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-rw-r--r--vendor/generic-array-0.12.4/src/sequence.rs320
1 files changed, 0 insertions, 320 deletions
diff --git a/vendor/generic-array-0.12.4/src/sequence.rs b/vendor/generic-array-0.12.4/src/sequence.rs
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--- a/vendor/generic-array-0.12.4/src/sequence.rs
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@@ -1,320 +0,0 @@
-//! Useful traits for manipulating sequences of data stored in `GenericArray`s
-
-use super::*;
-use core::{mem, ptr};
-use core::ops::{Add, Sub};
-use typenum::operator_aliases::*;
-
-/// Defines some sequence with an associated length and iteration capabilities.
-///
-/// This is useful for passing N-length generic arrays as generics.
-pub unsafe trait GenericSequence<T>: Sized + IntoIterator {
- /// `GenericArray` associated length
- type Length: ArrayLength<T>;
-
- /// Concrete sequence type used in conjuction with reference implementations of `GenericSequence`
- type Sequence: GenericSequence<T, Length = Self::Length> + FromIterator<T>;
-
- /// Initializes a new sequence instance using the given function.
- ///
- /// If the generator function panics while initializing the sequence,
- /// any already initialized elements will be dropped.
- fn generate<F>(f: F) -> Self::Sequence
- where
- F: FnMut(usize) -> T;
-
- #[doc(hidden)]
- fn inverted_zip<B, U, F>(
- self,
- lhs: GenericArray<B, Self::Length>,
- mut f: F,
- ) -> MappedSequence<GenericArray<B, Self::Length>, B, U>
- where
- GenericArray<B, Self::Length>: GenericSequence<B, Length = Self::Length>
- + MappedGenericSequence<B, U>,
- Self: MappedGenericSequence<T, U>,
- Self::Length: ArrayLength<B> + ArrayLength<U>,
- F: FnMut(B, Self::Item) -> U,
- {
- unsafe {
- let mut left = ArrayConsumer::new(lhs);
-
- let (left_array_iter, left_position) = left.iter_position();
-
- FromIterator::from_iter(
- left_array_iter
- .zip(self.into_iter())
- .map(|(l, right_value)| {
- let left_value = ptr::read(l);
-
- *left_position += 1;
-
- f(left_value, right_value)
- })
- )
- }
- }
-
- #[doc(hidden)]
- fn inverted_zip2<B, Lhs, U, F>(self, lhs: Lhs, mut f: F) -> MappedSequence<Lhs, B, U>
- where
- Lhs: GenericSequence<B, Length = Self::Length> + MappedGenericSequence<B, U>,
- Self: MappedGenericSequence<T, U>,
- Self::Length: ArrayLength<B> + ArrayLength<U>,
- F: FnMut(Lhs::Item, Self::Item) -> U,
- {
- FromIterator::from_iter(lhs.into_iter().zip(self.into_iter()).map(|(l, r)| f(l, r)))
- }
-}
-
-/// Accessor for `GenericSequence` item type, which is really `IntoIterator::Item`
-///
-/// For deeply nested generic mapped sequence types, like shown in `tests/generics.rs`,
-/// this can be useful for keeping things organized.
-pub type SequenceItem<T> = <T as IntoIterator>::Item;
-
-unsafe impl<'a, T: 'a, S: GenericSequence<T>> GenericSequence<T> for &'a S
-where
- &'a S: IntoIterator,
-{
- type Length = S::Length;
- type Sequence = S::Sequence;
-
- #[inline]
- fn generate<F>(f: F) -> Self::Sequence
- where
- F: FnMut(usize) -> T,
- {
- S::generate(f)
- }
-}
-
-unsafe impl<'a, T: 'a, S: GenericSequence<T>> GenericSequence<T> for &'a mut S
-where
- &'a mut S: IntoIterator,
-{
- type Length = S::Length;
- type Sequence = S::Sequence;
-
- #[inline]
- fn generate<F>(f: F) -> Self::Sequence
- where
- F: FnMut(usize) -> T,
- {
- S::generate(f)
- }
-}
-
-/// Defines any `GenericSequence` which can be lengthened or extended by appending
-/// or prepending an element to it.
-///
-/// Any lengthened sequence can be shortened back to the original using `pop_front` or `pop_back`
-pub unsafe trait Lengthen<T>: Sized + GenericSequence<T> {
- /// `GenericSequence` that has one more element than `Self`
- type Longer: Shorten<T, Shorter = Self>;
-
- /// Returns a new array with the given element appended to the end of it.
- ///
- /// Example:
- ///
- /// ```ignore
- /// let a = arr![i32; 1, 2, 3];
- ///
- /// let b = a.append(4);
- ///
- /// assert_eq!(b, arr![i32; 1, 2, 3, 4]);
- /// ```
- fn append(self, last: T) -> Self::Longer;
-
- /// Returns a new array with the given element prepended to the front of it.
- ///
- /// Example:
- ///
- /// ```ignore
- /// let a = arr![i32; 1, 2, 3];
- ///
- /// let b = a.prepend(4);
- ///
- /// assert_eq!(b, arr![i32; 4, 1, 2, 3]);
- /// ```
- fn prepend(self, first: T) -> Self::Longer;
-}
-
-/// Defines a `GenericSequence` which can be shortened by removing the first or last element from it.
-///
-/// Additionally, any shortened sequence can be lengthened by
-/// appending or prepending an element to it.
-pub unsafe trait Shorten<T>: Sized + GenericSequence<T> {
- /// `GenericSequence` that has one less element than `Self`
- type Shorter: Lengthen<T, Longer = Self>;
-
- /// Returns a new array without the last element, and the last element.
- ///
- /// Example:
- ///
- /// ```ignore
- /// let a = arr![i32; 1, 2, 3, 4];
- ///
- /// let (init, last) = a.pop_back();
- ///
- /// assert_eq!(init, arr![i32; 1, 2, 3]);
- /// assert_eq!(last, 4);
- /// ```
- fn pop_back(self) -> (Self::Shorter, T);
-
- /// Returns a new array without the first element, and the first element.
- /// Example:
- ///
- /// ```ignore
- /// let a = arr![i32; 1, 2, 3, 4];
- ///
- /// let (head, tail) = a.pop_front();
- ///
- /// assert_eq!(head, 1);
- /// assert_eq!(tail, arr![i32; 2, 3, 4]);
- /// ```
- fn pop_front(self) -> (T, Self::Shorter);
-}
-
-unsafe impl<T, N: ArrayLength<T>> Lengthen<T> for GenericArray<T, N>
-where
- N: Add<B1>,
- Add1<N>: ArrayLength<T>,
- Add1<N>: Sub<B1, Output = N>,
- Sub1<Add1<N>>: ArrayLength<T>,
-{
- type Longer = GenericArray<T, Add1<N>>;
-
- fn append(self, last: T) -> Self::Longer {
- let mut longer: Self::Longer = unsafe { mem::uninitialized() };
-
- unsafe {
- ptr::write(longer.as_mut_ptr() as *mut _, self);
- ptr::write(&mut longer[N::to_usize()], last);
- }
-
- longer
- }
-
- fn prepend(self, first: T) -> Self::Longer {
- let mut longer: Self::Longer = unsafe { mem::uninitialized() };
-
- let longer_ptr = longer.as_mut_ptr();
-
- unsafe {
- ptr::write(longer_ptr as *mut _, first);
- ptr::write(longer_ptr.offset(1) as *mut _, self);
- }
-
- longer
- }
-}
-
-unsafe impl<T, N: ArrayLength<T>> Shorten<T> for GenericArray<T, N>
-where
- N: Sub<B1>,
- Sub1<N>: ArrayLength<T>,
- Sub1<N>: Add<B1, Output = N>,
- Add1<Sub1<N>>: ArrayLength<T>,
-{
- type Shorter = GenericArray<T, Sub1<N>>;
-
- fn pop_back(self) -> (Self::Shorter, T) {
- let init_ptr = self.as_ptr();
- let last_ptr = unsafe { init_ptr.offset(Sub1::<N>::to_usize() as isize) };
-
- let init = unsafe { ptr::read(init_ptr as _) };
- let last = unsafe { ptr::read(last_ptr as _) };
-
- mem::forget(self);
-
- (init, last)
- }
-
- fn pop_front(self) -> (T, Self::Shorter) {
- let head_ptr = self.as_ptr();
- let tail_ptr = unsafe { head_ptr.offset(1) };
-
- let head = unsafe { ptr::read(head_ptr as _) };
- let tail = unsafe { ptr::read(tail_ptr as _) };
-
- mem::forget(self);
-
- (head, tail)
- }
-}
-
-/// Defines a `GenericSequence` that can be split into two parts at a given pivot index.
-pub unsafe trait Split<T, K>: GenericSequence<T>
-where
- K: ArrayLength<T>,
-{
- /// First part of the resulting split array
- type First: GenericSequence<T>;
- /// Second part of the resulting split array
- type Second: GenericSequence<T>;
-
- /// Splits an array at the given index, returning the separate parts of the array.
- fn split(self) -> (Self::First, Self::Second);
-}
-
-unsafe impl<T, N, K> Split<T, K> for GenericArray<T, N>
-where
- N: ArrayLength<T>,
- K: ArrayLength<T>,
- N: Sub<K>,
- Diff<N, K>: ArrayLength<T>,
-{
- type First = GenericArray<T, K>;
- type Second = GenericArray<T, Diff<N, K>>;
-
- fn split(self) -> (Self::First, Self::Second) {
- let head_ptr = self.as_ptr();
- let tail_ptr = unsafe { head_ptr.offset(K::to_usize() as isize) };
-
- let head = unsafe { ptr::read(head_ptr as _) };
- let tail = unsafe { ptr::read(tail_ptr as _) };
-
- mem::forget(self);
-
- (head, tail)
- }
-}
-
-/// Defines `GenericSequence`s which can be joined together, forming a larger array.
-pub unsafe trait Concat<T, M>: GenericSequence<T>
-where
- M: ArrayLength<T>,
-{
- /// Sequence to be concatenated with `self`
- type Rest: GenericSequence<T, Length = M>;
-
- /// Resulting sequence formed by the concatenation.
- type Output: GenericSequence<T>;
-
- /// Concatenate, or join, two sequences.
- fn concat(self, rest: Self::Rest) -> Self::Output;
-}
-
-unsafe impl<T, N, M> Concat<T, M> for GenericArray<T, N>
-where
- N: ArrayLength<T> + Add<M>,
- M: ArrayLength<T>,
- Sum<N, M>: ArrayLength<T>,
-{
- type Rest = GenericArray<T, M>;
- type Output = GenericArray<T, Sum<N, M>>;
-
- fn concat(self, rest: Self::Rest) -> Self::Output {
- let mut output: Self::Output = unsafe { mem::uninitialized() };
-
- let output_ptr = output.as_mut_ptr();
-
- unsafe {
- ptr::write(output_ptr as *mut _, self);
- ptr::write(output_ptr.offset(N::to_usize() as isize) as *mut _, rest);
- }
-
- output
- }
-}