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//! Generate the user-facing flags type.
//!
//! The code here belongs to the end-user, so new trait implementations and methods can't be
//! added without potentially breaking users.
/// Declare the user-facing bitflags struct.
///
/// This type is guaranteed to be a newtype with a `bitflags`-facing type as its single field.
#[macro_export]
#[doc(hidden)]
macro_rules! __declare_public_bitflags {
(
$(#[$outer:meta])*
$vis:vis struct $PublicBitFlags:ident
) => {
$(#[$outer])*
$vis struct $PublicBitFlags(<$PublicBitFlags as $crate::__private::PublicFlags>::Internal);
};
}
/// Implement functions on the public (user-facing) bitflags type.
///
/// We need to be careful about adding new methods and trait implementations here because they
/// could conflict with items added by the end-user.
#[macro_export]
#[doc(hidden)]
macro_rules! __impl_public_bitflags_forward {
(
$(#[$outer:meta])*
$PublicBitFlags:ident: $T:ty, $InternalBitFlags:ident
) => {
$crate::__impl_bitflags! {
$(#[$outer])*
$PublicBitFlags: $T {
fn empty() {
Self($InternalBitFlags::empty())
}
fn all() {
Self($InternalBitFlags::all())
}
fn bits(f) {
f.0.bits()
}
fn from_bits(bits) {
match $InternalBitFlags::from_bits(bits) {
$crate::__private::core::option::Option::Some(bits) => $crate::__private::core::option::Option::Some(Self(bits)),
$crate::__private::core::option::Option::None => $crate::__private::core::option::Option::None,
}
}
fn from_bits_truncate(bits) {
Self($InternalBitFlags::from_bits_truncate(bits))
}
fn from_bits_retain(bits) {
Self($InternalBitFlags::from_bits_retain(bits))
}
fn from_name(name) {
match $InternalBitFlags::from_name(name) {
$crate::__private::core::option::Option::Some(bits) => $crate::__private::core::option::Option::Some(Self(bits)),
$crate::__private::core::option::Option::None => $crate::__private::core::option::Option::None,
}
}
fn is_empty(f) {
f.0.is_empty()
}
fn is_all(f) {
f.0.is_all()
}
fn intersects(f, other) {
f.0.intersects(other.0)
}
fn contains(f, other) {
f.0.contains(other.0)
}
fn insert(f, other) {
f.0.insert(other.0)
}
fn remove(f, other) {
f.0.remove(other.0)
}
fn toggle(f, other) {
f.0.toggle(other.0)
}
fn set(f, other, value) {
f.0.set(other.0, value)
}
fn intersection(f, other) {
Self(f.0.intersection(other.0))
}
fn union(f, other) {
Self(f.0.union(other.0))
}
fn difference(f, other) {
Self(f.0.difference(other.0))
}
fn symmetric_difference(f, other) {
Self(f.0.symmetric_difference(other.0))
}
fn complement(f) {
Self(f.0.complement())
}
}
}
};
}
/// Implement functions on the public (user-facing) bitflags type.
///
/// We need to be careful about adding new methods and trait implementations here because they
/// could conflict with items added by the end-user.
#[macro_export]
#[doc(hidden)]
macro_rules! __impl_public_bitflags {
(
$(#[$outer:meta])*
$BitFlags:ident: $T:ty, $PublicBitFlags:ident {
$(
$(#[$inner:ident $($args:tt)*])*
const $Flag:tt = $value:expr;
)*
}
) => {
$crate::__impl_bitflags! {
$(#[$outer])*
$BitFlags: $T {
fn empty() {
Self(<$T as $crate::Bits>::EMPTY)
}
fn all() {
let mut truncated = <$T as $crate::Bits>::EMPTY;
let mut i = 0;
$(
$crate::__bitflags_expr_safe_attrs!(
$(#[$inner $($args)*])*
{{
let flag = <$PublicBitFlags as $crate::Flags>::FLAGS[i].value().bits();
truncated = truncated | flag;
i += 1;
}}
);
)*
let _ = i;
Self::from_bits_retain(truncated)
}
fn bits(f) {
f.0
}
fn from_bits(bits) {
let truncated = Self::from_bits_truncate(bits).0;
if truncated == bits {
$crate::__private::core::option::Option::Some(Self(bits))
} else {
$crate::__private::core::option::Option::None
}
}
fn from_bits_truncate(bits) {
Self(bits & Self::all().bits())
}
fn from_bits_retain(bits) {
Self(bits)
}
fn from_name(name) {
$(
$crate::__bitflags_flag!({
name: $Flag,
named: {
$crate::__bitflags_expr_safe_attrs!(
$(#[$inner $($args)*])*
{
if name == $crate::__private::core::stringify!($Flag) {
return $crate::__private::core::option::Option::Some(Self($PublicBitFlags::$Flag.bits()));
}
}
);
},
unnamed: {},
});
)*
let _ = name;
$crate::__private::core::option::Option::None
}
fn is_empty(f) {
f.bits() == <$T as $crate::Bits>::EMPTY
}
fn is_all(f) {
// NOTE: We check against `Self::all` here, not `Self::Bits::ALL`
// because the set of all flags may not use all bits
Self::all().bits() | f.bits() == f.bits()
}
fn intersects(f, other) {
f.bits() & other.bits() != <$T as $crate::Bits>::EMPTY
}
fn contains(f, other) {
f.bits() & other.bits() == other.bits()
}
fn insert(f, other) {
*f = Self::from_bits_retain(f.bits()).union(other);
}
fn remove(f, other) {
*f = Self::from_bits_retain(f.bits()).difference(other);
}
fn toggle(f, other) {
*f = Self::from_bits_retain(f.bits()).symmetric_difference(other);
}
fn set(f, other, value) {
if value {
f.insert(other);
} else {
f.remove(other);
}
}
fn intersection(f, other) {
Self::from_bits_retain(f.bits() & other.bits())
}
fn union(f, other) {
Self::from_bits_retain(f.bits() | other.bits())
}
fn difference(f, other) {
Self::from_bits_retain(f.bits() & !other.bits())
}
fn symmetric_difference(f, other) {
Self::from_bits_retain(f.bits() ^ other.bits())
}
fn complement(f) {
Self::from_bits_truncate(!f.bits())
}
}
}
};
}
/// Implement iterators on the public (user-facing) bitflags type.
#[macro_export]
#[doc(hidden)]
macro_rules! __impl_public_bitflags_iter {
(
$(#[$outer:meta])*
$BitFlags:ident: $T:ty, $PublicBitFlags:ident
) => {
$(#[$outer])*
impl $BitFlags {
/// Yield a set of contained flags values.
///
/// Each yielded flags value will correspond to a defined named flag. Any unknown bits
/// will be yielded together as a final flags value.
#[inline]
pub const fn iter(&self) -> $crate::iter::Iter<$PublicBitFlags> {
$crate::iter::Iter::__private_const_new(
<$PublicBitFlags as $crate::Flags>::FLAGS,
$PublicBitFlags::from_bits_retain(self.bits()),
$PublicBitFlags::from_bits_retain(self.bits()),
)
}
/// Yield a set of contained named flags values.
///
/// This method is like [`iter`](#method.iter), except only yields bits in contained named flags.
/// Any unknown bits, or bits not corresponding to a contained flag will not be yielded.
#[inline]
pub const fn iter_names(&self) -> $crate::iter::IterNames<$PublicBitFlags> {
$crate::iter::IterNames::__private_const_new(
<$PublicBitFlags as $crate::Flags>::FLAGS,
$PublicBitFlags::from_bits_retain(self.bits()),
$PublicBitFlags::from_bits_retain(self.bits()),
)
}
}
$(#[$outer:meta])*
impl $crate::__private::core::iter::IntoIterator for $BitFlags {
type Item = $PublicBitFlags;
type IntoIter = $crate::iter::Iter<$PublicBitFlags>;
fn into_iter(self) -> Self::IntoIter {
self.iter()
}
}
};
}
/// Implement traits on the public (user-facing) bitflags type.
#[macro_export]
#[doc(hidden)]
macro_rules! __impl_public_bitflags_ops {
(
$(#[$outer:meta])*
$PublicBitFlags:ident
) => {
$(#[$outer])*
impl $crate::__private::core::fmt::Binary for $PublicBitFlags {
fn fmt(
&self,
f: &mut $crate::__private::core::fmt::Formatter,
) -> $crate::__private::core::fmt::Result {
let inner = self.0;
$crate::__private::core::fmt::Binary::fmt(&inner, f)
}
}
$(#[$outer])*
impl $crate::__private::core::fmt::Octal for $PublicBitFlags {
fn fmt(
&self,
f: &mut $crate::__private::core::fmt::Formatter,
) -> $crate::__private::core::fmt::Result {
let inner = self.0;
$crate::__private::core::fmt::Octal::fmt(&inner, f)
}
}
$(#[$outer])*
impl $crate::__private::core::fmt::LowerHex for $PublicBitFlags {
fn fmt(
&self,
f: &mut $crate::__private::core::fmt::Formatter,
) -> $crate::__private::core::fmt::Result {
let inner = self.0;
$crate::__private::core::fmt::LowerHex::fmt(&inner, f)
}
}
$(#[$outer])*
impl $crate::__private::core::fmt::UpperHex for $PublicBitFlags {
fn fmt(
&self,
f: &mut $crate::__private::core::fmt::Formatter,
) -> $crate::__private::core::fmt::Result {
let inner = self.0;
$crate::__private::core::fmt::UpperHex::fmt(&inner, f)
}
}
$(#[$outer])*
impl $crate::__private::core::ops::BitOr for $PublicBitFlags {
type Output = Self;
/// The bitwise or (`|`) of the bits in two flags values.
#[inline]
fn bitor(self, other: $PublicBitFlags) -> Self {
self.union(other)
}
}
$(#[$outer])*
impl $crate::__private::core::ops::BitOrAssign for $PublicBitFlags {
/// The bitwise or (`|`) of the bits in two flags values.
#[inline]
fn bitor_assign(&mut self, other: Self) {
self.insert(other);
}
}
$(#[$outer])*
impl $crate::__private::core::ops::BitXor for $PublicBitFlags {
type Output = Self;
/// The bitwise exclusive-or (`^`) of the bits in two flags values.
#[inline]
fn bitxor(self, other: Self) -> Self {
self.symmetric_difference(other)
}
}
$(#[$outer])*
impl $crate::__private::core::ops::BitXorAssign for $PublicBitFlags {
/// The bitwise exclusive-or (`^`) of the bits in two flags values.
#[inline]
fn bitxor_assign(&mut self, other: Self) {
self.toggle(other);
}
}
$(#[$outer])*
impl $crate::__private::core::ops::BitAnd for $PublicBitFlags {
type Output = Self;
/// The bitwise and (`&`) of the bits in two flags values.
#[inline]
fn bitand(self, other: Self) -> Self {
self.intersection(other)
}
}
$(#[$outer])*
impl $crate::__private::core::ops::BitAndAssign for $PublicBitFlags {
/// The bitwise and (`&`) of the bits in two flags values.
#[inline]
fn bitand_assign(&mut self, other: Self) {
*self = Self::from_bits_retain(self.bits()).intersection(other);
}
}
$(#[$outer])*
impl $crate::__private::core::ops::Sub for $PublicBitFlags {
type Output = Self;
/// The intersection of a source flags value with the complement of a target flags value (`&!`).
///
/// This method is not equivalent to `self & !other` when `other` has unknown bits set.
/// `difference` won't truncate `other`, but the `!` operator will.
#[inline]
fn sub(self, other: Self) -> Self {
self.difference(other)
}
}
$(#[$outer])*
impl $crate::__private::core::ops::SubAssign for $PublicBitFlags {
/// The intersection of a source flags value with the complement of a target flags value (`&!`).
///
/// This method is not equivalent to `self & !other` when `other` has unknown bits set.
/// `difference` won't truncate `other`, but the `!` operator will.
#[inline]
fn sub_assign(&mut self, other: Self) {
self.remove(other);
}
}
$(#[$outer])*
impl $crate::__private::core::ops::Not for $PublicBitFlags {
type Output = Self;
/// The bitwise negation (`!`) of the bits in a flags value, truncating the result.
#[inline]
fn not(self) -> Self {
self.complement()
}
}
$(#[$outer])*
impl $crate::__private::core::iter::Extend<$PublicBitFlags> for $PublicBitFlags {
/// The bitwise or (`|`) of the bits in each flags value.
fn extend<T: $crate::__private::core::iter::IntoIterator<Item = Self>>(
&mut self,
iterator: T,
) {
for item in iterator {
self.insert(item)
}
}
}
$(#[$outer])*
impl $crate::__private::core::iter::FromIterator<$PublicBitFlags> for $PublicBitFlags {
/// The bitwise or (`|`) of the bits in each flags value.
fn from_iter<T: $crate::__private::core::iter::IntoIterator<Item = Self>>(
iterator: T,
) -> Self {
use $crate::__private::core::iter::Extend;
let mut result = Self::empty();
result.extend(iterator);
result
}
}
};
}
/// Implement constants on the public (user-facing) bitflags type.
#[macro_export]
#[doc(hidden)]
macro_rules! __impl_public_bitflags_consts {
(
$(#[$outer:meta])*
$PublicBitFlags:ident: $T:ty {
$(
$(#[$inner:ident $($args:tt)*])*
const $Flag:tt = $value:expr;
)*
}
) => {
$(#[$outer])*
impl $PublicBitFlags {
$(
$crate::__bitflags_flag!({
name: $Flag,
named: {
$(#[$inner $($args)*])*
#[allow(
deprecated,
non_upper_case_globals,
)]
pub const $Flag: Self = Self::from_bits_retain($value);
},
unnamed: {},
});
)*
}
$(#[$outer])*
impl $crate::Flags for $PublicBitFlags {
const FLAGS: &'static [$crate::Flag<$PublicBitFlags>] = &[
$(
$crate::__bitflags_flag!({
name: $Flag,
named: {
$crate::__bitflags_expr_safe_attrs!(
$(#[$inner $($args)*])*
{
#[allow(
deprecated,
non_upper_case_globals,
)]
$crate::Flag::new($crate::__private::core::stringify!($Flag), $PublicBitFlags::$Flag)
}
)
},
unnamed: {
$crate::__bitflags_expr_safe_attrs!(
$(#[$inner $($args)*])*
{
#[allow(
deprecated,
non_upper_case_globals,
)]
$crate::Flag::new("", $PublicBitFlags::from_bits_retain($value))
}
)
},
}),
)*
];
type Bits = $T;
fn bits(&self) -> $T {
$PublicBitFlags::bits(self)
}
fn from_bits_retain(bits: $T) -> $PublicBitFlags {
$PublicBitFlags::from_bits_retain(bits)
}
}
};
}