rust/library/core/tests/array.rs

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use core::array;
use core::convert::TryFrom;
use core::sync::atomic::{AtomicUsize, Ordering};
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#[test]
fn array_from_ref() {
let value: String = "Hello World!".into();
let arr: &[String; 1] = array::from_ref(&value);
assert_eq!(&[value.clone()], arr);
const VALUE: &&str = &"Hello World!";
const ARR: &[&str; 1] = array::from_ref(VALUE);
assert_eq!(&[*VALUE], ARR);
assert!(core::ptr::eq(VALUE, &ARR[0]));
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}
#[test]
fn array_from_mut() {
let mut value: String = "Hello World".into();
let arr: &mut [String; 1] = array::from_mut(&mut value);
arr[0].push_str("!");
assert_eq!(&value, "Hello World!");
}
#[test]
fn array_try_from() {
macro_rules! test {
($($N:expr)+) => {
$({
type Array = [u8; $N];
let mut array: Array = [0; $N];
let slice: &[u8] = &array[..];
let result = <&Array>::try_from(slice);
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assert_eq!(&array, result.unwrap());
let result = <Array>::try_from(slice);
assert_eq!(&array, &result.unwrap());
let mut_slice: &mut [u8] = &mut array[..];
let result = <&mut Array>::try_from(mut_slice);
assert_eq!(&[0; $N], result.unwrap());
let mut_slice: &mut [u8] = &mut array[..];
let result = <Array>::try_from(mut_slice);
assert_eq!(&array, &result.unwrap());
})+
}
}
test! {
0 1 2 3 4 5 6 7 8 9
10 11 12 13 14 15 16 17 18 19
20 21 22 23 24 25 26 27 28 29
30 31 32
}
}
#[test]
fn iterator_collect() {
let arr = [0, 1, 2, 5, 9];
let v: Vec<_> = IntoIterator::into_iter(arr.clone()).collect();
assert_eq!(&arr[..], &v[..]);
}
#[test]
fn iterator_rev_collect() {
let arr = [0, 1, 2, 5, 9];
let v: Vec<_> = IntoIterator::into_iter(arr.clone()).rev().collect();
assert_eq!(&v[..], &[9, 5, 2, 1, 0]);
}
#[test]
fn iterator_nth() {
let v = [0, 1, 2, 3, 4];
for i in 0..v.len() {
assert_eq!(IntoIterator::into_iter(v.clone()).nth(i).unwrap(), v[i]);
}
assert_eq!(IntoIterator::into_iter(v.clone()).nth(v.len()), None);
let mut iter = IntoIterator::into_iter(v);
assert_eq!(iter.nth(2).unwrap(), v[2]);
assert_eq!(iter.nth(1).unwrap(), v[4]);
}
#[test]
fn iterator_last() {
let v = [0, 1, 2, 3, 4];
assert_eq!(IntoIterator::into_iter(v).last().unwrap(), 4);
assert_eq!(IntoIterator::into_iter([0]).last().unwrap(), 0);
let mut it = IntoIterator::into_iter([0, 9, 2, 4]);
assert_eq!(it.next_back(), Some(4));
assert_eq!(it.last(), Some(2));
}
#[test]
fn iterator_clone() {
let mut it = IntoIterator::into_iter([0, 2, 4, 6, 8]);
assert_eq!(it.next(), Some(0));
assert_eq!(it.next_back(), Some(8));
let mut clone = it.clone();
assert_eq!(it.next_back(), Some(6));
assert_eq!(clone.next_back(), Some(6));
assert_eq!(it.next_back(), Some(4));
assert_eq!(clone.next_back(), Some(4));
assert_eq!(it.next(), Some(2));
assert_eq!(clone.next(), Some(2));
}
#[test]
fn iterator_fused() {
let mut it = IntoIterator::into_iter([0, 9, 2]);
assert_eq!(it.next(), Some(0));
assert_eq!(it.next(), Some(9));
assert_eq!(it.next(), Some(2));
assert_eq!(it.next(), None);
assert_eq!(it.next(), None);
assert_eq!(it.next(), None);
assert_eq!(it.next(), None);
assert_eq!(it.next(), None);
}
#[test]
fn iterator_len() {
let mut it = IntoIterator::into_iter([0, 1, 2, 5, 9]);
assert_eq!(it.size_hint(), (5, Some(5)));
assert_eq!(it.len(), 5);
assert_eq!(it.is_empty(), false);
assert_eq!(it.next(), Some(0));
assert_eq!(it.size_hint(), (4, Some(4)));
assert_eq!(it.len(), 4);
assert_eq!(it.is_empty(), false);
assert_eq!(it.next_back(), Some(9));
assert_eq!(it.size_hint(), (3, Some(3)));
assert_eq!(it.len(), 3);
assert_eq!(it.is_empty(), false);
// Empty
let it = IntoIterator::into_iter([] as [String; 0]);
assert_eq!(it.size_hint(), (0, Some(0)));
assert_eq!(it.len(), 0);
assert_eq!(it.is_empty(), true);
}
#[test]
fn iterator_count() {
let v = [0, 1, 2, 3, 4];
assert_eq!(IntoIterator::into_iter(v.clone()).count(), 5);
let mut iter2 = IntoIterator::into_iter(v);
iter2.next();
iter2.next();
assert_eq!(iter2.count(), 3);
}
#[test]
fn iterator_flat_map() {
assert!((0..5).flat_map(|i| IntoIterator::into_iter([2 * i, 2 * i + 1])).eq(0..10));
}
#[test]
fn iterator_debug() {
let arr = [0, 1, 2, 5, 9];
assert_eq!(format!("{:?}", IntoIterator::into_iter(arr)), "IntoIter([0, 1, 2, 5, 9])",);
}
#[test]
fn iterator_drops() {
use core::cell::Cell;
// This test makes sure the correct number of elements are dropped. The `R`
// type is just a reference to a `Cell` that is incremented when an `R` is
// dropped.
#[derive(Clone)]
struct Foo<'a>(&'a Cell<usize>);
impl Drop for Foo<'_> {
fn drop(&mut self) {
self.0.set(self.0.get() + 1);
}
}
fn five(i: &Cell<usize>) -> [Foo<'_>; 5] {
// This is somewhat verbose because `Foo` does not implement `Copy`
// since it implements `Drop`. Consequently, we cannot write
// `[Foo(i); 5]`.
[Foo(i), Foo(i), Foo(i), Foo(i), Foo(i)]
}
// Simple: drop new iterator.
let i = Cell::new(0);
{
IntoIterator::into_iter(five(&i));
}
assert_eq!(i.get(), 5);
// Call `next()` once.
let i = Cell::new(0);
{
let mut iter = IntoIterator::into_iter(five(&i));
let _x = iter.next();
assert_eq!(i.get(), 0);
assert_eq!(iter.count(), 4);
assert_eq!(i.get(), 4);
}
assert_eq!(i.get(), 5);
// Check `clone` and calling `next`/`next_back`.
let i = Cell::new(0);
{
let mut iter = IntoIterator::into_iter(five(&i));
iter.next();
assert_eq!(i.get(), 1);
iter.next_back();
assert_eq!(i.get(), 2);
let mut clone = iter.clone();
assert_eq!(i.get(), 2);
iter.next();
assert_eq!(i.get(), 3);
clone.next();
assert_eq!(i.get(), 4);
assert_eq!(clone.count(), 2);
assert_eq!(i.get(), 6);
}
assert_eq!(i.get(), 8);
// Check via `nth`.
let i = Cell::new(0);
{
let mut iter = IntoIterator::into_iter(five(&i));
let _x = iter.nth(2);
assert_eq!(i.get(), 2);
let _y = iter.last();
assert_eq!(i.get(), 3);
}
assert_eq!(i.get(), 5);
// Check every element.
let i = Cell::new(0);
for (index, _x) in IntoIterator::into_iter(five(&i)).enumerate() {
assert_eq!(i.get(), index);
}
assert_eq!(i.get(), 5);
let i = Cell::new(0);
for (index, _x) in IntoIterator::into_iter(five(&i)).rev().enumerate() {
assert_eq!(i.get(), index);
}
assert_eq!(i.get(), 5);
}
// This test does not work on targets without panic=unwind support.
// To work around this problem, test is marked is should_panic, so it will
// be automagically skipped on unsuitable targets, such as
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// wasm32-unknown-unknown.
//
// It means that we use panic for indicating success.
#[test]
#[should_panic(expected = "test succeeded")]
fn array_default_impl_avoids_leaks_on_panic() {
use core::sync::atomic::{AtomicUsize, Ordering::Relaxed};
static COUNTER: AtomicUsize = AtomicUsize::new(0);
#[derive(Debug)]
struct Bomb(usize);
impl Default for Bomb {
fn default() -> Bomb {
if COUNTER.load(Relaxed) == 3 {
panic!("bomb limit exceeded");
}
COUNTER.fetch_add(1, Relaxed);
Bomb(COUNTER.load(Relaxed))
}
}
impl Drop for Bomb {
fn drop(&mut self) {
COUNTER.fetch_sub(1, Relaxed);
}
}
let res = std::panic::catch_unwind(|| <[Bomb; 5]>::default());
let panic_msg = match res {
Ok(_) => unreachable!(),
Err(p) => p.downcast::<&'static str>().unwrap(),
};
assert_eq!(*panic_msg, "bomb limit exceeded");
// check that all bombs are successfully dropped
assert_eq!(COUNTER.load(Relaxed), 0);
panic!("test succeeded")
}
#[test]
fn empty_array_is_always_default() {
struct DoesNotImplDefault;
let _arr = <[DoesNotImplDefault; 0]>::default();
}
#[test]
fn array_map() {
let a = [1, 2, 3];
let b = a.map(|v| v + 1);
assert_eq!(b, [2, 3, 4]);
let a = [1u8, 2, 3];
let b = a.map(|v| v as u64);
assert_eq!(b, [1, 2, 3]);
}
// See note on above test for why `should_panic` is used.
#[test]
#[should_panic(expected = "test succeeded")]
fn array_map_drop_safety() {
static DROPPED: AtomicUsize = AtomicUsize::new(0);
struct DropCounter;
impl Drop for DropCounter {
fn drop(&mut self) {
DROPPED.fetch_add(1, Ordering::SeqCst);
}
}
let num_to_create = 5;
let success = std::panic::catch_unwind(|| {
let items = [0; 10];
let mut nth = 0;
items.map(|_| {
assert!(nth < num_to_create);
nth += 1;
DropCounter
});
});
assert!(success.is_err());
assert_eq!(DROPPED.load(Ordering::SeqCst), num_to_create);
panic!("test succeeded")
}
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#[test]
fn cell_allows_array_cycle() {
use core::cell::Cell;
#[derive(Debug)]
struct B<'a> {
a: [Cell<Option<&'a B<'a>>>; 2],
}
impl<'a> B<'a> {
fn new() -> B<'a> {
B { a: [Cell::new(None), Cell::new(None)] }
}
}
let b1 = B::new();
let b2 = B::new();
let b3 = B::new();
b1.a[0].set(Some(&b2));
b1.a[1].set(Some(&b3));
b2.a[0].set(Some(&b2));
b2.a[1].set(Some(&b3));
b3.a[0].set(Some(&b1));
b3.a[1].set(Some(&b2));
}
#[test]
fn array_from_fn() {
let array = core::array::from_fn(|idx| idx);
assert_eq!(array, [0, 1, 2, 3, 4]);
}
#[test]
fn array_try_from_fn() {
#[derive(Debug, PartialEq)]
enum SomeError {
Foo,
}
let array = core::array::try_from_fn(|i| Ok::<_, SomeError>(i));
assert_eq!(array, Ok([0, 1, 2, 3, 4]));
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let another_array = core::array::try_from_fn::<Result<(), _>, 2, _>(|_| Err(SomeError::Foo));
assert_eq!(another_array, Err(SomeError::Foo));
}
#[cfg(not(panic = "abort"))]
#[test]
fn array_try_from_fn_drops_inserted_elements_on_err() {
static DROP_COUNTER: AtomicUsize = AtomicUsize::new(0);
struct CountDrop;
impl Drop for CountDrop {
fn drop(&mut self) {
DROP_COUNTER.fetch_add(1, Ordering::SeqCst);
}
}
let _ = catch_unwind_silent(move || {
let _: Result<[CountDrop; 4], ()> = core::array::try_from_fn(|idx| {
if idx == 2 {
return Err(());
}
Ok(CountDrop)
});
});
assert_eq!(DROP_COUNTER.load(Ordering::SeqCst), 2);
}
#[cfg(not(panic = "abort"))]
#[test]
fn array_try_from_fn_drops_inserted_elements_on_panic() {
static DROP_COUNTER: AtomicUsize = AtomicUsize::new(0);
struct CountDrop;
impl Drop for CountDrop {
fn drop(&mut self) {
DROP_COUNTER.fetch_add(1, Ordering::SeqCst);
}
}
let _ = catch_unwind_silent(move || {
let _: Result<[CountDrop; 4], ()> = core::array::try_from_fn(|idx| {
if idx == 2 {
panic!("peek a boo");
}
Ok(CountDrop)
});
});
assert_eq!(DROP_COUNTER.load(Ordering::SeqCst), 2);
}
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#[cfg(not(panic = "abort"))]
// https://stackoverflow.com/a/59211505
fn catch_unwind_silent<F, R>(f: F) -> std::thread::Result<R>
where
F: FnOnce() -> R + core::panic::UnwindSafe,
{
let prev_hook = std::panic::take_hook();
std::panic::set_hook(Box::new(|_| {}));
let result = std::panic::catch_unwind(f);
std::panic::set_hook(prev_hook);
result
}
#[test]
fn array_split_array_mut() {
let mut v = [1, 2, 3, 4, 5, 6];
{
let (left, right) = v.split_array_mut::<0>();
assert_eq!(left, &mut []);
assert_eq!(right, &mut [1, 2, 3, 4, 5, 6]);
}
{
let (left, right) = v.split_array_mut::<6>();
assert_eq!(left, &mut [1, 2, 3, 4, 5, 6]);
assert_eq!(right, &mut []);
}
}
#[test]
fn array_rsplit_array_mut() {
let mut v = [1, 2, 3, 4, 5, 6];
{
let (left, right) = v.rsplit_array_mut::<0>();
assert_eq!(left, &mut [1, 2, 3, 4, 5, 6]);
assert_eq!(right, &mut []);
}
{
let (left, right) = v.rsplit_array_mut::<6>();
assert_eq!(left, &mut []);
assert_eq!(right, &mut [1, 2, 3, 4, 5, 6]);
}
}
#[should_panic]
#[test]
fn array_split_array_ref_out_of_bounds() {
let v = [1, 2, 3, 4, 5, 6];
v.split_array_ref::<7>();
}
#[should_panic]
#[test]
fn array_split_array_mut_out_of_bounds() {
let mut v = [1, 2, 3, 4, 5, 6];
v.split_array_mut::<7>();
}
#[should_panic]
#[test]
fn array_rsplit_array_ref_out_of_bounds() {
let v = [1, 2, 3, 4, 5, 6];
v.rsplit_array_ref::<7>();
}
#[should_panic]
#[test]
fn array_rsplit_array_mut_out_of_bounds() {
let mut v = [1, 2, 3, 4, 5, 6];
v.rsplit_array_mut::<7>();
}
#[test]
fn array_intoiter_advance_by() {
use std::cell::Cell;
struct DropCounter<'a>(usize, &'a Cell<usize>);
impl Drop for DropCounter<'_> {
fn drop(&mut self) {
let x = self.1.get();
self.1.set(x + 1);
}
}
let counter = Cell::new(0);
let a: [_; 100] = std::array::from_fn(|i| DropCounter(i, &counter));
let mut it = IntoIterator::into_iter(a);
let r = it.advance_by(1);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 99);
assert_eq!(counter.get(), 1);
let r = it.advance_by(0);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 99);
assert_eq!(counter.get(), 1);
let r = it.advance_by(11);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 88);
assert_eq!(counter.get(), 12);
let x = it.next();
assert_eq!(x.as_ref().map(|x| x.0), Some(12));
assert_eq!(it.len(), 87);
assert_eq!(counter.get(), 12);
drop(x);
assert_eq!(counter.get(), 13);
let r = it.advance_by(123456);
assert_eq!(r, Err(87));
assert_eq!(it.len(), 0);
assert_eq!(counter.get(), 100);
let r = it.advance_by(0);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 0);
assert_eq!(counter.get(), 100);
let r = it.advance_by(10);
assert_eq!(r, Err(0));
assert_eq!(it.len(), 0);
assert_eq!(counter.get(), 100);
}
#[test]
fn array_intoiter_advance_back_by() {
use std::cell::Cell;
struct DropCounter<'a>(usize, &'a Cell<usize>);
impl Drop for DropCounter<'_> {
fn drop(&mut self) {
let x = self.1.get();
self.1.set(x + 1);
}
}
let counter = Cell::new(0);
let a: [_; 100] = std::array::from_fn(|i| DropCounter(i, &counter));
let mut it = IntoIterator::into_iter(a);
let r = it.advance_back_by(1);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 99);
assert_eq!(counter.get(), 1);
let r = it.advance_back_by(0);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 99);
assert_eq!(counter.get(), 1);
let r = it.advance_back_by(11);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 88);
assert_eq!(counter.get(), 12);
let x = it.next_back();
assert_eq!(x.as_ref().map(|x| x.0), Some(87));
assert_eq!(it.len(), 87);
assert_eq!(counter.get(), 12);
drop(x);
assert_eq!(counter.get(), 13);
let r = it.advance_back_by(123456);
assert_eq!(r, Err(87));
assert_eq!(it.len(), 0);
assert_eq!(counter.get(), 100);
let r = it.advance_back_by(0);
assert_eq!(r, Ok(()));
assert_eq!(it.len(), 0);
assert_eq!(counter.get(), 100);
let r = it.advance_back_by(10);
assert_eq!(r, Err(0));
assert_eq!(it.len(), 0);
assert_eq!(counter.get(), 100);
}
#[test]
fn array_mixed_equality_integers() {
let array3: [i32; 3] = [1, 2, 3];
let array3b: [i32; 3] = [3, 2, 1];
let array4: [i32; 4] = [1, 2, 3, 4];
let slice3: &[i32] = &{ array3 };
let slice3b: &[i32] = &{ array3b };
let slice4: &[i32] = &{ array4 };
assert!(array3 == slice3);
assert!(array3 != slice3b);
assert!(array3 != slice4);
assert!(slice3 == array3);
assert!(slice3b != array3);
assert!(slice4 != array3);
let mut3: &mut [i32] = &mut { array3 };
let mut3b: &mut [i32] = &mut { array3b };
let mut4: &mut [i32] = &mut { array4 };
assert!(array3 == mut3);
assert!(array3 != mut3b);
assert!(array3 != mut4);
assert!(mut3 == array3);
assert!(mut3b != array3);
assert!(mut4 != array3);
}
#[test]
fn array_mixed_equality_nans() {
let array3: [f32; 3] = [1.0, std::f32::NAN, 3.0];
let slice3: &[f32] = &{ array3 };
assert!(!(array3 == slice3));
assert!(array3 != slice3);
assert!(!(slice3 == array3));
assert!(slice3 != array3);
let mut3: &mut [f32] = &mut { array3 };
assert!(!(array3 == mut3));
assert!(array3 != mut3);
assert!(!(mut3 == array3));
assert!(mut3 != array3);
}
#[test]
fn array_into_iter_fold() {
// Strings to help MIRI catch if we double-free or something
let a = ["Aa".to_string(), "Bb".to_string(), "Cc".to_string()];
let mut s = "s".to_string();
a.into_iter().for_each(|b| s += &b);
assert_eq!(s, "sAaBbCc");
let a = [1, 2, 3, 4, 5, 6];
let mut it = a.into_iter();
it.advance_by(1).unwrap();
it.advance_back_by(2).unwrap();
let s = it.fold(10, |a, b| 10 * a + b);
assert_eq!(s, 10234);
}
#[test]
fn array_into_iter_rfold() {
// Strings to help MIRI catch if we double-free or something
let a = ["Aa".to_string(), "Bb".to_string(), "Cc".to_string()];
let mut s = "s".to_string();
a.into_iter().rev().for_each(|b| s += &b);
assert_eq!(s, "sCcBbAa");
let a = [1, 2, 3, 4, 5, 6];
let mut it = a.into_iter();
it.advance_by(1).unwrap();
it.advance_back_by(2).unwrap();
let s = it.rfold(10, |a, b| 10 * a + b);
assert_eq!(s, 10432);
}