You can extend KeyedEncodingContainer and KeyedDecodingContainer and implement a custom encoding and decoding methods to send Decimal as plain data. You would just need to set the encoder/decoder dataEncodingStrategy to deferredToData. Another possibility is to encode and decode its base64Data or encode/decode it as plain string.
extension Numeric {
var data: Data {
var bytes = self
return .init(bytes: &bytes, count: MemoryLayout<Self>.size)
}
}
extension DataProtocol {
func decode<T: Numeric>(_ codingPath: [CodingKey], key: CodingKey) throws -> T {
var value: T = .zero
guard withUnsafeMutableBytes(of: &value, copyBytes) == MemoryLayout.size(ofValue: value) else {
throw DecodingError.dataCorrupted(.init(codingPath: codingPath, debugDescription: "The key (key) could not be converted to a numeric value: (Array(self))"))
}
return value
}
}
extension KeyedEncodingContainer {
mutating func encode(_ value: Decimal, forKey key: K) throws {
try encode(value.data, forKey: key)
}
mutating func encodeIfPresent(_ value: Decimal?, forKey key: K) throws {
guard let value = value else { return }
try encode(value, forKey: key)
}
}
extension KeyedDecodingContainer {
func decode(_ type: Decimal.Type, forKey key: K) throws -> Decimal {
try decode(Data.self, forKey: key).decode(codingPath, key: key)
}
func decodeIfPresent(_ type: Decimal.Type, forKey key: K) throws -> Decimal? {
try decodeIfPresent(Data.self, forKey: key)?.decode(codingPath, key: key)
}
}
Playground testing:
struct Root: Codable {
let decimal: Decimal
}
// using the string initializer for decimal is required to maintain precision
let root = Root(decimal: Decimal(string: "0.007")!)
do {
let encoder = JSONEncoder()
encoder.dataEncodingStrategy = .deferredToData
let rootData = try encoder.encode(root)
let decoder = JSONDecoder()
decoder.dataDecodingStrategy = .deferredToData
let root = try decoder.decode(Root.self, from: rootData)
print(root.decimal) // prints "0.007
" instead of "0.007000000000000001024
" without the custom encoding and decoding methods
} catch {
print(error)
}
To keep the data size as low as possible You can encode and decode Decimal as string:
extension String {
func decimal(_ codingPath: [CodingKey], key: CodingKey) throws -> Decimal {
guard let decimal = Decimal(string: self) else {
throw DecodingError.dataCorrupted(.init(codingPath: codingPath, debugDescription: "The key (key) could not be converted to decimal: (self)"))
}
return decimal
}
}
extension KeyedEncodingContainer {
mutating func encode(_ value: Decimal, forKey key: K) throws {
try encode(String(describing: value), forKey: key)
}
mutating func encodeIfPresent(_ value: Decimal?, forKey key: K) throws {
guard let value = value else { return }
try encode(value, forKey: key)
}
}
extension KeyedDecodingContainer {
func decode(_ type: Decimal.Type, forKey key: K) throws -> Decimal {
try decode(String.self, forKey: key).decimal(codingPath, key: key)
}
func decodeIfPresent(_ type: Decimal.Type, forKey key: K) throws -> Decimal? {
try decodeIfPresent(String.self, forKey: key)?.decimal(codingPath, key: key)
}
}
Playground testing:
struct StringDecimal: Codable {
let decimal: Decimal
}
let root = StringDecimal(decimal: Decimal(string: "0.007")!)
do {
let stringDecimalData = try JSONEncoder().encode(root)
print(String(data: stringDecimalData, encoding: .utf8)!)
let stringDecimal = try JSONDecoder().decode(StringDecimal.self, from: stringDecimalData)
print(stringDecimal.decimal) // "0.007
"
} catch {
print(error)
}
This will print
{"decimal":"0.007"}
0.007