Take this scenario: You have a few flag enumerations in C# tied to (and in fact generated from) Enum-ish tables in SQL Server. Say you are a distributor, and you allow your resellers to specify what US states they ship to. Being a brilliant and elegant software engineer, you implemented these as a bitwise-combinable flag value to save storage:
create table USState ( StateID bigint, StateAbbr char(2), StateName varchar(50)) /* insert all US States + DC into USState, StateIDs must be in powers of two */ /* StateID 0 reserved for 'None': */ create procedure GetStatesByFlag (@StateFlags bigint) as declare @StateIDs table ( StateID bigint, primary key (StateID) ) insert into @StateIDs select StateID from USState where @StateFlags & StateID != 0 or (@StateFlags = 0 and StateID = 0) select s.StateID, s.StateAbbr, s.StateName from USState s join @StateIDs si on si.StateID = s.StateID
Sweet. You can include/exclude dynamically in both SQL and C# using bitwise logic, which lets you instantly hydrate checkbox lists and select lists in Asp.NET while still only storing a single 64-bit number to hold any combination of selections. And you don't need a non-indexable comparison operator in your procedures' WHERE clauses, except against the enum table itself which has a maximum of 64 rows. Searching your distributors for everyone who ships to Indiana and California can still use an equality comparison and an index.
Now you have a request to add support for US territories, armed forces mailing codes and Canadian provinces, and do so in a backwards-compatible fashion. There's no cutting the list down to < 64 entries, and the business really wants to avoid having to segregate old-school states from the rest of the territories and divisions.
What do you do?
Creative answers are appreciated, but the real challenge here is this: Is there a way to force the same bitwise math that works on unsigned 64-bit values to work on signed ones while using the negative space to exceed 64 possible bits, in both C# and SQL (2008)? If it matters, the flag is simulated, not a "real" flag, so it's technically not necessary for this to work against a CLR enum with [Flags] attribute.