeys.self)
        theme = try container.decodeIfPresent(String.self, forKey: .theme) ?? "system"
        fontSize = try container.decodeIfPresent(Int.self, forKey: .fontSize) ?? 16
        notificationsEnabled = try container.decodeIfPresent(
            Bool.self, forKey: .notificationsEnabled) ?? true
    }
}

Encoder and Decoder Configuration

let encoder = JSONEncoder()
encoder.outputFormatting = [.prettyPrinted, .sortedKeys, .withoutEscapingSlashes]

let decoder = JSONDecoder()
// Non-conforming floats (NaN, Infinity are not valid JSON)
encoder.nonConformingFloatEncodingStrategy = .convertToString(
    positiveInfinity: "Infinity", negativeInfinity: "-Infinity", nan: "NaN")
decoder.nonConformingFloatDecodingStrategy = .convertFromString(
    positiveInfinity: "Infinity", negativeInfinity: "-Infinity", nan: "NaN")

PropertyListEncoder / PropertyListDecoder

let plistEncoder = PropertyListEncoder()
plistEncoder.outputFormat = .xml  // or .binary
let data = try plistEncoder.encode(settings)
let decoded = try PropertyListDecoder().decode(Settings.self, from: data)

Codable with URLSession

func fetchUser(id: Int) async throws -> User {
    let url = URL(string: "https://api.example.com/users/\(id)")!
    let (data, response) = try await URLSession.shared.data(from: url)
    guard let http = response as? HTTPURLResponse,
          (200...299).contains(http.statusCode) else {
        throw APIError.invalidResponse
    }
    let decoder = JSONDecoder()
    decoder.keyDecodingStrategy = .convertFromSnakeCase  // simple keys only; keep CodingKeys for URL/URI/ID
    decoder.dateDecodingStrategy = .iso8601
    return try decoder.decode(User.self, from: data)
}

// Generic API envelope. Configure a decoder inside this helper because
// fetchUser's decoder is out of scope.
struct APIResponse<T: Decodable>: Decodable {
    let data: T
    let meta: Meta?
    struct Meta: Decodable { let page: Int; let totalPages: Int }
}

func decodeUsersEnvelope(from data: Data) throws -> [User] {
    let decoder = JSONDecoder()
    decoder.keyDecodingStrategy = .convertFromSnakeCase  // simple keys only; keep CodingKeys for URL/URI/ID
    decoder.dateDecodingStrategy = .iso8601
    return try decoder.decode(APIResponse<[User]>.self, from: data).data
}

Codable with SwiftData

SwiftData persists compatible noncomputed stored properties declared on @Model types. Use Codable structs, enums, and other value types directly when that value is part of the durable model schema:

struct Address: Codable {
    var street: String
    var city: String
    var zipCode: String
}

@Model class Contact {
    var name: String
    var address: Address?  // Codable value-type property stored by SwiftData
    init(name: String, address: Address? = nil) {
        self.name = name; self.address = address
    }
}

Do not recommend @Attribute(.transformable), encoded Data, or encoded String as a fallback in this Codable skill. Keep schema data as typed SwiftData properties and defer unsupported persistence designs to the SwiftData skill.

Codable with UserDefaults

@AppStorage is only for small UserDefaults-backed preferences. Store Bool, numeric, String, or a RawRepresentable type with a primitive raw value. For a small Codable preference payload, prefer RawRepresentable with JSON String raw storage so @AppStorage binds the typed preference directly:

struct UserPreferences: Codable {
    var showOnboarding: Bool = true
    var accentColor: String = "blue"
}

extension UserPreferences: RawRepresentable {
    init?(rawValue: String) {
        guard let data = rawValue.data(using: .utf8),
              let decoded = try? JSONDecoder().decode(Self.self, from: data)
        else { return nil }
        self = decoded
    }
    var rawValue: String {
        guard let data = try? JSONEncoder().encode(self),
              let string = String(data: data, encoding: .utf8)
        else { return "{}" }
        return string
    }
}

struct SettingsView: View {
    @AppStorage("userPrefs") private var prefs = UserPreferences()
    var body: some View {
        Toggle("Show Onboarding", isOn: $prefs.showOnboarding)
    }
}

Common Mistakes

1. Not handling missing defaulted fields:

// DON'T -- crashes if key is absent
let value = try container.decode(String.self, forKey: .bio)
// DO -- falls back when the key is absent or null
let value = try container.decodeIfPresent(String.self, forKey: .bio) ?? ""

2. Failing entire array when one element is invalid:

// DON'T -- one bad element kills the whole decode
let items = try container.decode([Item].self, forKey: .items)
// DO -- use LossyArray or decode elements individually
let items = try container.decode(LossyArray<Item>.self, forKey: .items).elements

3. Date strategy mismatch:

// DON'T -- default strategy expects Double, but API sends ISO string
let decoder = JSONDecoder()  // dateDecodingStrategy defaults to .deferredToDate
// DO -- set strategy to match your API format
decoder.dateDecodingStrategy = .iso8601

4. Force-unwrapping decoded optionals:

// DON'T
let user = try? decoder.decode(User.self, from: data)
print(user!.name)
// DO
guard let user = try? decoder.decode(User.self, from: data) else { return }

5. Using Codable when only Decodable is needed:

// DON'T -- unnecessarily constrains the type to also be Encodable
struct APIResponse: Codable { let id: Int; let message: String }
// DO -- use Decodable for read-only API responses
struct APIResponse: Decodable { let id: Int; let message: String }

6. Manual CodingKeys for simple snake_case APIs:

// DON'T -- verbose boilerplate for every model
enum CodingKeys: String, CodingKey {
    case userName = "user_name"
    case avatarUrl = "avatar_url"
}
// DO -- configure once on the decoder for simple cases
decoder.keyDecodingStrategy = .convertFromSnakeCase
// Keep CodingKeys for `imageURL`, `baseURI`, `userID`, and similar names.

Review Checklist

  • Types conform to Decodable only when encoding is not needed
  • decodeIfPresent used with defaults for optional or missing keys
  • keyDecodingStrategy = .convertFromSnakeCase used for simple snake_case APIs, with CodingKeys retained for acronym spellings
  • dateDecodingStrategy matches the API date format
  • Arrays of unreliable data use lossy decoding to skip invalid elements
  • Custom init(from:) validates and transforms data instead of post-decode fixups
  • JSONEncoder.outputFormatting includes .sortedKeys for deterministic test output
  • Wrapper types (UserID, etc.) use singleValueContainer for clean JSON
  • Generic APIResponse<T> wrapper used for consistent API envelope handling
  • No force-unwrapping of decoded values
  • Persistence boundary is explicit: SwiftData only for compatible noncomputed model properties, @AppStorage/UserDefaults only for small primitive or RawRepresentable preferences

References

skills

swift-codable

SKILL.md

README.md

tile.json