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-// Copyright 2014 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-//! 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 `struct`s that manage a set of flags. The
-//! flags should only be defined for integer types, otherwise unexpected type
-//! errors may occur at compile time.
-//!
-//! # Example
-//!
-//! ```
-//! use bitflags::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`](./example_generated/struct.Flags.html) for documentation of code
-//! generated by the above `bitflags!` expansion.
-//!
-//! The generated `struct`s can also be extended with type and trait
-//! implementations:
-//!
-//! ```
-//! use std::fmt;
-//!
-//! use bitflags::bitflags;
-//!
-//! 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 structs and their 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 `struct`:
-//!
-//! ```
-//! mod example {
-//! use bitflags::bitflags;
-//!
-//! bitflags! {
-//! pub struct Flags1: u32 {
-//! const A = 0b00000001;
-//! }
-//!
-//! # pub
-//! 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`s by placing them
-//! before the `struct` keyword.
-//!
-//! ## Representations
-//!
-//! It's valid to add a `#[repr(C)]` or `#[repr(transparent)]` attribute to a type
-//! generated by `bitflags!`. In these cases, the type is guaranteed to be a newtype.
-//!
-//! ```
-//! use bitflags::bitflags;
-//!
-//! bitflags! {
-//! #[repr(transparent)]
-//! struct Flags: u32 {
-//! const A = 0b00000001;
-//! const B = 0b00000010;
-//! const C = 0b00000100;
-//! }
-//! }
-//! ```
-//!
-//! # Trait implementations
-//!
-//! The `Copy`, `Clone`, `PartialEq`, `Eq`, `PartialOrd`, `Ord` and `Hash`
-//! traits are automatically derived for the `struct`s using the `derive` attribute.
-//! Additional traits can be derived by providing an explicit `derive`
-//! attribute on `struct`.
-//!
-//! The `Extend` and `FromIterator` traits are implemented for the `struct`s,
-//! 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` traits are also
-//! implemented by displaying the bits value of the internal struct.
-//!
-//! ## Operators
-//!
-//! The following operator traits are implemented for the generated `struct`s:
-//!
-//! - `BitOr` and `BitOrAssign`: union
-//! - `BitAnd` and `BitAndAssign`: intersection
-//! - `BitXor` and `BitXorAssign`: toggle
-//! - `Sub` and `SubAssign`: set difference
-//! - `Not`: set complement
-//!
-//! # Methods
-//!
-//! The following methods are defined for the generated `struct`s:
-//!
-//! - `empty`: an empty set of flags
-//! - `all`: the set of all defined flags
-//! - `bits`: the raw value of the flags currently stored
-//! - `from_bits`: convert from underlying bit representation, unless that
-//! representation contains bits that do not correspond to a
-//! defined flag
-//! - `from_bits_truncate`: convert from underlying bit representation, dropping
-//! any bits that do not correspond to defined flags
-//! - `from_bits_unchecked`: convert from underlying bit representation, keeping
-//! all bits (even those not corresponding to defined
-//! flags)
-//! - `is_empty`: `true` if no flags are currently stored
-//! - `is_all`: `true` if currently set flags exactly equal all defined flags
-//! - `intersects`: `true` if there are flags common to both `self` and `other`
-//! - `contains`: `true` if all of the flags in `other` are contained within `self`
-//! - `insert`: inserts the specified flags in-place
-//! - `remove`: removes the specified flags in-place
-//! - `toggle`: 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
-//! - `intersection`: returns a new set of flags, containing only the flags present
-//! in both `self` and `other` (the argument to the function).
-//! - `union`: returns a new set of flags, containing any flags present in
-//! either `self` or `other` (the argument to the function).
-//! - `difference`: returns a new set of flags, containing all flags present in
-//! `self` without any of the flags present in `other` (the
-//! argument to the function).
-//! - `symmetric_difference`: returns a new set of flags, containing all flags
-//! present in either `self` or `other` (the argument
-//! to the function), but not both.
-//! - `complement`: returns a new set of flags, containing all flags which are
-//! not set in `self`, but which are allowed for this type.
-//!
-//! ## Default
-//!
-//! The `Default` trait is not automatically implemented for the generated structs.
-//!
-//! 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`:
-//!
-//! ```
-//! use bitflags::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:
-//!
-//! ```
-//! use bitflags::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.
-//!
-//! ```
-//! use bitflags::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());
-//! }
-//! ```
-//!
-//! Users should generally avoid defining a flag with a value of zero.
-
-#![cfg_attr(not(test), no_std)]
-#![doc(html_root_url = "https://docs.rs/bitflags/1.3.2")]
-
-#[doc(hidden)]
-pub extern crate core as _core;
-
-/// The macro used to generate the flag structures.
-///
-/// See the [crate level docs](../bitflags/index.html) for complete documentation.
-///
-/// # Example
-///
-/// ```
-/// use bitflags::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
-/// }
-/// ```
-///
-/// The generated `struct`s can also be extended with type and trait
-/// implementations:
-///
-/// ```
-/// use std::fmt;
-///
-/// use bitflags::bitflags;
-///
-/// 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");
-/// }
-/// ```
-#[macro_export(local_inner_macros)]
-macro_rules! bitflags {
- (
- $(#[$outer:meta])*
- $vis:vis struct $BitFlags:ident: $T:ty {
- $(
- $(#[$inner:ident $($args:tt)*])*
- const $Flag:ident = $value:expr;
- )*
- }
-
- $($t:tt)*
- ) => {
- $(#[$outer])*
- #[derive(Copy, PartialEq, Eq, Clone, PartialOrd, Ord, Hash)]
- $vis struct $BitFlags {
- bits: $T,
- }
-
- __impl_bitflags! {
- $BitFlags: $T {
- $(
- $(#[$inner $($args)*])*
- $Flag = $value;
- )*
- }
- }
-
- bitflags! {
- $($t)*
- }
- };
- () => {};
-}
-
-// A helper macro to implement the `all` function.
-#[macro_export(local_inner_macros)]
-#[doc(hidden)]
-macro_rules! __impl_all_bitflags {
- (
- $BitFlags:ident: $T:ty {
- $(
- $(#[$attr:ident $($args:tt)*])*
- $Flag:ident = $value:expr;
- )+
- }
- ) => {
- // See `Debug::fmt` for why this approach is taken.
- #[allow(non_snake_case)]
- trait __BitFlags {
- $(
- const $Flag: $T = 0;
- )+
- }
- #[allow(non_snake_case)]
- impl __BitFlags for $BitFlags {
- $(
- __impl_bitflags! {
- #[allow(deprecated)]
- $(? #[$attr $($args)*])*
- const $Flag: $T = Self::$Flag.bits;
- }
- )+
- }
- Self { bits: $(<Self as __BitFlags>::$Flag)|+ }
- };
- (
- $BitFlags:ident: $T:ty { }
- ) => {
- Self { bits: 0 }
- };
-}
-
-#[macro_export(local_inner_macros)]
-#[doc(hidden)]
-macro_rules! __impl_bitflags {
- (
- $BitFlags:ident: $T:ty {
- $(
- $(#[$attr:ident $($args:tt)*])*
- $Flag:ident = $value:expr;
- )*
- }
- ) => {
- impl $crate::_core::fmt::Debug for $BitFlags {
- fn fmt(&self, f: &mut $crate::_core::fmt::Formatter) -> $crate::_core::fmt::Result {
- // This convoluted approach is to handle #[cfg]-based flag
- // omission correctly. For example it needs to support:
- //
- // #[cfg(unix)] const A: Flag = /* ... */;
- // #[cfg(windows)] const B: Flag = /* ... */;
-
- // Unconditionally define a check for every flag, even disabled
- // ones.
- #[allow(non_snake_case)]
- trait __BitFlags {
- $(
- #[inline]
- fn $Flag(&self) -> bool { false }
- )*
- }
-
- // Conditionally override the check for just those flags that
- // are not #[cfg]ed away.
- #[allow(non_snake_case)]
- impl __BitFlags for $BitFlags {
- $(
- __impl_bitflags! {
- #[allow(deprecated)]
- #[inline]
- $(? #[$attr $($args)*])*
- fn $Flag(&self) -> bool {
- if Self::$Flag.bits == 0 && self.bits != 0 {
- false
- } else {
- self.bits & Self::$Flag.bits == Self::$Flag.bits
- }
- }
- }
- )*
- }
-
- let mut first = true;
- $(
- if <Self as __BitFlags>::$Flag(self) {
- if !first {
- f.write_str(" | ")?;
- }
- first = false;
- f.write_str($crate::_core::stringify!($Flag))?;
- }
- )*
- let extra_bits = self.bits & !Self::all().bits();
- if extra_bits != 0 {
- if !first {
- f.write_str(" | ")?;
- }
- first = false;
- f.write_str("0x")?;
- $crate::_core::fmt::LowerHex::fmt(&extra_bits, f)?;
- }
- if first {
- f.write_str("(empty)")?;
- }
- Ok(())
- }
- }
- impl $crate::_core::fmt::Binary for $BitFlags {
- fn fmt(&self, f: &mut $crate::_core::fmt::Formatter) -> $crate::_core::fmt::Result {
- $crate::_core::fmt::Binary::fmt(&self.bits, f)
- }
- }
- impl $crate::_core::fmt::Octal for $BitFlags {
- fn fmt(&self, f: &mut $crate::_core::fmt::Formatter) -> $crate::_core::fmt::Result {
- $crate::_core::fmt::Octal::fmt(&self.bits, f)
- }
- }
- impl $crate::_core::fmt::LowerHex for $BitFlags {
- fn fmt(&self, f: &mut $crate::_core::fmt::Formatter) -> $crate::_core::fmt::Result {
- $crate::_core::fmt::LowerHex::fmt(&self.bits, f)
- }
- }
- impl $crate::_core::fmt::UpperHex for $BitFlags {
- fn fmt(&self, f: &mut $crate::_core::fmt::Formatter) -> $crate::_core::fmt::Result {
- $crate::_core::fmt::UpperHex::fmt(&self.bits, f)
- }
- }
-
- #[allow(dead_code)]
- impl $BitFlags {
- $(
- $(#[$attr $($args)*])*
- pub const $Flag: Self = Self { bits: $value };
- )*
-
- /// Returns an empty set of flags.
- #[inline]
- pub const fn empty() -> Self {
- Self { bits: 0 }
- }
-
- /// Returns the set containing all flags.
- #[inline]
- pub const fn all() -> Self {
- __impl_all_bitflags! {
- $BitFlags: $T {
- $(
- $(#[$attr $($args)*])*
- $Flag = $value;
- )*
- }
- }
- }
-
- /// Returns the raw value of the flags currently stored.
- #[inline]
- pub const fn bits(&self) -> $T {
- self.bits
- }
-
- /// Convert from underlying bit representation, unless that
- /// representation contains bits that do not correspond to a flag.
- #[inline]
- pub const fn from_bits(bits: $T) -> $crate::_core::option::Option<Self> {
- if (bits & !Self::all().bits()) == 0 {
- $crate::_core::option::Option::Some(Self { bits })
- } else {
- $crate::_core::option::Option::None
- }
- }
-
- /// Convert from underlying bit representation, dropping any bits
- /// that do not correspond to flags.
- #[inline]
- pub const fn from_bits_truncate(bits: $T) -> Self {
- Self { bits: bits & Self::all().bits }
- }
-
- /// Convert from underlying bit representation, preserving all
- /// bits (even those not corresponding to a defined flag).
- ///
- /// # Safety
- ///
- /// The caller of the `bitflags!` macro can chose to allow or
- /// disallow extra bits for their bitflags type.
- ///
- /// The caller of `from_bits_unchecked()` has to ensure that
- /// all bits correspond to a defined flag or that extra bits
- /// are valid for this bitflags type.
- #[inline]
- pub const unsafe fn from_bits_unchecked(bits: $T) -> Self {
- Self { bits }
- }
-
- /// Returns `true` if no flags are currently stored.
- #[inline]
- pub const fn is_empty(&self) -> bool {
- self.bits() == Self::empty().bits()
- }
-
- /// Returns `true` if all flags are currently set.
- #[inline]
- pub const fn is_all(&self) -> bool {
- Self::all().bits | self.bits == self.bits
- }
-
- /// Returns `true` if there are flags common to both `self` and `other`.
- #[inline]
- pub const fn intersects(&self, other: Self) -> bool {
- !(Self { bits: self.bits & other.bits}).is_empty()
- }
-
- /// Returns `true` if all of the flags in `other` are contained within `self`.
- #[inline]
- pub const fn contains(&self, other: Self) -> bool {
- (self.bits & other.bits) == other.bits
- }
-
- /// Inserts the specified flags in-place.
- #[inline]
- pub fn insert(&mut self, other: Self) {
- self.bits |= other.bits;
- }
-
- /// Removes the specified flags in-place.
- #[inline]
- pub fn remove(&mut self, other: Self) {
- self.bits &= !other.bits;
- }
-
- /// Toggles the specified flags in-place.
- #[inline]
- pub fn toggle(&mut self, other: Self) {
- self.bits ^= other.bits;
- }
-
- /// Inserts or removes the specified flags depending on the passed value.
- #[inline]
- pub fn set(&mut self, other: Self, value: bool) {
- if value {
- self.insert(other);
- } else {
- self.remove(other);
- }
- }
-
- /// Returns the intersection between the flags in `self` and
- /// `other`.
- ///
- /// Specifically, the returned set contains only the flags which are
- /// present in *both* `self` *and* `other`.
- ///
- /// This is equivalent to using the `&` operator (e.g.
- /// [`ops::BitAnd`]), as in `flags & other`.
- ///
- /// [`ops::BitAnd`]: https://doc.rust-lang.org/std/ops/trait.BitAnd.html
- #[inline]
- #[must_use]
- pub const fn intersection(self, other: Self) -> Self {
- Self { bits: self.bits & other.bits }
- }
-
- /// Returns the union of between the flags in `self` and `other`.
- ///
- /// Specifically, the returned set contains all flags which are
- /// present in *either* `self` *or* `other`, including any which are
- /// present in both (see [`Self::symmetric_difference`] if that
- /// is undesirable).
- ///
- /// This is equivalent to using the `|` operator (e.g.
- /// [`ops::BitOr`]), as in `flags | other`.
- ///
- /// [`ops::BitOr`]: https://doc.rust-lang.org/std/ops/trait.BitOr.html
- #[inline]
- #[must_use]
- pub const fn union(self, other: Self) -> Self {
- Self { bits: self.bits | other.bits }
- }
-
- /// Returns the difference between the flags in `self` and `other`.
- ///
- /// Specifically, the returned set contains all flags present in
- /// `self`, except for the ones present in `other`.
- ///
- /// It is also conceptually equivalent to the "bit-clear" operation:
- /// `flags & !other` (and this syntax is also supported).
- ///
- /// This is equivalent to using the `-` operator (e.g.
- /// [`ops::Sub`]), as in `flags - other`.
- ///
- /// [`ops::Sub`]: https://doc.rust-lang.org/std/ops/trait.Sub.html
- #[inline]
- #[must_use]
- pub const fn difference(self, other: Self) -> Self {
- Self { bits: self.bits & !other.bits }
- }
-
- /// Returns the [symmetric difference][sym-diff] between the flags
- /// in `self` and `other`.
- ///
- /// Specifically, the returned set contains the flags present which
- /// are present in `self` or `other`, but that are not present in
- /// both. Equivalently, it contains the flags present in *exactly
- /// one* of the sets `self` and `other`.
- ///
- /// This is equivalent to using the `^` operator (e.g.
- /// [`ops::BitXor`]), as in `flags ^ other`.
- ///
- /// [sym-diff]: https://en.wikipedia.org/wiki/Symmetric_difference
- /// [`ops::BitXor`]: https://doc.rust-lang.org/std/ops/trait.BitXor.html
- #[inline]
- #[must_use]
- pub const fn symmetric_difference(self, other: Self) -> Self {
- Self { bits: self.bits ^ other.bits }
- }
-
- /// Returns the complement of this set of flags.
- ///
- /// Specifically, the returned set contains all the flags which are
- /// not set in `self`, but which are allowed for this type.
- ///
- /// Alternatively, it can be thought of as the set difference
- /// between [`Self::all()`] and `self` (e.g. `Self::all() - self`)
- ///
- /// This is equivalent to using the `!` operator (e.g.
- /// [`ops::Not`]), as in `!flags`.
- ///
- /// [`Self::all()`]: Self::all
- /// [`ops::Not`]: https://doc.rust-lang.org/std/ops/trait.Not.html
- #[inline]
- #[must_use]
- pub const fn complement(self) -> Self {
- Self::from_bits_truncate(!self.bits)
- }
-
- }
-
- impl $crate::_core::ops::BitOr for $BitFlags {
- type Output = Self;
-
- /// Returns the union of the two sets of flags.
- #[inline]
- fn bitor(self, other: $BitFlags) -> Self {
- Self { bits: self.bits | other.bits }
- }
- }
-
- impl $crate::_core::ops::BitOrAssign for $BitFlags {
- /// Adds the set of flags.
- #[inline]
- fn bitor_assign(&mut self, other: Self) {
- self.bits |= other.bits;
- }
- }
-
- impl $crate::_core::ops::BitXor for $BitFlags {
- type Output = Self;
-
- /// Returns the left flags, but with all the right flags toggled.
- #[inline]
- fn bitxor(self, other: Self) -> Self {
- Self { bits: self.bits ^ other.bits }
- }
- }
-
- impl $crate::_core::ops::BitXorAssign for $BitFlags {
- /// Toggles the set of flags.
- #[inline]
- fn bitxor_assign(&mut self, other: Self) {
- self.bits ^= other.bits;
- }
- }
-
- impl $crate::_core::ops::BitAnd for $BitFlags {
- type Output = Self;
-
- /// Returns the intersection between the two sets of flags.
- #[inline]
- fn bitand(self, other: Self) -> Self {
- Self { bits: self.bits & other.bits }
- }
- }
-
- impl $crate::_core::ops::BitAndAssign for $BitFlags {
- /// Disables all flags disabled in the set.
- #[inline]
- fn bitand_assign(&mut self, other: Self) {
- self.bits &= other.bits;
- }
- }
-
- impl $crate::_core::ops::Sub for $BitFlags {
- type Output = Self;
-
- /// Returns the set difference of the two sets of flags.
- #[inline]
- fn sub(self, other: Self) -> Self {
- Self { bits: self.bits & !other.bits }
- }
- }
-
- impl $crate::_core::ops::SubAssign for $BitFlags {
- /// Disables all flags enabled in the set.
- #[inline]
- fn sub_assign(&mut self, other: Self) {
- self.bits &= !other.bits;
- }
- }
-
- impl $crate::_core::ops::Not for $BitFlags {
- type Output = Self;
-
- /// Returns the complement of this set of flags.
- #[inline]
- fn not(self) -> Self {
- Self { bits: !self.bits } & Self::all()
- }
- }
-
- impl $crate::_core::iter::Extend<$BitFlags> for $BitFlags {
- fn extend<T: $crate::_core::iter::IntoIterator<Item=Self>>(&mut self, iterator: T) {
- for item in iterator {
- self.insert(item)
- }
- }
- }
-
- impl $crate::_core::iter::FromIterator<$BitFlags> for $BitFlags {
- fn from_iter<T: $crate::_core::iter::IntoIterator<Item=Self>>(iterator: T) -> Self {
- let mut result = Self::empty();
- result.extend(iterator);
- result
- }
- }
- };
-
- // Every attribute that the user writes on a const is applied to the
- // corresponding const that we generate, but within the implementation of
- // Debug and all() we want to ignore everything but #[cfg] attributes. In
- // particular, including a #[deprecated] attribute on those items would fail
- // to compile.
- // https://github.com/bitflags/bitflags/issues/109
- //
- // Input:
- //
- // ? #[cfg(feature = "advanced")]
- // ? #[deprecated(note = "Use something else.")]
- // ? #[doc = r"High quality documentation."]
- // fn f() -> i32 { /* ... */ }
- //
- // Output:
- //
- // #[cfg(feature = "advanced")]
- // fn f() -> i32 { /* ... */ }
- (
- $(#[$filtered:meta])*
- ? #[cfg $($cfgargs:tt)*]
- $(? #[$rest:ident $($restargs:tt)*])*
- fn $($item:tt)*
- ) => {
- __impl_bitflags! {
- $(#[$filtered])*
- #[cfg $($cfgargs)*]
- $(? #[$rest $($restargs)*])*
- fn $($item)*
- }
- };
- (
- $(#[$filtered:meta])*
- // $next != `cfg`
- ? #[$next:ident $($nextargs:tt)*]
- $(? #[$rest:ident $($restargs:tt)*])*
- fn $($item:tt)*
- ) => {
- __impl_bitflags! {
- $(#[$filtered])*
- // $next filtered out
- $(? #[$rest $($restargs)*])*
- fn $($item)*
- }
- };
- (
- $(#[$filtered:meta])*
- fn $($item:tt)*
- ) => {
- $(#[$filtered])*
- fn $($item)*
- };
-
- // Every attribute that the user writes on a const is applied to the
- // corresponding const that we generate, but within the implementation of
- // Debug and all() we want to ignore everything but #[cfg] attributes. In
- // particular, including a #[deprecated] attribute on those items would fail
- // to compile.
- // https://github.com/bitflags/bitflags/issues/109
- //
- // const version
- //
- // Input:
- //
- // ? #[cfg(feature = "advanced")]
- // ? #[deprecated(note = "Use something else.")]
- // ? #[doc = r"High quality documentation."]
- // const f: i32 { /* ... */ }
- //
- // Output:
- //
- // #[cfg(feature = "advanced")]
- // const f: i32 { /* ... */ }
- (
- $(#[$filtered:meta])*
- ? #[cfg $($cfgargs:tt)*]
- $(? #[$rest:ident $($restargs:tt)*])*
- const $($item:tt)*
- ) => {
- __impl_bitflags! {
- $(#[$filtered])*
- #[cfg $($cfgargs)*]
- $(? #[$rest $($restargs)*])*
- const $($item)*
- }
- };
- (
- $(#[$filtered:meta])*
- // $next != `cfg`
- ? #[$next:ident $($nextargs:tt)*]
- $(? #[$rest:ident $($restargs:tt)*])*
- const $($item:tt)*
- ) => {
- __impl_bitflags! {
- $(#[$filtered])*
- // $next filtered out
- $(? #[$rest $($restargs)*])*
- const $($item)*
- }
- };
- (
- $(#[$filtered:meta])*
- const $($item:tt)*
- ) => {
- $(#[$filtered])*
- const $($item)*
- };
-}
-
-#[cfg(feature = "example_generated")]
-pub mod example_generated;
-
-#[cfg(test)]
-mod tests {
- use std::collections::hash_map::DefaultHasher;
- use std::hash::{Hash, Hasher};
-
- bitflags! {
- #[doc = "> The first principle is that you must not fool yourself — and"]
- #[doc = "> you are the easiest person to fool."]
- #[doc = "> "]
- #[doc = "> - Richard Feynman"]
- #[derive(Default)]
- struct Flags: u32 {
- const A = 0b00000001;
- #[doc = "<pcwalton> macros are way better at generating code than trans is"]
- const B = 0b00000010;
- const C = 0b00000100;
- #[doc = "* cmr bed"]
- #[doc = "* strcat table"]
- #[doc = "<strcat> wait what?"]
- const ABC = Self::A.bits | Self::B.bits | Self::C.bits;
- }
-
- struct _CfgFlags: u32 {
- #[cfg(unix)]
- const _CFG_A = 0b01;
- #[cfg(windows)]
- const _CFG_B = 0b01;
- #[cfg(unix)]
- const _CFG_C = Self::_CFG_A.bits | 0b10;
- }
-
- struct AnotherSetOfFlags: i8 {
- const ANOTHER_FLAG = -1_i8;
- }
-
- struct LongFlags: u32 {
- const LONG_A = 0b1111111111111111;
- }
- }
-
- bitflags! {
- struct EmptyFlags: u32 {
- }
- }
-
- #[test]
- fn test_bits() {
- assert_eq!(Flags::empty().bits(), 0b00000000);
- assert_eq!(Flags::A.bits(), 0b00000001);
- assert_eq!(Flags::ABC.bits(), 0b00000111);
-
- assert_eq!(AnotherSetOfFlags::empty().bits(), 0b00);
- assert_eq!(AnotherSetOfFlags::ANOTHER_FLAG.bits(), !0_i8);
-
- assert_eq!(EmptyFlags::empty().bits(), 0b00000000);
- }
-
- #[test]
- fn test_from_bits() {
- assert_eq!(Flags::from_bits(0), Some(Flags::empty()));
- assert_eq!(Flags::from_bits(0b1), Some(Flags::A));
- assert_eq!(Flags::from_bits(0b10), Some(Flags::B));
- assert_eq!(Flags::from_bits(0b11), Some(Flags::A | Flags::B));
- assert_eq!(Flags::from_bits(0b1000), None);
-
- assert_eq!(
- AnotherSetOfFlags::from_bits(!0_i8),
- Some(AnotherSetOfFlags::ANOTHER_FLAG)
- );
-
- assert_eq!(EmptyFlags::from_bits(0), Some(EmptyFlags::empty()));
- assert_eq!(EmptyFlags::from_bits(0b1), None);
- }
-
- #[test]
- fn test_from_bits_truncate() {
- assert_eq!(Flags::from_bits_truncate(0), Flags::empty());
- assert_eq!(Flags::from_bits_truncate(0b1), Flags::A);
- assert_eq!(Flags::from_bits_truncate(0b10), Flags::B);
- assert_eq!(Flags::from_bits_truncate(0b11), (Flags::A | Flags::B));
- assert_eq!(Flags::from_bits_truncate(0b1000), Flags::empty());
- assert_eq!(Flags::from_bits_truncate(0b1001), Flags::A);
-
- assert_eq!(
- AnotherSetOfFlags::from_bits_truncate(0_i8),
- AnotherSetOfFlags::empty()
- );
-
- assert_eq!(EmptyFlags::from_bits_truncate(0), EmptyFlags::empty());
- assert_eq!(EmptyFlags::from_bits_truncate(0b1), EmptyFlags::empty());
- }
-
- #[test]
- fn test_from_bits_unchecked() {
- let extra = unsafe { Flags::from_bits_unchecked(0b1000) };
- assert_eq!(unsafe { Flags::from_bits_unchecked(0) }, Flags::empty());
- assert_eq!(unsafe { Flags::from_bits_unchecked(0b1) }, Flags::A);
- assert_eq!(unsafe { Flags::from_bits_unchecked(0b10) }, Flags::B);
-
- assert_eq!(
- unsafe { Flags::from_bits_unchecked(0b11) },
- (Flags::A | Flags::B)
- );
- assert_eq!(
- unsafe { Flags::from_bits_unchecked(0b1000) },
- (extra | Flags::empty())
- );
- assert_eq!(
- unsafe { Flags::from_bits_unchecked(0b1001) },
- (extra | Flags::A)
- );
-
- let extra = unsafe { EmptyFlags::from_bits_unchecked(0b1000) };
- assert_eq!(
- unsafe { EmptyFlags::from_bits_unchecked(0b1000) },
- (extra | EmptyFlags::empty())
- );
- }
-
- #[test]
- fn test_is_empty() {
- assert!(Flags::empty().is_empty());
- assert!(!Flags::A.is_empty());
- assert!(!Flags::ABC.is_empty());
-
- assert!(!AnotherSetOfFlags::ANOTHER_FLAG.is_empty());
-
- assert!(EmptyFlags::empty().is_empty());
- assert!(EmptyFlags::all().is_empty());
- }
-
- #[test]
- fn test_is_all() {
- assert!(Flags::all().is_all());
- assert!(!Flags::A.is_all());
- assert!(Flags::ABC.is_all());
-
- let extra = unsafe { Flags::from_bits_unchecked(0b1000) };
- assert!(!extra.is_all());
- assert!(!(Flags::A | extra).is_all());
- assert!((Flags::ABC | extra).is_all());
-
- assert!(AnotherSetOfFlags::ANOTHER_FLAG.is_all());
-
- assert!(EmptyFlags::all().is_all());
- assert!(EmptyFlags::empty().is_all());
- }
-
- #[test]
- fn test_two_empties_do_not_intersect() {
- let e1 = Flags::empty();
- let e2 = Flags::empty();
- assert!(!e1.intersects(e2));
-
- assert!(AnotherSetOfFlags::ANOTHER_FLAG.intersects(AnotherSetOfFlags::ANOTHER_FLAG));
- }
-
- #[test]
- fn test_empty_does_not_intersect_with_full() {
- let e1 = Flags::empty();
- let e2 = Flags::ABC;
- assert!(!e1.intersects(e2));
- }
-
- #[test]
- fn test_disjoint_intersects() {
- let e1 = Flags::A;
- let e2 = Flags::B;
- assert!(!e1.intersects(e2));
- }
-
- #[test]
- fn test_overlapping_intersects() {
- let e1 = Flags::A;
- let e2 = Flags::A | Flags::B;
- assert!(e1.intersects(e2));
- }
-
- #[test]
- fn test_contains() {
- let e1 = Flags::A;
- let e2 = Flags::A | Flags::B;
- assert!(!e1.contains(e2));
- assert!(e2.contains(e1));
- assert!(Flags::ABC.contains(e2));
-
- assert!(AnotherSetOfFlags::ANOTHER_FLAG.contains(AnotherSetOfFlags::ANOTHER_FLAG));
-
- assert!(EmptyFlags::empty().contains(EmptyFlags::empty()));
- }
-
- #[test]
- fn test_insert() {
- let mut e1 = Flags::A;
- let e2 = Flags::A | Flags::B;
- e1.insert(e2);
- assert_eq!(e1, e2);
-
- let mut e3 = AnotherSetOfFlags::empty();
- e3.insert(AnotherSetOfFlags::ANOTHER_FLAG);
- assert_eq!(e3, AnotherSetOfFlags::ANOTHER_FLAG);
- }
-
- #[test]
- fn test_remove() {
- let mut e1 = Flags::A | Flags::B;
- let e2 = Flags::A | Flags::C;
- e1.remove(e2);
- assert_eq!(e1, Flags::B);
-
- let mut e3 = AnotherSetOfFlags::ANOTHER_FLAG;
- e3.remove(AnotherSetOfFlags::ANOTHER_FLAG);
- assert_eq!(e3, AnotherSetOfFlags::empty());
- }
-
- #[test]
- fn test_operators() {
- 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
- assert_eq!(e1 ^ e2, Flags::A | Flags::B); // toggle
- let mut e3 = e1;
- e3.toggle(e2);
- assert_eq!(e3, Flags::A | Flags::B);
-
- let mut m4 = AnotherSetOfFlags::empty();
- m4.toggle(AnotherSetOfFlags::empty());
- assert_eq!(m4, AnotherSetOfFlags::empty());
- }
-
- #[test]
- fn test_operators_unchecked() {
- let extra = unsafe { Flags::from_bits_unchecked(0b1000) };
- let e1 = Flags::A | Flags::C | extra;
- let e2 = Flags::B | Flags::C;
- assert_eq!((e1 | e2), (Flags::ABC | extra)); // union
- assert_eq!((e1 & e2), Flags::C); // intersection
- assert_eq!((e1 - e2), (Flags::A | extra)); // set difference
- assert_eq!(!e2, Flags::A); // set complement
- assert_eq!(!e1, Flags::B); // set complement
- assert_eq!(e1 ^ e2, Flags::A | Flags::B | extra); // toggle
- let mut e3 = e1;
- e3.toggle(e2);
- assert_eq!(e3, Flags::A | Flags::B | extra);
- }
-
- #[test]
- fn test_set_ops_basic() {
- let ab = Flags::A.union(Flags::B);
- let ac = Flags::A.union(Flags::C);
- let bc = Flags::B.union(Flags::C);
- assert_eq!(ab.bits, 0b011);
- assert_eq!(bc.bits, 0b110);
- assert_eq!(ac.bits, 0b101);
-
- assert_eq!(ab, Flags::B.union(Flags::A));
- assert_eq!(ac, Flags::C.union(Flags::A));
- assert_eq!(bc, Flags::C.union(Flags::B));
-
- assert_eq!(ac, Flags::A | Flags::C);
- assert_eq!(bc, Flags::B | Flags::C);
- assert_eq!(ab.union(bc), Flags::ABC);
-
- assert_eq!(ac, Flags::A | Flags::C);
- assert_eq!(bc, Flags::B | Flags::C);
-
- assert_eq!(ac.union(bc), ac | bc);
- assert_eq!(ac.union(bc), Flags::ABC);
- assert_eq!(bc.union(ac), Flags::ABC);
-
- assert_eq!(ac.intersection(bc), ac & bc);
- assert_eq!(ac.intersection(bc), Flags::C);
- assert_eq!(bc.intersection(ac), Flags::C);
-
- assert_eq!(ac.difference(bc), ac - bc);
- assert_eq!(bc.difference(ac), bc - ac);
- assert_eq!(ac.difference(bc), Flags::A);
- assert_eq!(bc.difference(ac), Flags::B);
-
- assert_eq!(bc.complement(), !bc);
- assert_eq!(bc.complement(), Flags::A);
- assert_eq!(ac.symmetric_difference(bc), Flags::A.union(Flags::B));
- assert_eq!(bc.symmetric_difference(ac), Flags::A.union(Flags::B));
- }
-
- #[test]
- fn test_set_ops_const() {
- // These just test that these compile and don't cause use-site panics
- // (would be possible if we had some sort of UB)
- const INTERSECT: Flags = Flags::all().intersection(Flags::C);
- const UNION: Flags = Flags::A.union(Flags::C);
- const DIFFERENCE: Flags = Flags::all().difference(Flags::A);
- const COMPLEMENT: Flags = Flags::C.complement();
- const SYM_DIFFERENCE: Flags = UNION.symmetric_difference(DIFFERENCE);
- assert_eq!(INTERSECT, Flags::C);
- assert_eq!(UNION, Flags::A | Flags::C);
- assert_eq!(DIFFERENCE, Flags::all() - Flags::A);
- assert_eq!(COMPLEMENT, !Flags::C);
- assert_eq!(SYM_DIFFERENCE, (Flags::A | Flags::C) ^ (Flags::all() - Flags::A));
- }
-
- #[test]
- fn test_set_ops_unchecked() {
- let extra = unsafe { Flags::from_bits_unchecked(0b1000) };
- let e1 = Flags::A.union(Flags::C).union(extra);
- let e2 = Flags::B.union(Flags::C);
- assert_eq!(e1.bits, 0b1101);
- assert_eq!(e1.union(e2), (Flags::ABC | extra));
- assert_eq!(e1.intersection(e2), Flags::C);
- assert_eq!(e1.difference(e2), Flags::A | extra);
- assert_eq!(e2.difference(e1), Flags::B);
- assert_eq!(e2.complement(), Flags::A);
- assert_eq!(e1.complement(), Flags::B);
- assert_eq!(e1.symmetric_difference(e2), Flags::A | Flags::B | extra); // toggle
- }
-
- #[test]
- fn test_set_ops_exhaustive() {
- // Define a flag that contains gaps to help exercise edge-cases,
- // especially around "unknown" flags (e.g. ones outside of `all()`
- // `from_bits_unchecked`).
- // - when lhs and rhs both have different sets of unknown flags.
- // - unknown flags at both ends, and in the middle
- // - cases with "gaps".
- bitflags! {
- struct Test: u16 {
- // Intentionally no `A`
- const B = 0b000000010;
- // Intentionally no `C`
- const D = 0b000001000;
- const E = 0b000010000;
- const F = 0b000100000;
- const G = 0b001000000;
- // Intentionally no `H`
- const I = 0b100000000;
- }
- }
- let iter_test_flags =
- || (0..=0b111_1111_1111).map(|bits| unsafe { Test::from_bits_unchecked(bits) });
-
- for a in iter_test_flags() {
- assert_eq!(
- a.complement(),
- Test::from_bits_truncate(!a.bits),
- "wrong result: !({:?})",
- a,
- );
- assert_eq!(a.complement(), !a, "named != op: !({:?})", a);
- for b in iter_test_flags() {
- // Check that the named operations produce the expected bitwise
- // values.
- assert_eq!(
- a.union(b).bits,
- a.bits | b.bits,
- "wrong result: `{:?}` | `{:?}`",
- a,
- b,
- );
- assert_eq!(
- a.intersection(b).bits,
- a.bits & b.bits,
- "wrong result: `{:?}` & `{:?}`",
- a,
- b,
- );
- assert_eq!(
- a.symmetric_difference(b).bits,
- a.bits ^ b.bits,
- "wrong result: `{:?}` ^ `{:?}`",
- a,
- b,
- );
- assert_eq!(
- a.difference(b).bits,
- a.bits & !b.bits,
- "wrong result: `{:?}` - `{:?}`",
- a,
- b,
- );
- // Note: Difference is checked as both `a - b` and `b - a`
- assert_eq!(
- b.difference(a).bits,
- b.bits & !a.bits,
- "wrong result: `{:?}` - `{:?}`",
- b,
- a,
- );
- // Check that the named set operations are equivalent to the
- // bitwise equivalents
- assert_eq!(a.union(b), a | b, "named != op: `{:?}` | `{:?}`", a, b,);
- assert_eq!(
- a.intersection(b),
- a & b,
- "named != op: `{:?}` & `{:?}`",
- a,
- b,
- );
- assert_eq!(
- a.symmetric_difference(b),
- a ^ b,
- "named != op: `{:?}` ^ `{:?}`",
- a,
- b,
- );
- assert_eq!(a.difference(b), a - b, "named != op: `{:?}` - `{:?}`", a, b,);
- // Note: Difference is checked as both `a - b` and `b - a`
- assert_eq!(b.difference(a), b - a, "named != op: `{:?}` - `{:?}`", b, a,);
- // Verify that the operations which should be symmetric are
- // actually symmetric.
- assert_eq!(a.union(b), b.union(a), "asymmetry: `{:?}` | `{:?}`", a, b,);
- assert_eq!(
- a.intersection(b),
- b.intersection(a),
- "asymmetry: `{:?}` & `{:?}`",
- a,
- b,
- );
- assert_eq!(
- a.symmetric_difference(b),
- b.symmetric_difference(a),
- "asymmetry: `{:?}` ^ `{:?}`",
- a,
- b,
- );
- }
- }
- }
-
- #[test]
- fn test_set() {
- let mut e1 = Flags::A | Flags::C;
- e1.set(Flags::B, true);
- e1.set(Flags::C, false);
-
- assert_eq!(e1, Flags::A | Flags::B);
- }
-
- #[test]
- fn test_assignment_operators() {
- let mut m1 = Flags::empty();
- let e1 = Flags::A | Flags::C;
- // union
- m1 |= Flags::A;
- assert_eq!(m1, Flags::A);
- // intersection
- m1 &= e1;
- assert_eq!(m1, Flags::A);
- // set difference
- m1 -= m1;
- assert_eq!(m1, Flags::empty());
- // toggle
- m1 ^= e1;
- assert_eq!(m1, e1);
- }
-
- #[test]
- fn test_const_fn() {
- const _M1: Flags = Flags::empty();
-
- const M2: Flags = Flags::A;
- assert_eq!(M2, Flags::A);
-
- const M3: Flags = Flags::C;
- assert_eq!(M3, Flags::C);
- }
-
- #[test]
- fn test_extend() {
- let mut flags;
-
- flags = Flags::empty();
- flags.extend([].iter().cloned());
- assert_eq!(flags, Flags::empty());
-
- flags = Flags::empty();
- flags.extend([Flags::A, Flags::B].iter().cloned());
- assert_eq!(flags, Flags::A | Flags::B);
-
- flags = Flags::A;
- flags.extend([Flags::A, Flags::B].iter().cloned());
- assert_eq!(flags, Flags::A | Flags::B);
-
- flags = Flags::B;
- flags.extend([Flags::A, Flags::ABC].iter().cloned());
- assert_eq!(flags, Flags::ABC);
- }
-
- #[test]
- fn test_from_iterator() {
- assert_eq!([].iter().cloned().collect::<Flags>(), Flags::empty());
- assert_eq!(
- [Flags::A, Flags::B].iter().cloned().collect::<Flags>(),
- Flags::A | Flags::B
- );
- assert_eq!(
- [Flags::A, Flags::ABC].iter().cloned().collect::<Flags>(),
- Flags::ABC
- );
- }
-
- #[test]
- fn test_lt() {
- let mut a = Flags::empty();
- let mut b = Flags::empty();
-
- assert!(!(a < b) && !(b < a));
- b = Flags::B;
- assert!(a < b);
- a = Flags::C;
- assert!(!(a < b) && b < a);
- b = Flags::C | Flags::B;
- assert!(a < b);
- }
-
- #[test]
- fn test_ord() {
- let mut a = Flags::empty();
- let mut b = Flags::empty();
-
- assert!(a <= b && a >= b);
- a = Flags::A;
- assert!(a > b && a >= b);
- assert!(b < a && b <= a);
- b = Flags::B;
- assert!(b > a && b >= a);
- assert!(a < b && a <= b);
- }
-
- fn hash<T: Hash>(t: &T) -> u64 {
- let mut s = DefaultHasher::new();
- t.hash(&mut s);
- s.finish()
- }
-
- #[test]
- fn test_hash() {
- let mut x = Flags::empty();
- let mut y = Flags::empty();
- assert_eq!(hash(&x), hash(&y));
- x = Flags::all();
- y = Flags::ABC;
- assert_eq!(hash(&x), hash(&y));
- }
-
- #[test]
- fn test_default() {
- assert_eq!(Flags::empty(), Flags::default());
- }
-
- #[test]
- fn test_debug() {
- assert_eq!(format!("{:?}", Flags::A | Flags::B), "A | B");
- assert_eq!(format!("{:?}", Flags::empty()), "(empty)");
- assert_eq!(format!("{:?}", Flags::ABC), "A | B | C | ABC");
- let extra = unsafe { Flags::from_bits_unchecked(0xb8) };
- assert_eq!(format!("{:?}", extra), "0xb8");
- assert_eq!(format!("{:?}", Flags::A | extra), "A | 0xb8");
-
- assert_eq!(
- format!("{:?}", Flags::ABC | extra),
- "A | B | C | ABC | 0xb8"
- );
-
- assert_eq!(format!("{:?}", EmptyFlags::empty()), "(empty)");
- }
-
- #[test]
- fn test_binary() {
- assert_eq!(format!("{:b}", Flags::ABC), "111");
- assert_eq!(format!("{:#b}", Flags::ABC), "0b111");
- let extra = unsafe { Flags::from_bits_unchecked(0b1010000) };
- assert_eq!(format!("{:b}", Flags::ABC | extra), "1010111");
- assert_eq!(format!("{:#b}", Flags::ABC | extra), "0b1010111");
- }
-
- #[test]
- fn test_octal() {
- assert_eq!(format!("{:o}", LongFlags::LONG_A), "177777");
- assert_eq!(format!("{:#o}", LongFlags::LONG_A), "0o177777");
- let extra = unsafe { LongFlags::from_bits_unchecked(0o5000000) };
- assert_eq!(format!("{:o}", LongFlags::LONG_A | extra), "5177777");
- assert_eq!(format!("{:#o}", LongFlags::LONG_A | extra), "0o5177777");
- }
-
- #[test]
- fn test_lowerhex() {
- assert_eq!(format!("{:x}", LongFlags::LONG_A), "ffff");
- assert_eq!(format!("{:#x}", LongFlags::LONG_A), "0xffff");
- let extra = unsafe { LongFlags::from_bits_unchecked(0xe00000) };
- assert_eq!(format!("{:x}", LongFlags::LONG_A | extra), "e0ffff");
- assert_eq!(format!("{:#x}", LongFlags::LONG_A | extra), "0xe0ffff");
- }
-
- #[test]
- fn test_upperhex() {
- assert_eq!(format!("{:X}", LongFlags::LONG_A), "FFFF");
- assert_eq!(format!("{:#X}", LongFlags::LONG_A), "0xFFFF");
- let extra = unsafe { LongFlags::from_bits_unchecked(0xe00000) };
- assert_eq!(format!("{:X}", LongFlags::LONG_A | extra), "E0FFFF");
- assert_eq!(format!("{:#X}", LongFlags::LONG_A | extra), "0xE0FFFF");
- }
-
- mod submodule {
- bitflags! {
- pub struct PublicFlags: i8 {
- const X = 0;
- }
-
- struct PrivateFlags: i8 {
- const Y = 0;
- }
- }
-
- #[test]
- fn test_private() {
- let _ = PrivateFlags::Y;
- }
- }
-
- #[test]
- fn test_public() {
- let _ = submodule::PublicFlags::X;
- }
-
- mod t1 {
- mod foo {
- pub type Bar = i32;
- }
-
- bitflags! {
- /// baz
- struct Flags: foo::Bar {
- const A = 0b00000001;
- #[cfg(foo)]
- const B = 0b00000010;
- #[cfg(foo)]
- const C = 0b00000010;
- }
- }
- }
-
- #[test]
- fn test_in_function() {
- bitflags! {
- struct Flags: u8 {
- const A = 1;
- #[cfg(any())] // false
- const B = 2;
- }
- }
- assert_eq!(Flags::all(), Flags::A);
- assert_eq!(format!("{:?}", Flags::A), "A");
- }
-
- #[test]
- fn test_deprecated() {
- bitflags! {
- pub struct TestFlags: u32 {
- #[deprecated(note = "Use something else.")]
- const ONE = 1;
- }
- }
- }
-
- #[test]
- fn test_pub_crate() {
- mod module {
- bitflags! {
- pub (crate) struct Test: u8 {
- const FOO = 1;
- }
- }
- }
-
- assert_eq!(module::Test::FOO.bits(), 1);
- }
-
- #[test]
- fn test_pub_in_module() {
- mod module {
- mod submodule {
- bitflags! {
- // `pub (in super)` means only the module `module` will
- // be able to access this.
- pub (in super) struct Test: u8 {
- const FOO = 1;
- }
- }
- }
-
- mod test {
- // Note: due to `pub (in super)`,
- // this cannot be accessed directly by the testing code.
- pub(super) fn value() -> u8 {
- super::submodule::Test::FOO.bits()
- }
- }
-
- pub fn value() -> u8 {
- test::value()
- }
- }
-
- assert_eq!(module::value(), 1)
- }
-
- #[test]
- fn test_zero_value_flags() {
- bitflags! {
- struct Flags: u32 {
- const NONE = 0b0;
- const SOME = 0b1;
- }
- }
-
- assert!(Flags::empty().contains(Flags::NONE));
- assert!(Flags::SOME.contains(Flags::NONE));
- assert!(Flags::NONE.is_empty());
-
- assert_eq!(format!("{:?}", Flags::empty()), "NONE");
- assert_eq!(format!("{:?}", Flags::SOME), "SOME");
- }
-
- #[test]
- fn test_empty_bitflags() {
- bitflags! {}
- }
-
- #[test]
- fn test_u128_bitflags() {
- bitflags! {
- struct Flags128: u128 {
- const A = 0x0000_0000_0000_0000_0000_0000_0000_0001;
- const B = 0x0000_0000_0000_1000_0000_0000_0000_0000;
- const C = 0x8000_0000_0000_0000_0000_0000_0000_0000;
- const ABC = Self::A.bits | Self::B.bits | Self::C.bits;
- }
- }
-
- assert_eq!(Flags128::ABC, Flags128::A | Flags128::B | Flags128::C);
- assert_eq!(Flags128::A.bits, 0x0000_0000_0000_0000_0000_0000_0000_0001);
- assert_eq!(Flags128::B.bits, 0x0000_0000_0000_1000_0000_0000_0000_0000);
- assert_eq!(Flags128::C.bits, 0x8000_0000_0000_0000_0000_0000_0000_0000);
- assert_eq!(
- Flags128::ABC.bits,
- 0x8000_0000_0000_1000_0000_0000_0000_0001
- );
- assert_eq!(format!("{:?}", Flags128::A), "A");
- assert_eq!(format!("{:?}", Flags128::B), "B");
- assert_eq!(format!("{:?}", Flags128::C), "C");
- assert_eq!(format!("{:?}", Flags128::ABC), "A | B | C | ABC");
- }
-
- #[test]
- fn test_serde_bitflags_serialize() {
- let flags = SerdeFlags::A | SerdeFlags::B;
-
- let serialized = serde_json::to_string(&flags).unwrap();
-
- assert_eq!(serialized, r#"{"bits":3}"#);
- }
-
- #[test]
- fn test_serde_bitflags_deserialize() {
- let deserialized: SerdeFlags = serde_json::from_str(r#"{"bits":12}"#).unwrap();
-
- let expected = SerdeFlags::C | SerdeFlags::D;
-
- assert_eq!(deserialized.bits, expected.bits);
- }
-
- #[test]
- fn test_serde_bitflags_roundtrip() {
- let flags = SerdeFlags::A | SerdeFlags::B;
-
- let deserialized: SerdeFlags = serde_json::from_str(&serde_json::to_string(&flags).unwrap()).unwrap();
-
- assert_eq!(deserialized.bits, flags.bits);
- }
-
- bitflags! {
- #[derive(serde::Serialize, serde::Deserialize)]
- struct SerdeFlags: u32 {
- const A = 1;
- const B = 2;
- const C = 4;
- const D = 8;
- }
- }
-}