This is a bit of a strange way to represent a month, but it is not difficult to do what you want.
The operator you need is the left bit shift operator,
<<. If you imagine a number as a string of bits, say
0000 0000 1111 0000 (240 in binary)
then the bit shift operators shift them some number of places to the left or right; shifting left one would be
0000 0001 1110 0000 (480 in binary)
In your case, January is the bit 1 shifted left zero times, February is the bit 1 shifted left one time, and so on:
int may = 5;
MonthsOfTheYear result = (MonthsOfTheYear)(1 << (may - 1));
What is wrong with this code?
!monthsOfYear.Any(x=>x.Code.Equals((MonthsOfTheYear)(1 << (currentDateTime.Month - 1)))))
where monthsOfYear is 1 + 2 + 4 + 8 ?
You have the number 1 + 2 + 4 + 8 which is 15. That is not equal to 1, 2, 4 or 8. You don't want equality in the first place.
To test whether a flag is set, use the
Let's make this easier to understand by abstracting away into a helper method:
// Is bit "flag" set in bit field "flags"?
static bool IsFlagSet(int flags, int flag)
return (flags & (1 << flag)) != 0;
Make sure you understand how that works. If you have flags
And you ask if flag 1 is set then it shifts the bit 1 to the left by 1 place:
And then says "give me 1 if both corresponding bits are set, zero otherwise." So that's
That is not zero, so the flag must have been set.
Now you can say:
bool result = IsFlagSet((int)monthsOfYear, currentDateTime.Month - 1);
This gives you true if that flag was set, false otherwise.