2018-10-30 07:56:19 -05:00
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use std::slice;
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fn slice_of_zst() {
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fn foo<T>(v: &[T]) -> Option<&[T]> {
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let mut it = v.iter();
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for _ in 0..5 {
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2018-11-26 08:31:53 -06:00
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it.next();
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2018-10-30 07:56:19 -05:00
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}
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Some(it.as_slice())
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}
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fn foo_mut<T>(v: &mut [T]) -> Option<&mut [T]> {
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let mut it = v.iter_mut();
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for _ in 0..5 {
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2018-11-26 08:31:53 -06:00
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it.next();
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2018-10-30 07:56:19 -05:00
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}
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Some(it.into_slice())
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}
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// In a slice of zero-size elements the pointer is meaningless.
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// Ensure iteration still works even if the pointer is at the end of the address space.
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let slice: &[()] = unsafe { slice::from_raw_parts(-5isize as *const (), 10) };
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assert_eq!(slice.len(), 10);
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assert_eq!(slice.iter().count(), 10);
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// .nth() on the iterator should also behave correctly
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let mut it = slice.iter();
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assert!(it.nth(5).is_some());
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assert_eq!(it.count(), 4);
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// Converting Iter to a slice should never have a null pointer
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assert!(foo(slice).is_some());
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// Test mutable iterators as well
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let slice: &mut [()] = unsafe { slice::from_raw_parts_mut(-5isize as *mut (), 10) };
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assert_eq!(slice.len(), 10);
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assert_eq!(slice.iter_mut().count(), 10);
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{
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let mut it = slice.iter_mut();
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assert!(it.nth(5).is_some());
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assert_eq!(it.count(), 4);
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}
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assert!(foo_mut(slice).is_some())
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}
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fn test_iter_ref_consistency() {
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use std::fmt::Debug;
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fn test<T : Copy + Debug + PartialEq>(x : T) {
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let v : &[T] = &[x, x, x];
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let v_ptrs : [*const T; 3] = match v {
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[ref v1, ref v2, ref v3] => [v1 as *const _, v2 as *const _, v3 as *const _],
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_ => unreachable!()
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};
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let len = v.len();
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// nth(i)
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for i in 0..len {
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assert_eq!(&v[i] as *const _, v_ptrs[i]); // check the v_ptrs array, just to be sure
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let nth = v.iter().nth(i).unwrap();
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assert_eq!(nth as *const _, v_ptrs[i]);
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}
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assert_eq!(v.iter().nth(len), None, "nth(len) should return None");
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// stepping through with nth(0)
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{
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let mut it = v.iter();
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for i in 0..len {
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let next = it.nth(0).unwrap();
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assert_eq!(next as *const _, v_ptrs[i]);
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}
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assert_eq!(it.nth(0), None);
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}
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// next()
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{
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let mut it = v.iter();
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for i in 0..len {
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let remaining = len - i;
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assert_eq!(it.size_hint(), (remaining, Some(remaining)));
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let next = it.next().unwrap();
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assert_eq!(next as *const _, v_ptrs[i]);
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}
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assert_eq!(it.size_hint(), (0, Some(0)));
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assert_eq!(it.next(), None, "The final call to next() should return None");
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}
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// next_back()
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{
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let mut it = v.iter();
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for i in 0..len {
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let remaining = len - i;
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assert_eq!(it.size_hint(), (remaining, Some(remaining)));
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let prev = it.next_back().unwrap();
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assert_eq!(prev as *const _, v_ptrs[remaining-1]);
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}
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assert_eq!(it.size_hint(), (0, Some(0)));
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assert_eq!(it.next_back(), None, "The final call to next_back() should return None");
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}
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}
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fn test_mut<T : Copy + Debug + PartialEq>(x : T) {
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let v : &mut [T] = &mut [x, x, x];
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let v_ptrs : [*mut T; 3] = match v {
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[ref v1, ref v2, ref v3] =>
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[v1 as *const _ as *mut _, v2 as *const _ as *mut _, v3 as *const _ as *mut _],
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_ => unreachable!()
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};
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let len = v.len();
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// nth(i)
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for i in 0..len {
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assert_eq!(&mut v[i] as *mut _, v_ptrs[i]); // check the v_ptrs array, just to be sure
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let nth = v.iter_mut().nth(i).unwrap();
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assert_eq!(nth as *mut _, v_ptrs[i]);
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}
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assert_eq!(v.iter().nth(len), None, "nth(len) should return None");
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// stepping through with nth(0)
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{
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let mut it = v.iter();
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for i in 0..len {
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let next = it.nth(0).unwrap();
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assert_eq!(next as *const _, v_ptrs[i]);
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}
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assert_eq!(it.nth(0), None);
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}
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// next()
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{
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let mut it = v.iter_mut();
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for i in 0..len {
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let remaining = len - i;
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assert_eq!(it.size_hint(), (remaining, Some(remaining)));
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let next = it.next().unwrap();
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assert_eq!(next as *mut _, v_ptrs[i]);
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}
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assert_eq!(it.size_hint(), (0, Some(0)));
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assert_eq!(it.next(), None, "The final call to next() should return None");
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}
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// next_back()
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{
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let mut it = v.iter_mut();
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for i in 0..len {
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let remaining = len - i;
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assert_eq!(it.size_hint(), (remaining, Some(remaining)));
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let prev = it.next_back().unwrap();
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assert_eq!(prev as *mut _, v_ptrs[remaining-1]);
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}
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assert_eq!(it.size_hint(), (0, Some(0)));
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assert_eq!(it.next_back(), None, "The final call to next_back() should return None");
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}
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}
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// Make sure iterators and slice patterns yield consistent addresses for various types,
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// including ZSTs.
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test(0u32);
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test(());
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test([0u32; 0]); // ZST with alignment > 0
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test_mut(0u32);
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test_mut(());
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test_mut([0u32; 0]); // ZST with alignment > 0
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}
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fn main() {
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slice_of_zst();
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test_iter_ref_consistency();
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}
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