Bitwise (Flags
) enum guide
Old, but wanted to take a stab at a cheat sheet, even if for my own reference:
Operation |
Syntax |
Example |
On |
|= |
e |= E.A |
Off |
&= + ~ |
e &= ~E.A |
Toggle |
^= |
e ^= E.A |
Test (.NET API) |
.HasFlag |
e.HasFlag(E.A) |
Test (bitwise) |
(see example) |
(e & E.A) == E.A |
Examples
[Flags]
enum E {
A = 0b1,
B = 0b10,
C = 0b100
}
E e = E.A; // Assign (e = A)
e |= E.B | E.C; // Add (e = A, B, C)
e &= ~E.A & ~E.B; // Remove (e = C) -- alt syntax: &= ~(E.A | E.B)
e ^= E.A | E.C; // Toggle (e = A)
e.HasFlag(E.A); // Test (returns true)
// Testing multiple flags using bit operations:
bool hasAandB = ( e & (E.A | E.B) ) == (E.A | E.B);
Bonus: defining a Flags
enum
Typically, we use integers like so:
[Flags]
enum E {
A = 1,
B = 2,
C = 4,
// etc.
But as we approach larger numbers, it's not as easy to calculate the next value:
// ...
W = 4194304,
X = 8388608,
// ..
There are a couple of alternatives, however: binary and hexadecimal literals.
For Binary, just append a 0
at the end of the previous value:
[Flags]
enum E {
A = 0b1,
B = 0b10,
C = 0b100,
// ...
W = 0b100_0000_0000_0000_0000_0000,
X = 0b1000_0000_0000_0000_0000_0000,
Hexadecimal also has a handy pattern and might look a bit less ugly: cycle through 1, 2, 4, 8, adding a zero after each complete iteration.
[Flags]
enum E {
A = 0x1,
B = 0x2,
C = 0x4,
D = 0x8,
E = 0x10, // 16
F = 0x20, // 32, etc.
// ...
W = 0x400000,
X = 0x800000,