The `Number`

type is an IEEE 754 64-bit double-precision number, which is quite a different format to your normal `int`

. The bits aren't lined up quite the same way. What you're looking for is a `ByteArray`

representation of a normal 64-bit `int`

type, which of course doesn't exist in ActionScript 3.

Here's a function that converts a `Number`

object into its "int64" equivalent:

```
private function numberToInt64Bytes(n:Number):ByteArray
{
// Write your IEEE 754 64-bit double-precision number to a byte array.
var b:ByteArray = new ByteArray();
b.writeDouble(n);
// Get the exponent.
var e:int = ((b[0] & 0x7F) << 4) | (b[1] >> 4);
// Significant bits.
var s:int = e - 1023;
// Number of bits to shift towards the right.
var x:int = (52 - s) % 8;
// Read and write positions in the byte array.
var r:int = 8 - int((52 - s) / 8);
var w:int = 8;
// Clear the first two bytes of the sign bit and the exponent.
b[0] &= 0x80;
b[1] &= 0xF;
// Add the "hidden" fraction bit.
b[1] |= 0x10;
// Shift everything.
while (w > 1) {
if (--r > 0) {
if (w < 8)
b[w] |= b[r] << (8 - x);
b[--w] = b[r] >> x;
} else {
b[--w] = 0;
}
}
// Now you've got your 64-bit signed two's complement integer.
return b;
}
```

Note that it works only with integers within a certain range, and it doesn't handle values like "not a number" and infinity. It probably also fails in other cases.

Here's a usage example:

```
var n:Number = 1330454496254;
var bytes:ByteArray = numberToInt64Bytes(n);
trace("bytes:",
bytes[0].toString(16),
bytes[1].toString(16),
bytes[2].toString(16),
bytes[3].toString(16),
bytes[4].toString(16),
bytes[5].toString(16),
bytes[6].toString(16),
bytes[7].toString(16)
);
```

Output:

```
bytes: 0 0 1 35 c5 44 83 fe
```

It should be useful for serializing data in AS3 later to be read by a Java program.

Homework assignment: Write `int64BytesToNumber()`