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So I'm building an MSNP (windows live messenger) client. And I've got this list of capabilities

public enum UserCapabilities : long
    None = 0,
    MobileOnline = 1 << 0,
    MSN8User = 1 << 1,
    RendersGif = 1 << 2,
    MsgrVersion7 = 1 << 30,
    MsgrVersion8 = 1 << 31,
    MsgrVersion9 = 1 << 32,

full list here

The server sends each users capabilities to the client as a long integer, which I take and cast it to UserCapabilities

capabilities = Int64.Parse(e.Command.Args[3]);
user._capabilities = (UserCapabilities)capabilities;

This is fine, and with atleast one user (with a capability value of 1879474220), I can do


and this will output

RendersGif, RendersIsf, SupportsChunking, IsBot, SupportsSChannel, SupportsSipInvite, MsgrVersion5, MsgrVersion6, MsgrVersion7

But with another user, who has the capability value of (3055849760), when I do the same, I just get the same number outputted


What I would like to be seeing is a list of capabilities, as it is with the other user.

I'm sure there is a very valid reason for this happening, but no matter how hard I try to phrase the question to Google, I am not finding an answer.

Please help me :)

share|improve this question
+1 for a well asked question! – Daniel Hilgarth May 5 '11 at 7:17
up vote 32 down vote accepted

The definition of the shift operators means that only the 5 least significant bits are used for 32-bit numbers and only the first 6 bits for 64-bit; meaning:

1 << 5

is identical to

1 << 37

(both are 32)

By making it:

MsgrVersion9 = 1L << 32

you make it a 64-bit number, which is why @leppie's fix works; otherwise the << is considered first (and note that 1<<32 is identical to 1<<0, i.e. 1), and then the resulting 1 is converted to a long; so it is still 1.

From §14.8 in the ECMA spec:

For the predefined operators, the number of bits to shift is computed as follows:

  • When the type of x is int or uint, the shift count is given by the low-order five bits of count. In other words, the shift count is computed from count & 0x1F.
  • When the type of x is long or ulong, the shift count is given by the low-order six bits of count. In other words, the shift count is computed from count & 0x3F.

If the resulting shift count is zero, the shift operators simply return the value of x.

Shift operations never cause overflows and produce the same results in checked and unchecked context

share|improve this answer
It might not be called 'overflow' but the effect is the same, ie (1L << 33) & 0xffffffff. I think the spec text implies that an overflow exception will never be thrown when shifting. – leppie May 5 '11 at 8:27
@leppie - but if it was just the avoidance of overflow, then you should expect that (for int) anything <<32 would be zero; the same as shifting it <<16 twice (which it isn't). – Marc Gravell May 5 '11 at 8:28
That's true :) – leppie May 5 '11 at 8:30

The problem could be with arithmetic overflow.

Specifically at:

MsgrVersion8 = 1 << 31,
MsgrVersion9 = 1 << 32,

I suggest you make it:

MsgrVersion8 = 1L << 31,
MsgrVersion9 = 1L << 32,

To prevent accidental overflow.


Seems likely as the smaller number on 'touches' 31 bits, while the bigger one 'touches' 32 bits.

share|improve this answer
This works and I have absolutely no idea why :) – NoPyGod May 5 '11 at 7:20
The reason is simple: 1 is Int32 and 31 is also Int32, the result again is Int32, which is a signed int, which has a maximum value of 2,147,483,647, but 1 << 31 is 2,147,483,648, so it will overflow to -2,147,483,648. – Daniel Hilgarth May 5 '11 at 7:21
@Daniel @NoPyGod this is nothing to do with overflow; see my answer – Marc Gravell May 5 '11 at 8:11

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