Crate bitflags[−][src]
Expand description
A typesafe bitmask flag generator useful for sets of C-style bitmask flags. It can be used for creating typesafe wrappers around C APIs.
The bitflags! macro generates a struct that manages a set of flags. The
flags should only be defined for integer types, otherwise unexpected type
errors may occur at compile time.
Example
#[macro_use] extern crate bitflags; bitflags! { struct Flags: u32 { const A = 0b00000001; const B = 0b00000010; const C = 0b00000100; const ABC = Self::A.bits | Self::B.bits | Self::C.bits; } } fn main() { let e1 = Flags::A | Flags::C; let e2 = Flags::B | Flags::C; assert_eq!((e1 | e2), Flags::ABC); // union assert_eq!((e1 & e2), Flags::C); // intersection assert_eq!((e1 - e2), Flags::A); // set difference assert_eq!(!e2, Flags::A); // set complement }
See example_generated::Flags for documentation of code
generated by the above bitflags! expansion.
The generated structs can also be extended with type and trait
implementations:
#[macro_use] extern crate bitflags; use std::fmt; bitflags! { struct Flags: u32 { const A = 0b00000001; const B = 0b00000010; } } impl Flags { pub fn clear(&mut self) { self.bits = 0; // The `bits` field can be accessed from within the // same module where the `bitflags!` macro was invoked. } } impl fmt::Display for Flags { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "hi!") } } fn main() { let mut flags = Flags::A | Flags::B; flags.clear(); assert!(flags.is_empty()); assert_eq!(format!("{}", flags), "hi!"); assert_eq!(format!("{:?}", Flags::A | Flags::B), "A | B"); assert_eq!(format!("{:?}", Flags::B), "B"); }
Visibility
The generated struct and its associated flag constants are not exported
out of the current module by default. A definition can be exported out of
the current module by adding pub before flags:
#[macro_use] extern crate bitflags; mod example { bitflags! { pub struct Flags1: u32 { const A = 0b00000001; } } bitflags! { struct Flags2: u32 { const B = 0b00000010; } } } fn main() { let flag1 = example::Flags1::A; let flag2 = example::Flags2::B; // error: const `B` is private }
Attributes
Attributes can be attached to the generated struct by placing them
before the flags keyword.
Trait implementations
The Copy, Clone, PartialEq, Eq, PartialOrd, Ord and Hash
traits automatically derived for the struct using the derive attribute.
Additional traits can be derived by providing an explicit derive
attribute on flags.
The Extend and FromIterator traits are implemented for the struct,
too: Extend adds the union of the instances of the struct iterated over,
while FromIterator calculates the union.
The Binary, Debug, LowerHex, Octal and UpperHex trait is also
implemented by displaying the bits value of the internal struct.
Operators
The following operator traits are implemented for the generated struct:
BitOrandBitOrAssign: unionBitAndandBitAndAssign: intersectionBitXorandBitXorAssign: toggleSubandSubAssign: set differenceNot: set complement
Methods
The following methods are defined for the generated struct:
empty: an empty set of flagsall: the set of all defined flagsbits: the raw value of the flags currently storedfrom_bits: convert from underlying bit representation, unless that representation contains bits that do not correspond to a defined flagfrom_bits_truncate: convert from underlying bit representation, dropping any bits that do not correspond to defined flagsfrom_bits_unchecked: convert from underlying bit representation, keeping all bits (even those not corresponding to defined flags)is_empty:trueif no flags are currently storedis_all:trueif currently set flags exactly equal all defined flagsintersects:trueif there are flags common to bothselfandothercontains:trueall of the flags inotherare contained withinselfinsert: inserts the specified flags in-placeremove: removes the specified flags in-placetoggle: the specified flags will be inserted if not present, and removed if they are.set: inserts or removes the specified flags depending on the passed value
Default
The Default trait is not automatically implemented for the generated struct.
If your default value is equal to 0 (which is the same value as calling empty()
on the generated struct), you can simply derive Default:
#[macro_use] extern crate bitflags; bitflags! { // Results in default value with bits: 0 #[derive(Default)] struct Flags: u32 { const A = 0b00000001; const B = 0b00000010; const C = 0b00000100; } } fn main() { let derived_default: Flags = Default::default(); assert_eq!(derived_default.bits(), 0); }
If your default value is not equal to 0 you need to implement Default yourself:
#[macro_use] extern crate bitflags; bitflags! { struct Flags: u32 { const A = 0b00000001; const B = 0b00000010; const C = 0b00000100; } } // explicit `Default` implementation impl Default for Flags { fn default() -> Flags { Flags::A | Flags::C } } fn main() { let implemented_default: Flags = Default::default(); assert_eq!(implemented_default, (Flags::A | Flags::C)); }
Zero Flags
Flags with a value equal to zero will have some strange behavior that one should be aware of.
#[macro_use] extern crate bitflags; bitflags! { struct Flags: u32 { const NONE = 0b00000000; const SOME = 0b00000001; } } fn main() { let empty = Flags::empty(); let none = Flags::NONE; let some = Flags::SOME; // Zero flags are treated as always present assert!(empty.contains(Flags::NONE)); assert!(none.contains(Flags::NONE)); assert!(some.contains(Flags::NONE)); // Zero flags will be ignored when testing for emptiness assert!(none.is_empty()); }
Macros
The macro used to generate the flag structure.