30

In Objective-C I use the following code to

  1. Convert an Int variable into NSData, a packet of bytes.

    int myScore = 0;
    NSData *packet = [NSData dataWithBytes:&myScore length:sizeof(myScore)];
    
  2. Use the converted NSData variable into a method.

    [match sendDataToAllPlayers: 
    packet withDataMode: GKMatchSendDataUnreliable 
    error: &error];
    

I tried converting the Objective-C code into Swift:

var myScore : Int = 0

func sendDataToAllPlayers(packet: Int!,
            withDataMode mode: GKMatchSendDataMode,
            error: NSErrorPointer) -> Bool {

            return true
}

However, I am not able to convert an Int variable into an NSData and use it an a method. How can I do that?

1
63

With Swift 3.x to 5.0:

var myInt = 77
var myIntData = Data(bytes: &myInt, 
                     count: MemoryLayout.size(ofValue: myInt))
41

In contemporary versions of Swift, I would do:

let score = 1000
let data = withUnsafeBytes(of: score) { Data($0) }
e8 03 00 00 00 00 00 00 

And convert that Data back to an Int:

let value = data.withUnsafeBytes {
    $0.load(as: Int.self)
}

Note, when dealing with binary representations of numbers, especially when exchanging with some remote service/device, you might want to make the endianness explicit, e.g.

let data = withUnsafeBytes(of: score.littleEndian) { Data($0) }
 e8 03 00 00 00 00 00 00 

And convert that Data back to an Int:

let value = data.withUnsafeBytes {
    $0.load(as: Int.self).littleEndian
}

Versus big endian format, also known as “network byte order”:

let data = withUnsafeBytes(of: score.bigEndian) { Data($0) }
 00 00 00 00 00 00 03 e8

And convert that Data back to an Int:

let value = data.withUnsafeBytes {
    $0.load(as: Int.self).bigEndian
}

Needless to say, if you don’t want to worry about endianness, you could use some established standard like JSON (or even XML).


For Swift 2 rendition, see previous revision of this answer.

4
  • IMO such data won't be portable (should not be transferred without additional metadata) between devices with different byte orders (see here).
    – Drux
    Feb 25 '15 at 20:55
  • I actually agree. I just modeled my answer after the sending data to other players discussion in the Game Center Programming Guide, but it does seem more prudent to use archive or plist or some other more robust format.
    – Rob
    Feb 25 '15 at 21:39
  • You can use score.bigEndian or score.littleEndian to force the byte order to be of a specific endianness. The data will then be compatible between architectures able to be written on one and read on another.
    – Benjohn
    Apr 5 '17 at 8:32
  • 1
    I'd suggest bigEndian, as this is generally considered to be "network byte order". And is also, obviously, the correct way around ;-)
    – Benjohn
    Apr 5 '17 at 8:34
4

You can convert in this way:

var myScore: NSInteger = 0
let data = NSData(bytes: &myScore, length: sizeof(NSInteger))
4
  • Thank you very much! May you please tell me how to include data into my method? I get data is not a type when I code it this way: func sendDataToAllPlayers(data,
    – Cesare
    Feb 23 '15 at 18:44
  • You are welcome :) Sorry, I don't catch your question, what you need to do?
    – David V
    Feb 23 '15 at 18:51
  • If you look at the second bullet point of my question there is a code of a function sendDataToAllPlayers Now, I translated that function already but I would like to include the constant data you have declared in your answer into my Swift method. Sorry for the misunderstanding!
    – Cesare
    Feb 23 '15 at 18:54
  • It seems that Rob's answer is what you are looking, is it true? of I'm missing something?
    – David V
    Feb 23 '15 at 19:03
3

For any integer type:

extension FixedWidthInteger {
    var data: Data {
        let data = withUnsafeBytes(of: self) { Data($0) }
        return data
    }
}

Example:

let data = 1.data
1

Swift 5, add an other option.

NSData is old, still effective

Write Data:

let buffer = NSMutableData()
let size = MemoryLayout<UInt>.size
let big = 1000
let small = 10
withUnsafeBytes(of: big, { (p) in
      let bufferPointer = p.bindMemory(to: UInt.self)
      if let address = bufferPointer.baseAddress{
             buffer.append(address, length: size)
      }
})

withUnsafeBytes(of: small, { (p) in
      let bufferPointer = p.bindMemory(to: UInt.self)
      if let address = bufferPointer.baseAddress{
           buffer.append(address, length: size)
      }
 })

Read data:

if let d = buffer.copy() as? Data{
     var big: UInt = 0
     var small: UInt = 0
     let size = MemoryLayout<UInt>.size
     let meta = NSData(data: data)
     meta.getBytes(&big, range: NSRange(location: 0, length: size))
     meta.getBytes(&small, range: NSRange(location: size, length: size))

     print("big:", big, "\nsmall:", small)
    //  big: 1000 
    //  small: 10 
}

You know the memory layout, the data put in the memory,

Then put them out exactly.

unsafe method is funny

1

Use this initializer to convert every Array to Data

Data(element: Sequence)

example:

let myArr     = [12,45,67,898, 100]
let myArrData = Data(myArr)
-1

Depending on the size of Int you are working with, a straight forward approach is to init Data with Sequence of UInt8:

let value: Int = 100
let data = Data([UInt8(value)])
// OR
let data = Data([0xFF, 0xFE])
2
  • Data([UInt8(value)]) will only let you use numbers > 0 and < 256...
    – bojan
    Aug 5 '20 at 21:39
  • No doubt, that's why I qualified the answer. Aug 6 '20 at 4:23

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