**Xcode 11 • Swift 5.1 or later**

To convert from `String`

to `DataProtocol`

(Data or Bytes):

```
extension DataProtocol where Self: RangeReplaceableCollection {
init<S: StringProtocol>(_ string: S) {
self.init(string.utf8)
}
}
```

```
extension StringProtocol {
var data: Data { .init(self) }
var bytes: [UInt8] { .init(self) }
}
```

To convert from `DataProtocol`

back to `String`

```
extension DataProtocol {
var string: String? { String(bytes: self, encoding: .utf8) }
}
```

```
let stringData = "abc".data // 3 bytes
let stringBytes = "abc".bytes // [97, 98, 99]
let stringFromData = stringData.string // "abc"
let stringFromBytes = stringBytes.string // "abc"
```

To convert from any `Numeric`

type to `DataProtocol`

:

```
extension DataProtocol where Self: RangeReplaceableCollection {
init<N: Numeric>(_ numeric: N) {
self = withUnsafeBytes(of: numeric) { .init($0) }
}
}
```

```
extension Numeric {
var data: Data { .init(self) }
var bytes: [UInt8] { .init(self) }
}
```

To convert from `DataProtocol`

back to any `Numeric`

type:

```
extension Numeric {
init<D: DataProtocol>(_ data: D) {
var value: Self = .zero
let size = withUnsafeMutableBytes(of: &value, data.copyBytes)
self = value
}
}
```

```
extension DataProtocol {
func value<N: Numeric>() -> N { .init(self) }
}
```

```
let value = 12.34 // implicit Double 12.34
let data = value.data // double data - 8 bytes
let bytes = value.bytes // [113, 61, 10, 215, 163, 16, 69, 64]
let double = Double(data) // implicit Double 12.34
let double1: Double = .init(data) // explicit Double 12.34
let double2: Double = data.value() // explicit Double 12.34
let double3 = data.value() as Double // casting to Double 12.34
```

Now we can easily add a property for each `Numeric`

type:

```
extension DataProtocol {
var integer: Int { value() }
var int32: Int32 { value() }
var float: Float { value() }
var cgFloat: CGFloat { value() }
var float80: Float80 { value() }
var double: Double { value() }
var decimal: Decimal { value() }
}
```

Playground testing

```
let intData = 1_234_567_890_123_456_789.data // 8 bytes (64 bit Integer)
let dataToInt: Int = intData.integer // 1234567890123456789
let intMinData = Int.min.data // 8 bytes (64 bit Integer)
let backToIntMin = intMinData.integer // -9223372036854775808
let intMaxData = Int.max.data // 8 bytes (64 bit Integer)
let backToIntMax = intMaxData.integer // 9223372036854775807
```

```
let myInt32Data = Int32(1_234_567_890).data // 4 bytes (32 bit Integer)
let backToInt32 = myInt32Data.int32 // 1234567890
let int32MinData = Int32.min.data // 4 bytes (32 bit Integer)
let backToInt32Min = int32MinData.int32 // -2147483648
let int32MaxData = Int32.max.data // 4 bytes (32 bit Integer)
let backToInt32Max = int32MaxData.int32 // 2147483647
```

```
let myFloatData = Float.pi.data // 4 bytes (32 bit single=precison FloatingPoint)
let backToFloat = myFloatData.float // 3.141593
backToFloat == .pi // true
let myCGFloatData = CGFloat.pi.data // 4 bytes (32 bit single=precison FloatingPoint)
let backToCGFloat = myCGFloatData.cgFloat // 3.141593
backToCGFloat == .pi // true
let myDoubleData = Double.pi.data // 8 bytes (64 bit double-precision FloatingPoint)
let backToDouble = myDoubleData.double // 3.141592653589793
backToDouble == .pi // true
let myFloat80Data = Float80.pi.data // 16 bytes (128 bit extended-precision FloatingPoint)
let backToFloat80 = myFloat80Data.float80 // 3.141592653589793116
backToFloat80 == .pi // true
let decimalData = Decimal.pi.data // 20 bytes Decimal type
let backToDecimal = decimalData.decimal // 3.14159265358979323846264338327950288419
backToDecimal == .pi // true
```