1/// The unary logical negation operator `!`.
2///
3/// # Examples
4///
5/// An implementation of `Not` for `Answer`, which enables the use of `!` to
6/// invert its value.
7///
8/// ```
9/// use std::ops::Not;
10///
11/// #[derive(Debug, PartialEq)]
12/// enum Answer {
13/// Yes,
14/// No,
15/// }
16///
17/// impl Not for Answer {
18/// type Output = Self;
19///
20/// fn not(self) -> Self::Output {
21/// match self {
22/// Answer::Yes => Answer::No,
23/// Answer::No => Answer::Yes
24/// }
25/// }
26/// }
27///
28/// assert_eq!(!Answer::Yes, Answer::No);
29/// assert_eq!(!Answer::No, Answer::Yes);
30/// ```
31#[lang = "not"]
32#[stable(feature = "rust1", since = "1.0.0")]
33#[doc(alias = "!")]
34pub trait Not {
35 /// The resulting type after applying the `!` operator.
36 #[stable(feature = "rust1", since = "1.0.0")]
37 type Output;
38
39 /// Performs the unary `!` operation.
40 ///
41 /// # Examples
42 ///
43 /// ```
44 /// assert_eq!(!true, false);
45 /// assert_eq!(!false, true);
46 /// assert_eq!(!1u8, 254);
47 /// assert_eq!(!0u8, 255);
48 /// ```
49 #[must_use]
50 #[stable(feature = "rust1", since = "1.0.0")]
51 fn not(self) -> Self::Output;
52}
53
54macro_rules! not_impl {
55 ($($t:ty)*) => ($(
56 #[stable(feature = "rust1", since = "1.0.0")]
57 impl Not for $t {
58 type Output = $t;
59
60 #[inline]
61 fn not(self) -> $t { !self }
62 }
63
64 forward_ref_unop! { impl Not, not for $t }
65 )*)
66}
67
68not_impl! { bool usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
69
70#[stable(feature = "not_never", since = "1.60.0")]
71impl Not for ! {
72 type Output = !;
73
74 #[inline]
75 fn not(self) -> ! {
76 match self {}
77 }
78}
79
80/// The bitwise AND operator `&`.
81///
82/// Note that `Rhs` is `Self` by default, but this is not mandatory.
83///
84/// # Examples
85///
86/// An implementation of `BitAnd` for a wrapper around `bool`.
87///
88/// ```
89/// use std::ops::BitAnd;
90///
91/// #[derive(Debug, PartialEq)]
92/// struct Scalar(bool);
93///
94/// impl BitAnd for Scalar {
95/// type Output = Self;
96///
97/// // rhs is the "right-hand side" of the expression `a & b`
98/// fn bitand(self, rhs: Self) -> Self::Output {
99/// Self(self.0 & rhs.0)
100/// }
101/// }
102///
103/// assert_eq!(Scalar(true) & Scalar(true), Scalar(true));
104/// assert_eq!(Scalar(true) & Scalar(false), Scalar(false));
105/// assert_eq!(Scalar(false) & Scalar(true), Scalar(false));
106/// assert_eq!(Scalar(false) & Scalar(false), Scalar(false));
107/// ```
108///
109/// An implementation of `BitAnd` for a wrapper around `Vec<bool>`.
110///
111/// ```
112/// use std::ops::BitAnd;
113///
114/// #[derive(Debug, PartialEq)]
115/// struct BooleanVector(Vec<bool>);
116///
117/// impl BitAnd for BooleanVector {
118/// type Output = Self;
119///
120/// fn bitand(self, Self(rhs): Self) -> Self::Output {
121/// let Self(lhs) = self;
122/// assert_eq!(lhs.len(), rhs.len());
123/// Self(
124/// lhs.iter()
125/// .zip(rhs.iter())
126/// .map(|(x, y)| *x & *y)
127/// .collect()
128/// )
129/// }
130/// }
131///
132/// let bv1 = BooleanVector(vec![true, true, false, false]);
133/// let bv2 = BooleanVector(vec![true, false, true, false]);
134/// let expected = BooleanVector(vec![true, false, false, false]);
135/// assert_eq!(bv1 & bv2, expected);
136/// ```
137#[lang = "bitand"]
138#[doc(alias = "&")]
139#[stable(feature = "rust1", since = "1.0.0")]
140#[diagnostic::on_unimplemented(
141 message = "no implementation for `{Self} & {Rhs}`",
142 label = "no implementation for `{Self} & {Rhs}`"
143)]
144pub trait BitAnd<Rhs = Self> {
145 /// The resulting type after applying the `&` operator.
146 #[stable(feature = "rust1", since = "1.0.0")]
147 type Output;
148
149 /// Performs the `&` operation.
150 ///
151 /// # Examples
152 ///
153 /// ```
154 /// assert_eq!(true & false, false);
155 /// assert_eq!(true & true, true);
156 /// assert_eq!(5u8 & 1u8, 1);
157 /// assert_eq!(5u8 & 2u8, 0);
158 /// ```
159 #[must_use]
160 #[stable(feature = "rust1", since = "1.0.0")]
161 fn bitand(self, rhs: Rhs) -> Self::Output;
162}
163
164macro_rules! bitand_impl {
165 ($($t:ty)*) => ($(
166 #[stable(feature = "rust1", since = "1.0.0")]
167 impl BitAnd for $t {
168 type Output = $t;
169
170 #[inline]
171 fn bitand(self, rhs: $t) -> $t { self & rhs }
172 }
173
174 forward_ref_binop! { impl BitAnd, bitand for $t, $t }
175 )*)
176}
177
178bitand_impl! { bool usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
179
180/// The bitwise OR operator `|`.
181///
182/// Note that `Rhs` is `Self` by default, but this is not mandatory.
183///
184/// # Examples
185///
186/// An implementation of `BitOr` for a wrapper around `bool`.
187///
188/// ```
189/// use std::ops::BitOr;
190///
191/// #[derive(Debug, PartialEq)]
192/// struct Scalar(bool);
193///
194/// impl BitOr for Scalar {
195/// type Output = Self;
196///
197/// // rhs is the "right-hand side" of the expression `a | b`
198/// fn bitor(self, rhs: Self) -> Self::Output {
199/// Self(self.0 | rhs.0)
200/// }
201/// }
202///
203/// assert_eq!(Scalar(true) | Scalar(true), Scalar(true));
204/// assert_eq!(Scalar(true) | Scalar(false), Scalar(true));
205/// assert_eq!(Scalar(false) | Scalar(true), Scalar(true));
206/// assert_eq!(Scalar(false) | Scalar(false), Scalar(false));
207/// ```
208///
209/// An implementation of `BitOr` for a wrapper around `Vec<bool>`.
210///
211/// ```
212/// use std::ops::BitOr;
213///
214/// #[derive(Debug, PartialEq)]
215/// struct BooleanVector(Vec<bool>);
216///
217/// impl BitOr for BooleanVector {
218/// type Output = Self;
219///
220/// fn bitor(self, Self(rhs): Self) -> Self::Output {
221/// let Self(lhs) = self;
222/// assert_eq!(lhs.len(), rhs.len());
223/// Self(
224/// lhs.iter()
225/// .zip(rhs.iter())
226/// .map(|(x, y)| *x | *y)
227/// .collect()
228/// )
229/// }
230/// }
231///
232/// let bv1 = BooleanVector(vec![true, true, false, false]);
233/// let bv2 = BooleanVector(vec![true, false, true, false]);
234/// let expected = BooleanVector(vec![true, true, true, false]);
235/// assert_eq!(bv1 | bv2, expected);
236/// ```
237#[lang = "bitor"]
238#[doc(alias = "|")]
239#[stable(feature = "rust1", since = "1.0.0")]
240#[diagnostic::on_unimplemented(
241 message = "no implementation for `{Self} | {Rhs}`",
242 label = "no implementation for `{Self} | {Rhs}`"
243)]
244pub trait BitOr<Rhs = Self> {
245 /// The resulting type after applying the `|` operator.
246 #[stable(feature = "rust1", since = "1.0.0")]
247 type Output;
248
249 /// Performs the `|` operation.
250 ///
251 /// # Examples
252 ///
253 /// ```
254 /// assert_eq!(true | false, true);
255 /// assert_eq!(false | false, false);
256 /// assert_eq!(5u8 | 1u8, 5);
257 /// assert_eq!(5u8 | 2u8, 7);
258 /// ```
259 #[must_use]
260 #[stable(feature = "rust1", since = "1.0.0")]
261 fn bitor(self, rhs: Rhs) -> Self::Output;
262}
263
264macro_rules! bitor_impl {
265 ($($t:ty)*) => ($(
266 #[stable(feature = "rust1", since = "1.0.0")]
267 impl BitOr for $t {
268 type Output = $t;
269
270 #[inline]
271 fn bitor(self, rhs: $t) -> $t { self | rhs }
272 }
273
274 forward_ref_binop! { impl BitOr, bitor for $t, $t }
275 )*)
276}
277
278bitor_impl! { bool usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
279
280/// The bitwise XOR operator `^`.
281///
282/// Note that `Rhs` is `Self` by default, but this is not mandatory.
283///
284/// # Examples
285///
286/// An implementation of `BitXor` that lifts `^` to a wrapper around `bool`.
287///
288/// ```
289/// use std::ops::BitXor;
290///
291/// #[derive(Debug, PartialEq)]
292/// struct Scalar(bool);
293///
294/// impl BitXor for Scalar {
295/// type Output = Self;
296///
297/// // rhs is the "right-hand side" of the expression `a ^ b`
298/// fn bitxor(self, rhs: Self) -> Self::Output {
299/// Self(self.0 ^ rhs.0)
300/// }
301/// }
302///
303/// assert_eq!(Scalar(true) ^ Scalar(true), Scalar(false));
304/// assert_eq!(Scalar(true) ^ Scalar(false), Scalar(true));
305/// assert_eq!(Scalar(false) ^ Scalar(true), Scalar(true));
306/// assert_eq!(Scalar(false) ^ Scalar(false), Scalar(false));
307/// ```
308///
309/// An implementation of `BitXor` trait for a wrapper around `Vec<bool>`.
310///
311/// ```
312/// use std::ops::BitXor;
313///
314/// #[derive(Debug, PartialEq)]
315/// struct BooleanVector(Vec<bool>);
316///
317/// impl BitXor for BooleanVector {
318/// type Output = Self;
319///
320/// fn bitxor(self, Self(rhs): Self) -> Self::Output {
321/// let Self(lhs) = self;
322/// assert_eq!(lhs.len(), rhs.len());
323/// Self(
324/// lhs.iter()
325/// .zip(rhs.iter())
326/// .map(|(x, y)| *x ^ *y)
327/// .collect()
328/// )
329/// }
330/// }
331///
332/// let bv1 = BooleanVector(vec![true, true, false, false]);
333/// let bv2 = BooleanVector(vec![true, false, true, false]);
334/// let expected = BooleanVector(vec![false, true, true, false]);
335/// assert_eq!(bv1 ^ bv2, expected);
336/// ```
337#[lang = "bitxor"]
338#[doc(alias = "^")]
339#[stable(feature = "rust1", since = "1.0.0")]
340#[diagnostic::on_unimplemented(
341 message = "no implementation for `{Self} ^ {Rhs}`",
342 label = "no implementation for `{Self} ^ {Rhs}`"
343)]
344pub trait BitXor<Rhs = Self> {
345 /// The resulting type after applying the `^` operator.
346 #[stable(feature = "rust1", since = "1.0.0")]
347 type Output;
348
349 /// Performs the `^` operation.
350 ///
351 /// # Examples
352 ///
353 /// ```
354 /// assert_eq!(true ^ false, true);
355 /// assert_eq!(true ^ true, false);
356 /// assert_eq!(5u8 ^ 1u8, 4);
357 /// assert_eq!(5u8 ^ 2u8, 7);
358 /// ```
359 #[must_use]
360 #[stable(feature = "rust1", since = "1.0.0")]
361 fn bitxor(self, rhs: Rhs) -> Self::Output;
362}
363
364macro_rules! bitxor_impl {
365 ($($t:ty)*) => ($(
366 #[stable(feature = "rust1", since = "1.0.0")]
367 impl BitXor for $t {
368 type Output = $t;
369
370 #[inline]
371 fn bitxor(self, other: $t) -> $t { self ^ other }
372 }
373
374 forward_ref_binop! { impl BitXor, bitxor for $t, $t }
375 )*)
376}
377
378bitxor_impl! { bool usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
379
380/// The left shift operator `<<`. Note that because this trait is implemented
381/// for all integer types with multiple right-hand-side types, Rust's type
382/// checker has special handling for `_ << _`, setting the result type for
383/// integer operations to the type of the left-hand-side operand. This means
384/// that though `a << b` and `a.shl(b)` are one and the same from an evaluation
385/// standpoint, they are different when it comes to type inference.
386///
387/// # Examples
388///
389/// An implementation of `Shl` that lifts the `<<` operation on integers to a
390/// wrapper around `usize`.
391///
392/// ```
393/// use std::ops::Shl;
394///
395/// #[derive(PartialEq, Debug)]
396/// struct Scalar(usize);
397///
398/// impl Shl<Scalar> for Scalar {
399/// type Output = Self;
400///
401/// fn shl(self, Self(rhs): Self) -> Self::Output {
402/// let Self(lhs) = self;
403/// Self(lhs << rhs)
404/// }
405/// }
406///
407/// assert_eq!(Scalar(4) << Scalar(2), Scalar(16));
408/// ```
409///
410/// An implementation of `Shl` that spins a vector leftward by a given amount.
411///
412/// ```
413/// use std::ops::Shl;
414///
415/// #[derive(PartialEq, Debug)]
416/// struct SpinVector<T: Clone> {
417/// vec: Vec<T>,
418/// }
419///
420/// impl<T: Clone> Shl<usize> for SpinVector<T> {
421/// type Output = Self;
422///
423/// fn shl(self, rhs: usize) -> Self::Output {
424/// // Rotate the vector by `rhs` places.
425/// let (a, b) = self.vec.split_at(rhs);
426/// let mut spun_vector = vec![];
427/// spun_vector.extend_from_slice(b);
428/// spun_vector.extend_from_slice(a);
429/// Self { vec: spun_vector }
430/// }
431/// }
432///
433/// assert_eq!(SpinVector { vec: vec![0, 1, 2, 3, 4] } << 2,
434/// SpinVector { vec: vec![2, 3, 4, 0, 1] });
435/// ```
436#[lang = "shl"]
437#[doc(alias = "<<")]
438#[stable(feature = "rust1", since = "1.0.0")]
439#[diagnostic::on_unimplemented(
440 message = "no implementation for `{Self} << {Rhs}`",
441 label = "no implementation for `{Self} << {Rhs}`"
442)]
443pub trait Shl<Rhs = Self> {
444 /// The resulting type after applying the `<<` operator.
445 #[stable(feature = "rust1", since = "1.0.0")]
446 type Output;
447
448 /// Performs the `<<` operation.
449 ///
450 /// # Examples
451 ///
452 /// ```
453 /// assert_eq!(5u8 << 1, 10);
454 /// assert_eq!(1u8 << 1, 2);
455 /// ```
456 #[must_use]
457 #[stable(feature = "rust1", since = "1.0.0")]
458 fn shl(self, rhs: Rhs) -> Self::Output;
459}
460
461macro_rules! shl_impl {
462 ($t:ty, $f:ty) => {
463 #[stable(feature = "rust1", since = "1.0.0")]
464 impl Shl<$f> for $t {
465 type Output = $t;
466
467 #[inline]
468 #[rustc_inherit_overflow_checks]
469 fn shl(self, other: $f) -> $t {
470 self << other
471 }
472 }
473
474 forward_ref_binop! { impl Shl, shl for $t, $f }
475 };
476}
477
478macro_rules! shl_impl_all {
479 ($($t:ty)*) => ($(
480 shl_impl! { $t, u8 }
481 shl_impl! { $t, u16 }
482 shl_impl! { $t, u32 }
483 shl_impl! { $t, u64 }
484 shl_impl! { $t, u128 }
485 shl_impl! { $t, usize }
486
487 shl_impl! { $t, i8 }
488 shl_impl! { $t, i16 }
489 shl_impl! { $t, i32 }
490 shl_impl! { $t, i64 }
491 shl_impl! { $t, i128 }
492 shl_impl! { $t, isize }
493 )*)
494}
495
496shl_impl_all! { u8 u16 u32 u64 u128 usize i8 i16 i32 i64 i128 isize }
497
498/// The right shift operator `>>`. Note that because this trait is implemented
499/// for all integer types with multiple right-hand-side types, Rust's type
500/// checker has special handling for `_ >> _`, setting the result type for
501/// integer operations to the type of the left-hand-side operand. This means
502/// that though `a >> b` and `a.shr(b)` are one and the same from an evaluation
503/// standpoint, they are different when it comes to type inference.
504///
505/// # Examples
506///
507/// An implementation of `Shr` that lifts the `>>` operation on integers to a
508/// wrapper around `usize`.
509///
510/// ```
511/// use std::ops::Shr;
512///
513/// #[derive(PartialEq, Debug)]
514/// struct Scalar(usize);
515///
516/// impl Shr<Scalar> for Scalar {
517/// type Output = Self;
518///
519/// fn shr(self, Self(rhs): Self) -> Self::Output {
520/// let Self(lhs) = self;
521/// Self(lhs >> rhs)
522/// }
523/// }
524///
525/// assert_eq!(Scalar(16) >> Scalar(2), Scalar(4));
526/// ```
527///
528/// An implementation of `Shr` that spins a vector rightward by a given amount.
529///
530/// ```
531/// use std::ops::Shr;
532///
533/// #[derive(PartialEq, Debug)]
534/// struct SpinVector<T: Clone> {
535/// vec: Vec<T>,
536/// }
537///
538/// impl<T: Clone> Shr<usize> for SpinVector<T> {
539/// type Output = Self;
540///
541/// fn shr(self, rhs: usize) -> Self::Output {
542/// // Rotate the vector by `rhs` places.
543/// let (a, b) = self.vec.split_at(self.vec.len() - rhs);
544/// let mut spun_vector = vec![];
545/// spun_vector.extend_from_slice(b);
546/// spun_vector.extend_from_slice(a);
547/// Self { vec: spun_vector }
548/// }
549/// }
550///
551/// assert_eq!(SpinVector { vec: vec![0, 1, 2, 3, 4] } >> 2,
552/// SpinVector { vec: vec![3, 4, 0, 1, 2] });
553/// ```
554#[lang = "shr"]
555#[doc(alias = ">>")]
556#[stable(feature = "rust1", since = "1.0.0")]
557#[diagnostic::on_unimplemented(
558 message = "no implementation for `{Self} >> {Rhs}`",
559 label = "no implementation for `{Self} >> {Rhs}`"
560)]
561pub trait Shr<Rhs = Self> {
562 /// The resulting type after applying the `>>` operator.
563 #[stable(feature = "rust1", since = "1.0.0")]
564 type Output;
565
566 /// Performs the `>>` operation.
567 ///
568 /// # Examples
569 ///
570 /// ```
571 /// assert_eq!(5u8 >> 1, 2);
572 /// assert_eq!(2u8 >> 1, 1);
573 /// ```
574 #[must_use]
575 #[stable(feature = "rust1", since = "1.0.0")]
576 fn shr(self, rhs: Rhs) -> Self::Output;
577}
578
579macro_rules! shr_impl {
580 ($t:ty, $f:ty) => {
581 #[stable(feature = "rust1", since = "1.0.0")]
582 impl Shr<$f> for $t {
583 type Output = $t;
584
585 #[inline]
586 #[rustc_inherit_overflow_checks]
587 fn shr(self, other: $f) -> $t {
588 self >> other
589 }
590 }
591
592 forward_ref_binop! { impl Shr, shr for $t, $f }
593 };
594}
595
596macro_rules! shr_impl_all {
597 ($($t:ty)*) => ($(
598 shr_impl! { $t, u8 }
599 shr_impl! { $t, u16 }
600 shr_impl! { $t, u32 }
601 shr_impl! { $t, u64 }
602 shr_impl! { $t, u128 }
603 shr_impl! { $t, usize }
604
605 shr_impl! { $t, i8 }
606 shr_impl! { $t, i16 }
607 shr_impl! { $t, i32 }
608 shr_impl! { $t, i64 }
609 shr_impl! { $t, i128 }
610 shr_impl! { $t, isize }
611 )*)
612}
613
614shr_impl_all! { u8 u16 u32 u64 u128 usize i8 i16 i32 i64 i128 isize }
615
616/// The bitwise AND assignment operator `&=`.
617///
618/// # Examples
619///
620/// An implementation of `BitAndAssign` that lifts the `&=` operator to a
621/// wrapper around `bool`.
622///
623/// ```
624/// use std::ops::BitAndAssign;
625///
626/// #[derive(Debug, PartialEq)]
627/// struct Scalar(bool);
628///
629/// impl BitAndAssign for Scalar {
630/// // rhs is the "right-hand side" of the expression `a &= b`
631/// fn bitand_assign(&mut self, rhs: Self) {
632/// *self = Self(self.0 & rhs.0)
633/// }
634/// }
635///
636/// let mut scalar = Scalar(true);
637/// scalar &= Scalar(true);
638/// assert_eq!(scalar, Scalar(true));
639///
640/// let mut scalar = Scalar(true);
641/// scalar &= Scalar(false);
642/// assert_eq!(scalar, Scalar(false));
643///
644/// let mut scalar = Scalar(false);
645/// scalar &= Scalar(true);
646/// assert_eq!(scalar, Scalar(false));
647///
648/// let mut scalar = Scalar(false);
649/// scalar &= Scalar(false);
650/// assert_eq!(scalar, Scalar(false));
651/// ```
652///
653/// Here, the `BitAndAssign` trait is implemented for a wrapper around
654/// `Vec<bool>`.
655///
656/// ```
657/// use std::ops::BitAndAssign;
658///
659/// #[derive(Debug, PartialEq)]
660/// struct BooleanVector(Vec<bool>);
661///
662/// impl BitAndAssign for BooleanVector {
663/// // `rhs` is the "right-hand side" of the expression `a &= b`.
664/// fn bitand_assign(&mut self, rhs: Self) {
665/// assert_eq!(self.0.len(), rhs.0.len());
666/// *self = Self(
667/// self.0
668/// .iter()
669/// .zip(rhs.0.iter())
670/// .map(|(x, y)| *x & *y)
671/// .collect()
672/// );
673/// }
674/// }
675///
676/// let mut bv = BooleanVector(vec![true, true, false, false]);
677/// bv &= BooleanVector(vec![true, false, true, false]);
678/// let expected = BooleanVector(vec![true, false, false, false]);
679/// assert_eq!(bv, expected);
680/// ```
681#[lang = "bitand_assign"]
682#[doc(alias = "&=")]
683#[stable(feature = "op_assign_traits", since = "1.8.0")]
684#[diagnostic::on_unimplemented(
685 message = "no implementation for `{Self} &= {Rhs}`",
686 label = "no implementation for `{Self} &= {Rhs}`"
687)]
688pub trait BitAndAssign<Rhs = Self> {
689 /// Performs the `&=` operation.
690 ///
691 /// # Examples
692 ///
693 /// ```
694 /// let mut x = true;
695 /// x &= false;
696 /// assert_eq!(x, false);
697 ///
698 /// let mut x = true;
699 /// x &= true;
700 /// assert_eq!(x, true);
701 ///
702 /// let mut x: u8 = 5;
703 /// x &= 1;
704 /// assert_eq!(x, 1);
705 ///
706 /// let mut x: u8 = 5;
707 /// x &= 2;
708 /// assert_eq!(x, 0);
709 /// ```
710 #[stable(feature = "op_assign_traits", since = "1.8.0")]
711 fn bitand_assign(&mut self, rhs: Rhs);
712}
713
714macro_rules! bitand_assign_impl {
715 ($($t:ty)+) => ($(
716 #[stable(feature = "op_assign_traits", since = "1.8.0")]
717 impl BitAndAssign for $t {
718 #[inline]
719 fn bitand_assign(&mut self, other: $t) { *self &= other }
720 }
721
722 forward_ref_op_assign! { impl BitAndAssign, bitand_assign for $t, $t }
723 )+)
724}
725
726bitand_assign_impl! { bool usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
727
728/// The bitwise OR assignment operator `|=`.
729///
730/// # Examples
731///
732/// ```
733/// use std::ops::BitOrAssign;
734///
735/// #[derive(Debug, PartialEq)]
736/// struct PersonalPreferences {
737/// likes_cats: bool,
738/// likes_dogs: bool,
739/// }
740///
741/// impl BitOrAssign for PersonalPreferences {
742/// fn bitor_assign(&mut self, rhs: Self) {
743/// self.likes_cats |= rhs.likes_cats;
744/// self.likes_dogs |= rhs.likes_dogs;
745/// }
746/// }
747///
748/// let mut prefs = PersonalPreferences { likes_cats: true, likes_dogs: false };
749/// prefs |= PersonalPreferences { likes_cats: false, likes_dogs: true };
750/// assert_eq!(prefs, PersonalPreferences { likes_cats: true, likes_dogs: true });
751/// ```
752#[lang = "bitor_assign"]
753#[doc(alias = "|=")]
754#[stable(feature = "op_assign_traits", since = "1.8.0")]
755#[diagnostic::on_unimplemented(
756 message = "no implementation for `{Self} |= {Rhs}`",
757 label = "no implementation for `{Self} |= {Rhs}`"
758)]
759pub trait BitOrAssign<Rhs = Self> {
760 /// Performs the `|=` operation.
761 ///
762 /// # Examples
763 ///
764 /// ```
765 /// let mut x = true;
766 /// x |= false;
767 /// assert_eq!(x, true);
768 ///
769 /// let mut x = false;
770 /// x |= false;
771 /// assert_eq!(x, false);
772 ///
773 /// let mut x: u8 = 5;
774 /// x |= 1;
775 /// assert_eq!(x, 5);
776 ///
777 /// let mut x: u8 = 5;
778 /// x |= 2;
779 /// assert_eq!(x, 7);
780 /// ```
781 #[stable(feature = "op_assign_traits", since = "1.8.0")]
782 fn bitor_assign(&mut self, rhs: Rhs);
783}
784
785macro_rules! bitor_assign_impl {
786 ($($t:ty)+) => ($(
787 #[stable(feature = "op_assign_traits", since = "1.8.0")]
788 impl BitOrAssign for $t {
789 #[inline]
790 fn bitor_assign(&mut self, other: $t) { *self |= other }
791 }
792
793 forward_ref_op_assign! { impl BitOrAssign, bitor_assign for $t, $t }
794 )+)
795}
796
797bitor_assign_impl! { bool usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
798
799/// The bitwise XOR assignment operator `^=`.
800///
801/// # Examples
802///
803/// ```
804/// use std::ops::BitXorAssign;
805///
806/// #[derive(Debug, PartialEq)]
807/// struct Personality {
808/// has_soul: bool,
809/// likes_knitting: bool,
810/// }
811///
812/// impl BitXorAssign for Personality {
813/// fn bitxor_assign(&mut self, rhs: Self) {
814/// self.has_soul ^= rhs.has_soul;
815/// self.likes_knitting ^= rhs.likes_knitting;
816/// }
817/// }
818///
819/// let mut personality = Personality { has_soul: false, likes_knitting: true };
820/// personality ^= Personality { has_soul: true, likes_knitting: true };
821/// assert_eq!(personality, Personality { has_soul: true, likes_knitting: false});
822/// ```
823#[lang = "bitxor_assign"]
824#[doc(alias = "^=")]
825#[stable(feature = "op_assign_traits", since = "1.8.0")]
826#[diagnostic::on_unimplemented(
827 message = "no implementation for `{Self} ^= {Rhs}`",
828 label = "no implementation for `{Self} ^= {Rhs}`"
829)]
830pub trait BitXorAssign<Rhs = Self> {
831 /// Performs the `^=` operation.
832 ///
833 /// # Examples
834 ///
835 /// ```
836 /// let mut x = true;
837 /// x ^= false;
838 /// assert_eq!(x, true);
839 ///
840 /// let mut x = true;
841 /// x ^= true;
842 /// assert_eq!(x, false);
843 ///
844 /// let mut x: u8 = 5;
845 /// x ^= 1;
846 /// assert_eq!(x, 4);
847 ///
848 /// let mut x: u8 = 5;
849 /// x ^= 2;
850 /// assert_eq!(x, 7);
851 /// ```
852 #[stable(feature = "op_assign_traits", since = "1.8.0")]
853 fn bitxor_assign(&mut self, rhs: Rhs);
854}
855
856macro_rules! bitxor_assign_impl {
857 ($($t:ty)+) => ($(
858 #[stable(feature = "op_assign_traits", since = "1.8.0")]
859 impl BitXorAssign for $t {
860 #[inline]
861 fn bitxor_assign(&mut self, other: $t) { *self ^= other }
862 }
863
864 forward_ref_op_assign! { impl BitXorAssign, bitxor_assign for $t, $t }
865 )+)
866}
867
868bitxor_assign_impl! { bool usize u8 u16 u32 u64 u128 isize i8 i16 i32 i64 i128 }
869
870/// The left shift assignment operator `<<=`.
871///
872/// # Examples
873///
874/// An implementation of `ShlAssign` for a wrapper around `usize`.
875///
876/// ```
877/// use std::ops::ShlAssign;
878///
879/// #[derive(Debug, PartialEq)]
880/// struct Scalar(usize);
881///
882/// impl ShlAssign<usize> for Scalar {
883/// fn shl_assign(&mut self, rhs: usize) {
884/// self.0 <<= rhs;
885/// }
886/// }
887///
888/// let mut scalar = Scalar(4);
889/// scalar <<= 2;
890/// assert_eq!(scalar, Scalar(16));
891/// ```
892#[lang = "shl_assign"]
893#[doc(alias = "<<=")]
894#[stable(feature = "op_assign_traits", since = "1.8.0")]
895#[diagnostic::on_unimplemented(
896 message = "no implementation for `{Self} <<= {Rhs}`",
897 label = "no implementation for `{Self} <<= {Rhs}`"
898)]
899pub trait ShlAssign<Rhs = Self> {
900 /// Performs the `<<=` operation.
901 ///
902 /// # Examples
903 ///
904 /// ```
905 /// let mut x: u8 = 5;
906 /// x <<= 1;
907 /// assert_eq!(x, 10);
908 ///
909 /// let mut x: u8 = 1;
910 /// x <<= 1;
911 /// assert_eq!(x, 2);
912 /// ```
913 #[stable(feature = "op_assign_traits", since = "1.8.0")]
914 fn shl_assign(&mut self, rhs: Rhs);
915}
916
917macro_rules! shl_assign_impl {
918 ($t:ty, $f:ty) => {
919 #[stable(feature = "op_assign_traits", since = "1.8.0")]
920 impl ShlAssign<$f> for $t {
921 #[inline]
922 #[rustc_inherit_overflow_checks]
923 fn shl_assign(&mut self, other: $f) {
924 *self <<= other
925 }
926 }
927
928 forward_ref_op_assign! { impl ShlAssign, shl_assign for $t, $f }
929 };
930}
931
932macro_rules! shl_assign_impl_all {
933 ($($t:ty)*) => ($(
934 shl_assign_impl! { $t, u8 }
935 shl_assign_impl! { $t, u16 }
936 shl_assign_impl! { $t, u32 }
937 shl_assign_impl! { $t, u64 }
938 shl_assign_impl! { $t, u128 }
939 shl_assign_impl! { $t, usize }
940
941 shl_assign_impl! { $t, i8 }
942 shl_assign_impl! { $t, i16 }
943 shl_assign_impl! { $t, i32 }
944 shl_assign_impl! { $t, i64 }
945 shl_assign_impl! { $t, i128 }
946 shl_assign_impl! { $t, isize }
947 )*)
948}
949
950shl_assign_impl_all! { u8 u16 u32 u64 u128 usize i8 i16 i32 i64 i128 isize }
951
952/// The right shift assignment operator `>>=`.
953///
954/// # Examples
955///
956/// An implementation of `ShrAssign` for a wrapper around `usize`.
957///
958/// ```
959/// use std::ops::ShrAssign;
960///
961/// #[derive(Debug, PartialEq)]
962/// struct Scalar(usize);
963///
964/// impl ShrAssign<usize> for Scalar {
965/// fn shr_assign(&mut self, rhs: usize) {
966/// self.0 >>= rhs;
967/// }
968/// }
969///
970/// let mut scalar = Scalar(16);
971/// scalar >>= 2;
972/// assert_eq!(scalar, Scalar(4));
973/// ```
974#[lang = "shr_assign"]
975#[doc(alias = ">>=")]
976#[stable(feature = "op_assign_traits", since = "1.8.0")]
977#[diagnostic::on_unimplemented(
978 message = "no implementation for `{Self} >>= {Rhs}`",
979 label = "no implementation for `{Self} >>= {Rhs}`"
980)]
981pub trait ShrAssign<Rhs = Self> {
982 /// Performs the `>>=` operation.
983 ///
984 /// # Examples
985 ///
986 /// ```
987 /// let mut x: u8 = 5;
988 /// x >>= 1;
989 /// assert_eq!(x, 2);
990 ///
991 /// let mut x: u8 = 2;
992 /// x >>= 1;
993 /// assert_eq!(x, 1);
994 /// ```
995 #[stable(feature = "op_assign_traits", since = "1.8.0")]
996 fn shr_assign(&mut self, rhs: Rhs);
997}
998
999macro_rules! shr_assign_impl {
1000 ($t:ty, $f:ty) => {
1001 #[stable(feature = "op_assign_traits", since = "1.8.0")]
1002 impl ShrAssign<$f> for $t {
1003 #[inline]
1004 #[rustc_inherit_overflow_checks]
1005 fn shr_assign(&mut self, other: $f) {
1006 *self >>= other
1007 }
1008 }
1009
1010 forward_ref_op_assign! { impl ShrAssign, shr_assign for $t, $f }
1011 };
1012}
1013
1014macro_rules! shr_assign_impl_all {
1015 ($($t:ty)*) => ($(
1016 shr_assign_impl! { $t, u8 }
1017 shr_assign_impl! { $t, u16 }
1018 shr_assign_impl! { $t, u32 }
1019 shr_assign_impl! { $t, u64 }
1020 shr_assign_impl! { $t, u128 }
1021 shr_assign_impl! { $t, usize }
1022
1023 shr_assign_impl! { $t, i8 }
1024 shr_assign_impl! { $t, i16 }
1025 shr_assign_impl! { $t, i32 }
1026 shr_assign_impl! { $t, i64 }
1027 shr_assign_impl! { $t, i128 }
1028 shr_assign_impl! { $t, isize }
1029 )*)
1030}
1031
1032shr_assign_impl_all! { u8 u16 u32 u64 u128 usize i8 i16 i32 i64 i128 isize }
1033