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|
extern crate arrayvec;
#[macro_use] extern crate matches;
use arrayvec::ArrayVec;
use arrayvec::ArrayString;
use std::mem;
use arrayvec::CapacityError;
use std::collections::HashMap;
#[test]
fn test_simple() {
use std::ops::Add;
let mut vec: ArrayVec<Vec<i32>, 3> = ArrayVec::new();
vec.push(vec![1, 2, 3, 4]);
vec.push(vec![10]);
vec.push(vec![-1, 13, -2]);
for elt in &vec {
assert_eq!(elt.iter().fold(0, Add::add), 10);
}
let sum_len = vec.into_iter().map(|x| x.len()).fold(0, Add::add);
assert_eq!(sum_len, 8);
}
#[test]
fn test_capacity_left() {
let mut vec: ArrayVec<usize, 4> = ArrayVec::new();
assert_eq!(vec.remaining_capacity(), 4);
vec.push(1);
assert_eq!(vec.remaining_capacity(), 3);
vec.push(2);
assert_eq!(vec.remaining_capacity(), 2);
vec.push(3);
assert_eq!(vec.remaining_capacity(), 1);
vec.push(4);
assert_eq!(vec.remaining_capacity(), 0);
}
#[test]
fn test_extend_from_slice() {
let mut vec: ArrayVec<usize, 10> = ArrayVec::new();
vec.try_extend_from_slice(&[1, 2, 3]).unwrap();
assert_eq!(vec.len(), 3);
assert_eq!(&vec[..], &[1, 2, 3]);
assert_eq!(vec.pop(), Some(3));
assert_eq!(&vec[..], &[1, 2]);
}
#[test]
fn test_extend_from_slice_error() {
let mut vec: ArrayVec<usize, 10> = ArrayVec::new();
vec.try_extend_from_slice(&[1, 2, 3]).unwrap();
let res = vec.try_extend_from_slice(&[0; 8]);
assert_matches!(res, Err(_));
let mut vec: ArrayVec<usize, 0> = ArrayVec::new();
let res = vec.try_extend_from_slice(&[0; 1]);
assert_matches!(res, Err(_));
}
#[test]
fn test_try_from_slice_error() {
use arrayvec::ArrayVec;
use std::convert::TryInto as _;
let res: Result<ArrayVec<_, 2>, _> = (&[1, 2, 3] as &[_]).try_into();
assert_matches!(res, Err(_));
}
#[test]
fn test_u16_index() {
const N: usize = 4096;
let mut vec: ArrayVec<_, N> = ArrayVec::new();
for _ in 0..N {
assert!(vec.try_push(1u8).is_ok());
}
assert!(vec.try_push(0).is_err());
assert_eq!(vec.len(), N);
}
#[test]
fn test_iter() {
let mut iter = ArrayVec::from([1, 2, 3]).into_iter();
assert_eq!(iter.size_hint(), (3, Some(3)));
assert_eq!(iter.next_back(), Some(3));
assert_eq!(iter.next(), Some(1));
assert_eq!(iter.next_back(), Some(2));
assert_eq!(iter.size_hint(), (0, Some(0)));
assert_eq!(iter.next_back(), None);
}
#[test]
fn test_drop() {
use std::cell::Cell;
let flag = &Cell::new(0);
#[derive(Clone)]
struct Bump<'a>(&'a Cell<i32>);
impl<'a> Drop for Bump<'a> {
fn drop(&mut self) {
let n = self.0.get();
self.0.set(n + 1);
}
}
{
let mut array = ArrayVec::<Bump, 128>::new();
array.push(Bump(flag));
array.push(Bump(flag));
}
assert_eq!(flag.get(), 2);
// test something with the nullable pointer optimization
flag.set(0);
{
let mut array = ArrayVec::<_, 3>::new();
array.push(vec![Bump(flag)]);
array.push(vec![Bump(flag), Bump(flag)]);
array.push(vec![]);
let push4 = array.try_push(vec![Bump(flag)]);
assert_eq!(flag.get(), 0);
drop(push4);
assert_eq!(flag.get(), 1);
drop(array.pop());
assert_eq!(flag.get(), 1);
drop(array.pop());
assert_eq!(flag.get(), 3);
}
assert_eq!(flag.get(), 4);
// test into_inner
flag.set(0);
{
let mut array = ArrayVec::<_, 3>::new();
array.push(Bump(flag));
array.push(Bump(flag));
array.push(Bump(flag));
let inner = array.into_inner();
assert!(inner.is_ok());
assert_eq!(flag.get(), 0);
drop(inner);
assert_eq!(flag.get(), 3);
}
// test take
flag.set(0);
{
let mut array1 = ArrayVec::<_, 3>::new();
array1.push(Bump(flag));
array1.push(Bump(flag));
array1.push(Bump(flag));
let array2 = array1.take();
assert_eq!(flag.get(), 0);
drop(array1);
assert_eq!(flag.get(), 0);
drop(array2);
assert_eq!(flag.get(), 3);
}
// test cloning into_iter
flag.set(0);
{
let mut array = ArrayVec::<_, 3>::new();
array.push(Bump(flag));
array.push(Bump(flag));
array.push(Bump(flag));
let mut iter = array.into_iter();
assert_eq!(flag.get(), 0);
iter.next();
assert_eq!(flag.get(), 1);
let clone = iter.clone();
assert_eq!(flag.get(), 1);
drop(clone);
assert_eq!(flag.get(), 3);
drop(iter);
assert_eq!(flag.get(), 5);
}
}
#[test]
fn test_drop_panics() {
use std::cell::Cell;
use std::panic::catch_unwind;
use std::panic::AssertUnwindSafe;
let flag = &Cell::new(0);
struct Bump<'a>(&'a Cell<i32>);
// Panic in the first drop
impl<'a> Drop for Bump<'a> {
fn drop(&mut self) {
let n = self.0.get();
self.0.set(n + 1);
if n == 0 {
panic!("Panic in Bump's drop");
}
}
}
// check if rust is new enough
flag.set(0);
{
let array = vec![Bump(flag), Bump(flag)];
let res = catch_unwind(AssertUnwindSafe(|| {
drop(array);
}));
assert!(res.is_err());
}
if flag.get() != 2 {
println!("test_drop_panics: skip, this version of Rust doesn't continue in drop_in_place");
return;
}
flag.set(0);
{
let mut array = ArrayVec::<Bump, 128>::new();
array.push(Bump(flag));
array.push(Bump(flag));
array.push(Bump(flag));
let res = catch_unwind(AssertUnwindSafe(|| {
drop(array);
}));
assert!(res.is_err());
}
// Check that all the elements drop, even if the first drop panics.
assert_eq!(flag.get(), 3);
flag.set(0);
{
let mut array = ArrayVec::<Bump, 16>::new();
array.push(Bump(flag));
array.push(Bump(flag));
array.push(Bump(flag));
array.push(Bump(flag));
array.push(Bump(flag));
let i = 2;
let tail_len = array.len() - i;
let res = catch_unwind(AssertUnwindSafe(|| {
array.truncate(i);
}));
assert!(res.is_err());
// Check that all the tail elements drop, even if the first drop panics.
assert_eq!(flag.get(), tail_len as i32);
}
}
#[test]
fn test_extend() {
let mut range = 0..10;
let mut array: ArrayVec<_, 5> = range.by_ref().take(5).collect();
assert_eq!(&array[..], &[0, 1, 2, 3, 4]);
assert_eq!(range.next(), Some(5));
array.extend(range.by_ref().take(0));
assert_eq!(range.next(), Some(6));
let mut array: ArrayVec<_, 10> = (0..3).collect();
assert_eq!(&array[..], &[0, 1, 2]);
array.extend(3..5);
assert_eq!(&array[..], &[0, 1, 2, 3, 4]);
}
#[should_panic]
#[test]
fn test_extend_capacity_panic_1() {
let mut range = 0..10;
let _: ArrayVec<_, 5> = range.by_ref().collect();
}
#[should_panic]
#[test]
fn test_extend_capacity_panic_2() {
let mut range = 0..10;
let mut array: ArrayVec<_, 5> = range.by_ref().take(5).collect();
assert_eq!(&array[..], &[0, 1, 2, 3, 4]);
assert_eq!(range.next(), Some(5));
array.extend(range.by_ref().take(1));
}
#[test]
fn test_is_send_sync() {
let data = ArrayVec::<Vec<i32>, 5>::new();
&data as &dyn Send;
&data as &dyn Sync;
}
#[test]
fn test_compact_size() {
// 4 bytes + padding + length
type ByteArray = ArrayVec<u8, 4>;
println!("{}", mem::size_of::<ByteArray>());
assert!(mem::size_of::<ByteArray>() <= 2 * mem::size_of::<u32>());
// just length
type EmptyArray = ArrayVec<u8, 0>;
println!("{}", mem::size_of::<EmptyArray>());
assert!(mem::size_of::<EmptyArray>() <= mem::size_of::<u32>());
// 3 elements + padding + length
type QuadArray = ArrayVec<u32, 3>;
println!("{}", mem::size_of::<QuadArray>());
assert!(mem::size_of::<QuadArray>() <= 4 * 4 + mem::size_of::<u32>());
}
#[test]
fn test_still_works_with_option_arrayvec() {
type RefArray = ArrayVec<&'static i32, 2>;
let array = Some(RefArray::new());
assert!(array.is_some());
println!("{:?}", array);
}
#[test]
fn test_drain() {
let mut v = ArrayVec::from([0; 8]);
v.pop();
v.drain(0..7);
assert_eq!(&v[..], &[]);
v.extend(0..8);
v.drain(1..4);
assert_eq!(&v[..], &[0, 4, 5, 6, 7]);
let u: ArrayVec<_, 3> = v.drain(1..4).rev().collect();
assert_eq!(&u[..], &[6, 5, 4]);
assert_eq!(&v[..], &[0, 7]);
v.drain(..);
assert_eq!(&v[..], &[]);
}
#[test]
fn test_drain_range_inclusive() {
let mut v = ArrayVec::from([0; 8]);
v.drain(0..=7);
assert_eq!(&v[..], &[]);
v.extend(0..8);
v.drain(1..=4);
assert_eq!(&v[..], &[0, 5, 6, 7]);
let u: ArrayVec<_, 3> = v.drain(1..=2).rev().collect();
assert_eq!(&u[..], &[6, 5]);
assert_eq!(&v[..], &[0, 7]);
v.drain(..);
assert_eq!(&v[..], &[]);
}
#[test]
#[should_panic]
fn test_drain_range_inclusive_oob() {
let mut v = ArrayVec::from([0; 0]);
v.drain(0..=0);
}
#[test]
fn test_retain() {
let mut v = ArrayVec::from([0; 8]);
for (i, elt) in v.iter_mut().enumerate() {
*elt = i;
}
v.retain(|_| true);
assert_eq!(&v[..], &[0, 1, 2, 3, 4, 5, 6, 7]);
v.retain(|elt| {
*elt /= 2;
*elt % 2 == 0
});
assert_eq!(&v[..], &[0, 0, 2, 2]);
v.retain(|_| false);
assert_eq!(&v[..], &[]);
}
#[test]
#[should_panic]
fn test_drain_oob() {
let mut v = ArrayVec::from([0; 8]);
v.pop();
v.drain(0..8);
}
#[test]
#[should_panic]
fn test_drop_panic() {
struct DropPanic;
impl Drop for DropPanic {
fn drop(&mut self) {
panic!("drop");
}
}
let mut array = ArrayVec::<DropPanic, 1>::new();
array.push(DropPanic);
}
#[test]
#[should_panic]
fn test_drop_panic_into_iter() {
struct DropPanic;
impl Drop for DropPanic {
fn drop(&mut self) {
panic!("drop");
}
}
let mut array = ArrayVec::<DropPanic, 1>::new();
array.push(DropPanic);
array.into_iter();
}
#[test]
fn test_insert() {
let mut v = ArrayVec::from([]);
assert_matches!(v.try_push(1), Err(_));
let mut v = ArrayVec::<_, 3>::new();
v.insert(0, 0);
v.insert(1, 1);
//let ret1 = v.try_insert(3, 3);
//assert_matches!(ret1, Err(InsertError::OutOfBounds(_)));
assert_eq!(&v[..], &[0, 1]);
v.insert(2, 2);
assert_eq!(&v[..], &[0, 1, 2]);
let ret2 = v.try_insert(1, 9);
assert_eq!(&v[..], &[0, 1, 2]);
assert_matches!(ret2, Err(_));
let mut v = ArrayVec::from([2]);
assert_matches!(v.try_insert(0, 1), Err(CapacityError { .. }));
assert_matches!(v.try_insert(1, 1), Err(CapacityError { .. }));
//assert_matches!(v.try_insert(2, 1), Err(CapacityError { .. }));
}
#[test]
fn test_into_inner_1() {
let mut v = ArrayVec::from([1, 2]);
v.pop();
let u = v.clone();
assert_eq!(v.into_inner(), Err(u));
}
#[test]
fn test_into_inner_2() {
let mut v = ArrayVec::<String, 4>::new();
v.push("a".into());
v.push("b".into());
v.push("c".into());
v.push("d".into());
assert_eq!(v.into_inner().unwrap(), ["a", "b", "c", "d"]);
}
#[test]
fn test_into_inner_3() {
let mut v = ArrayVec::<i32, 4>::new();
v.extend(1..=4);
assert_eq!(v.into_inner().unwrap(), [1, 2, 3, 4]);
}
#[test]
fn test_take() {
let mut v1 = ArrayVec::<i32, 4>::new();
v1.extend(1..=4);
let v2 = v1.take();
assert!(v1.into_inner().is_err());
assert_eq!(v2.into_inner().unwrap(), [1, 2, 3, 4]);
}
#[cfg(feature="std")]
#[test]
fn test_write() {
use std::io::Write;
let mut v = ArrayVec::<_, 8>::new();
write!(&mut v, "\x01\x02\x03").unwrap();
assert_eq!(&v[..], &[1, 2, 3]);
let r = v.write(&[9; 16]).unwrap();
assert_eq!(r, 5);
assert_eq!(&v[..], &[1, 2, 3, 9, 9, 9, 9, 9]);
}
#[test]
fn array_clone_from() {
let mut v = ArrayVec::<_, 4>::new();
v.push(vec![1, 2]);
v.push(vec![3, 4, 5]);
v.push(vec![6]);
let reference = v.to_vec();
let mut u = ArrayVec::<_, 4>::new();
u.clone_from(&v);
assert_eq!(&u, &reference[..]);
let mut t = ArrayVec::<_, 4>::new();
t.push(vec![97]);
t.push(vec![]);
t.push(vec![5, 6, 2]);
t.push(vec![2]);
t.clone_from(&v);
assert_eq!(&t, &reference[..]);
t.clear();
t.clone_from(&v);
assert_eq!(&t, &reference[..]);
}
#[cfg(feature="std")]
#[test]
fn test_string() {
use std::error::Error;
let text = "hello world";
let mut s = ArrayString::<16>::new();
s.try_push_str(text).unwrap();
assert_eq!(&s, text);
assert_eq!(text, &s);
// Make sure Hash / Eq / Borrow match up so we can use HashMap
let mut map = HashMap::new();
map.insert(s, 1);
assert_eq!(map[text], 1);
let mut t = ArrayString::<2>::new();
assert!(t.try_push_str(text).is_err());
assert_eq!(&t, "");
t.push_str("ab");
// DerefMut
let tmut: &mut str = &mut t;
assert_eq!(tmut, "ab");
// Test Error trait / try
let t = || -> Result<(), Box<dyn Error>> {
let mut t = ArrayString::<2>::new();
t.try_push_str(text)?;
Ok(())
}();
assert!(t.is_err());
}
#[test]
fn test_string_from() {
let text = "hello world";
// Test `from` constructor
let u = ArrayString::<11>::from(text).unwrap();
assert_eq!(&u, text);
assert_eq!(u.len(), text.len());
}
#[test]
fn test_string_parse_from_str() {
let text = "hello world";
let u: ArrayString<11> = text.parse().unwrap();
assert_eq!(&u, text);
assert_eq!(u.len(), text.len());
}
#[test]
fn test_string_from_bytes() {
let text = "hello world";
let u = ArrayString::from_byte_string(b"hello world").unwrap();
assert_eq!(&u, text);
assert_eq!(u.len(), text.len());
}
#[test]
fn test_string_clone() {
let text = "hi";
let mut s = ArrayString::<4>::new();
s.push_str("abcd");
let t = ArrayString::<4>::from(text).unwrap();
s.clone_from(&t);
assert_eq!(&t, &s);
}
#[test]
fn test_string_push() {
let text = "abcαβγ";
let mut s = ArrayString::<8>::new();
for c in text.chars() {
if let Err(_) = s.try_push(c) {
break;
}
}
assert_eq!("abcαβ", &s[..]);
s.push('x');
assert_eq!("abcαβx", &s[..]);
assert!(s.try_push('x').is_err());
}
#[test]
fn test_insert_at_length() {
let mut v = ArrayVec::<_, 8>::new();
let result1 = v.try_insert(0, "a");
let result2 = v.try_insert(1, "b");
assert!(result1.is_ok() && result2.is_ok());
assert_eq!(&v[..], &["a", "b"]);
}
#[should_panic]
#[test]
fn test_insert_out_of_bounds() {
let mut v = ArrayVec::<_, 8>::new();
let _ = v.try_insert(1, "test");
}
/*
* insert that pushes out the last
let mut u = ArrayVec::from([1, 2, 3, 4]);
let ret = u.try_insert(3, 99);
assert_eq!(&u[..], &[1, 2, 3, 99]);
assert_matches!(ret, Err(_));
let ret = u.try_insert(4, 77);
assert_eq!(&u[..], &[1, 2, 3, 99]);
assert_matches!(ret, Err(_));
*/
#[test]
fn test_drop_in_insert() {
use std::cell::Cell;
let flag = &Cell::new(0);
struct Bump<'a>(&'a Cell<i32>);
impl<'a> Drop for Bump<'a> {
fn drop(&mut self) {
let n = self.0.get();
self.0.set(n + 1);
}
}
flag.set(0);
{
let mut array = ArrayVec::<_, 2>::new();
array.push(Bump(flag));
array.insert(0, Bump(flag));
assert_eq!(flag.get(), 0);
let ret = array.try_insert(1, Bump(flag));
assert_eq!(flag.get(), 0);
assert_matches!(ret, Err(_));
drop(ret);
assert_eq!(flag.get(), 1);
}
assert_eq!(flag.get(), 3);
}
#[test]
fn test_pop_at() {
let mut v = ArrayVec::<String, 4>::new();
let s = String::from;
v.push(s("a"));
v.push(s("b"));
v.push(s("c"));
v.push(s("d"));
assert_eq!(v.pop_at(4), None);
assert_eq!(v.pop_at(1), Some(s("b")));
assert_eq!(v.pop_at(1), Some(s("c")));
assert_eq!(v.pop_at(2), None);
assert_eq!(&v[..], &["a", "d"]);
}
#[test]
fn test_sizes() {
let v = ArrayVec::from([0u8; 1 << 16]);
assert_eq!(vec![0u8; v.len()], &v[..]);
}
#[test]
fn test_default() {
use std::net;
let s: ArrayString<4> = Default::default();
// Something without `Default` implementation.
let v: ArrayVec<net::TcpStream, 4> = Default::default();
assert_eq!(s.len(), 0);
assert_eq!(v.len(), 0);
}
#[cfg(feature="array-sizes-33-128")]
#[test]
fn test_sizes_33_128() {
ArrayVec::from([0u8; 52]);
ArrayVec::from([0u8; 127]);
}
#[cfg(feature="array-sizes-129-255")]
#[test]
fn test_sizes_129_255() {
ArrayVec::from([0u8; 237]);
ArrayVec::from([0u8; 255]);
}
#[test]
fn test_extend_zst() {
let mut range = 0..10;
#[derive(Copy, Clone, PartialEq, Debug)]
struct Z; // Zero sized type
let mut array: ArrayVec<_, 5> = range.by_ref().take(5).map(|_| Z).collect();
assert_eq!(&array[..], &[Z; 5]);
assert_eq!(range.next(), Some(5));
array.extend(range.by_ref().take(0).map(|_| Z));
assert_eq!(range.next(), Some(6));
let mut array: ArrayVec<_, 10> = (0..3).map(|_| Z).collect();
assert_eq!(&array[..], &[Z; 3]);
array.extend((3..5).map(|_| Z));
assert_eq!(&array[..], &[Z; 5]);
assert_eq!(array.len(), 5);
}
#[test]
fn test_try_from_argument() {
use core::convert::TryFrom;
let v = ArrayString::<16>::try_from(format_args!("Hello {}", 123)).unwrap();
assert_eq!(&v, "Hello 123");
}
#[test]
fn allow_max_capacity_arrayvec_type() {
// this type is allowed to be used (but can't be constructed)
let _v: ArrayVec<(), {usize::MAX}>;
}
#[should_panic(expected="largest supported capacity")]
#[test]
fn deny_max_capacity_arrayvec_value() {
if mem::size_of::<usize>() <= mem::size_of::<u32>() {
panic!("This test does not work on this platform. 'largest supported capacity'");
}
// this type is allowed to be used (but can't be constructed)
let _v: ArrayVec<(), {usize::MAX}> = ArrayVec::new();
}
#[should_panic(expected="index out of bounds")]
#[test]
fn deny_max_capacity_arrayvec_value_const() {
if mem::size_of::<usize>() <= mem::size_of::<u32>() {
panic!("This test does not work on this platform. 'index out of bounds'");
}
// this type is allowed to be used (but can't be constructed)
let _v: ArrayVec<(), {usize::MAX}> = ArrayVec::new_const();
}
#[test]
fn test_arrayvec_const_constructible() {
const OF_U8: ArrayVec<Vec<u8>, 10> = ArrayVec::new_const();
let mut var = OF_U8;
assert!(var.is_empty());
assert_eq!(var, ArrayVec::new());
var.push(vec![3, 5, 8]);
assert_eq!(var[..], [vec![3, 5, 8]]);
}
#[test]
fn test_arraystring_const_constructible() {
const AS: ArrayString<10> = ArrayString::new_const();
let mut var = AS;
assert!(var.is_empty());
assert_eq!(var, ArrayString::new());
var.push_str("hello");
assert_eq!(var, *"hello");
}
#[test]
fn test_arraystring_zero_filled_has_some_sanity_checks() {
let string = ArrayString::<4>::zero_filled();
assert_eq!(string.as_str(), "\0\0\0\0");
assert_eq!(string.len(), 4);
}
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