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I am using big.NewInt(int64(e)).Bytes() to convert an int32 to a byte array. Is there a more elegant way to do this?

I expect AQAB to be the base64 encoded value of e


const e = 65537

func base64Encode(b []byte) string {
  return strings.TrimRight(base64.StdEncoding.EncodeToString(b), "=")

func main() {
  fmt.Printf("exp %d\n", e)

  b := make([]byte, 4)
  binary.BigEndian.PutUint32(b, e)
  fmt.Printf("b: BigEndian.PutUint32 %x (Bad) %s\n", b, base64Encode(b))

  b2 := make([]byte, 4)
  binary.BigEndian.PutUint32(b2, e)
  for i := range b2 {
    if b2[i] != 0 {
    b2 = b2[i:]
  fmt.Printf("b2: BigEndian.PutUint32 %x (Good) %s\n", b2, base64Encode(b2))

  b4 := big.NewInt(int64(e)).Bytes()
  fmt.Printf("b4: big.NewInt(int64(e)).Bytes() %x (Good) %s\n", b4, base64Encode(b4))


exp 65537
b: BigEndian.PutUint32 00010001 (Bad) AAEAAQ
b2: BigEndian.PutUint32 010001 (Good) AQAB
b4: big.NewInt(int64(e)).Bytes() 010001 (Good) AQAB

exp 1
b: BigEndian.PutUint32 00000001 (Bad) AAAAAQ
b2: BigEndian.PutUint32 01 (Good) AQ
b4: big.NewInt(int64(e)).Bytes() 01 (Good) AQ

exp 1000000
b: BigEndian.PutUint32 000f4240 (Bad) AA9CQA
b2: BigEndian.PutUint32 0f4240 (Good) D0JA
b4: big.NewInt(int64(e)).Bytes() 0f4240 (Good) D0JA


I've benchmarked b2 and b4:

b2  1000000000          68.1 ns/op         8 B/op          1 allocs/op
b4  200000000          248 ns/op          90 B/op          3 allocs/op

I'll use b2 for now...

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1 Answer 1

For this kind of task I think your first options should always be using encoding/binary and, if that is insufficient, bitwise math. However, in some cases the overhead of copying data is too large or these safe solutions are too slow:

While I would not call it elegant you can use Go's unsafe and reflect* packages to do this very quickly. Just remember, this does not copy the data; rather, it just gives you another "view" of it. And being well- unsafe means that you need to be very careful- (hello units tests and code review) and keep in mind you are breaking Go's memory safety. However, when execution speed is the dominating concern and your team agrees unsafe is warranted, unsafe can seldom be beat.

const BYTES_IN_INT32 = 4

func UnsafeCaseInt32ToBytes(val int32) []byte {
    hdr := reflect.SliceHeader{Data: uintptr(unsafe.Pointer(&val)), Len: BYTES_IN_INT32, Cap: BYTES_IN_INT32}
    return *(*[]byte)(unsafe.Pointer(&hdr))

func UnsafeCastInt32sToBytes(ints []int32) []byte {        
    length := len(ints) * BYTES_IN_INT32
    hdr := reflect.SliceHeader{Data: uintptr(unsafe.Pointer(&ints[0])), Len: length, Cap: length}
    return *(*[]byte)(unsafe.Pointer(&hdr))

*Note: You may want to use SizeOf rather than a constant. I like the constant better.

Update: here are some benchmark results:

BenchmarkB2     20000000     88.7  ns/op
BenchmarkB4     5000000     309    ns/op
BenchmarkUnsafe 1000000000    2.25 ns/op
share|improve this answer
Not only does unsafe break memory safety, it introduces endianness issues. –  larsmans Jul 9 '13 at 14:46
@larsmans: As does bit shifting things yourself; furthermore, encoding/binary itself is endian-aware (golang.org/pkg/encoding/binary/#pkg-variables). –  voidlogic Jul 9 '13 at 14:56
No, shifting is safe. x >> 24 will get the high-order 8 bits of x, regardless of endianness. –  larsmans Jul 9 '13 at 14:59
@voidlogic: Using proper mask to isolate a byte from a 32bit number is endianness independent as well. Also, the OP question is not asking about []int32 -> []byte, but int32 -> []byte, so I guess your answer is not valid. (-1) –  zzzz Jul 9 '13 at 15:40
A horrible and unnecessary solution. –  peterSO Jul 9 '13 at 16:56

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