# Convert a long to two int for the purpose of reconstruction

I need to pass a parameter as two int parameters to a Telerik Report since it cannot accept Long parameters. What is the easiest way to split a long into two ints and reconstruct it without losing data?

• Convert to a byte array and send one as highBits the other as lowBits? Also, your cat seems pretty sweet and would totally party with my cat.
– Yuck
Jun 2, 2011 at 19:53
• Surely you mean a long into two ints? Jun 2, 2011 at 19:55
• Will the numbers be signed or unsigned? Jun 2, 2011 at 20:00

Using masking and shifting is your best bet. long is guaranteed to be 64 bit and int 32 bit, according to the documentation, so you can mask off the bits into the two integers and then recombine.

See:

    static int[] long2doubleInt(long a) {
int a1 = (int)(a & uint.MaxValue);
int a2 = (int)(a >> 32);
return new int[] { a1, a2 };
}

static long doubleInt2long(int a1, int a2)
{
long b = a2;
b = b << 32;
b = b | (uint)a1;
return b;
}

static void Main(string[] args)
{
long a = 12345678910111213;
int[] al = long2doubleInt(a);
long ap = doubleInt2long(al[0],al[1]);
System.Console.WriteLine(ap);
}


Note the use of bitwise operations throughout. This avoids the problems one might get when using addition or other numerical operations that might occur using negative numbers or rounding errors.

Note you can replace int with uint in the above code if you are able to use unsigned integers (this is always preferable in this sort of situation, as it's a lot clearer what's going on with the bits).

• I needed to mark both long2doubleInt and doubleInt2long with unchecked in order to support negative numbers on the left integer. Dec 6, 2012 at 15:07
• Why do you use (a & uint.MaxValue)? Why not just int a1 = (int)a;? Mar 21, 2018 at 8:02

Doing bit-manipulation in C# can be awkward at times, particularly when dealing with signed values. You need to be using unsigned values whenever you plan on doing bit-manipulation. Unfortunately it's not going to yield the nicest looking code.

const long LOW_MASK = ((1L << 32) - 1);
int valueHigh = (int)(value >> 32);
int valueLow  = (int)(value & LOW_MASK);
long reconstructed = unchecked((long)(((ulong)valueHigh << 32) | (uint)valueLow));


If you want a nicer way to do this, get the raw bytes for the long and get the corresponding integers from the bytes. The conversion to/from representations doesn't change very much.

long value = unchecked((long)0xDEADBEEFFEEDDEAD);
byte[] valueBytes = BitConverter.GetBytes(value);
int valueHigh = BitConverter.ToInt32(valueBytes, BitConverter.IsLittleEndian ? 4 : 0);
int valueLow  = BitConverter.ToInt32(valueBytes, BitConverter.IsLittleEndian ? 0 : 4);
byte[] reconstructedBytes = BitConverter.IsLittleEndian
? BitConverter.GetBytes(valueLow).Concat(BitConverter.GetBytes(valueHigh)).ToArray()
: BitConverter.GetBytes(valueHigh).Concat(BitConverter.GetBytes(valueLow)).ToArray();
long reconstructed = BitConverter.ToInt64(reconstructedBytes, 0);

• Why do you use LOW_MASK? Why not just int valueLow = (int)value;? Mar 21, 2018 at 8:00
• Why? Because I am applying a mask, not converting a value. While they may be functionally the same, it makes it more obvious that we're bit twiddling here. Mar 22, 2018 at 0:31
• You are applying the mask AND converting the value. For reasons of illustration it could be useful for somebody, but for me was it (mask a part of long which will be next step thrown away) a bit confusing and unnecessary. Mar 22, 2018 at 7:13
• Maybe, but still, I have my own patterns to follow. For bit manipulation, I usually follow this pattern for all operations: shift the bits into place, mask the parts needed, truncate as necessary. You might feel some steps are unnecessary but this works for me. Mar 22, 2018 at 7:28

For unigned the following will work:

ulong value = ulong.MaxValue - 12;
uint low = (uint)(value & (ulong)uint.MaxValue);
uint high = (uint)(value >> 32);

ulong value2 = ((ulong)high << 32) | low;


Instead of mucking with bit operations, just use a faux union. This also would work for different combinations of data types, not just long & 2 ints. More importantly, that avoids the need to be concerned about signs, endianness or other low-level details when you really only care about reading & writing bits in a consistent manner.

using System;
using System.Runtime.InteropServices;

public class Program
{
[StructLayout(LayoutKind.Explicit)]
private struct Mapper
{
[FieldOffset(0)]
public long Aggregated;
[FieldOffset(0)]
public int One;
[FieldOffset(sizeof(int))]
public int Two;
}

public static void Main()
{
var layout = new Mapper{ Aggregated = 0x00000000200000001 };
var one = layout.One;
var two = layout.Two;
Console.WriteLine("One: {0}, Two: {1}", one, two);

var secondLayout = new Mapper { One = one, Two = two };
var aggregated = secondLayout.Aggregated;
Console.WriteLine("Aggregated: {0}", aggregated.ToString("X"));
}
}

        long x = long.MaxValue;
int lo = (int)(x & 0xffffffff);
int hi = (int)((x - ((long)lo & 0xffffffff)) >> 32);
long y = ((long)hi << 32) | ((long)lo & 0xffffffff);

Console.WriteLine(System.Convert.ToString(x, 16));
Console.WriteLine(System.Convert.ToString(lo, 16));
Console.WriteLine(System.Convert.ToString(hi, 16));
Console.WriteLine(System.Convert.ToString(y, 16));


Converting it to and from a string would be much simpler than converting it two and from a pair of ints. Is this an option?

string myStringValue = myLongValue.ToString();

myLongValue = long.Parse(myStringValue);