//@ run-pass #![allow(stable_features)] //@ compile-flags: -C debug-assertions #![feature(iter_to_slice)] use std::slice; fn foo(v: &[T]) -> Option<&[T]> { let mut it = v.iter(); for _ in 0..5 { let _ = it.next(); } Some(it.as_slice()) } fn foo_mut(v: &mut [T]) -> Option<&mut [T]> { let mut it = v.iter_mut(); for _ in 0..5 { let _ = it.next(); } Some(it.into_slice()) } pub fn main() { // In a slice of zero-size elements the pointer is meaningless. // Ensure iteration still works even if the pointer is at the end of the address space. let slice: &[()] = unsafe { slice::from_raw_parts(-5isize as *const (), 10) }; assert_eq!(slice.len(), 10); assert_eq!(slice.iter().count(), 10); // .nth() on the iterator should also behave correctly let mut it = slice.iter(); assert!(it.nth(5).is_some()); assert_eq!(it.count(), 4); // Converting Iter to a slice should never have a null pointer assert!(foo(slice).is_some()); // Test mutable iterators as well let slice: &mut [()] = unsafe { slice::from_raw_parts_mut(-5isize as *mut (), 10) }; assert_eq!(slice.len(), 10); assert_eq!(slice.iter_mut().count(), 10); { let mut it = slice.iter_mut(); assert!(it.nth(5).is_some()); assert_eq!(it.count(), 4); } assert!(foo_mut(slice).is_some()) }