fparkan/vendor/encode_unicode/tests/oks.rs

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/* Copyright 2016 The encode_unicode Developers
*
* Licensed under the Apache License, Version 2.0, <LICENSE-APACHE or
* http://apache.org/licenses/LICENSE-2.0> or the MIT license <LICENSE-MIT or
* http://opensource.org/licenses/MIT>, at your option. This file may not be
* copied, modified, or distributed except according to those terms.
*/
//! Test that every method gives the correct result for valid values.
//! Except iterators, which are stateful.
use std::char;
use std::str::{self,FromStr};
use std::cmp::Ordering;
use std::hash::{Hash,Hasher};
use std::collections::hash_map::DefaultHasher;
#[allow(deprecated,unused)]
use std::ascii::AsciiExt;
use std::iter::FromIterator;
extern crate encode_unicode;
use encode_unicode::*;
#[test]
fn equal_defaults() {
assert_eq!(Utf8Char::default().to_char(), char::default());
assert_eq!(Utf16Char::default().to_char(), char::default());
}
#[test]
fn same_size_as_char() {
use std::mem::size_of;
assert_eq!(size_of::<Utf8Char>(), size_of::<char>());
assert_eq!(size_of::<Utf16Char>(), size_of::<char>());
}
#[test]
fn utf16chars_to_string() {
let s = "\u{10ffff}\u{100000}\u{fee1}";
let u16cs = s.chars().map(|c| Utf16Char::from(c) ).collect::<Vec<Utf16Char>>();
let mut from_refs: String = u16cs.iter().collect();
assert_eq!(&from_refs, s);
from_refs.extend(&u16cs);
assert_eq!(&from_refs[s.len()..], s);
let mut from_vals: String = u16cs.iter().cloned().collect();
assert_eq!(&from_vals, s);
from_vals.extend(u16cs);
assert_eq!(&from_vals[s.len()..], s);
}
const EDGES_AND_BETWEEN: [char;19] = [
'\u{0}',// min
'\u{3b}',// middle ASCII
'A',// min ASCII uppercase
'N',// middle ASCII uppercase
'Z',// max ASCII uppercase
'a',// min ASCII lowercase
'm',// middle ASCII lowercase
'z',// max ASCII lowercase
'\u{7f}',// max ASCII and 1-byte UTF-8
'\u{80}',// min 2-byte UTF-8
'\u{111}',// middle
'\u{7ff}',// max 2-byte UTF-8
'\u{800}',// min 3-byte UTF-8
'\u{d7ff}',// before reserved
'\u{e000}',// after reserved
'\u{ffff}',// max UTF-16 single and 3-byte UTF-8
'\u{10000}',// min UTF-16 surrogate and 4-byte UTF-8
'\u{abcde}',// middle
'\u{10ffff}',// max
];
fn eq_cmp_hash(c: char) -> (Utf8Char, Utf16Char) {
fn hash<T:Hash>(v: T) -> u64 {
#[allow(deprecated)]
let mut hasher = DefaultHasher::new();
v.hash(&mut hasher);
hasher.finish()
}
let u8c = c.to_utf8();
assert_eq!(u8c.to_char(), c);
assert_eq!(u8c, u8c);
assert_eq!(hash(u8c), hash(u8c));
assert_eq!(u8c.cmp(&u8c), Ordering::Equal);
assert!(u8c.eq_ignore_ascii_case(&u8c));
let u16c = c.to_utf16();
assert_eq!(u16c.to_char(), c);
assert_eq!(u16c, u16c);
assert_eq!(hash(u16c), hash(c));
assert_eq!(u16c.cmp(&u16c), Ordering::Equal);
assert!(u16c.eq_ignore_ascii_case(&u16c));
assert_eq!(u8c, c);
assert_eq!(c, u8c);
assert_eq!(u16c, c);
assert_eq!(c, u16c);
assert_eq!(u8c, u16c);
assert_eq!(u16c, u8c);
assert_eq!(u8c == c as u8, c <= '\u{7F}');
assert_eq!(u16c == c as u8, c <= '\u{FF}');
assert_eq!(u16c == c as u16, c <= '\u{FFFF}');
assert_eq!(u8c.partial_cmp(&c), Some(Ordering::Equal));
assert_eq!(c.partial_cmp(&u8c), Some(Ordering::Equal));
assert_eq!(u16c.partial_cmp(&c), Some(Ordering::Equal));
assert_eq!(c.partial_cmp(&u16c), Some(Ordering::Equal));
assert_eq!(u8c.partial_cmp(&u16c), Some(Ordering::Equal));
assert_eq!(u16c.partial_cmp(&u8c), Some(Ordering::Equal));
for &other in &EDGES_AND_BETWEEN {
let u8other = other.to_utf8();
assert_eq!(u8c == u8other, c == other);
assert_eq!(hash(u8c)==hash(u8other), hash(c)==hash(other));
assert_eq!(u8c.cmp(&u8other), c.cmp(&other));
assert_eq!(u8c.eq_ignore_ascii_case(&u8other), c.eq_ignore_ascii_case(&other));
assert_eq!(u8c.partial_cmp(&other), c.partial_cmp(&other));
assert_eq!(c.partial_cmp(&u8other), c.partial_cmp(&other));
assert_eq!(u8other.partial_cmp(&c), other.partial_cmp(&c));
assert_eq!(other.partial_cmp(&u8c), other.partial_cmp(&c));
assert_eq!(u8c == other as u8, other as u8 <= 127 && c == other as u8 as char);
let u16other = other.to_utf16();
assert_eq!(u16c == u16other, c == other);
assert_eq!(hash(u16c)==hash(u16other), hash(c)==hash(other));
assert_eq!(u16c.cmp(&u16other), c.cmp(&other));
assert_eq!(u16c.eq_ignore_ascii_case(&u16other), c.eq_ignore_ascii_case(&other));
assert_eq!(u16c.partial_cmp(&other), c.partial_cmp(&other));
assert_eq!(c.partial_cmp(&u16other), c.partial_cmp(&other));
assert_eq!(u16other.partial_cmp(&c), other.partial_cmp(&c));
assert_eq!(other.partial_cmp(&u16c), other.partial_cmp(&c));
assert_eq!(u16c == other as u8, c == other as u8 as char);
assert_eq!(u16c == other as u16, c as u32 == other as u16 as u32);
assert_eq!(u8c == u16other, c == other);
assert_eq!(u16c == u8other, c == other);
assert_eq!(u8c.partial_cmp(&u16other), c.partial_cmp(&other));
assert_eq!(u16c.partial_cmp(&u8other), c.partial_cmp(&other));
assert_eq!(u8other.partial_cmp(&u16c), other.partial_cmp(&c));
assert_eq!(u16other.partial_cmp(&u8c), other.partial_cmp(&c));
}
(u8c, u16c)
}
fn iterators(c: char) {
let mut iter = c.iter_utf8_bytes();
let mut buf = [0; 4];
let mut iter_ref = c.encode_utf8(&mut buf[..]).as_bytes().iter();
for _ in 0..6 {
assert_eq!(iter.size_hint(), iter_ref.size_hint());
assert_eq!(format!("{:?}", iter), format!("{:?}", iter_ref.as_slice()));
assert_eq!(iter.next(), iter_ref.next().cloned());
}
let mut iter = c.iter_utf16_units();
let mut buf = [0; 2];
let mut iter_ref = c.encode_utf16(&mut buf[..]).iter();
for _ in 0..4 {
assert_eq!(iter.size_hint(), iter_ref.size_hint());
assert_eq!(format!("{:?}", iter), format!("{:?}", iter_ref.as_slice()));
assert_eq!(iter.next(), iter_ref.next().cloned());
}
}
fn test(c: char) {
assert_eq!(char::from_u32(c as u32), Some(c));
assert_eq!(char::from_u32_detailed(c as u32), Ok(c));
assert_eq!(unsafe{ char::from_u32_unchecked(c as u32) }, c);
let (u8c, u16c) = eq_cmp_hash(c);
iterators(c);
assert_eq!(Utf16Char::from(u8c), u16c);
assert_eq!(Utf8Char::from(u16c), u8c);
let utf8_len = c.len_utf8();
let utf16_len = c.len_utf16();
let mut as_str = c.to_string();
// UTF-8
let mut buf = [0; 4];
let reference = c.encode_utf8(&mut buf[..]).as_bytes();
let len = reference.len(); // short name because it is used in many places.
assert_eq!(len, utf8_len);
assert_eq!(reference[0].extra_utf8_bytes(), Ok(len-1));
assert_eq!(reference[0].extra_utf8_bytes_unchecked(), len-1);
assert_eq!(AsRef::<[u8]>::as_ref(&u8c), reference);
let (arr,arrlen) = u8c.to_array();
assert_eq!(arrlen, len);
assert_eq!(Utf8Char::from_array(arr), Ok(u8c));
assert_eq!(c.to_utf8_array(), (arr, len));
let str_ = str::from_utf8(reference).unwrap();
let ustr = Utf8Char::from_str(str_).unwrap();
assert_eq!(ustr.to_array().0, arr);// bitwise equality
assert_eq!(char::from_utf8_array(arr), Ok(c));
let mut longer = [0xff; 5]; // 0xff is never valid
longer[..len].copy_from_slice(reference);
assert_eq!(char::from_utf8_slice_start(reference), Ok((c,len)));
assert_eq!(char::from_utf8_slice_start(&longer), Ok((c,len)));
assert_eq!(Utf8Char::from_slice_start(reference), Ok((u8c,len)));
assert_eq!(Utf8Char::from_slice_start(&longer), Ok((u8c,len)));
for other in &mut longer[len..] {*other = b'?'}
assert_eq!(Utf8Char::from_str(str_), Ok(u8c));
assert_eq!(Utf8Char::from_str_start(str_), Ok((u8c,len)));
assert_eq!(Utf8Char::from_str_start(str::from_utf8(&longer).unwrap()), Ok((u8c,len)));
unsafe {
// Hopefully make bugs easier to catch by making reads into unallocated memory by filling
// a jemalloc bin. See table on http://jemalloc.net/jemalloc.3.html for bin sizes.
// I have no idea whether this works.
let mut boxed = Box::new([0xffu8; 16]);
let start = boxed.len()-len; // reach the end
boxed[start..].copy_from_slice(reference);
let slice = &boxed[start..start]; // length of slice should be ignored.
assert_eq!(Utf8Char::from_slice_start_unchecked(slice), (u8c,len));
}
assert_eq!(&Vec::<u8>::from_iter(Some(u8c))[..], reference);
assert_eq!(&String::from_iter(Some(u8c))[..], str_);
assert_eq!(format!("{:?}", u8c), format!("{:?}", c));
assert_eq!(format!("{}", u8c), format!("{}", c));
assert_eq!(u8c.is_ascii(), c.is_ascii());
assert_eq!(u8c.to_ascii_lowercase().to_char(), c.to_ascii_lowercase());
assert_eq!(u8c.to_ascii_uppercase().to_char(), c.to_ascii_uppercase());
// UTF-16
let mut buf = [0; 2];
let reference = c.encode_utf16(&mut buf[..]);
let len = reference.len();
assert_eq!(len, utf16_len);
assert_eq!(reference[0].utf16_needs_extra_unit(), Ok(len==2));
assert_eq!(reference[0].is_utf16_leading_surrogate(), len==2);
assert_eq!(u16c.as_ref(), reference);
let mut longer = [0; 3];
longer[..len].copy_from_slice(reference);
assert_eq!(char::from_utf16_slice_start(reference), Ok((c,len)));
assert_eq!(char::from_utf16_slice_start(&longer), Ok((c,len)));
assert_eq!(Utf16Char::from_slice_start(reference), Ok((u16c,len)));
assert_eq!(Utf16Char::from_slice_start(&longer), Ok((u16c,len)));
assert_eq!(Utf16Char::from_str(&as_str), Ok(u16c));
as_str.push(c);
assert_eq!(Utf16Char::from_str_start(&as_str), Ok((u16c,utf8_len)));
unsafe {
// Hopefully make bugs easier to catch by making reads into unallocated memory by filling
// a jemalloc bin. See table on http://jemalloc.net/jemalloc.3.html for bin sizes.
// I have no idea whether this works.
let mut boxed = Box::new([0u16; 8]);
let start = boxed.len()-len; // reach the end
boxed[start..].copy_from_slice(reference);
let slice = &boxed[start..start]; // length of slice should be ignored.
assert_eq!(Utf16Char::from_slice_start_unchecked(slice), (u16c,len));
}
let array = c.to_utf16_array();
let tuple = c.to_utf16_tuple();
assert_eq!(&array[..reference.len()], reference);
assert_eq!(tuple, (reference[0],reference.get(1).cloned()));
assert_eq!(char::from_utf16_array(array), Ok(c));
assert_eq!(char::from_utf16_tuple(tuple), Ok(c));
assert_eq!(c.to_utf16().to_char(), c);
assert_eq!(&Vec::<u16>::from_iter(Some(u16c))[..], reference);
assert_eq!(format!("{:?}", u16c), format!("{:?}", c));
assert_eq!(format!("{}", u16c), format!("{}", c));
assert_eq!(u16c.is_ascii(), c.is_ascii());
assert_eq!(u16c.to_ascii_lowercase().to_char(), c.to_ascii_lowercase());
assert_eq!(u16c.to_ascii_uppercase().to_char(), c.to_ascii_uppercase());
}
#[test]
fn edges_middle() {
for &c in &EDGES_AND_BETWEEN {
test(c);
}
}
#[test]
#[ignore]
fn all() {
for cp in std::iter::Iterator::chain(0..0xd800, 0xe000..0x110000) {
let c = char::from_u32(cp).expect("not a valid char");
test(c);
}
}