// // URLEncodedFormEncoder.swift // // Copyright (c) 2019 Alamofire Software Foundation (http://alamofire.org/) // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // import Foundation /// An object that encodes instances into URL-encoded query strings. /// /// `ArrayEncoding` can be used to configure how `Array` values are encoded. By default, the `.brackets` encoding is /// used, encoding array values with brackets for each value. e.g `array[]=1&array[]=2`. /// /// `BoolEncoding` can be used to configure how `Bool` values are encoded. By default, the `.numeric` encoding is used, /// encoding `true` as `1` and `false` as `0`. /// /// `DataEncoding` can be used to configure how `Data` values are encoded. By default, the `.deferredToData` encoding is /// used, which encodes `Data` values using their default `Encodable` implementation. /// /// `DateEncoding` can be used to configure how `Date` values are encoded. By default, the `.deferredToDate` /// encoding is used, which encodes `Date`s using their default `Encodable` implementation. /// /// `KeyEncoding` can be used to configure how keys are encoded. By default, the `.useDefaultKeys` encoding is used, /// which encodes the keys directly from the `Encodable` implementation. /// /// `KeyPathEncoding` can be used to configure how paths within nested objects are encoded. By default, the `.brackets` /// encoding is used, which encodes each sub-key in brackets. e.g. `parent[child][grandchild]=value`. /// /// `NilEncoding` can be used to configure how `nil` `Optional` values are encoded. By default, the `.dropKey` encoding /// is used, which drops `nil` key / value pairs from the output entirely. /// /// `SpaceEncoding` can be used to configure how spaces are encoded. By default, the `.percentEscaped` encoding is used, /// replacing spaces with `%20`. /// /// This type is largely based on Vapor's [`url-encoded-form`](https://github.com/vapor/url-encoded-form) project. public final class URLEncodedFormEncoder { /// Encoding to use for `Array` values. public enum ArrayEncoding { /// An empty set of square brackets ("[]") are appended to the key for every value. This is the default encoding. case brackets /// No brackets are appended to the key and the key is encoded as is. case noBrackets /// Brackets containing the item index are appended. This matches the jQuery and Node.js behavior. case indexInBrackets /// Provide a custom array key encoding with the given closure. case custom((_ key: String, _ index: Int) -> String) /// Encodes the key according to the encoding. /// /// - Parameters: /// - key: The `key` to encode. /// - index: When this enum instance is `.indexInBrackets`, the `index` to encode. /// /// - Returns: The encoded key. func encode(_ key: String, atIndex index: Int) -> String { switch self { case .brackets: return "\(key)[]" case .noBrackets: return key case .indexInBrackets: return "\(key)[\(index)]" case let .custom(encoding): return encoding(key, index) } } } /// Encoding to use for `Bool` values. public enum BoolEncoding { /// Encodes `true` as `1`, `false` as `0`. case numeric /// Encodes `true` as "true", `false` as "false". This is the default encoding. case literal /// Encodes the given `Bool` as a `String`. /// /// - Parameter value: The `Bool` to encode. /// /// - Returns: The encoded `String`. func encode(_ value: Bool) -> String { switch self { case .numeric: return value ? "1" : "0" case .literal: return value ? "true" : "false" } } } /// Encoding to use for `Data` values. public enum DataEncoding { /// Defers encoding to the `Data` type. case deferredToData /// Encodes `Data` as a Base64-encoded string. This is the default encoding. case base64 /// Encode the `Data` as a custom value encoded by the given closure. case custom((Data) throws -> String) /// Encodes `Data` according to the encoding. /// /// - Parameter data: The `Data` to encode. /// /// - Returns: The encoded `String`, or `nil` if the `Data` should be encoded according to its /// `Encodable` implementation. func encode(_ data: Data) throws -> String? { switch self { case .deferredToData: return nil case .base64: return data.base64EncodedString() case let .custom(encoding): return try encoding(data) } } } /// Encoding to use for `Date` values. public enum DateEncoding { /// ISO8601 and RFC3339 formatter. private static let iso8601Formatter: ISO8601DateFormatter = { let formatter = ISO8601DateFormatter() formatter.formatOptions = .withInternetDateTime return formatter }() /// Defers encoding to the `Date` type. This is the default encoding. case deferredToDate /// Encodes `Date`s as seconds since midnight UTC on January 1, 1970. case secondsSince1970 /// Encodes `Date`s as milliseconds since midnight UTC on January 1, 1970. case millisecondsSince1970 /// Encodes `Date`s according to the ISO8601 and RFC3339 standards. case iso8601 /// Encodes `Date`s using the given `DateFormatter`. case formatted(DateFormatter) /// Encodes `Date`s using the given closure. case custom((Date) throws -> String) /// Encodes the date according to the encoding. /// /// - Parameter date: The `Date` to encode. /// /// - Returns: The encoded `String`, or `nil` if the `Date` should be encoded according to its /// `Encodable` implementation. func encode(_ date: Date) throws -> String? { switch self { case .deferredToDate: return nil case .secondsSince1970: return String(date.timeIntervalSince1970) case .millisecondsSince1970: return String(date.timeIntervalSince1970 * 1000.0) case .iso8601: return DateEncoding.iso8601Formatter.string(from: date) case let .formatted(formatter): return formatter.string(from: date) case let .custom(closure): return try closure(date) } } } /// Encoding to use for keys. /// /// This type is derived from [`JSONEncoder`'s `KeyEncodingStrategy`](https://github.com/apple/swift/blob/6aa313b8dd5f05135f7f878eccc1db6f9fbe34ff/stdlib/public/Darwin/Foundation/JSONEncoder.swift#L128) /// and [`XMLEncoder`s `KeyEncodingStrategy`](https://github.com/MaxDesiatov/XMLCoder/blob/master/Sources/XMLCoder/Encoder/XMLEncoder.swift#L102). public enum KeyEncoding { /// Use the keys specified by each type. This is the default encoding. case useDefaultKeys /// Convert from "camelCaseKeys" to "snake_case_keys" before writing a key. /// /// Capital characters are determined by testing membership in /// `CharacterSet.uppercaseLetters` and `CharacterSet.lowercaseLetters` /// (Unicode General Categories Lu and Lt). /// The conversion to lower case uses `Locale.system`, also known as /// the ICU "root" locale. This means the result is consistent /// regardless of the current user's locale and language preferences. /// /// Converting from camel case to snake case: /// 1. Splits words at the boundary of lower-case to upper-case /// 2. Inserts `_` between words /// 3. Lowercases the entire string /// 4. Preserves starting and ending `_`. /// /// For example, `oneTwoThree` becomes `one_two_three`. `_oneTwoThree_` becomes `_one_two_three_`. /// /// - Note: Using a key encoding strategy has a nominal performance cost, as each string key has to be converted. case convertToSnakeCase /// Same as convertToSnakeCase, but using `-` instead of `_`. /// For example `oneTwoThree` becomes `one-two-three`. case convertToKebabCase /// Capitalize the first letter only. /// For example `oneTwoThree` becomes `OneTwoThree`. case capitalized /// Uppercase all letters. /// For example `oneTwoThree` becomes `ONETWOTHREE`. case uppercased /// Lowercase all letters. /// For example `oneTwoThree` becomes `onetwothree`. case lowercased /// A custom encoding using the provided closure. case custom((String) -> String) func encode(_ key: String) -> String { switch self { case .useDefaultKeys: return key case .convertToSnakeCase: return convertToSnakeCase(key) case .convertToKebabCase: return convertToKebabCase(key) case .capitalized: return String(key.prefix(1).uppercased() + key.dropFirst()) case .uppercased: return key.uppercased() case .lowercased: return key.lowercased() case let .custom(encoding): return encoding(key) } } private func convertToSnakeCase(_ key: String) -> String { convert(key, usingSeparator: "_") } private func convertToKebabCase(_ key: String) -> String { convert(key, usingSeparator: "-") } private func convert(_ key: String, usingSeparator separator: String) -> String { guard !key.isEmpty else { return key } var words: [Range] = [] // The general idea of this algorithm is to split words on // transition from lower to upper case, then on transition of >1 // upper case characters to lowercase // // myProperty -> my_property // myURLProperty -> my_url_property // // It is assumed, per Swift naming conventions, that the first character of the key is lowercase. var wordStart = key.startIndex var searchRange = key.index(after: wordStart)..1 capital letters. Turn those into a word, stopping at the capital before // the lower case character. let beforeLowerIndex = key.index(before: lowerCaseRange.lowerBound) words.append(upperCaseRange.lowerBound.. String /// Creates an instance with the encoding closure called for each sub-key in a key path. /// /// - Parameter encoding: Closure used to perform the encoding. public init(encoding: @escaping (_ subkey: String) -> String) { self.encoding = encoding } func encodeKeyPath(_ keyPath: String) -> String { encoding(keyPath) } } /// Encoding to use for `nil` values. public struct NilEncoding { /// Encodes `nil` by dropping the entire key / value pair. public static let dropKey = NilEncoding { nil } /// Encodes `nil` by dropping only the value. e.g. `value1=one&nilValue=&value2=two`. public static let dropValue = NilEncoding { "" } /// Encodes `nil` as `null`. public static let null = NilEncoding { "null" } private let encoding: () -> String? /// Creates an instance with the encoding closure called for `nil` values. /// /// - Parameter encoding: Closure used to perform the encoding. public init(encoding: @escaping () -> String?) { self.encoding = encoding } func encodeNil() -> String? { encoding() } } /// Encoding to use for spaces. public enum SpaceEncoding { /// Encodes spaces using percent escaping (`%20`). case percentEscaped /// Encodes spaces as `+`. case plusReplaced /// Encodes the string according to the encoding. /// /// - Parameter string: The `String` to encode. /// /// - Returns: The encoded `String`. func encode(_ string: String) -> String { switch self { case .percentEscaped: return string.replacingOccurrences(of: " ", with: "%20") case .plusReplaced: return string.replacingOccurrences(of: " ", with: "+") } } } /// `URLEncodedFormEncoder` error. public enum Error: Swift.Error { /// An invalid root object was created by the encoder. Only keyed values are valid. case invalidRootObject(String) var localizedDescription: String { switch self { case let .invalidRootObject(object): return "URLEncodedFormEncoder requires keyed root object. Received \(object) instead." } } } /// Whether or not to sort the encoded key value pairs. /// /// - Note: This setting ensures a consistent ordering for all encodings of the same parameters. When set to `false`, /// encoded `Dictionary` values may have a different encoded order each time they're encoded due to /// ` Dictionary`'s random storage order, but `Encodable` types will maintain their encoded order. public let alphabetizeKeyValuePairs: Bool /// The `ArrayEncoding` to use. public let arrayEncoding: ArrayEncoding /// The `BoolEncoding` to use. public let boolEncoding: BoolEncoding /// THe `DataEncoding` to use. public let dataEncoding: DataEncoding /// The `DateEncoding` to use. public let dateEncoding: DateEncoding /// The `KeyEncoding` to use. public let keyEncoding: KeyEncoding /// The `KeyPathEncoding` to use. public let keyPathEncoding: KeyPathEncoding /// The `NilEncoding` to use. public let nilEncoding: NilEncoding /// The `SpaceEncoding` to use. public let spaceEncoding: SpaceEncoding /// The `CharacterSet` of allowed (non-escaped) characters. public var allowedCharacters: CharacterSet /// Creates an instance from the supplied parameters. /// /// - Parameters: /// - alphabetizeKeyValuePairs: Whether or not to sort the encoded key value pairs. `true` by default. /// - arrayEncoding: The `ArrayEncoding` to use. `.brackets` by default. /// - boolEncoding: The `BoolEncoding` to use. `.numeric` by default. /// - dataEncoding: The `DataEncoding` to use. `.base64` by default. /// - dateEncoding: The `DateEncoding` to use. `.deferredToDate` by default. /// - keyEncoding: The `KeyEncoding` to use. `.useDefaultKeys` by default. /// - nilEncoding: The `NilEncoding` to use. `.drop` by default. /// - spaceEncoding: The `SpaceEncoding` to use. `.percentEscaped` by default. /// - allowedCharacters: The `CharacterSet` of allowed (non-escaped) characters. `.afURLQueryAllowed` by /// default. public init(alphabetizeKeyValuePairs: Bool = true, arrayEncoding: ArrayEncoding = .brackets, boolEncoding: BoolEncoding = .numeric, dataEncoding: DataEncoding = .base64, dateEncoding: DateEncoding = .deferredToDate, keyEncoding: KeyEncoding = .useDefaultKeys, keyPathEncoding: KeyPathEncoding = .brackets, nilEncoding: NilEncoding = .dropKey, spaceEncoding: SpaceEncoding = .percentEscaped, allowedCharacters: CharacterSet = .afURLQueryAllowed) { self.alphabetizeKeyValuePairs = alphabetizeKeyValuePairs self.arrayEncoding = arrayEncoding self.boolEncoding = boolEncoding self.dataEncoding = dataEncoding self.dateEncoding = dateEncoding self.keyEncoding = keyEncoding self.keyPathEncoding = keyPathEncoding self.nilEncoding = nilEncoding self.spaceEncoding = spaceEncoding self.allowedCharacters = allowedCharacters } func encode(_ value: Encodable) throws -> URLEncodedFormComponent { let context = URLEncodedFormContext(.object([])) let encoder = _URLEncodedFormEncoder(context: context, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) try value.encode(to: encoder) return context.component } /// Encodes the `value` as a URL form encoded `String`. /// /// - Parameter value: The `Encodable` value.` /// /// - Returns: The encoded `String`. /// - Throws: An `Error` or `EncodingError` instance if encoding fails. public func encode(_ value: Encodable) throws -> String { let component: URLEncodedFormComponent = try encode(value) guard case let .object(object) = component else { throw Error.invalidRootObject("\(component)") } let serializer = URLEncodedFormSerializer(alphabetizeKeyValuePairs: alphabetizeKeyValuePairs, arrayEncoding: arrayEncoding, keyEncoding: keyEncoding, keyPathEncoding: keyPathEncoding, spaceEncoding: spaceEncoding, allowedCharacters: allowedCharacters) let query = serializer.serialize(object) return query } /// Encodes the value as `Data`. This is performed by first creating an encoded `String` and then returning the /// `.utf8` data. /// /// - Parameter value: The `Encodable` value. /// /// - Returns: The encoded `Data`. /// /// - Throws: An `Error` or `EncodingError` instance if encoding fails. public func encode(_ value: Encodable) throws -> Data { let string: String = try encode(value) return Data(string.utf8) } } final class _URLEncodedFormEncoder { var codingPath: [CodingKey] // Returns an empty dictionary, as this encoder doesn't support userInfo. var userInfo: [CodingUserInfoKey: Any] { [:] } let context: URLEncodedFormContext private let boolEncoding: URLEncodedFormEncoder.BoolEncoding private let dataEncoding: URLEncodedFormEncoder.DataEncoding private let dateEncoding: URLEncodedFormEncoder.DateEncoding private let nilEncoding: URLEncodedFormEncoder.NilEncoding init(context: URLEncodedFormContext, codingPath: [CodingKey] = [], boolEncoding: URLEncodedFormEncoder.BoolEncoding, dataEncoding: URLEncodedFormEncoder.DataEncoding, dateEncoding: URLEncodedFormEncoder.DateEncoding, nilEncoding: URLEncodedFormEncoder.NilEncoding) { self.context = context self.codingPath = codingPath self.boolEncoding = boolEncoding self.dataEncoding = dataEncoding self.dateEncoding = dateEncoding self.nilEncoding = nilEncoding } } extension _URLEncodedFormEncoder: Encoder { func container(keyedBy type: Key.Type) -> KeyedEncodingContainer where Key: CodingKey { let container = _URLEncodedFormEncoder.KeyedContainer(context: context, codingPath: codingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) return KeyedEncodingContainer(container) } func unkeyedContainer() -> UnkeyedEncodingContainer { _URLEncodedFormEncoder.UnkeyedContainer(context: context, codingPath: codingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) } func singleValueContainer() -> SingleValueEncodingContainer { _URLEncodedFormEncoder.SingleValueContainer(context: context, codingPath: codingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) } } final class URLEncodedFormContext { var component: URLEncodedFormComponent init(_ component: URLEncodedFormComponent) { self.component = component } } enum URLEncodedFormComponent { typealias Object = [(key: String, value: URLEncodedFormComponent)] case string(String) case array([URLEncodedFormComponent]) case object(Object) /// Converts self to an `[URLEncodedFormData]` or returns `nil` if not convertible. var array: [URLEncodedFormComponent]? { switch self { case let .array(array): return array default: return nil } } /// Converts self to an `Object` or returns `nil` if not convertible. var object: Object? { switch self { case let .object(object): return object default: return nil } } /// Sets self to the supplied value at a given path. /// /// data.set(to: "hello", at: ["path", "to", "value"]) /// /// - parameters: /// - value: Value of `Self` to set at the supplied path. /// - path: `CodingKey` path to update with the supplied value. public mutating func set(to value: URLEncodedFormComponent, at path: [CodingKey]) { set(&self, to: value, at: path) } /// Recursive backing method to `set(to:at:)`. private func set(_ context: inout URLEncodedFormComponent, to value: URLEncodedFormComponent, at path: [CodingKey]) { guard !path.isEmpty else { context = value return } let end = path[0] var child: URLEncodedFormComponent switch path.count { case 1: child = value case 2...: if let index = end.intValue { let array = context.array ?? [] if array.count > index { child = array[index] } else { child = .array([]) } set(&child, to: value, at: Array(path[1...])) } else { child = context.object?.first { $0.key == end.stringValue }?.value ?? .object(.init()) set(&child, to: value, at: Array(path[1...])) } default: fatalError("Unreachable") } if let index = end.intValue { if var array = context.array { if array.count > index { array[index] = child } else { array.append(child) } context = .array(array) } else { context = .array([child]) } } else { if var object = context.object { if let index = object.firstIndex(where: { $0.key == end.stringValue }) { object[index] = (key: end.stringValue, value: child) } else { object.append((key: end.stringValue, value: child)) } context = .object(object) } else { context = .object([(key: end.stringValue, value: child)]) } } } } struct AnyCodingKey: CodingKey, Hashable { let stringValue: String let intValue: Int? init?(stringValue: String) { self.stringValue = stringValue intValue = nil } init?(intValue: Int) { stringValue = "\(intValue)" self.intValue = intValue } init(_ base: Key) where Key: CodingKey { if let intValue = base.intValue { self.init(intValue: intValue)! } else { self.init(stringValue: base.stringValue)! } } } extension _URLEncodedFormEncoder { final class KeyedContainer where Key: CodingKey { var codingPath: [CodingKey] private let context: URLEncodedFormContext private let boolEncoding: URLEncodedFormEncoder.BoolEncoding private let dataEncoding: URLEncodedFormEncoder.DataEncoding private let dateEncoding: URLEncodedFormEncoder.DateEncoding private let nilEncoding: URLEncodedFormEncoder.NilEncoding init(context: URLEncodedFormContext, codingPath: [CodingKey], boolEncoding: URLEncodedFormEncoder.BoolEncoding, dataEncoding: URLEncodedFormEncoder.DataEncoding, dateEncoding: URLEncodedFormEncoder.DateEncoding, nilEncoding: URLEncodedFormEncoder.NilEncoding) { self.context = context self.codingPath = codingPath self.boolEncoding = boolEncoding self.dataEncoding = dataEncoding self.dateEncoding = dateEncoding self.nilEncoding = nilEncoding } private func nestedCodingPath(for key: CodingKey) -> [CodingKey] { codingPath + [key] } } } extension _URLEncodedFormEncoder.KeyedContainer: KeyedEncodingContainerProtocol { func encodeNil(forKey key: Key) throws { guard let nilValue = nilEncoding.encodeNil() else { return } try encode(nilValue, forKey: key) } func encodeIfPresent(_ value: Bool?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: String?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Double?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Float?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Int?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Int8?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Int16?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Int32?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Int64?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: UInt?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: UInt8?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: UInt16?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: UInt32?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: UInt64?, forKey key: Key) throws { try _encodeIfPresent(value, forKey: key) } func encodeIfPresent(_ value: Value?, forKey key: Key) throws where Value: Encodable { try _encodeIfPresent(value, forKey: key) } func _encodeIfPresent(_ value: Value?, forKey key: Key) throws where Value: Encodable { if let value = value { try encode(value, forKey: key) } else { try encodeNil(forKey: key) } } func encode(_ value: T, forKey key: Key) throws where T: Encodable { var container = nestedSingleValueEncoder(for: key) try container.encode(value) } func nestedSingleValueEncoder(for key: Key) -> SingleValueEncodingContainer { let container = _URLEncodedFormEncoder.SingleValueContainer(context: context, codingPath: nestedCodingPath(for: key), boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) return container } func nestedUnkeyedContainer(forKey key: Key) -> UnkeyedEncodingContainer { let container = _URLEncodedFormEncoder.UnkeyedContainer(context: context, codingPath: nestedCodingPath(for: key), boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) return container } func nestedContainer(keyedBy keyType: NestedKey.Type, forKey key: Key) -> KeyedEncodingContainer where NestedKey: CodingKey { let container = _URLEncodedFormEncoder.KeyedContainer(context: context, codingPath: nestedCodingPath(for: key), boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) return KeyedEncodingContainer(container) } func superEncoder() -> Encoder { _URLEncodedFormEncoder(context: context, codingPath: codingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) } func superEncoder(forKey key: Key) -> Encoder { _URLEncodedFormEncoder(context: context, codingPath: nestedCodingPath(for: key), boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) } } extension _URLEncodedFormEncoder { final class SingleValueContainer { var codingPath: [CodingKey] private var canEncodeNewValue = true private let context: URLEncodedFormContext private let boolEncoding: URLEncodedFormEncoder.BoolEncoding private let dataEncoding: URLEncodedFormEncoder.DataEncoding private let dateEncoding: URLEncodedFormEncoder.DateEncoding private let nilEncoding: URLEncodedFormEncoder.NilEncoding init(context: URLEncodedFormContext, codingPath: [CodingKey], boolEncoding: URLEncodedFormEncoder.BoolEncoding, dataEncoding: URLEncodedFormEncoder.DataEncoding, dateEncoding: URLEncodedFormEncoder.DateEncoding, nilEncoding: URLEncodedFormEncoder.NilEncoding) { self.context = context self.codingPath = codingPath self.boolEncoding = boolEncoding self.dataEncoding = dataEncoding self.dateEncoding = dateEncoding self.nilEncoding = nilEncoding } private func checkCanEncode(value: Any?) throws { guard canEncodeNewValue else { let context = EncodingError.Context(codingPath: codingPath, debugDescription: "Attempt to encode value through single value container when previously value already encoded.") throw EncodingError.invalidValue(value as Any, context) } } } } extension _URLEncodedFormEncoder.SingleValueContainer: SingleValueEncodingContainer { func encodeNil() throws { guard let nilValue = nilEncoding.encodeNil() else { return } try encode(nilValue) } func encode(_ value: Bool) throws { try encode(value, as: String(boolEncoding.encode(value))) } func encode(_ value: String) throws { try encode(value, as: value) } func encode(_ value: Double) throws { try encode(value, as: String(value)) } func encode(_ value: Float) throws { try encode(value, as: String(value)) } func encode(_ value: Int) throws { try encode(value, as: String(value)) } func encode(_ value: Int8) throws { try encode(value, as: String(value)) } func encode(_ value: Int16) throws { try encode(value, as: String(value)) } func encode(_ value: Int32) throws { try encode(value, as: String(value)) } func encode(_ value: Int64) throws { try encode(value, as: String(value)) } func encode(_ value: UInt) throws { try encode(value, as: String(value)) } func encode(_ value: UInt8) throws { try encode(value, as: String(value)) } func encode(_ value: UInt16) throws { try encode(value, as: String(value)) } func encode(_ value: UInt32) throws { try encode(value, as: String(value)) } func encode(_ value: UInt64) throws { try encode(value, as: String(value)) } private func encode(_ value: T, as string: String) throws where T: Encodable { try checkCanEncode(value: value) defer { canEncodeNewValue = false } context.component.set(to: .string(string), at: codingPath) } func encode(_ value: T) throws where T: Encodable { switch value { case let date as Date: guard let string = try dateEncoding.encode(date) else { try attemptToEncode(value) return } try encode(value, as: string) case let data as Data: guard let string = try dataEncoding.encode(data) else { try attemptToEncode(value) return } try encode(value, as: string) case let decimal as Decimal: // Decimal's `Encodable` implementation returns an object, not a single value, so override it. try encode(value, as: String(describing: decimal)) default: try attemptToEncode(value) } } private func attemptToEncode(_ value: T) throws where T: Encodable { try checkCanEncode(value: value) defer { canEncodeNewValue = false } let encoder = _URLEncodedFormEncoder(context: context, codingPath: codingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) try value.encode(to: encoder) } } extension _URLEncodedFormEncoder { final class UnkeyedContainer { var codingPath: [CodingKey] var count = 0 var nestedCodingPath: [CodingKey] { codingPath + [AnyCodingKey(intValue: count)!] } private let context: URLEncodedFormContext private let boolEncoding: URLEncodedFormEncoder.BoolEncoding private let dataEncoding: URLEncodedFormEncoder.DataEncoding private let dateEncoding: URLEncodedFormEncoder.DateEncoding private let nilEncoding: URLEncodedFormEncoder.NilEncoding init(context: URLEncodedFormContext, codingPath: [CodingKey], boolEncoding: URLEncodedFormEncoder.BoolEncoding, dataEncoding: URLEncodedFormEncoder.DataEncoding, dateEncoding: URLEncodedFormEncoder.DateEncoding, nilEncoding: URLEncodedFormEncoder.NilEncoding) { self.context = context self.codingPath = codingPath self.boolEncoding = boolEncoding self.dataEncoding = dataEncoding self.dateEncoding = dateEncoding self.nilEncoding = nilEncoding } } } extension _URLEncodedFormEncoder.UnkeyedContainer: UnkeyedEncodingContainer { func encodeNil() throws { guard let nilValue = nilEncoding.encodeNil() else { return } try encode(nilValue) } func encode(_ value: T) throws where T: Encodable { var container = nestedSingleValueContainer() try container.encode(value) } func nestedSingleValueContainer() -> SingleValueEncodingContainer { defer { count += 1 } return _URLEncodedFormEncoder.SingleValueContainer(context: context, codingPath: nestedCodingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) } func nestedContainer(keyedBy keyType: NestedKey.Type) -> KeyedEncodingContainer where NestedKey: CodingKey { defer { count += 1 } let container = _URLEncodedFormEncoder.KeyedContainer(context: context, codingPath: nestedCodingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) return KeyedEncodingContainer(container) } func nestedUnkeyedContainer() -> UnkeyedEncodingContainer { defer { count += 1 } return _URLEncodedFormEncoder.UnkeyedContainer(context: context, codingPath: nestedCodingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) } func superEncoder() -> Encoder { defer { count += 1 } return _URLEncodedFormEncoder(context: context, codingPath: codingPath, boolEncoding: boolEncoding, dataEncoding: dataEncoding, dateEncoding: dateEncoding, nilEncoding: nilEncoding) } } final class URLEncodedFormSerializer { private let alphabetizeKeyValuePairs: Bool private let arrayEncoding: URLEncodedFormEncoder.ArrayEncoding private let keyEncoding: URLEncodedFormEncoder.KeyEncoding private let keyPathEncoding: URLEncodedFormEncoder.KeyPathEncoding private let spaceEncoding: URLEncodedFormEncoder.SpaceEncoding private let allowedCharacters: CharacterSet init(alphabetizeKeyValuePairs: Bool, arrayEncoding: URLEncodedFormEncoder.ArrayEncoding, keyEncoding: URLEncodedFormEncoder.KeyEncoding, keyPathEncoding: URLEncodedFormEncoder.KeyPathEncoding, spaceEncoding: URLEncodedFormEncoder.SpaceEncoding, allowedCharacters: CharacterSet) { self.alphabetizeKeyValuePairs = alphabetizeKeyValuePairs self.arrayEncoding = arrayEncoding self.keyEncoding = keyEncoding self.keyPathEncoding = keyPathEncoding self.spaceEncoding = spaceEncoding self.allowedCharacters = allowedCharacters } func serialize(_ object: URLEncodedFormComponent.Object) -> String { var output: [String] = [] for (key, component) in object { let value = serialize(component, forKey: key) output.append(value) } output = alphabetizeKeyValuePairs ? output.sorted() : output return output.joinedWithAmpersands() } func serialize(_ component: URLEncodedFormComponent, forKey key: String) -> String { switch component { case let .string(string): return "\(escape(keyEncoding.encode(key)))=\(escape(string))" case let .array(array): return serialize(array, forKey: key) case let .object(object): return serialize(object, forKey: key) } } func serialize(_ object: URLEncodedFormComponent.Object, forKey key: String) -> String { var segments: [String] = object.map { subKey, value in let keyPath = keyPathEncoding.encodeKeyPath(subKey) return serialize(value, forKey: key + keyPath) } segments = alphabetizeKeyValuePairs ? segments.sorted() : segments return segments.joinedWithAmpersands() } func serialize(_ array: [URLEncodedFormComponent], forKey key: String) -> String { var segments: [String] = array.enumerated().map { index, component in let keyPath = arrayEncoding.encode(key, atIndex: index) return serialize(component, forKey: keyPath) } segments = alphabetizeKeyValuePairs ? segments.sorted() : segments return segments.joinedWithAmpersands() } func escape(_ query: String) -> String { var allowedCharactersWithSpace = allowedCharacters allowedCharactersWithSpace.insert(charactersIn: " ") let escapedQuery = query.addingPercentEncoding(withAllowedCharacters: allowedCharactersWithSpace) ?? query let spaceEncodedQuery = spaceEncoding.encode(escapedQuery) return spaceEncodedQuery } } extension Array where Element == String { func joinedWithAmpersands() -> String { joined(separator: "&") } } extension CharacterSet { /// Creates a CharacterSet from RFC 3986 allowed characters. /// /// RFC 3986 states that the following characters are "reserved" characters. /// /// - General Delimiters: ":", "#", "[", "]", "@", "?", "/" /// - Sub-Delimiters: "!", "$", "&", "'", "(", ")", "*", "+", ",", ";", "=" /// /// In RFC 3986 - Section 3.4, it states that the "?" and "/" characters should not be escaped to allow /// query strings to include a URL. Therefore, all "reserved" characters with the exception of "?" and "/" /// should be percent-escaped in the query string. public static let afURLQueryAllowed: CharacterSet = { let generalDelimitersToEncode = ":#[]@" // does not include "?" or "/" due to RFC 3986 - Section 3.4 let subDelimitersToEncode = "!$&'()*+,;=" let encodableDelimiters = CharacterSet(charactersIn: "\(generalDelimitersToEncode)\(subDelimitersToEncode)") return CharacterSet.urlQueryAllowed.subtracting(encodableDelimiters) }() }