Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The bit shift operators in F# are documented as not doing rotation when you shift bits past the end of the value. You can see this in F# Interactive:

> let a = 128uy
- a <<< 1;;

val a : byte = 128uy
val it : byte = 0uy

That is, we shifted the high bit off the top of 128, giving 0.

If F# rotated bits rather than shifting them off the end, we would have gotten 1 instead, as the 1 bit in the MSB position would get rotated down to the LSB.

However, if you make a small change to the second statement, you get a surprising result:

> let a = 128uy
- a <<< 8;;

val a : byte = 128uy
val it : byte = 128uy

Now it looks to have done a full rotation of the bits in the byte!

Why is this?

share|improve this question

1 Answer 1

up vote 2 down vote accepted

What's happening here is that F# is doing modular arithmetic on the value on the right hand side of the bit shift operator before doing the shift. For an unsigned byte, it uses mod 8, since there are 8 bits in an F# byte. Since 8 mod 8 is 0, it is not shifting the bits in the byte at all.

You can see this more clearly if you play with the values a bit:

> let a = 4uy
- a <<< 1;;

val a : byte = 4uy
val it : byte = 8uy

> a <<< 9;;
val it : byte = 8uy
> a <<< 17;;
val it : byte = 8uy

We get the same result in all three cases because they are equivalent expressions in mod 8.

The same thing happens with right-shift (>>>), and the behavior isn't limited to bytes.

share|improve this answer
This is explained on this MSDN page msdn.microsoft.com/en-us/library/aa691377(v=vs.71).aspx –  John Palmer Jul 2 '13 at 23:17
@JohnPalmer: That page doesn't seem quite on point, to me. First, its about C#, not F#. How does a C# design choice constrain F#? Are you claiming the behavior is actually due to the CLR, not the language compiler? Second, it doesn't talk about rotating byte values at all, only the rules for 32- and 64-bit integer rotations. The only way I can see this being the reason for the F# behavior is that the C# docs neglect this difference because of automatic integer promotion, which doesn't happen in F#. –  Warren Young Jul 3 '13 at 0:02
Here is the code for the F# implementation of <<< for int32 (# "shl" x (mask n 31) : int #) where mask is let inline mask (n:int) (m:int) = (# "and" n m : int #). This is exactly identical to the C# operator - and the number with 31 and then shift by some number of bytes. The implementation for byte is identical, except it changes the mask and converts to and from int as .NET does not support bit-shifting bytes –  John Palmer Jul 3 '13 at 0:20
@JohnPalmer: So, F# is following the C# design choice here, not constrained by it or by the CLR. They could have made F# behave like C, for example, where (uint8_t)(n << 8) == 0. –  Warren Young Jul 3 '13 at 0:32
Interestingly, if you disassemble the code and change the constants, there is no effect for int32 (at least on my machine) changing to masking by 0xff instead of 0x1f causes identical results, although you can obviously recreate the C style conversions for bytes. I guess what I am trying to say here is that C# does not use C style shifts, so F# must make the same decision as generally, F# tries to behave similar to C# –  John Palmer Jul 3 '13 at 1:08

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.