1057b8d25SMiguel Ojeda // SPDX-License-Identifier: Apache-2.0 OR MIT
2057b8d25SMiguel Ojeda
33ed03f4dSMiguel Ojeda //! Utilities for the slice primitive type.
4753dece8SMiguel Ojeda //!
5753dece8SMiguel Ojeda //! *[See also the slice primitive type](slice).*
6753dece8SMiguel Ojeda //!
73ed03f4dSMiguel Ojeda //! Most of the structs in this module are iterator types which can only be created
83ed03f4dSMiguel Ojeda //! using a certain function. For example, `slice.iter()` yields an [`Iter`].
9753dece8SMiguel Ojeda //!
103ed03f4dSMiguel Ojeda //! A few functions are provided to create a slice from a value reference
113ed03f4dSMiguel Ojeda //! or from a raw pointer.
12753dece8SMiguel Ojeda #![stable(feature = "rust1", since = "1.0.0")]
13753dece8SMiguel Ojeda // Many of the usings in this module are only used in the test configuration.
14753dece8SMiguel Ojeda // It's cleaner to just turn off the unused_imports warning than to fix them.
15753dece8SMiguel Ojeda #![cfg_attr(test, allow(unused_imports, dead_code))]
16753dece8SMiguel Ojeda
17753dece8SMiguel Ojeda use core::borrow::{Borrow, BorrowMut};
18753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
19753dece8SMiguel Ojeda use core::cmp::Ordering::{self, Less};
20753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
213ed03f4dSMiguel Ojeda use core::mem::{self, SizedTypeProperties};
22753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
23753dece8SMiguel Ojeda use core::ptr;
243ed03f4dSMiguel Ojeda #[cfg(not(no_global_oom_handling))]
253ed03f4dSMiguel Ojeda use core::slice::sort;
26753dece8SMiguel Ojeda
27753dece8SMiguel Ojeda use crate::alloc::Allocator;
28753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
293ed03f4dSMiguel Ojeda use crate::alloc::{self, Global};
30753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
31753dece8SMiguel Ojeda use crate::borrow::ToOwned;
32753dece8SMiguel Ojeda use crate::boxed::Box;
33753dece8SMiguel Ojeda use crate::vec::Vec;
34753dece8SMiguel Ojeda
353ed03f4dSMiguel Ojeda #[cfg(test)]
363ed03f4dSMiguel Ojeda mod tests;
373ed03f4dSMiguel Ojeda
38753dece8SMiguel Ojeda #[unstable(feature = "slice_range", issue = "76393")]
39753dece8SMiguel Ojeda pub use core::slice::range;
40753dece8SMiguel Ojeda #[unstable(feature = "array_chunks", issue = "74985")]
41753dece8SMiguel Ojeda pub use core::slice::ArrayChunks;
42753dece8SMiguel Ojeda #[unstable(feature = "array_chunks", issue = "74985")]
43753dece8SMiguel Ojeda pub use core::slice::ArrayChunksMut;
44753dece8SMiguel Ojeda #[unstable(feature = "array_windows", issue = "75027")]
45753dece8SMiguel Ojeda pub use core::slice::ArrayWindows;
46753dece8SMiguel Ojeda #[stable(feature = "inherent_ascii_escape", since = "1.60.0")]
47753dece8SMiguel Ojeda pub use core::slice::EscapeAscii;
48753dece8SMiguel Ojeda #[stable(feature = "slice_get_slice", since = "1.28.0")]
49753dece8SMiguel Ojeda pub use core::slice::SliceIndex;
50753dece8SMiguel Ojeda #[stable(feature = "from_ref", since = "1.28.0")]
51753dece8SMiguel Ojeda pub use core::slice::{from_mut, from_ref};
523ed03f4dSMiguel Ojeda #[unstable(feature = "slice_from_ptr_range", issue = "89792")]
533ed03f4dSMiguel Ojeda pub use core::slice::{from_mut_ptr_range, from_ptr_range};
54753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
55753dece8SMiguel Ojeda pub use core::slice::{from_raw_parts, from_raw_parts_mut};
56753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
57753dece8SMiguel Ojeda pub use core::slice::{Chunks, Windows};
58753dece8SMiguel Ojeda #[stable(feature = "chunks_exact", since = "1.31.0")]
59753dece8SMiguel Ojeda pub use core::slice::{ChunksExact, ChunksExactMut};
60753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
61753dece8SMiguel Ojeda pub use core::slice::{ChunksMut, Split, SplitMut};
62753dece8SMiguel Ojeda #[unstable(feature = "slice_group_by", issue = "80552")]
63753dece8SMiguel Ojeda pub use core::slice::{GroupBy, GroupByMut};
64753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
65753dece8SMiguel Ojeda pub use core::slice::{Iter, IterMut};
66753dece8SMiguel Ojeda #[stable(feature = "rchunks", since = "1.31.0")]
67753dece8SMiguel Ojeda pub use core::slice::{RChunks, RChunksExact, RChunksExactMut, RChunksMut};
68753dece8SMiguel Ojeda #[stable(feature = "slice_rsplit", since = "1.27.0")]
69753dece8SMiguel Ojeda pub use core::slice::{RSplit, RSplitMut};
70753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
71753dece8SMiguel Ojeda pub use core::slice::{RSplitN, RSplitNMut, SplitN, SplitNMut};
72753dece8SMiguel Ojeda #[stable(feature = "split_inclusive", since = "1.51.0")]
73753dece8SMiguel Ojeda pub use core::slice::{SplitInclusive, SplitInclusiveMut};
74753dece8SMiguel Ojeda
75753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
76753dece8SMiguel Ojeda // Basic slice extension methods
77753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
78753dece8SMiguel Ojeda
79753dece8SMiguel Ojeda // HACK(japaric) needed for the implementation of `vec!` macro during testing
80753dece8SMiguel Ojeda // N.B., see the `hack` module in this file for more details.
81753dece8SMiguel Ojeda #[cfg(test)]
82753dece8SMiguel Ojeda pub use hack::into_vec;
83753dece8SMiguel Ojeda
84753dece8SMiguel Ojeda // HACK(japaric) needed for the implementation of `Vec::clone` during testing
85753dece8SMiguel Ojeda // N.B., see the `hack` module in this file for more details.
86753dece8SMiguel Ojeda #[cfg(test)]
87753dece8SMiguel Ojeda pub use hack::to_vec;
88753dece8SMiguel Ojeda
89753dece8SMiguel Ojeda // HACK(japaric): With cfg(test) `impl [T]` is not available, these three
90753dece8SMiguel Ojeda // functions are actually methods that are in `impl [T]` but not in
91753dece8SMiguel Ojeda // `core::slice::SliceExt` - we need to supply these functions for the
92753dece8SMiguel Ojeda // `test_permutations` test
93753dece8SMiguel Ojeda pub(crate) mod hack {
94753dece8SMiguel Ojeda use core::alloc::Allocator;
95753dece8SMiguel Ojeda
96753dece8SMiguel Ojeda use crate::boxed::Box;
97753dece8SMiguel Ojeda use crate::vec::Vec;
98753dece8SMiguel Ojeda
99753dece8SMiguel Ojeda // We shouldn't add inline attribute to this since this is used in
100753dece8SMiguel Ojeda // `vec!` macro mostly and causes perf regression. See #71204 for
101753dece8SMiguel Ojeda // discussion and perf results.
into_vec<T, A: Allocator>(b: Box<[T], A>) -> Vec<T, A>102753dece8SMiguel Ojeda pub fn into_vec<T, A: Allocator>(b: Box<[T], A>) -> Vec<T, A> {
103753dece8SMiguel Ojeda unsafe {
104753dece8SMiguel Ojeda let len = b.len();
105753dece8SMiguel Ojeda let (b, alloc) = Box::into_raw_with_allocator(b);
106753dece8SMiguel Ojeda Vec::from_raw_parts_in(b as *mut T, len, len, alloc)
107753dece8SMiguel Ojeda }
108753dece8SMiguel Ojeda }
109753dece8SMiguel Ojeda
110753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
111753dece8SMiguel Ojeda #[inline]
to_vec<T: ConvertVec, A: Allocator>(s: &[T], alloc: A) -> Vec<T, A>112753dece8SMiguel Ojeda pub fn to_vec<T: ConvertVec, A: Allocator>(s: &[T], alloc: A) -> Vec<T, A> {
113753dece8SMiguel Ojeda T::to_vec(s, alloc)
114753dece8SMiguel Ojeda }
115753dece8SMiguel Ojeda
116753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
117753dece8SMiguel Ojeda pub trait ConvertVec {
to_vec<A: Allocator>(s: &[Self], alloc: A) -> Vec<Self, A> where Self: Sized118753dece8SMiguel Ojeda fn to_vec<A: Allocator>(s: &[Self], alloc: A) -> Vec<Self, A>
119753dece8SMiguel Ojeda where
120753dece8SMiguel Ojeda Self: Sized;
121753dece8SMiguel Ojeda }
122753dece8SMiguel Ojeda
123753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
124753dece8SMiguel Ojeda impl<T: Clone> ConvertVec for T {
125753dece8SMiguel Ojeda #[inline]
to_vec<A: Allocator>(s: &[Self], alloc: A) -> Vec<Self, A>126753dece8SMiguel Ojeda default fn to_vec<A: Allocator>(s: &[Self], alloc: A) -> Vec<Self, A> {
127753dece8SMiguel Ojeda struct DropGuard<'a, T, A: Allocator> {
128753dece8SMiguel Ojeda vec: &'a mut Vec<T, A>,
129753dece8SMiguel Ojeda num_init: usize,
130753dece8SMiguel Ojeda }
131753dece8SMiguel Ojeda impl<'a, T, A: Allocator> Drop for DropGuard<'a, T, A> {
132753dece8SMiguel Ojeda #[inline]
133753dece8SMiguel Ojeda fn drop(&mut self) {
134753dece8SMiguel Ojeda // SAFETY:
135753dece8SMiguel Ojeda // items were marked initialized in the loop below
136753dece8SMiguel Ojeda unsafe {
137753dece8SMiguel Ojeda self.vec.set_len(self.num_init);
138753dece8SMiguel Ojeda }
139753dece8SMiguel Ojeda }
140753dece8SMiguel Ojeda }
141753dece8SMiguel Ojeda let mut vec = Vec::with_capacity_in(s.len(), alloc);
142753dece8SMiguel Ojeda let mut guard = DropGuard { vec: &mut vec, num_init: 0 };
143753dece8SMiguel Ojeda let slots = guard.vec.spare_capacity_mut();
144753dece8SMiguel Ojeda // .take(slots.len()) is necessary for LLVM to remove bounds checks
145753dece8SMiguel Ojeda // and has better codegen than zip.
146753dece8SMiguel Ojeda for (i, b) in s.iter().enumerate().take(slots.len()) {
147753dece8SMiguel Ojeda guard.num_init = i;
148753dece8SMiguel Ojeda slots[i].write(b.clone());
149753dece8SMiguel Ojeda }
150753dece8SMiguel Ojeda core::mem::forget(guard);
151753dece8SMiguel Ojeda // SAFETY:
152753dece8SMiguel Ojeda // the vec was allocated and initialized above to at least this length.
153753dece8SMiguel Ojeda unsafe {
154753dece8SMiguel Ojeda vec.set_len(s.len());
155753dece8SMiguel Ojeda }
156753dece8SMiguel Ojeda vec
157753dece8SMiguel Ojeda }
158753dece8SMiguel Ojeda }
159753dece8SMiguel Ojeda
160753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
161753dece8SMiguel Ojeda impl<T: Copy> ConvertVec for T {
162753dece8SMiguel Ojeda #[inline]
to_vec<A: Allocator>(s: &[Self], alloc: A) -> Vec<Self, A>163753dece8SMiguel Ojeda fn to_vec<A: Allocator>(s: &[Self], alloc: A) -> Vec<Self, A> {
164753dece8SMiguel Ojeda let mut v = Vec::with_capacity_in(s.len(), alloc);
165753dece8SMiguel Ojeda // SAFETY:
166753dece8SMiguel Ojeda // allocated above with the capacity of `s`, and initialize to `s.len()` in
167753dece8SMiguel Ojeda // ptr::copy_to_non_overlapping below.
168753dece8SMiguel Ojeda unsafe {
169753dece8SMiguel Ojeda s.as_ptr().copy_to_nonoverlapping(v.as_mut_ptr(), s.len());
170753dece8SMiguel Ojeda v.set_len(s.len());
171753dece8SMiguel Ojeda }
172753dece8SMiguel Ojeda v
173753dece8SMiguel Ojeda }
174753dece8SMiguel Ojeda }
175753dece8SMiguel Ojeda }
176753dece8SMiguel Ojeda
177753dece8SMiguel Ojeda #[cfg(not(test))]
178753dece8SMiguel Ojeda impl<T> [T] {
179753dece8SMiguel Ojeda /// Sorts the slice.
180753dece8SMiguel Ojeda ///
181753dece8SMiguel Ojeda /// This sort is stable (i.e., does not reorder equal elements) and *O*(*n* \* log(*n*)) worst-case.
182753dece8SMiguel Ojeda ///
183753dece8SMiguel Ojeda /// When applicable, unstable sorting is preferred because it is generally faster than stable
184753dece8SMiguel Ojeda /// sorting and it doesn't allocate auxiliary memory.
185753dece8SMiguel Ojeda /// See [`sort_unstable`](slice::sort_unstable).
186753dece8SMiguel Ojeda ///
187753dece8SMiguel Ojeda /// # Current implementation
188753dece8SMiguel Ojeda ///
189753dece8SMiguel Ojeda /// The current algorithm is an adaptive, iterative merge sort inspired by
190753dece8SMiguel Ojeda /// [timsort](https://en.wikipedia.org/wiki/Timsort).
191753dece8SMiguel Ojeda /// It is designed to be very fast in cases where the slice is nearly sorted, or consists of
192753dece8SMiguel Ojeda /// two or more sorted sequences concatenated one after another.
193753dece8SMiguel Ojeda ///
194753dece8SMiguel Ojeda /// Also, it allocates temporary storage half the size of `self`, but for short slices a
195753dece8SMiguel Ojeda /// non-allocating insertion sort is used instead.
196753dece8SMiguel Ojeda ///
197753dece8SMiguel Ojeda /// # Examples
198753dece8SMiguel Ojeda ///
199753dece8SMiguel Ojeda /// ```
200753dece8SMiguel Ojeda /// let mut v = [-5, 4, 1, -3, 2];
201753dece8SMiguel Ojeda ///
202753dece8SMiguel Ojeda /// v.sort();
203753dece8SMiguel Ojeda /// assert!(v == [-5, -3, 1, 2, 4]);
204753dece8SMiguel Ojeda /// ```
205753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
206753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
207753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
208753dece8SMiguel Ojeda #[inline]
sort(&mut self) where T: Ord,209753dece8SMiguel Ojeda pub fn sort(&mut self)
210753dece8SMiguel Ojeda where
211753dece8SMiguel Ojeda T: Ord,
212753dece8SMiguel Ojeda {
2133ed03f4dSMiguel Ojeda stable_sort(self, T::lt);
214753dece8SMiguel Ojeda }
215753dece8SMiguel Ojeda
216753dece8SMiguel Ojeda /// Sorts the slice with a comparator function.
217753dece8SMiguel Ojeda ///
218753dece8SMiguel Ojeda /// This sort is stable (i.e., does not reorder equal elements) and *O*(*n* \* log(*n*)) worst-case.
219753dece8SMiguel Ojeda ///
220753dece8SMiguel Ojeda /// The comparator function must define a total ordering for the elements in the slice. If
221753dece8SMiguel Ojeda /// the ordering is not total, the order of the elements is unspecified. An order is a
222753dece8SMiguel Ojeda /// total order if it is (for all `a`, `b` and `c`):
223753dece8SMiguel Ojeda ///
224753dece8SMiguel Ojeda /// * total and antisymmetric: exactly one of `a < b`, `a == b` or `a > b` is true, and
225753dece8SMiguel Ojeda /// * transitive, `a < b` and `b < c` implies `a < c`. The same must hold for both `==` and `>`.
226753dece8SMiguel Ojeda ///
227753dece8SMiguel Ojeda /// For example, while [`f64`] doesn't implement [`Ord`] because `NaN != NaN`, we can use
228753dece8SMiguel Ojeda /// `partial_cmp` as our sort function when we know the slice doesn't contain a `NaN`.
229753dece8SMiguel Ojeda ///
230753dece8SMiguel Ojeda /// ```
231753dece8SMiguel Ojeda /// let mut floats = [5f64, 4.0, 1.0, 3.0, 2.0];
232753dece8SMiguel Ojeda /// floats.sort_by(|a, b| a.partial_cmp(b).unwrap());
233753dece8SMiguel Ojeda /// assert_eq!(floats, [1.0, 2.0, 3.0, 4.0, 5.0]);
234753dece8SMiguel Ojeda /// ```
235753dece8SMiguel Ojeda ///
236753dece8SMiguel Ojeda /// When applicable, unstable sorting is preferred because it is generally faster than stable
237753dece8SMiguel Ojeda /// sorting and it doesn't allocate auxiliary memory.
238753dece8SMiguel Ojeda /// See [`sort_unstable_by`](slice::sort_unstable_by).
239753dece8SMiguel Ojeda ///
240753dece8SMiguel Ojeda /// # Current implementation
241753dece8SMiguel Ojeda ///
242753dece8SMiguel Ojeda /// The current algorithm is an adaptive, iterative merge sort inspired by
243753dece8SMiguel Ojeda /// [timsort](https://en.wikipedia.org/wiki/Timsort).
244753dece8SMiguel Ojeda /// It is designed to be very fast in cases where the slice is nearly sorted, or consists of
245753dece8SMiguel Ojeda /// two or more sorted sequences concatenated one after another.
246753dece8SMiguel Ojeda ///
247753dece8SMiguel Ojeda /// Also, it allocates temporary storage half the size of `self`, but for short slices a
248753dece8SMiguel Ojeda /// non-allocating insertion sort is used instead.
249753dece8SMiguel Ojeda ///
250753dece8SMiguel Ojeda /// # Examples
251753dece8SMiguel Ojeda ///
252753dece8SMiguel Ojeda /// ```
253753dece8SMiguel Ojeda /// let mut v = [5, 4, 1, 3, 2];
254753dece8SMiguel Ojeda /// v.sort_by(|a, b| a.cmp(b));
255753dece8SMiguel Ojeda /// assert!(v == [1, 2, 3, 4, 5]);
256753dece8SMiguel Ojeda ///
257753dece8SMiguel Ojeda /// // reverse sorting
258753dece8SMiguel Ojeda /// v.sort_by(|a, b| b.cmp(a));
259753dece8SMiguel Ojeda /// assert!(v == [5, 4, 3, 2, 1]);
260753dece8SMiguel Ojeda /// ```
261753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
262753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
263753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
264753dece8SMiguel Ojeda #[inline]
sort_by<F>(&mut self, mut compare: F) where F: FnMut(&T, &T) -> Ordering,265753dece8SMiguel Ojeda pub fn sort_by<F>(&mut self, mut compare: F)
266753dece8SMiguel Ojeda where
267753dece8SMiguel Ojeda F: FnMut(&T, &T) -> Ordering,
268753dece8SMiguel Ojeda {
2693ed03f4dSMiguel Ojeda stable_sort(self, |a, b| compare(a, b) == Less);
270753dece8SMiguel Ojeda }
271753dece8SMiguel Ojeda
272753dece8SMiguel Ojeda /// Sorts the slice with a key extraction function.
273753dece8SMiguel Ojeda ///
274753dece8SMiguel Ojeda /// This sort is stable (i.e., does not reorder equal elements) and *O*(*m* \* *n* \* log(*n*))
275753dece8SMiguel Ojeda /// worst-case, where the key function is *O*(*m*).
276753dece8SMiguel Ojeda ///
277753dece8SMiguel Ojeda /// For expensive key functions (e.g. functions that are not simple property accesses or
278753dece8SMiguel Ojeda /// basic operations), [`sort_by_cached_key`](slice::sort_by_cached_key) is likely to be
279753dece8SMiguel Ojeda /// significantly faster, as it does not recompute element keys.
280753dece8SMiguel Ojeda ///
281753dece8SMiguel Ojeda /// When applicable, unstable sorting is preferred because it is generally faster than stable
282753dece8SMiguel Ojeda /// sorting and it doesn't allocate auxiliary memory.
283753dece8SMiguel Ojeda /// See [`sort_unstable_by_key`](slice::sort_unstable_by_key).
284753dece8SMiguel Ojeda ///
285753dece8SMiguel Ojeda /// # Current implementation
286753dece8SMiguel Ojeda ///
287753dece8SMiguel Ojeda /// The current algorithm is an adaptive, iterative merge sort inspired by
288753dece8SMiguel Ojeda /// [timsort](https://en.wikipedia.org/wiki/Timsort).
289753dece8SMiguel Ojeda /// It is designed to be very fast in cases where the slice is nearly sorted, or consists of
290753dece8SMiguel Ojeda /// two or more sorted sequences concatenated one after another.
291753dece8SMiguel Ojeda ///
292753dece8SMiguel Ojeda /// Also, it allocates temporary storage half the size of `self`, but for short slices a
293753dece8SMiguel Ojeda /// non-allocating insertion sort is used instead.
294753dece8SMiguel Ojeda ///
295753dece8SMiguel Ojeda /// # Examples
296753dece8SMiguel Ojeda ///
297753dece8SMiguel Ojeda /// ```
298753dece8SMiguel Ojeda /// let mut v = [-5i32, 4, 1, -3, 2];
299753dece8SMiguel Ojeda ///
300753dece8SMiguel Ojeda /// v.sort_by_key(|k| k.abs());
301753dece8SMiguel Ojeda /// assert!(v == [1, 2, -3, 4, -5]);
302753dece8SMiguel Ojeda /// ```
303753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
304753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
305753dece8SMiguel Ojeda #[stable(feature = "slice_sort_by_key", since = "1.7.0")]
306753dece8SMiguel Ojeda #[inline]
sort_by_key<K, F>(&mut self, mut f: F) where F: FnMut(&T) -> K, K: Ord,307753dece8SMiguel Ojeda pub fn sort_by_key<K, F>(&mut self, mut f: F)
308753dece8SMiguel Ojeda where
309753dece8SMiguel Ojeda F: FnMut(&T) -> K,
310753dece8SMiguel Ojeda K: Ord,
311753dece8SMiguel Ojeda {
3123ed03f4dSMiguel Ojeda stable_sort(self, |a, b| f(a).lt(&f(b)));
313753dece8SMiguel Ojeda }
314753dece8SMiguel Ojeda
315753dece8SMiguel Ojeda /// Sorts the slice with a key extraction function.
316753dece8SMiguel Ojeda ///
317753dece8SMiguel Ojeda /// During sorting, the key function is called at most once per element, by using
318753dece8SMiguel Ojeda /// temporary storage to remember the results of key evaluation.
319753dece8SMiguel Ojeda /// The order of calls to the key function is unspecified and may change in future versions
320753dece8SMiguel Ojeda /// of the standard library.
321753dece8SMiguel Ojeda ///
322753dece8SMiguel Ojeda /// This sort is stable (i.e., does not reorder equal elements) and *O*(*m* \* *n* + *n* \* log(*n*))
323753dece8SMiguel Ojeda /// worst-case, where the key function is *O*(*m*).
324753dece8SMiguel Ojeda ///
325753dece8SMiguel Ojeda /// For simple key functions (e.g., functions that are property accesses or
326753dece8SMiguel Ojeda /// basic operations), [`sort_by_key`](slice::sort_by_key) is likely to be
327753dece8SMiguel Ojeda /// faster.
328753dece8SMiguel Ojeda ///
329753dece8SMiguel Ojeda /// # Current implementation
330753dece8SMiguel Ojeda ///
331753dece8SMiguel Ojeda /// The current algorithm is based on [pattern-defeating quicksort][pdqsort] by Orson Peters,
332753dece8SMiguel Ojeda /// which combines the fast average case of randomized quicksort with the fast worst case of
333753dece8SMiguel Ojeda /// heapsort, while achieving linear time on slices with certain patterns. It uses some
334753dece8SMiguel Ojeda /// randomization to avoid degenerate cases, but with a fixed seed to always provide
335753dece8SMiguel Ojeda /// deterministic behavior.
336753dece8SMiguel Ojeda ///
337753dece8SMiguel Ojeda /// In the worst case, the algorithm allocates temporary storage in a `Vec<(K, usize)>` the
338753dece8SMiguel Ojeda /// length of the slice.
339753dece8SMiguel Ojeda ///
340753dece8SMiguel Ojeda /// # Examples
341753dece8SMiguel Ojeda ///
342753dece8SMiguel Ojeda /// ```
343753dece8SMiguel Ojeda /// let mut v = [-5i32, 4, 32, -3, 2];
344753dece8SMiguel Ojeda ///
345753dece8SMiguel Ojeda /// v.sort_by_cached_key(|k| k.to_string());
346753dece8SMiguel Ojeda /// assert!(v == [-3, -5, 2, 32, 4]);
347753dece8SMiguel Ojeda /// ```
348753dece8SMiguel Ojeda ///
349753dece8SMiguel Ojeda /// [pdqsort]: https://github.com/orlp/pdqsort
350753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
351753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
352753dece8SMiguel Ojeda #[stable(feature = "slice_sort_by_cached_key", since = "1.34.0")]
353753dece8SMiguel Ojeda #[inline]
sort_by_cached_key<K, F>(&mut self, f: F) where F: FnMut(&T) -> K, K: Ord,354753dece8SMiguel Ojeda pub fn sort_by_cached_key<K, F>(&mut self, f: F)
355753dece8SMiguel Ojeda where
356753dece8SMiguel Ojeda F: FnMut(&T) -> K,
357753dece8SMiguel Ojeda K: Ord,
358753dece8SMiguel Ojeda {
359753dece8SMiguel Ojeda // Helper macro for indexing our vector by the smallest possible type, to reduce allocation.
360753dece8SMiguel Ojeda macro_rules! sort_by_key {
361753dece8SMiguel Ojeda ($t:ty, $slice:ident, $f:ident) => {{
362753dece8SMiguel Ojeda let mut indices: Vec<_> =
363753dece8SMiguel Ojeda $slice.iter().map($f).enumerate().map(|(i, k)| (k, i as $t)).collect();
364753dece8SMiguel Ojeda // The elements of `indices` are unique, as they are indexed, so any sort will be
365753dece8SMiguel Ojeda // stable with respect to the original slice. We use `sort_unstable` here because
366753dece8SMiguel Ojeda // it requires less memory allocation.
367753dece8SMiguel Ojeda indices.sort_unstable();
368753dece8SMiguel Ojeda for i in 0..$slice.len() {
369753dece8SMiguel Ojeda let mut index = indices[i].1;
370753dece8SMiguel Ojeda while (index as usize) < i {
371753dece8SMiguel Ojeda index = indices[index as usize].1;
372753dece8SMiguel Ojeda }
373753dece8SMiguel Ojeda indices[i].1 = index;
374753dece8SMiguel Ojeda $slice.swap(i, index as usize);
375753dece8SMiguel Ojeda }
376753dece8SMiguel Ojeda }};
377753dece8SMiguel Ojeda }
378753dece8SMiguel Ojeda
379753dece8SMiguel Ojeda let sz_u8 = mem::size_of::<(K, u8)>();
380753dece8SMiguel Ojeda let sz_u16 = mem::size_of::<(K, u16)>();
381753dece8SMiguel Ojeda let sz_u32 = mem::size_of::<(K, u32)>();
382753dece8SMiguel Ojeda let sz_usize = mem::size_of::<(K, usize)>();
383753dece8SMiguel Ojeda
384753dece8SMiguel Ojeda let len = self.len();
385753dece8SMiguel Ojeda if len < 2 {
386753dece8SMiguel Ojeda return;
387753dece8SMiguel Ojeda }
388753dece8SMiguel Ojeda if sz_u8 < sz_u16 && len <= (u8::MAX as usize) {
389753dece8SMiguel Ojeda return sort_by_key!(u8, self, f);
390753dece8SMiguel Ojeda }
391753dece8SMiguel Ojeda if sz_u16 < sz_u32 && len <= (u16::MAX as usize) {
392753dece8SMiguel Ojeda return sort_by_key!(u16, self, f);
393753dece8SMiguel Ojeda }
394753dece8SMiguel Ojeda if sz_u32 < sz_usize && len <= (u32::MAX as usize) {
395753dece8SMiguel Ojeda return sort_by_key!(u32, self, f);
396753dece8SMiguel Ojeda }
397753dece8SMiguel Ojeda sort_by_key!(usize, self, f)
398753dece8SMiguel Ojeda }
399753dece8SMiguel Ojeda
400753dece8SMiguel Ojeda /// Copies `self` into a new `Vec`.
401753dece8SMiguel Ojeda ///
402753dece8SMiguel Ojeda /// # Examples
403753dece8SMiguel Ojeda ///
404753dece8SMiguel Ojeda /// ```
405753dece8SMiguel Ojeda /// let s = [10, 40, 30];
406753dece8SMiguel Ojeda /// let x = s.to_vec();
407753dece8SMiguel Ojeda /// // Here, `s` and `x` can be modified independently.
408753dece8SMiguel Ojeda /// ```
409753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
410753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
411753dece8SMiguel Ojeda #[rustc_conversion_suggestion]
412753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
413753dece8SMiguel Ojeda #[inline]
to_vec(&self) -> Vec<T> where T: Clone,414753dece8SMiguel Ojeda pub fn to_vec(&self) -> Vec<T>
415753dece8SMiguel Ojeda where
416753dece8SMiguel Ojeda T: Clone,
417753dece8SMiguel Ojeda {
418753dece8SMiguel Ojeda self.to_vec_in(Global)
419753dece8SMiguel Ojeda }
420753dece8SMiguel Ojeda
421753dece8SMiguel Ojeda /// Copies `self` into a new `Vec` with an allocator.
422753dece8SMiguel Ojeda ///
423753dece8SMiguel Ojeda /// # Examples
424753dece8SMiguel Ojeda ///
425753dece8SMiguel Ojeda /// ```
426753dece8SMiguel Ojeda /// #![feature(allocator_api)]
427753dece8SMiguel Ojeda ///
428753dece8SMiguel Ojeda /// use std::alloc::System;
429753dece8SMiguel Ojeda ///
430753dece8SMiguel Ojeda /// let s = [10, 40, 30];
431753dece8SMiguel Ojeda /// let x = s.to_vec_in(System);
432753dece8SMiguel Ojeda /// // Here, `s` and `x` can be modified independently.
433753dece8SMiguel Ojeda /// ```
434753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
435753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
436753dece8SMiguel Ojeda #[inline]
437753dece8SMiguel Ojeda #[unstable(feature = "allocator_api", issue = "32838")]
to_vec_in<A: Allocator>(&self, alloc: A) -> Vec<T, A> where T: Clone,438753dece8SMiguel Ojeda pub fn to_vec_in<A: Allocator>(&self, alloc: A) -> Vec<T, A>
439753dece8SMiguel Ojeda where
440753dece8SMiguel Ojeda T: Clone,
441753dece8SMiguel Ojeda {
442753dece8SMiguel Ojeda // N.B., see the `hack` module in this file for more details.
443753dece8SMiguel Ojeda hack::to_vec(self, alloc)
444753dece8SMiguel Ojeda }
445753dece8SMiguel Ojeda
446753dece8SMiguel Ojeda /// Converts `self` into a vector without clones or allocation.
447753dece8SMiguel Ojeda ///
448753dece8SMiguel Ojeda /// The resulting vector can be converted back into a box via
449753dece8SMiguel Ojeda /// `Vec<T>`'s `into_boxed_slice` method.
450753dece8SMiguel Ojeda ///
451753dece8SMiguel Ojeda /// # Examples
452753dece8SMiguel Ojeda ///
453753dece8SMiguel Ojeda /// ```
454753dece8SMiguel Ojeda /// let s: Box<[i32]> = Box::new([10, 40, 30]);
455753dece8SMiguel Ojeda /// let x = s.into_vec();
456753dece8SMiguel Ojeda /// // `s` cannot be used anymore because it has been converted into `x`.
457753dece8SMiguel Ojeda ///
458753dece8SMiguel Ojeda /// assert_eq!(x, vec![10, 40, 30]);
459753dece8SMiguel Ojeda /// ```
460753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
461753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
462753dece8SMiguel Ojeda #[inline]
into_vec<A: Allocator>(self: Box<Self, A>) -> Vec<T, A>463753dece8SMiguel Ojeda pub fn into_vec<A: Allocator>(self: Box<Self, A>) -> Vec<T, A> {
464753dece8SMiguel Ojeda // N.B., see the `hack` module in this file for more details.
465753dece8SMiguel Ojeda hack::into_vec(self)
466753dece8SMiguel Ojeda }
467753dece8SMiguel Ojeda
4683ed03f4dSMiguel Ojeda /// Creates a vector by copying a slice `n` times.
469753dece8SMiguel Ojeda ///
470753dece8SMiguel Ojeda /// # Panics
471753dece8SMiguel Ojeda ///
472753dece8SMiguel Ojeda /// This function will panic if the capacity would overflow.
473753dece8SMiguel Ojeda ///
474753dece8SMiguel Ojeda /// # Examples
475753dece8SMiguel Ojeda ///
476753dece8SMiguel Ojeda /// Basic usage:
477753dece8SMiguel Ojeda ///
478753dece8SMiguel Ojeda /// ```
479753dece8SMiguel Ojeda /// assert_eq!([1, 2].repeat(3), vec![1, 2, 1, 2, 1, 2]);
480753dece8SMiguel Ojeda /// ```
481753dece8SMiguel Ojeda ///
482753dece8SMiguel Ojeda /// A panic upon overflow:
483753dece8SMiguel Ojeda ///
484753dece8SMiguel Ojeda /// ```should_panic
485753dece8SMiguel Ojeda /// // this will panic at runtime
486753dece8SMiguel Ojeda /// b"0123456789abcdef".repeat(usize::MAX);
487753dece8SMiguel Ojeda /// ```
488753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
489753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
490753dece8SMiguel Ojeda #[stable(feature = "repeat_generic_slice", since = "1.40.0")]
repeat(&self, n: usize) -> Vec<T> where T: Copy,491753dece8SMiguel Ojeda pub fn repeat(&self, n: usize) -> Vec<T>
492753dece8SMiguel Ojeda where
493753dece8SMiguel Ojeda T: Copy,
494753dece8SMiguel Ojeda {
495753dece8SMiguel Ojeda if n == 0 {
496753dece8SMiguel Ojeda return Vec::new();
497753dece8SMiguel Ojeda }
498753dece8SMiguel Ojeda
499753dece8SMiguel Ojeda // If `n` is larger than zero, it can be split as
500753dece8SMiguel Ojeda // `n = 2^expn + rem (2^expn > rem, expn >= 0, rem >= 0)`.
501753dece8SMiguel Ojeda // `2^expn` is the number represented by the leftmost '1' bit of `n`,
502753dece8SMiguel Ojeda // and `rem` is the remaining part of `n`.
503753dece8SMiguel Ojeda
504753dece8SMiguel Ojeda // Using `Vec` to access `set_len()`.
505753dece8SMiguel Ojeda let capacity = self.len().checked_mul(n).expect("capacity overflow");
506753dece8SMiguel Ojeda let mut buf = Vec::with_capacity(capacity);
507753dece8SMiguel Ojeda
508753dece8SMiguel Ojeda // `2^expn` repetition is done by doubling `buf` `expn`-times.
509753dece8SMiguel Ojeda buf.extend(self);
510753dece8SMiguel Ojeda {
511753dece8SMiguel Ojeda let mut m = n >> 1;
512753dece8SMiguel Ojeda // If `m > 0`, there are remaining bits up to the leftmost '1'.
513753dece8SMiguel Ojeda while m > 0 {
514753dece8SMiguel Ojeda // `buf.extend(buf)`:
515753dece8SMiguel Ojeda unsafe {
516753dece8SMiguel Ojeda ptr::copy_nonoverlapping(
517753dece8SMiguel Ojeda buf.as_ptr(),
518753dece8SMiguel Ojeda (buf.as_mut_ptr() as *mut T).add(buf.len()),
519753dece8SMiguel Ojeda buf.len(),
520753dece8SMiguel Ojeda );
521753dece8SMiguel Ojeda // `buf` has capacity of `self.len() * n`.
522753dece8SMiguel Ojeda let buf_len = buf.len();
523753dece8SMiguel Ojeda buf.set_len(buf_len * 2);
524753dece8SMiguel Ojeda }
525753dece8SMiguel Ojeda
526753dece8SMiguel Ojeda m >>= 1;
527753dece8SMiguel Ojeda }
528753dece8SMiguel Ojeda }
529753dece8SMiguel Ojeda
530753dece8SMiguel Ojeda // `rem` (`= n - 2^expn`) repetition is done by copying
531753dece8SMiguel Ojeda // first `rem` repetitions from `buf` itself.
532753dece8SMiguel Ojeda let rem_len = capacity - buf.len(); // `self.len() * rem`
533753dece8SMiguel Ojeda if rem_len > 0 {
534753dece8SMiguel Ojeda // `buf.extend(buf[0 .. rem_len])`:
535753dece8SMiguel Ojeda unsafe {
536753dece8SMiguel Ojeda // This is non-overlapping since `2^expn > rem`.
537753dece8SMiguel Ojeda ptr::copy_nonoverlapping(
538753dece8SMiguel Ojeda buf.as_ptr(),
539753dece8SMiguel Ojeda (buf.as_mut_ptr() as *mut T).add(buf.len()),
540753dece8SMiguel Ojeda rem_len,
541753dece8SMiguel Ojeda );
542753dece8SMiguel Ojeda // `buf.len() + rem_len` equals to `buf.capacity()` (`= self.len() * n`).
543753dece8SMiguel Ojeda buf.set_len(capacity);
544753dece8SMiguel Ojeda }
545753dece8SMiguel Ojeda }
546753dece8SMiguel Ojeda buf
547753dece8SMiguel Ojeda }
548753dece8SMiguel Ojeda
549753dece8SMiguel Ojeda /// Flattens a slice of `T` into a single value `Self::Output`.
550753dece8SMiguel Ojeda ///
551753dece8SMiguel Ojeda /// # Examples
552753dece8SMiguel Ojeda ///
553753dece8SMiguel Ojeda /// ```
554753dece8SMiguel Ojeda /// assert_eq!(["hello", "world"].concat(), "helloworld");
555753dece8SMiguel Ojeda /// assert_eq!([[1, 2], [3, 4]].concat(), [1, 2, 3, 4]);
556753dece8SMiguel Ojeda /// ```
557753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
558753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output where Self: Concat<Item>,559753dece8SMiguel Ojeda pub fn concat<Item: ?Sized>(&self) -> <Self as Concat<Item>>::Output
560753dece8SMiguel Ojeda where
561753dece8SMiguel Ojeda Self: Concat<Item>,
562753dece8SMiguel Ojeda {
563753dece8SMiguel Ojeda Concat::concat(self)
564753dece8SMiguel Ojeda }
565753dece8SMiguel Ojeda
566753dece8SMiguel Ojeda /// Flattens a slice of `T` into a single value `Self::Output`, placing a
567753dece8SMiguel Ojeda /// given separator between each.
568753dece8SMiguel Ojeda ///
569753dece8SMiguel Ojeda /// # Examples
570753dece8SMiguel Ojeda ///
571753dece8SMiguel Ojeda /// ```
572753dece8SMiguel Ojeda /// assert_eq!(["hello", "world"].join(" "), "hello world");
573753dece8SMiguel Ojeda /// assert_eq!([[1, 2], [3, 4]].join(&0), [1, 2, 0, 3, 4]);
574753dece8SMiguel Ojeda /// assert_eq!([[1, 2], [3, 4]].join(&[0, 0][..]), [1, 2, 0, 0, 3, 4]);
575753dece8SMiguel Ojeda /// ```
576753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
577753dece8SMiguel Ojeda #[stable(feature = "rename_connect_to_join", since = "1.3.0")]
join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator>,578753dece8SMiguel Ojeda pub fn join<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output
579753dece8SMiguel Ojeda where
580753dece8SMiguel Ojeda Self: Join<Separator>,
581753dece8SMiguel Ojeda {
582753dece8SMiguel Ojeda Join::join(self, sep)
583753dece8SMiguel Ojeda }
584753dece8SMiguel Ojeda
585753dece8SMiguel Ojeda /// Flattens a slice of `T` into a single value `Self::Output`, placing a
586753dece8SMiguel Ojeda /// given separator between each.
587753dece8SMiguel Ojeda ///
588753dece8SMiguel Ojeda /// # Examples
589753dece8SMiguel Ojeda ///
590753dece8SMiguel Ojeda /// ```
591753dece8SMiguel Ojeda /// # #![allow(deprecated)]
592753dece8SMiguel Ojeda /// assert_eq!(["hello", "world"].connect(" "), "hello world");
593753dece8SMiguel Ojeda /// assert_eq!([[1, 2], [3, 4]].connect(&0), [1, 2, 0, 3, 4]);
594753dece8SMiguel Ojeda /// ```
595753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
596753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
597753dece8SMiguel Ojeda #[deprecated(since = "1.3.0", note = "renamed to join")]
connect<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output where Self: Join<Separator>,598753dece8SMiguel Ojeda pub fn connect<Separator>(&self, sep: Separator) -> <Self as Join<Separator>>::Output
599753dece8SMiguel Ojeda where
600753dece8SMiguel Ojeda Self: Join<Separator>,
601753dece8SMiguel Ojeda {
602753dece8SMiguel Ojeda Join::join(self, sep)
603753dece8SMiguel Ojeda }
604753dece8SMiguel Ojeda }
605753dece8SMiguel Ojeda
606753dece8SMiguel Ojeda #[cfg(not(test))]
607753dece8SMiguel Ojeda impl [u8] {
608753dece8SMiguel Ojeda /// Returns a vector containing a copy of this slice where each byte
609753dece8SMiguel Ojeda /// is mapped to its ASCII upper case equivalent.
610753dece8SMiguel Ojeda ///
611753dece8SMiguel Ojeda /// ASCII letters 'a' to 'z' are mapped to 'A' to 'Z',
612753dece8SMiguel Ojeda /// but non-ASCII letters are unchanged.
613753dece8SMiguel Ojeda ///
614753dece8SMiguel Ojeda /// To uppercase the value in-place, use [`make_ascii_uppercase`].
615753dece8SMiguel Ojeda ///
616753dece8SMiguel Ojeda /// [`make_ascii_uppercase`]: slice::make_ascii_uppercase
617753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
618753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
619753dece8SMiguel Ojeda #[must_use = "this returns the uppercase bytes as a new Vec, \
620753dece8SMiguel Ojeda without modifying the original"]
621753dece8SMiguel Ojeda #[stable(feature = "ascii_methods_on_intrinsics", since = "1.23.0")]
622753dece8SMiguel Ojeda #[inline]
to_ascii_uppercase(&self) -> Vec<u8>623753dece8SMiguel Ojeda pub fn to_ascii_uppercase(&self) -> Vec<u8> {
624753dece8SMiguel Ojeda let mut me = self.to_vec();
625753dece8SMiguel Ojeda me.make_ascii_uppercase();
626753dece8SMiguel Ojeda me
627753dece8SMiguel Ojeda }
628753dece8SMiguel Ojeda
629753dece8SMiguel Ojeda /// Returns a vector containing a copy of this slice where each byte
630753dece8SMiguel Ojeda /// is mapped to its ASCII lower case equivalent.
631753dece8SMiguel Ojeda ///
632753dece8SMiguel Ojeda /// ASCII letters 'A' to 'Z' are mapped to 'a' to 'z',
633753dece8SMiguel Ojeda /// but non-ASCII letters are unchanged.
634753dece8SMiguel Ojeda ///
635753dece8SMiguel Ojeda /// To lowercase the value in-place, use [`make_ascii_lowercase`].
636753dece8SMiguel Ojeda ///
637753dece8SMiguel Ojeda /// [`make_ascii_lowercase`]: slice::make_ascii_lowercase
638753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
639753dece8SMiguel Ojeda #[rustc_allow_incoherent_impl]
640753dece8SMiguel Ojeda #[must_use = "this returns the lowercase bytes as a new Vec, \
641753dece8SMiguel Ojeda without modifying the original"]
642753dece8SMiguel Ojeda #[stable(feature = "ascii_methods_on_intrinsics", since = "1.23.0")]
643753dece8SMiguel Ojeda #[inline]
to_ascii_lowercase(&self) -> Vec<u8>644753dece8SMiguel Ojeda pub fn to_ascii_lowercase(&self) -> Vec<u8> {
645753dece8SMiguel Ojeda let mut me = self.to_vec();
646753dece8SMiguel Ojeda me.make_ascii_lowercase();
647753dece8SMiguel Ojeda me
648753dece8SMiguel Ojeda }
649753dece8SMiguel Ojeda }
650753dece8SMiguel Ojeda
651753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
652753dece8SMiguel Ojeda // Extension traits for slices over specific kinds of data
653753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
654753dece8SMiguel Ojeda
655753dece8SMiguel Ojeda /// Helper trait for [`[T]::concat`](slice::concat).
656753dece8SMiguel Ojeda ///
657753dece8SMiguel Ojeda /// Note: the `Item` type parameter is not used in this trait,
658753dece8SMiguel Ojeda /// but it allows impls to be more generic.
659753dece8SMiguel Ojeda /// Without it, we get this error:
660753dece8SMiguel Ojeda ///
661753dece8SMiguel Ojeda /// ```error
662753dece8SMiguel Ojeda /// error[E0207]: the type parameter `T` is not constrained by the impl trait, self type, or predica
6633ed03f4dSMiguel Ojeda /// --> library/alloc/src/slice.rs:608:6
664753dece8SMiguel Ojeda /// |
665753dece8SMiguel Ojeda /// 608 | impl<T: Clone, V: Borrow<[T]>> Concat for [V] {
666753dece8SMiguel Ojeda /// | ^ unconstrained type parameter
667753dece8SMiguel Ojeda /// ```
668753dece8SMiguel Ojeda ///
669753dece8SMiguel Ojeda /// This is because there could exist `V` types with multiple `Borrow<[_]>` impls,
670753dece8SMiguel Ojeda /// such that multiple `T` types would apply:
671753dece8SMiguel Ojeda ///
672753dece8SMiguel Ojeda /// ```
673753dece8SMiguel Ojeda /// # #[allow(dead_code)]
674753dece8SMiguel Ojeda /// pub struct Foo(Vec<u32>, Vec<String>);
675753dece8SMiguel Ojeda ///
676753dece8SMiguel Ojeda /// impl std::borrow::Borrow<[u32]> for Foo {
677753dece8SMiguel Ojeda /// fn borrow(&self) -> &[u32] { &self.0 }
678753dece8SMiguel Ojeda /// }
679753dece8SMiguel Ojeda ///
680753dece8SMiguel Ojeda /// impl std::borrow::Borrow<[String]> for Foo {
681753dece8SMiguel Ojeda /// fn borrow(&self) -> &[String] { &self.1 }
682753dece8SMiguel Ojeda /// }
683753dece8SMiguel Ojeda /// ```
684753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_trait", issue = "27747")]
685753dece8SMiguel Ojeda pub trait Concat<Item: ?Sized> {
686753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_trait", issue = "27747")]
687753dece8SMiguel Ojeda /// The resulting type after concatenation
688753dece8SMiguel Ojeda type Output;
689753dece8SMiguel Ojeda
690753dece8SMiguel Ojeda /// Implementation of [`[T]::concat`](slice::concat)
691753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_trait", issue = "27747")]
concat(slice: &Self) -> Self::Output692753dece8SMiguel Ojeda fn concat(slice: &Self) -> Self::Output;
693753dece8SMiguel Ojeda }
694753dece8SMiguel Ojeda
695753dece8SMiguel Ojeda /// Helper trait for [`[T]::join`](slice::join)
696753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_trait", issue = "27747")]
697753dece8SMiguel Ojeda pub trait Join<Separator> {
698753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_trait", issue = "27747")]
699753dece8SMiguel Ojeda /// The resulting type after concatenation
700753dece8SMiguel Ojeda type Output;
701753dece8SMiguel Ojeda
702753dece8SMiguel Ojeda /// Implementation of [`[T]::join`](slice::join)
703753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_trait", issue = "27747")]
join(slice: &Self, sep: Separator) -> Self::Output704753dece8SMiguel Ojeda fn join(slice: &Self, sep: Separator) -> Self::Output;
705753dece8SMiguel Ojeda }
706753dece8SMiguel Ojeda
707753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
708753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_ext", issue = "27747")]
709753dece8SMiguel Ojeda impl<T: Clone, V: Borrow<[T]>> Concat<T> for [V] {
710753dece8SMiguel Ojeda type Output = Vec<T>;
711753dece8SMiguel Ojeda
concat(slice: &Self) -> Vec<T>712753dece8SMiguel Ojeda fn concat(slice: &Self) -> Vec<T> {
713753dece8SMiguel Ojeda let size = slice.iter().map(|slice| slice.borrow().len()).sum();
714753dece8SMiguel Ojeda let mut result = Vec::with_capacity(size);
715753dece8SMiguel Ojeda for v in slice {
716753dece8SMiguel Ojeda result.extend_from_slice(v.borrow())
717753dece8SMiguel Ojeda }
718753dece8SMiguel Ojeda result
719753dece8SMiguel Ojeda }
720753dece8SMiguel Ojeda }
721753dece8SMiguel Ojeda
722753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
723753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_ext", issue = "27747")]
724753dece8SMiguel Ojeda impl<T: Clone, V: Borrow<[T]>> Join<&T> for [V] {
725753dece8SMiguel Ojeda type Output = Vec<T>;
726753dece8SMiguel Ojeda
join(slice: &Self, sep: &T) -> Vec<T>727753dece8SMiguel Ojeda fn join(slice: &Self, sep: &T) -> Vec<T> {
728753dece8SMiguel Ojeda let mut iter = slice.iter();
729753dece8SMiguel Ojeda let first = match iter.next() {
730753dece8SMiguel Ojeda Some(first) => first,
731753dece8SMiguel Ojeda None => return vec![],
732753dece8SMiguel Ojeda };
733753dece8SMiguel Ojeda let size = slice.iter().map(|v| v.borrow().len()).sum::<usize>() + slice.len() - 1;
734753dece8SMiguel Ojeda let mut result = Vec::with_capacity(size);
735753dece8SMiguel Ojeda result.extend_from_slice(first.borrow());
736753dece8SMiguel Ojeda
737753dece8SMiguel Ojeda for v in iter {
738753dece8SMiguel Ojeda result.push(sep.clone());
739753dece8SMiguel Ojeda result.extend_from_slice(v.borrow())
740753dece8SMiguel Ojeda }
741753dece8SMiguel Ojeda result
742753dece8SMiguel Ojeda }
743753dece8SMiguel Ojeda }
744753dece8SMiguel Ojeda
745753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
746753dece8SMiguel Ojeda #[unstable(feature = "slice_concat_ext", issue = "27747")]
747753dece8SMiguel Ojeda impl<T: Clone, V: Borrow<[T]>> Join<&[T]> for [V] {
748753dece8SMiguel Ojeda type Output = Vec<T>;
749753dece8SMiguel Ojeda
join(slice: &Self, sep: &[T]) -> Vec<T>750753dece8SMiguel Ojeda fn join(slice: &Self, sep: &[T]) -> Vec<T> {
751753dece8SMiguel Ojeda let mut iter = slice.iter();
752753dece8SMiguel Ojeda let first = match iter.next() {
753753dece8SMiguel Ojeda Some(first) => first,
754753dece8SMiguel Ojeda None => return vec![],
755753dece8SMiguel Ojeda };
756753dece8SMiguel Ojeda let size =
757753dece8SMiguel Ojeda slice.iter().map(|v| v.borrow().len()).sum::<usize>() + sep.len() * (slice.len() - 1);
758753dece8SMiguel Ojeda let mut result = Vec::with_capacity(size);
759753dece8SMiguel Ojeda result.extend_from_slice(first.borrow());
760753dece8SMiguel Ojeda
761753dece8SMiguel Ojeda for v in iter {
762753dece8SMiguel Ojeda result.extend_from_slice(sep);
763753dece8SMiguel Ojeda result.extend_from_slice(v.borrow())
764753dece8SMiguel Ojeda }
765753dece8SMiguel Ojeda result
766753dece8SMiguel Ojeda }
767753dece8SMiguel Ojeda }
768753dece8SMiguel Ojeda
769753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
770753dece8SMiguel Ojeda // Standard trait implementations for slices
771753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
772753dece8SMiguel Ojeda
773753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
7743ed03f4dSMiguel Ojeda impl<T, A: Allocator> Borrow<[T]> for Vec<T, A> {
borrow(&self) -> &[T]775753dece8SMiguel Ojeda fn borrow(&self) -> &[T] {
776753dece8SMiguel Ojeda &self[..]
777753dece8SMiguel Ojeda }
778753dece8SMiguel Ojeda }
779753dece8SMiguel Ojeda
780753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
7813ed03f4dSMiguel Ojeda impl<T, A: Allocator> BorrowMut<[T]> for Vec<T, A> {
borrow_mut(&mut self) -> &mut [T]782753dece8SMiguel Ojeda fn borrow_mut(&mut self) -> &mut [T] {
783753dece8SMiguel Ojeda &mut self[..]
784753dece8SMiguel Ojeda }
785753dece8SMiguel Ojeda }
786753dece8SMiguel Ojeda
787*89eed1abSMiguel Ojeda // Specializable trait for implementing ToOwned::clone_into. This is
788*89eed1abSMiguel Ojeda // public in the crate and has the Allocator parameter so that
789*89eed1abSMiguel Ojeda // vec::clone_from use it too.
790*89eed1abSMiguel Ojeda #[cfg(not(no_global_oom_handling))]
791*89eed1abSMiguel Ojeda pub(crate) trait SpecCloneIntoVec<T, A: Allocator> {
clone_into(&self, target: &mut Vec<T, A>)792*89eed1abSMiguel Ojeda fn clone_into(&self, target: &mut Vec<T, A>);
793*89eed1abSMiguel Ojeda }
794*89eed1abSMiguel Ojeda
795*89eed1abSMiguel Ojeda #[cfg(not(no_global_oom_handling))]
796*89eed1abSMiguel Ojeda impl<T: Clone, A: Allocator> SpecCloneIntoVec<T, A> for [T] {
clone_into(&self, target: &mut Vec<T, A>)797*89eed1abSMiguel Ojeda default fn clone_into(&self, target: &mut Vec<T, A>) {
798*89eed1abSMiguel Ojeda // drop anything in target that will not be overwritten
799*89eed1abSMiguel Ojeda target.truncate(self.len());
800*89eed1abSMiguel Ojeda
801*89eed1abSMiguel Ojeda // target.len <= self.len due to the truncate above, so the
802*89eed1abSMiguel Ojeda // slices here are always in-bounds.
803*89eed1abSMiguel Ojeda let (init, tail) = self.split_at(target.len());
804*89eed1abSMiguel Ojeda
805*89eed1abSMiguel Ojeda // reuse the contained values' allocations/resources.
806*89eed1abSMiguel Ojeda target.clone_from_slice(init);
807*89eed1abSMiguel Ojeda target.extend_from_slice(tail);
808*89eed1abSMiguel Ojeda }
809*89eed1abSMiguel Ojeda }
810*89eed1abSMiguel Ojeda
811*89eed1abSMiguel Ojeda #[cfg(not(no_global_oom_handling))]
812*89eed1abSMiguel Ojeda impl<T: Copy, A: Allocator> SpecCloneIntoVec<T, A> for [T] {
clone_into(&self, target: &mut Vec<T, A>)813*89eed1abSMiguel Ojeda fn clone_into(&self, target: &mut Vec<T, A>) {
814*89eed1abSMiguel Ojeda target.clear();
815*89eed1abSMiguel Ojeda target.extend_from_slice(self);
816*89eed1abSMiguel Ojeda }
817*89eed1abSMiguel Ojeda }
818*89eed1abSMiguel Ojeda
819753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
820753dece8SMiguel Ojeda #[stable(feature = "rust1", since = "1.0.0")]
821753dece8SMiguel Ojeda impl<T: Clone> ToOwned for [T] {
822753dece8SMiguel Ojeda type Owned = Vec<T>;
823753dece8SMiguel Ojeda #[cfg(not(test))]
to_owned(&self) -> Vec<T>824753dece8SMiguel Ojeda fn to_owned(&self) -> Vec<T> {
825753dece8SMiguel Ojeda self.to_vec()
826753dece8SMiguel Ojeda }
827753dece8SMiguel Ojeda
828753dece8SMiguel Ojeda #[cfg(test)]
to_owned(&self) -> Vec<T>829753dece8SMiguel Ojeda fn to_owned(&self) -> Vec<T> {
830753dece8SMiguel Ojeda hack::to_vec(self, Global)
831753dece8SMiguel Ojeda }
832753dece8SMiguel Ojeda
clone_into(&self, target: &mut Vec<T>)833753dece8SMiguel Ojeda fn clone_into(&self, target: &mut Vec<T>) {
834*89eed1abSMiguel Ojeda SpecCloneIntoVec::clone_into(self, target);
835753dece8SMiguel Ojeda }
836753dece8SMiguel Ojeda }
837753dece8SMiguel Ojeda
838753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
839753dece8SMiguel Ojeda // Sorting
840753dece8SMiguel Ojeda ////////////////////////////////////////////////////////////////////////////////
841753dece8SMiguel Ojeda
8423ed03f4dSMiguel Ojeda #[inline]
843753dece8SMiguel Ojeda #[cfg(not(no_global_oom_handling))]
stable_sort<T, F>(v: &mut [T], mut is_less: F) where F: FnMut(&T, &T) -> bool,8443ed03f4dSMiguel Ojeda fn stable_sort<T, F>(v: &mut [T], mut is_less: F)
845753dece8SMiguel Ojeda where
846753dece8SMiguel Ojeda F: FnMut(&T, &T) -> bool,
847753dece8SMiguel Ojeda {
8483ed03f4dSMiguel Ojeda if T::IS_ZST {
8493ed03f4dSMiguel Ojeda // Sorting has no meaningful behavior on zero-sized types. Do nothing.
850753dece8SMiguel Ojeda return;
851753dece8SMiguel Ojeda }
852753dece8SMiguel Ojeda
8533ed03f4dSMiguel Ojeda let elem_alloc_fn = |len: usize| -> *mut T {
8543ed03f4dSMiguel Ojeda // SAFETY: Creating the layout is safe as long as merge_sort never calls this with len >
8553ed03f4dSMiguel Ojeda // v.len(). Alloc in general will only be used as 'shadow-region' to store temporary swap
8563ed03f4dSMiguel Ojeda // elements.
8573ed03f4dSMiguel Ojeda unsafe { alloc::alloc(alloc::Layout::array::<T>(len).unwrap_unchecked()) as *mut T }
8583ed03f4dSMiguel Ojeda };
859753dece8SMiguel Ojeda
8603ed03f4dSMiguel Ojeda let elem_dealloc_fn = |buf_ptr: *mut T, len: usize| {
8613ed03f4dSMiguel Ojeda // SAFETY: Creating the layout is safe as long as merge_sort never calls this with len >
8623ed03f4dSMiguel Ojeda // v.len(). The caller must ensure that buf_ptr was created by elem_alloc_fn with the same
8633ed03f4dSMiguel Ojeda // len.
864753dece8SMiguel Ojeda unsafe {
8653ed03f4dSMiguel Ojeda alloc::dealloc(buf_ptr as *mut u8, alloc::Layout::array::<T>(len).unwrap_unchecked());
866753dece8SMiguel Ojeda }
8673ed03f4dSMiguel Ojeda };
868753dece8SMiguel Ojeda
8693ed03f4dSMiguel Ojeda let run_alloc_fn = |len: usize| -> *mut sort::TimSortRun {
8703ed03f4dSMiguel Ojeda // SAFETY: Creating the layout is safe as long as merge_sort never calls this with an
8713ed03f4dSMiguel Ojeda // obscene length or 0.
872753dece8SMiguel Ojeda unsafe {
8733ed03f4dSMiguel Ojeda alloc::alloc(alloc::Layout::array::<sort::TimSortRun>(len).unwrap_unchecked())
8743ed03f4dSMiguel Ojeda as *mut sort::TimSortRun
8753ed03f4dSMiguel Ojeda }
8763ed03f4dSMiguel Ojeda };
8773ed03f4dSMiguel Ojeda
8783ed03f4dSMiguel Ojeda let run_dealloc_fn = |buf_ptr: *mut sort::TimSortRun, len: usize| {
8793ed03f4dSMiguel Ojeda // SAFETY: The caller must ensure that buf_ptr was created by elem_alloc_fn with the same
8803ed03f4dSMiguel Ojeda // len.
8813ed03f4dSMiguel Ojeda unsafe {
8823ed03f4dSMiguel Ojeda alloc::dealloc(
8833ed03f4dSMiguel Ojeda buf_ptr as *mut u8,
8843ed03f4dSMiguel Ojeda alloc::Layout::array::<sort::TimSortRun>(len).unwrap_unchecked(),
885753dece8SMiguel Ojeda );
886753dece8SMiguel Ojeda }
8873ed03f4dSMiguel Ojeda };
888753dece8SMiguel Ojeda
8893ed03f4dSMiguel Ojeda sort::merge_sort(v, &mut is_less, elem_alloc_fn, elem_dealloc_fn, run_alloc_fn, run_dealloc_fn);
890753dece8SMiguel Ojeda }
891