# Is there a nice way to split an int into two shorts (.NET)?

I think that this is not possible because Int32 has 1 bit sign and have 31 bit of numeric information and Int16 has 1 bit sign and 15 bit of numeric information and this leads to having 2 bit signs and 30 bits of information.

If this is true then I cannot have one Int32 into two Int16. Is this true?

EXTRA INFORMATION: Using Vb.Net but I think that I can translate without problems a C# answer.

What initially I wanted to do was to convert one UInt32 to two UInt16 as this is for a library that interacts with WORD based machines. Then I realized that Uint is not CLS compliant and tried to do the same with Int32 and Int16.

EVEN WORSE: Doing a = CType(c And &HFFFF, Int16); throws OverflowException. I expected that statement being the same as a = (Int16)(c & 0xffff); (which does not throw an exception).

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"Convert one int32 to two int16". What is your exact requirement? – rahul Dec 9 '09 at 11:51
"Converting" is absolutely incorrect term here. "Splitting" maybe? Describe what are you trying to do. (It is possible to split UInt32 to two UInt16's.) – Vasyl Boroviak Dec 9 '09 at 11:55
@SoMoS: I've edited my solution now, and it works. Oops :) – Jon Skeet Dec 9 '09 at 12:55

This should work:

int original = ...;
byte[] bytes = BitConverter.GetBytes(original);
short firstHalf = BitConverter.ToInt16(bytes, 0);
short secondHalf = BitConverter.ToInt16(bytes, 2);

EDIT:

tested with 0x7FFFFFFF, it works

byte[] recbytes = new byte[4];
recbytes[0] = BitConverter.GetBytes(firstHalf)[0];
recbytes[1] = BitConverter.GetBytes(firstHalf)[1];
recbytes[2] = BitConverter.GetBytes(secondHalf)[0];
recbytes[3] = BitConverter.GetBytes(secondHalf)[1];
int reconstituted = BitConverter.ToInt32(recbytes, 0);
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I didn't read your solution because I already picked one. But I will use yours. Thanks. – Ignacio Soler Garcia Dec 14 '09 at 8:45
When using BitConverter always adapt your code to BitConverter.IsLittleEndian otherwise it might break when you port it over to a different platform. – Peter Feb 24 '15 at 9:02

This can certainly be done with no loss of information. In both cases you end up with 32 bits of information. Whether they're used for sign bits or not is irrelevant:

int original = ...;

short firstHalf = (short) (original >> 16);
short secondHalf = (short) (original & 0xffff);

int reconstituted = (firstHalf << 16) | (secondHalf & 0xffff);

Here, reconstituted will always equal original, hence no information is lost.

Now the meaning of the signs of the two shorts is a different matter - firstHalf will be negative iff original is negative, but secondHalf will be negative if bit 15 (counting 0-31) of original is set, which isn't particularly meaningful in the original form.

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If you don't use a mask in the first case, why use the mask for the second case? Is it that a cast in c# actually tests if there is info in the first part? Or does it chop it off like an and would? – Toad Dec 9 '09 at 11:59
As I have explained in reinier's answer, you cannot assume little endiannes in .NET. – Tamas Czinege Dec 9 '09 at 12:00
@DrJokepu: You can assume what shifting and masking will do, however it's stored in memory. A right-shift will be sign-extended, but the cast to short will effectively mask it. – Jon Skeet Dec 9 '09 at 12:08
@Jon Skeet: For simple splitting and reconstitution this is not an issue, however if they have different meanings (e.g. bits 0..15 is an X coordinate and bits 16..31 is a Y coordinate) you will end up mixing up the two. I have no XBOX 360 nor an emulator so I can't test it but it seems to me that this is what would happen. – Tamas Czinege Dec 9 '09 at 12:17
It implicitly converts it to int, before the shifting. – treaschf Dec 9 '09 at 13:04

Jon's answer, translated into Visual Basic, and without overflow:

Module Module1
Function MakeSigned(ByVal x As UInt16) As Int16
Dim juniorBits As Int16 = CType(x And &H7FFF, Int16)
If x > Int16.MaxValue Then
Return juniorBits + Int16.MinValue
End If
Return juniorBits
End Function

Sub Main()
Dim original As Int32 = &H7FFFFFFF
Dim firstHalfUnsigned As UInt16 = CType(original >> 16, UInt16)
Dim secondHalfUnsigned As UInt16 = CType(original And &HFFFF, UInt16)
Dim firstHalfSigned As Int16 = MakeSigned(firstHalfUnsigned)
Dim secondHalfSigned As Int16 = MakeSigned(secondHalfUnsigned)

Console.WriteLine(firstHalfUnsigned)
Console.WriteLine(secondHalfUnsigned)
Console.WriteLine(firstHalfSigned)
Console.WriteLine(secondHalfSigned)
End Sub
End Module

Results:

32767
65535
32767
-1

In .NET CType(&Hffff, Int16) causes overflow, and (short)0xffff gives -1 (without overflow). It is because by default C# compiler uses unchecked operations and VB.NET checked.

Personally I like Agg's answer, because my code is more complicated, and Jon's would cause an overflow exception in checked environment.

I also created another answer, based on code of BitConverter class, optimized for this particular task. However, it uses unsafe code.

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This is what I really was looking for. Thanks a lot. Anyway would be much better to have the unchecked keyword in Vb.Net – Ignacio Soler Garcia Dec 9 '09 at 16:24
If you want to use mine in a generally checked environment, you can always wrap it in "unchecked" :) – Jon Skeet Dec 11 '09 at 21:30

yes it can be done using masking and bitshifts

Int16 a,b;
Int32 c;

a = (Int16) (c&0xffff);
b = (Int16) ((c>>16)&0xffff);

EDIT

to answer the comment. Reconstructionworks fine:

Int16 a, b;
Int32 c = -1;

a = (Int16)(c & 0xffff);
b = (Int16)((c >> 16) & 0xffff);

Int32 reconst = (((Int32)a)&0xffff) | ((Int32)b << 16);

Console.WriteLine("reconst = " + reconst);

Tested it and it prints -1 as expected.

EDIT2: changed the reconstruction. The promotion of the Int16 to Int32 caused all sign bits to extend. Forgot that, it had to be AND'ed.

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The .NET VM is not necessarily little endian. The XBOX 360 runs on the PowerPC architecture and is configured to use big endian. The XNA framework is a version of the .NET Framework by Microsoft for developing games and applications for the XBOX 360. So you can't assume little endiannes. – Tamas Czinege Dec 9 '09 at 11:58
I'm not assuming anything. I just chop it into 2 pieces like asked – Toad Dec 9 '09 at 12:00
reinier: Fair enough. I'm only saying it because if the first and second half have different meanings, you might want to make sure that you get the right half. – Tamas Czinege Dec 9 '09 at 12:05
@DrJokepu: I don't believe endianness will affect this at all. The result of shifting is well-defined in terms of the logical bits of the integer, regardless of in-memory representation. If you believe there's some observable difference, please provide a sample. – Jon Skeet Dec 9 '09 at 12:10
@somos: good call. I changed the reconstruction code. The problem was that a Negative Int16 gets it's sign bit extended to the full32 bits. Which we don't want so I had to AND it., – Toad Dec 9 '09 at 13:30

Why not? Lets reduce the number of bits for the sake of simplicity : let's say we have 8 bits of which the left bit is a minus bit.

[1001 0110] // representing -22

You can store it in 2 times 4 bits

[1001] [0110] // representing   -1 and 6

I don't see why it wouldn't be possible, you twice have 8 bits info

EDIT : For the sake of simplicity, I didn't just reduce the bits, but also don't use 2-complementmethod. In my examples, the left bit denotes minus, the rest is to be interpreted as a normal positive binary number

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This certainly seems closer to the original intent of the question. – Kenan E. K. Dec 9 '09 at 12:08
@Peter: A small nitpick... In 8-bit two's complement 10010110 represents -106, and -22 would actually be represented by 11101010. Similarly, in 4-bit two's complement 1001 represents -15, and -1 would actually be represented by 1111. – LukeH Dec 9 '09 at 13:29
@Luke : it's clearly not two complement :-) , no it's just pseudocode for illustration – Peter Dec 9 '09 at 13:32
@Peter: Could be confusing for the OP and/or future readers though, if they can't figure out why 10010110 doesn't work out as -22 in their calculations etc. – LukeH Dec 9 '09 at 13:42
(Oops, a mistake in my first comment: 1001 represents -7 and not -15.) – LukeH Dec 9 '09 at 13:46

Unsafe code in C#, overflow doesn't occur, detects endianness automatically:

using System;
class Program
{
static void Main(String[] args)
{
checked // Yes, it works without overflow!
{
Int32 original = Int32.MaxValue;
Int16[] result = GetShorts(original);
Console.WriteLine("Original int: {0:x}", original);
Console.WriteLine("Senior Int16: {0:x}", result[1]);
Console.WriteLine("Junior Int16: {0:x}", result[0]);
}
}
static unsafe Int16[] GetShorts(Int32 value)
{
byte[] buffer = new byte[4];
fixed (byte* numRef = buffer)
{
*((Int32*)numRef) = value;
if (BitConverter.IsLittleEndian)
return new Int16[] { *((Int16*)numRef), *((Int16*)numRef + 1) };
return new Int16[] {
(Int16)((numRef[0] << 8) | numRef[1]),
(Int16)((numRef[2] << 8) | numRef[3])
};
}
}
}
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Add /unsafe option to build it. – Roman Boiko Dec 11 '09 at 18:56
From Reflector: public static readonly bool IsLittleEndian;. Thus we do not call a property here. – Roman Boiko Dec 11 '09 at 19:45

You can use StructLayout in VB.NET:

correction: word is 16bit, dword is 32bit

<StructLayout(LayoutKind.Explicit, Size:=4)> _
Public Structure UDWord
<FieldOffset(0)> Public Value As UInt32
<FieldOffset(0)> Public High As UInt16
<FieldOffset(2)> Public Low As UInt16

Public Sub New(ByVal value As UInt32)
Me.Value = value
End Sub

Public Sub New(ByVal high as UInt16, ByVal low as UInt16)
Me.High = high
Me.Low = low
End Sub
End Structure

Signed would be the same just using those types instead

<StructLayout(LayoutKind.Explicit, Size:=4)> _
Public Structure DWord
<FieldOffset(0)> Public Value As Int32
<FieldOffset(0)> Public High As Int16
<FieldOffset(2)> Public Low As Int16

Public Sub New(ByVal value As Int32)
Me.Value = value
End Sub

Public Sub New(ByVal high as Int16, ByVal low as Int16)
Me.High = high
Me.Low = low
End Sub
End Structure

EDIT:

I've kind of rushed the few times I've posted/edited my anwser, and yet to explain this solution, so I feel I have not completed my answer. So I'm going to do so now:

Using the StructLayout as explicit onto a structure requires you to provide the positioning of each field (by byte offset) [StructLayoutAttribute] with the FieldOffset attribute [FieldOffsetAttribute]

With these two attributes in use you can create overlapping fields, aka unions.

The first field (DWord.Value) would be the 32bit integer, with an offset of 0 (zero). To split this 32bit integer you would have two additional fields starting again at the offset of 0 (zero) then the second field 2 more bytes off, because a 16bit (short) integer is 2 bytes a-peice.

From what I recall, usually when you split an integer they normally call the first half "high" then the second half "low"; thus naming my two other fields.

With using a structure like this, you could then create overloads for operators and type widing/narrowing, to easily exchange from say an Int32 type to this DWord structure, aswell as comparasions Operator Overloading in VB.NET

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This will work with signed types? I need to create an assembly CLS compliant. – Ignacio Soler Garcia Dec 10 '09 at 12:16
yes, must have skipped that part in your question. I've updated my answer to include signed ints. – DanStory Dec 10 '09 at 22:42
This doesn't adjust for endianness. – Cole Johnson Aug 27 '12 at 18:12

You can use StructLayout to do this:

[StructLayout(LayoutKind.Explicit)]
struct Helper
{
[FieldOffset(0)]
public int Value;
[FieldOffset(0)]
public short Low;
[FieldOffset(2)]
public short High;
}

Using this, you can get the full Value as int , and low part, hight part as short.

something like:

var helper = new Helper {value = 12345};
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Due to storage width (32bits and 16bits), converting Int32 to Int16 may imply a loss of information, if your Int32 is greater than 32767.

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He's converting it into two Int16s, not one. – Jon Skeet Dec 9 '09 at 12:10
Read too fast... – Laurent Etiemble Dec 9 '09 at 12:12

If you look at the bit representation, then you are correct.

You can do this with unsigned ints though, as they don't have the sign bit.

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You might also be interested in StructLayout or unions if you're using c++.

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Sorru, using Vb.net here :( – Ignacio Soler Garcia Dec 9 '09 at 12:30