# Enum flags over 2^32

I am using Enum flags in my application. The Enum can have around 50+ values, so values go up to 2^50. I was just wondering, can I use `Math.Pow(2, variable)` to calculate these?

When I try to do that I get a constant value compile-time error. Is there another way, other than calculating these powers of 2 manually and putting it in?

Here's what I am doing:

``````[Flags]
internal enum RiskStates : long
{
None = 0,
AL = Convert.ToInt64(Math.Pow(2,0)),
AK = 2,
AZ = 4,
AR = 8,
CA = 16,
CO = 32,
CT = 64,
DC = 128,
DE = 256,
FL = 512,
GA = 1024,
HI = 2048,
ID = 4096,
IL = 8192,
IN = 16384,
IA = 32768,
KS = 65536,
KY = 131072,
LA = 262144,
ME = 524288,
MD = 1048576,
MA = 2097152,
MI = 4194304
}
``````
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I would use a regular enum with a HashSet. –  billpg Sep 26 '13 at 8:41
@deed02392: because of the flag nature of this enum. You can combine multiple values. Each values "own" one bit in the value. `AZ + AK` will be 6. Using powers of 2 avoid unwanted collision of combinations –  Steve B Sep 26 '13 at 9:09
Like everyone else I hate answers that tell you not to do something rather than how to do it, but it seems completely incredible that a Flags enum with 50 different values is the right solution for whatever your problem is. Either not every combination of all the 50 flags is really possible, in which case you should use one or more simpler enums, or they are, and you could be using a more intelligent data structure?? –  jwg Sep 26 '13 at 13:26
@jwg the individual flags appear to be the 50 states of the US. It would be an amusing party game to pick at random a subset of `n` the 50 and try and find some unique property such that all `n` have that property and the other `50-n` all don't. Well, amusing or not, depending on the party guests... –  AakashM Sep 26 '13 at 14:40
@AakashM I think that your parties are a little too wild for me. –  RBarryYoung Sep 26 '13 at 16:55

When I try to do that I get a constant value compile-time error.

You'd actually be okay if you used the `L` suffix to force it to be a `long` literal - but it's still not ideal to have to specify them all manually. (It's not "obviously correct" when reading the code.)

You can't use `Math.Pow` as the expression has to be a compile-time constant - but you can use bit-shifting:

``````None = 0,
AL = 1L << 0,
AK = 1L << 1,
AZ = 1L << 2
``````

etc. I'd argue that's more readable anyway :)

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Are you saying you don't know all digits of each power of two at least up to 2^64 by heart? You burst my bubble! –  Michael Kjörling Sep 26 '13 at 9:25
@MichaelKjörling: Well of course I do, but I have to consider mere mortals too... –  Jon Skeet Sep 26 '13 at 9:26
I have to imagine bit shifting is also a wee bit faster to type... Unless you can type infinity words per minute. –  Patrick M Sep 26 '13 at 14:16
@PatrickM Which in Jon's case is true also true. –  Anthony Sep 26 '13 at 14:40
@RobH I took the bullet. Knock yourself out! –  lesderid Oct 1 '13 at 20:24

You could use non-decimal notations where the powers of 2 are less irregular:

``````// octal
AL = 0001L,
AK = 0002L,
AZ = 0004L,
AR = 0010L,
CA = 0020L,
CO = 0040L,
CT = 0100L,

AL = 0x001L,
AK = 0x002L,
AZ = 0x004L,
AR = 0x008L,
CA = 0x010L,
CO = 0x020L,
CT = 0x040L,
``````
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-1: this is better, but is not a proper answer. –  ANeves Jul 10 '14 at 15:14

I'd be tempted to consider using BitArray as the underlying structure.

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