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rust/src/libcollections/str.rs
Corey Farwell 98af642f5c Remove a ton of public reexports 
Remove most of the public reexports mentioned in #19253

These are all leftovers from the enum namespacing transition

In particular:

* src/libstd/num/strconv.rs
 * ExponentFormat
 * SignificantDigits
 * SignFormat
* src/libstd/path/windows.rs
 * PathPrefix
* src/libstd/sys/windows/timer.rs
 * Req
* src/libcollections/str.rs
 * MaybeOwned
* src/libstd/collections/hash/map.rs
 * Entry
* src/libstd/collections/hash/table.rs
 * BucketState
* src/libstd/dynamic_lib.rs
 * Rtld
* src/libstd/io/net/ip.rs
 * IpAddr
* src/libstd/os.rs
 * MemoryMapKind
 * MapOption
 * MapError
* src/libstd/sys/common/net.rs
 * SocketStatus
 * InAddr
* src/libstd/sys/unix/timer.rs
 * Req

[breaking-change]
2014-12-21 09:26:41 -08:00

2704 lines
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Rust
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// Copyright 2012-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.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.
//
// ignore-lexer-test FIXME #15679
//! Unicode string manipulation (`str` type)
//!
//! # Basic Usage
//!
//! Rust's string type is one of the core primitive types of the language. While
//! represented by the name `str`, the name `str` is not actually a valid type in
//! Rust. Each string must also be decorated with a pointer. `String` is used
//! for an owned string, so there is only one commonly-used `str` type in Rust:
//! `&str`.
//!
//! `&str` is the borrowed string type. This type of string can only be created
//! from other strings, unless it is a static string (see below). As the word
//! "borrowed" implies, this type of string is owned elsewhere, and this string
//! cannot be moved out of.
//!
//! As an example, here's some code that uses a string.
//!
//! ```rust
//! fn main() {
//! let borrowed_string = "This string is borrowed with the 'static lifetime";
//! }
//! ```
//!
//! From the example above, you can guess that Rust's string literals have the
//! `'static` lifetime. This is akin to C's concept of a static string.
//! More precisely, string literals are immutable views with a 'static lifetime
//! (otherwise known as the lifetime of the entire program), and thus have the
//! type `&'static str`.
//!
//! # Representation
//!
//! Rust's string type, `str`, is a sequence of Unicode scalar values encoded as a
//! stream of UTF-8 bytes. All [strings](../../reference.html#literals) are
//! guaranteed to be validly encoded UTF-8 sequences. Additionally, strings are
//! not null-terminated and can thus contain null bytes.
//!
//! The actual representation of strings have direct mappings to slices: `&str`
//! is the same as `&[u8]`.
#![doc(primitive = "str")]
use self::MaybeOwned::*;
use self::RecompositionState::*;
use self::DecompositionType::*;
use core::borrow::{BorrowFrom, Cow, ToOwned};
use core::clone::Clone;
use core::default::Default;
use core::fmt;
use core::hash;
use core::char::Char;
use core::cmp::{mod, Eq, Equiv, Ord, Ordering, PartialEq, PartialOrd};
use core::iter::{range, AdditiveIterator, Iterator, IteratorExt};
use core::kinds::Sized;
use core::option::Option::{mod, Some, None};
use core::slice::{AsSlice, SliceExt};
use ring_buf::RingBuf;
use string::String;
use unicode;
use vec::Vec;
pub use core::str::{from_utf8, CharEq, Chars, CharOffsets};
pub use core::str::{Bytes, CharSplits};
pub use core::str::{CharSplitsN, AnyLines, MatchIndices, StrSplits};
pub use core::str::{Utf16Encoder, Utf16CodeUnits};
pub use core::str::{eq_slice, is_utf8, is_utf16, Utf16Items};
pub use core::str::{Utf16Item, ScalarValue, LoneSurrogate, utf16_items};
pub use core::str::{truncate_utf16_at_nul, utf8_char_width, CharRange};
pub use core::str::{FromStr, from_str};
pub use core::str::{Str, StrPrelude};
pub use core::str::{from_utf8_unchecked, from_c_str};
pub use unicode::str::{UnicodeStrPrelude, Words, Graphemes, GraphemeIndices};
// FIXME(conventions): ensure bit/char conventions are followed by str's API
/*
Section: Creating a string
*/
/// Methods for vectors of strings.
pub trait StrVector for Sized? {
/// Concatenates a vector of strings.
///
/// # Examples
///
/// ```rust
/// let first = "Restaurant at the End of the".to_string();
/// let second = " Universe".to_string();
/// let string_vec = vec![first, second];
/// assert_eq!(string_vec.concat(), "Restaurant at the End of the Universe".to_string());
/// ```
fn concat(&self) -> String;
/// Concatenates a vector of strings, placing a given separator between each.
///
/// # Examples
///
/// ```rust
/// let first = "Roast".to_string();
/// let second = "Sirloin Steak".to_string();
/// let string_vec = vec![first, second];
/// assert_eq!(string_vec.connect(", "), "Roast, Sirloin Steak".to_string());
/// ```
fn connect(&self, sep: &str) -> String;
}
impl<S: Str> StrVector for [S] {
fn concat(&self) -> String {
if self.is_empty() {
return String::new();
}
// `len` calculation may overflow but push_str will check boundaries
let len = self.iter().map(|s| s.as_slice().len()).sum();
let mut result = String::with_capacity(len);
for s in self.iter() {
result.push_str(s.as_slice())
}
result
}
fn connect(&self, sep: &str) -> String {
if self.is_empty() {
return String::new();
}
// concat is faster
if sep.is_empty() {
return self.concat();
}
// this is wrong without the guarantee that `self` is non-empty
// `len` calculation may overflow but push_str but will check boundaries
let len = sep.len() * (self.len() - 1)
+ self.iter().map(|s| s.as_slice().len()).sum();
let mut result = String::with_capacity(len);
let mut first = true;
for s in self.iter() {
if first {
first = false;
} else {
result.push_str(sep);
}
result.push_str(s.as_slice());
}
result
}
}
impl<S: Str, T: AsSlice<S>> StrVector for T {
#[inline]
fn concat(&self) -> String {
self.as_slice().concat()
}
#[inline]
fn connect(&self, sep: &str) -> String {
self.as_slice().connect(sep)
}
}
/*
Section: Iterators
*/
// Helper functions used for Unicode normalization
fn canonical_sort(comb: &mut [(char, u8)]) {
let len = comb.len();
for i in range(0, len) {
let mut swapped = false;
for j in range(1, len-i) {
let class_a = comb[j-1].1;
let class_b = comb[j].1;
if class_a != 0 && class_b != 0 && class_a > class_b {
comb.swap(j-1, j);
swapped = true;
}
}
if !swapped { break; }
}
}
#[deriving(Clone)]
enum DecompositionType {
Canonical,
Compatible
}
/// External iterator for a string's decomposition's characters.
/// Use with the `std::iter` module.
#[deriving(Clone)]
pub struct Decompositions<'a> {
kind: DecompositionType,
iter: Chars<'a>,
buffer: Vec<(char, u8)>,
sorted: bool
}
impl<'a> Iterator<char> for Decompositions<'a> {
#[inline]
fn next(&mut self) -> Option<char> {
match self.buffer.head() {
Some(&(c, 0)) => {
self.sorted = false;
self.buffer.remove(0);
return Some(c);
}
Some(&(c, _)) if self.sorted => {
self.buffer.remove(0);
return Some(c);
}
_ => self.sorted = false
}
if !self.sorted {
for ch in self.iter {
let buffer = &mut self.buffer;
let sorted = &mut self.sorted;
{
let callback = |d| {
let class =
unicode::char::canonical_combining_class(d);
if class == 0 && !*sorted {
canonical_sort(buffer.as_mut_slice());
*sorted = true;
}
buffer.push((d, class));
};
match self.kind {
Canonical => {
unicode::char::decompose_canonical(ch, callback)
}
Compatible => {
unicode::char::decompose_compatible(ch, callback)
}
}
}
if *sorted {
break
}
}
}
if !self.sorted {
canonical_sort(self.buffer.as_mut_slice());
self.sorted = true;
}
match self.buffer.remove(0) {
Some((c, 0)) => {
self.sorted = false;
Some(c)
}
Some((c, _)) => Some(c),
None => None
}
}
fn size_hint(&self) -> (uint, Option<uint>) {
let (lower, _) = self.iter.size_hint();
(lower, None)
}
}
#[deriving(Clone)]
enum RecompositionState {
Composing,
Purging,
Finished
}
/// External iterator for a string's recomposition's characters.
/// Use with the `std::iter` module.
#[deriving(Clone)]
pub struct Recompositions<'a> {
iter: Decompositions<'a>,
state: RecompositionState,
buffer: RingBuf<char>,
composee: Option<char>,
last_ccc: Option<u8>
}
impl<'a> Iterator<char> for Recompositions<'a> {
#[inline]
fn next(&mut self) -> Option<char> {
loop {
match self.state {
Composing => {
for ch in self.iter {
let ch_class = unicode::char::canonical_combining_class(ch);
if self.composee.is_none() {
if ch_class != 0 {
return Some(ch);
}
self.composee = Some(ch);
continue;
}
let k = self.composee.clone().unwrap();
match self.last_ccc {
None => {
match unicode::char::compose(k, ch) {
Some(r) => {
self.composee = Some(r);
continue;
}
None => {
if ch_class == 0 {
self.composee = Some(ch);
return Some(k);
}
self.buffer.push_back(ch);
self.last_ccc = Some(ch_class);
}
}
}
Some(l_class) => {
if l_class >= ch_class {
// `ch` is blocked from `composee`
if ch_class == 0 {
self.composee = Some(ch);
self.last_ccc = None;
self.state = Purging;
return Some(k);
}
self.buffer.push_back(ch);
self.last_ccc = Some(ch_class);
continue;
}
match unicode::char::compose(k, ch) {
Some(r) => {
self.composee = Some(r);
continue;
}
None => {
self.buffer.push_back(ch);
self.last_ccc = Some(ch_class);
}
}
}
}
}
self.state = Finished;
if self.composee.is_some() {
return self.composee.take();
}
}
Purging => {
match self.buffer.pop_front() {
None => self.state = Composing,
s => return s
}
}
Finished => {
match self.buffer.pop_front() {
None => return self.composee.take(),
s => return s
}
}
}
}
}
}
/// Replaces all occurrences of one string with another.
///
/// # Arguments
///
/// * s - The string containing substrings to replace
/// * from - The string to replace
/// * to - The replacement string
///
/// # Return value
///
/// The original string with all occurrences of `from` replaced with `to`.
///
/// # Examples
///
/// ```rust
/// use std::str;
/// let string = "orange";
/// let new_string = str::replace(string, "or", "str");
/// assert_eq!(new_string.as_slice(), "strange");
/// ```
pub fn replace(s: &str, from: &str, to: &str) -> String {
let mut result = String::new();
let mut last_end = 0;
for (start, end) in s.match_indices(from) {
result.push_str(unsafe { s.slice_unchecked(last_end, start) });
result.push_str(to);
last_end = end;
}
result.push_str(unsafe { s.slice_unchecked(last_end, s.len()) });
result
}
/*
Section: Misc
*/
// Return the initial codepoint accumulator for the first byte.
// The first byte is special, only want bottom 5 bits for width 2, 4 bits
// for width 3, and 3 bits for width 4
macro_rules! utf8_first_byte {
($byte:expr, $width:expr) => (($byte & (0x7F >> $width)) as u32)
}
// return the value of $ch updated with continuation byte $byte
macro_rules! utf8_acc_cont_byte {
($ch:expr, $byte:expr) => (($ch << 6) | ($byte & 63u8) as u32)
}
/*
Section: MaybeOwned
*/
/// A string type that can hold either a `String` or a `&str`.
/// This can be useful as an optimization when an allocation is sometimes
/// needed but not always.
#[deprecated = "use std::str::CowString"]
pub enum MaybeOwned<'a> {
/// A borrowed string.
Slice(&'a str),
/// An owned string.
Owned(String)
}
/// A specialization of `CowString` to be sendable.
pub type SendStr = CowString<'static>;
#[deprecated = "use std::str::CowString"]
impl<'a> MaybeOwned<'a> {
/// Returns `true` if this `MaybeOwned` wraps an owned string.
///
/// # Examples
///
/// ``` ignore
/// let string = String::from_str("orange");
/// let maybe_owned_string = string.into_maybe_owned();
/// assert_eq!(true, maybe_owned_string.is_owned());
/// ```
#[inline]
pub fn is_owned(&self) -> bool {
match *self {
Slice(_) => false,
Owned(_) => true
}
}
/// Returns `true` if this `MaybeOwned` wraps a borrowed string.
///
/// # Examples
///
/// ``` ignore
/// let string = "orange";
/// let maybe_owned_string = string.as_slice().into_maybe_owned();
/// assert_eq!(true, maybe_owned_string.is_slice());
/// ```
#[inline]
pub fn is_slice(&self) -> bool {
match *self {
Slice(_) => true,
Owned(_) => false
}
}
/// Return the number of bytes in this string.
#[inline]
pub fn len(&self) -> uint { self.as_slice().len() }
/// Returns true if the string contains no bytes
#[allow(deprecated)]
#[inline]
pub fn is_empty(&self) -> bool { self.len() == 0 }
}
#[deprecated = "use std::borrow::IntoCow"]
/// Trait for moving into a `MaybeOwned`.
pub trait IntoMaybeOwned<'a> {
/// Moves `self` into a `MaybeOwned`.
fn into_maybe_owned(self) -> MaybeOwned<'a>;
}
#[deprecated = "use std::borrow::IntoCow"]
#[allow(deprecated)]
impl<'a> IntoMaybeOwned<'a> for String {
/// # Examples
///
/// ``` ignore
/// let owned_string = String::from_str("orange");
/// let maybe_owned_string = owned_string.into_maybe_owned();
/// assert_eq!(true, maybe_owned_string.is_owned());
/// ```
#[allow(deprecated)]
#[inline]
fn into_maybe_owned(self) -> MaybeOwned<'a> {
Owned(self)
}
}
#[deprecated = "use std::borrow::IntoCow"]
#[allow(deprecated)]
impl<'a> IntoMaybeOwned<'a> for &'a str {
/// # Examples
///
/// ``` ignore
/// let string = "orange";
/// let maybe_owned_str = string.as_slice().into_maybe_owned();
/// assert_eq!(false, maybe_owned_str.is_owned());
/// ```
#[allow(deprecated)]
#[inline]
fn into_maybe_owned(self) -> MaybeOwned<'a> { Slice(self) }
}
#[allow(deprecated)]
#[deprecated = "use std::borrow::IntoCow"]
impl<'a> IntoMaybeOwned<'a> for MaybeOwned<'a> {
/// # Examples
///
/// ``` ignore
/// let str = "orange";
/// let maybe_owned_str = str.as_slice().into_maybe_owned();
/// let maybe_maybe_owned_str = maybe_owned_str.into_maybe_owned();
/// assert_eq!(false, maybe_maybe_owned_str.is_owned());
/// ```
#[inline]
fn into_maybe_owned(self) -> MaybeOwned<'a> { self }
}
#[deprecated = "use std::str::CowString"]
impl<'a> PartialEq for MaybeOwned<'a> {
#[inline]
fn eq(&self, other: &MaybeOwned) -> bool {
self.as_slice() == other.as_slice()
}
}
#[deprecated = "use std::str::CowString"]
impl<'a> Eq for MaybeOwned<'a> {}
#[deprecated = "use std::str::CowString"]
impl<'a> PartialOrd for MaybeOwned<'a> {
#[inline]
fn partial_cmp(&self, other: &MaybeOwned) -> Option<Ordering> {
Some(self.cmp(other))
}
}
#[deprecated = "use std::str::CowString"]
impl<'a> Ord for MaybeOwned<'a> {
#[inline]
fn cmp(&self, other: &MaybeOwned) -> Ordering {
self.as_slice().cmp(other.as_slice())
}
}
#[allow(deprecated)]
#[deprecated = "use std::str::CowString"]
impl<'a, S: Str> Equiv<S> for MaybeOwned<'a> {
#[inline]
fn equiv(&self, other: &S) -> bool {
self.as_slice() == other.as_slice()
}
}
#[deprecated = "use std::str::CowString"]
impl<'a> Str for MaybeOwned<'a> {
#[allow(deprecated)]
#[inline]
fn as_slice<'b>(&'b self) -> &'b str {
match *self {
Slice(s) => s,
Owned(ref s) => s.as_slice()
}
}
}
#[deprecated = "use std::str::CowString"]
impl<'a> StrAllocating for MaybeOwned<'a> {
#[allow(deprecated)]
#[inline]
fn into_string(self) -> String {
match self {
Slice(s) => String::from_str(s),
Owned(s) => s
}
}
}
#[deprecated = "use std::str::CowString"]
impl<'a> Clone for MaybeOwned<'a> {
#[allow(deprecated)]
#[inline]
fn clone(&self) -> MaybeOwned<'a> {
match *self {
Slice(s) => Slice(s),
Owned(ref s) => Owned(String::from_str(s.as_slice()))
}
}
}
#[deprecated = "use std::str::CowString"]
impl<'a> Default for MaybeOwned<'a> {
#[allow(deprecated)]
#[inline]
fn default() -> MaybeOwned<'a> { Slice("") }
}
#[deprecated = "use std::str::CowString"]
impl<'a, H: hash::Writer> hash::Hash<H> for MaybeOwned<'a> {
#[inline]
fn hash(&self, hasher: &mut H) {
self.as_slice().hash(hasher)
}
}
#[deprecated = "use std::str::CowString"]
impl<'a> fmt::Show for MaybeOwned<'a> {
#[inline]
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Slice(ref s) => s.fmt(f),
Owned(ref s) => s.fmt(f)
}
}
}
#[unstable = "trait is unstable"]
impl BorrowFrom<String> for str {
fn borrow_from(owned: &String) -> &str { owned[] }
}
#[unstable = "trait is unstable"]
impl ToOwned<String> for str {
fn to_owned(&self) -> String { self.into_string() }
}
/// Unsafe string operations.
pub mod raw {
pub use core::str::raw::{from_utf8, c_str_to_static_slice, slice_bytes};
pub use core::str::raw::{slice_unchecked};
}
/*
Section: CowString
*/
/// A clone-on-write string
pub type CowString<'a> = Cow<'a, String, str>;
impl<'a> Str for CowString<'a> {
#[inline]
fn as_slice<'b>(&'b self) -> &'b str {
(**self).as_slice()
}
}
/*
Section: Trait implementations
*/
/// Any string that can be represented as a slice.
pub trait StrAllocating: Str {
/// Converts `self` into a `String`, not making a copy if possible.
fn into_string(self) -> String;
/// Escapes each char in `s` with `char::escape_default`.
fn escape_default(&self) -> String {
let me = self.as_slice();
let mut out = String::with_capacity(me.len());
for c in me.chars() {
for c in c.escape_default() {
out.push(c);
}
}
out
}
/// Escapes each char in `s` with `char::escape_unicode`.
fn escape_unicode(&self) -> String {
let me = self.as_slice();
let mut out = String::with_capacity(me.len());
for c in me.chars() {
for c in c.escape_unicode() {
out.push(c);
}
}
out
}
/// Replaces all occurrences of one string with another.
///
/// # Arguments
///
/// * `from` - The string to replace
/// * `to` - The replacement string
///
/// # Return value
///
/// The original string with all occurrences of `from` replaced with `to`.
///
/// # Examples
///
/// ```rust
/// let s = "Do you know the muffin man,
/// The muffin man, the muffin man, ...".to_string();
///
/// assert_eq!(s.replace("muffin man", "little lamb"),
/// "Do you know the little lamb,
/// The little lamb, the little lamb, ...".to_string());
///
/// // not found, so no change.
/// assert_eq!(s.replace("cookie monster", "little lamb"), s);
/// ```
fn replace(&self, from: &str, to: &str) -> String {
replace(self.as_slice(), from, to)
}
/// Given a string, makes a new string with repeated copies of it.
fn repeat(&self, nn: uint) -> String {
let me = self.as_slice();
let mut ret = String::with_capacity(nn * me.len());
for _ in range(0, nn) {
ret.push_str(me);
}
ret
}
/// Returns the Levenshtein Distance between two strings.
fn lev_distance(&self, t: &str) -> uint {
let me = self.as_slice();
if me.is_empty() { return t.char_len(); }
if t.is_empty() { return me.char_len(); }
let mut dcol = Vec::from_fn(t.len() + 1, |x| x);
let mut t_last = 0;
for (i, sc) in me.chars().enumerate() {
let mut current = i;
dcol[0] = current + 1;
for (j, tc) in t.chars().enumerate() {
let next = dcol[j + 1];
if sc == tc {
dcol[j + 1] = current;
} else {
dcol[j + 1] = cmp::min(current, next);
dcol[j + 1] = cmp::min(dcol[j + 1], dcol[j]) + 1;
}
current = next;
t_last = j;
}
}
dcol[t_last + 1]
}
/// Returns an iterator over the string in Unicode Normalization Form D
/// (canonical decomposition).
#[inline]
fn nfd_chars<'a>(&'a self) -> Decompositions<'a> {
Decompositions {
iter: self.as_slice().chars(),
buffer: Vec::new(),
sorted: false,
kind: Canonical
}
}
/// Returns an iterator over the string in Unicode Normalization Form KD
/// (compatibility decomposition).
#[inline]
fn nfkd_chars<'a>(&'a self) -> Decompositions<'a> {
Decompositions {
iter: self.as_slice().chars(),
buffer: Vec::new(),
sorted: false,
kind: Compatible
}
}
/// An Iterator over the string in Unicode Normalization Form C
/// (canonical decomposition followed by canonical composition).
#[inline]
fn nfc_chars<'a>(&'a self) -> Recompositions<'a> {
Recompositions {
iter: self.nfd_chars(),
state: Composing,
buffer: RingBuf::new(),
composee: None,
last_ccc: None
}
}
/// An Iterator over the string in Unicode Normalization Form KC
/// (compatibility decomposition followed by canonical composition).
#[inline]
fn nfkc_chars<'a>(&'a self) -> Recompositions<'a> {
Recompositions {
iter: self.nfkd_chars(),
state: Composing,
buffer: RingBuf::new(),
composee: None,
last_ccc: None
}
}
}
impl<'a> StrAllocating for &'a str {
#[inline]
fn into_string(self) -> String {
String::from_str(self)
}
}
#[cfg(test)]
mod tests {
use prelude::*;
use core::default::Default;
use core::iter::AdditiveIterator;
use super::{eq_slice, from_utf8, is_utf8, is_utf16, raw};
use super::truncate_utf16_at_nul;
use super::MaybeOwned::{Owned, Slice};
#[test]
fn test_eq_slice() {
assert!((eq_slice("foobar".slice(0, 3), "foo")));
assert!((eq_slice("barfoo".slice(3, 6), "foo")));
assert!((!eq_slice("foo1", "foo2")));
}
#[test]
fn test_le() {
assert!("" <= "");
assert!("" <= "foo");
assert!("foo" <= "foo");
assert!("foo" != "bar");
}
#[test]
fn test_len() {
assert_eq!("".len(), 0u);
assert_eq!("hello world".len(), 11u);
assert_eq!("\x63".len(), 1u);
assert_eq!("\u{a2}".len(), 2u);
assert_eq!("\u{3c0}".len(), 2u);
assert_eq!("\u{2620}".len(), 3u);
assert_eq!("\u{1d11e}".len(), 4u);
assert_eq!("".char_len(), 0u);
assert_eq!("hello world".char_len(), 11u);
assert_eq!("\x63".char_len(), 1u);
assert_eq!("\u{a2}".char_len(), 1u);
assert_eq!("\u{3c0}".char_len(), 1u);
assert_eq!("\u{2620}".char_len(), 1u);
assert_eq!("\u{1d11e}".char_len(), 1u);
assert_eq!("ประเทศไทย中华Việt Nam".char_len(), 19u);
assert_eq!("".width(false), 10u);
assert_eq!("".width(true), 10u);
assert_eq!("\0\0\0\0\0".width(false), 0u);
assert_eq!("\0\0\0\0\0".width(true), 0u);
assert_eq!("".width(false), 0u);
assert_eq!("".width(true), 0u);
assert_eq!("\u{2081}\u{2082}\u{2083}\u{2084}".width(false), 4u);
assert_eq!("\u{2081}\u{2082}\u{2083}\u{2084}".width(true), 8u);
}
#[test]
fn test_find() {
assert_eq!("hello".find('l'), Some(2u));
assert_eq!("hello".find(|&: c:char| c == 'o'), Some(4u));
assert!("hello".find('x').is_none());
assert!("hello".find(|&: c:char| c == 'x').is_none());
assert_eq!("ประเทศไทย中华Việt Nam".find('华'), Some(30u));
assert_eq!("ประเทศไทย中华Việt Nam".find(|&: c: char| c == '华'), Some(30u));
}
#[test]
fn test_rfind() {
assert_eq!("hello".rfind('l'), Some(3u));
assert_eq!("hello".rfind(|&: c:char| c == 'o'), Some(4u));
assert!("hello".rfind('x').is_none());
assert!("hello".rfind(|&: c:char| c == 'x').is_none());
assert_eq!("ประเทศไทย中华Việt Nam".rfind('华'), Some(30u));
assert_eq!("ประเทศไทย中华Việt Nam".rfind(|&: c: char| c == '华'), Some(30u));
}
#[test]
fn test_collect() {
let empty = String::from_str("");
let s: String = empty.chars().collect();
assert_eq!(empty, s);
let data = String::from_str("ประเทศไทย中");
let s: String = data.chars().collect();
assert_eq!(data, s);
}
#[test]
fn test_into_bytes() {
let data = String::from_str("asdf");
let buf = data.into_bytes();
assert_eq!(b"asdf", buf);
}
#[test]
fn test_find_str() {
// byte positions
assert_eq!("".find_str(""), Some(0u));
assert!("banana".find_str("apple pie").is_none());
let data = "abcabc";
assert_eq!(data.slice(0u, 6u).find_str("ab"), Some(0u));
assert_eq!(data.slice(2u, 6u).find_str("ab"), Some(3u - 2u));
assert!(data.slice(2u, 4u).find_str("ab").is_none());
let string = "ประเทศไทย中华Việt Nam";
let mut data = String::from_str(string);
data.push_str(string);
assert!(data.find_str("ไท华").is_none());
assert_eq!(data.slice(0u, 43u).find_str(""), Some(0u));
assert_eq!(data.slice(6u, 43u).find_str(""), Some(6u - 6u));
assert_eq!(data.slice(0u, 43u).find_str("ประ"), Some( 0u));
assert_eq!(data.slice(0u, 43u).find_str("ทศไ"), Some(12u));
assert_eq!(data.slice(0u, 43u).find_str("ย中"), Some(24u));
assert_eq!(data.slice(0u, 43u).find_str("iệt"), Some(34u));
assert_eq!(data.slice(0u, 43u).find_str("Nam"), Some(40u));
assert_eq!(data.slice(43u, 86u).find_str("ประ"), Some(43u - 43u));
assert_eq!(data.slice(43u, 86u).find_str("ทศไ"), Some(55u - 43u));
assert_eq!(data.slice(43u, 86u).find_str("ย中"), Some(67u - 43u));
assert_eq!(data.slice(43u, 86u).find_str("iệt"), Some(77u - 43u));
assert_eq!(data.slice(43u, 86u).find_str("Nam"), Some(83u - 43u));
}
#[test]
fn test_slice_chars() {
fn t(a: &str, b: &str, start: uint) {
assert_eq!(a.slice_chars(start, start + b.char_len()), b);
}
t("", "", 0);
t("hello", "llo", 2);
t("hello", "el", 1);
t("αβλ", "β", 1);
t("αβλ", "", 3);
assert_eq!("ะเทศไท", "ประเทศไทย中华Việt Nam".slice_chars(2, 8));
}
struct S {
x: [String, .. 2]
}
impl AsSlice<String> for S {
fn as_slice<'a> (&'a self) -> &'a [String] {
&self.x
}
}
fn s(x: &str) -> String { x.into_string() }
macro_rules! test_concat {
($expected: expr, $string: expr) => {
{
let s = $string.concat();
assert_eq!($expected, s);
}
}
}
#[test]
fn test_concat_for_different_types() {
test_concat!("ab", ["a", "b"]);
test_concat!("ab", [s("a"), s("b")]);
test_concat!("ab", vec!["a", "b"]);
test_concat!("ab", vec!["a", "b"].as_slice());
test_concat!("ab", vec![s("a"), s("b")]);
let mut v0 = ["a", "b"];
let mut v1 = [s("a"), s("b")];
unsafe {
use std::c_vec::CVec;
test_concat!("ab", CVec::new(v0.as_mut_ptr(), v0.len()));
test_concat!("ab", CVec::new(v1.as_mut_ptr(), v1.len()));
}
test_concat!("ab", S { x: [s("a"), s("b")] });
}
#[test]
fn test_concat_for_different_lengths() {
let empty: &[&str] = &[];
test_concat!("", empty);
test_concat!("a", ["a"]);
test_concat!("ab", ["a", "b"]);
test_concat!("abc", ["", "a", "bc"]);
}
macro_rules! test_connect {
($expected: expr, $string: expr, $delim: expr) => {
{
let s = $string.connect($delim);
assert_eq!($expected, s);
}
}
}
#[test]
fn test_connect_for_different_types() {
test_connect!("a-b", ["a", "b"], "-");
let hyphen = "-".into_string();
test_connect!("a-b", [s("a"), s("b")], hyphen.as_slice());
test_connect!("a-b", vec!["a", "b"], hyphen.as_slice());
test_connect!("a-b", vec!["a", "b"].as_slice(), "-");
test_connect!("a-b", vec![s("a"), s("b")], "-");
let mut v0 = ["a", "b"];
let mut v1 = [s("a"), s("b")];
unsafe {
use std::c_vec::CVec;
test_connect!("a-b", CVec::new(v0.as_mut_ptr(), v0.len()), "-");
test_connect!("a-b", CVec::new(v1.as_mut_ptr(), v1.len()), hyphen.as_slice());
}
test_connect!("a-b", S { x: [s("a"), s("b")] }, "-");
}
#[test]
fn test_connect_for_different_lengths() {
let empty: &[&str] = &[];
test_connect!("", empty, "-");
test_connect!("a", ["a"], "-");
test_connect!("a-b", ["a", "b"], "-");
test_connect!("-a-bc", ["", "a", "bc"], "-");
}
#[test]
fn test_repeat() {
assert_eq!("x".repeat(4), String::from_str("xxxx"));
assert_eq!("hi".repeat(4), String::from_str("hihihihi"));
assert_eq!("ไท华".repeat(3), String::from_str("ไท华ไท华ไท华"));
assert_eq!("".repeat(4), String::from_str(""));
assert_eq!("hi".repeat(0), String::from_str(""));
}
#[test]
fn test_unsafe_slice() {
assert_eq!("ab", unsafe {raw::slice_bytes("abc", 0, 2)});
assert_eq!("bc", unsafe {raw::slice_bytes("abc", 1, 3)});
assert_eq!("", unsafe {raw::slice_bytes("abc", 1, 1)});
fn a_million_letter_a() -> String {
let mut i = 0u;
let mut rs = String::new();
while i < 100000 {
rs.push_str("aaaaaaaaaa");
i += 1;
}
rs
}
fn half_a_million_letter_a() -> String {
let mut i = 0u;
let mut rs = String::new();
while i < 100000 {
rs.push_str("aaaaa");
i += 1;
}
rs
}
let letters = a_million_letter_a();
assert!(half_a_million_letter_a() ==
unsafe {String::from_str(raw::slice_bytes(letters.as_slice(),
0u,
500000))});
}
#[test]
fn test_starts_with() {
assert!(("".starts_with("")));
assert!(("abc".starts_with("")));
assert!(("abc".starts_with("a")));
assert!((!"a".starts_with("abc")));
assert!((!"".starts_with("abc")));
assert!((!"ödd".starts_with("-")));
assert!(("ödd".starts_with("öd")));
}
#[test]
fn test_ends_with() {
assert!(("".ends_with("")));
assert!(("abc".ends_with("")));
assert!(("abc".ends_with("c")));
assert!((!"a".ends_with("abc")));
assert!((!"".ends_with("abc")));
assert!((!"ddö".ends_with("-")));
assert!(("ddö".ends_with("")));
}
#[test]
fn test_is_empty() {
assert!("".is_empty());
assert!(!"a".is_empty());
}
#[test]
fn test_replace() {
let a = "a";
assert_eq!("".replace(a, "b"), String::from_str(""));
assert_eq!("a".replace(a, "b"), String::from_str("b"));
assert_eq!("ab".replace(a, "b"), String::from_str("bb"));
let test = "test";
assert!(" test test ".replace(test, "toast") ==
String::from_str(" toast toast "));
assert_eq!(" test test ".replace(test, ""), String::from_str(" "));
}
#[test]
fn test_replace_2a() {
let data = "ประเทศไทย中华";
let repl = "دولة الكويت";
let a = "ประเ";
let a2 = "دولة الكويتทศไทย中华";
assert_eq!(data.replace(a, repl), a2);
}
#[test]
fn test_replace_2b() {
let data = "ประเทศไทย中华";
let repl = "دولة الكويت";
let b = "ะเ";
let b2 = "ปรدولة الكويتทศไทย中华";
assert_eq!(data.replace(b, repl), b2);
}
#[test]
fn test_replace_2c() {
let data = "ประเทศไทย中华";
let repl = "دولة الكويت";
let c = "中华";
let c2 = "ประเทศไทยدولة الكويت";
assert_eq!(data.replace(c, repl), c2);
}
#[test]
fn test_replace_2d() {
let data = "ประเทศไทย中华";
let repl = "دولة الكويت";
let d = "ไท华";
assert_eq!(data.replace(d, repl), data);
}
#[test]
fn test_slice() {
assert_eq!("ab", "abc".slice(0, 2));
assert_eq!("bc", "abc".slice(1, 3));
assert_eq!("", "abc".slice(1, 1));
assert_eq!("\u{65e5}", "\u{65e5}\u{672c}".slice(0, 3));
let data = "ประเทศไทย中华";
assert_eq!("", data.slice(0, 3));
assert_eq!("", data.slice(3, 6));
assert_eq!("", data.slice(3, 3));
assert_eq!("", data.slice(30, 33));
fn a_million_letter_x() -> String {
let mut i = 0u;
let mut rs = String::new();
while i < 100000 {
rs.push_str("华华华华华华华华华华");
i += 1;
}
rs
}
fn half_a_million_letter_x() -> String {
let mut i = 0u;
let mut rs = String::new();
while i < 100000 {
rs.push_str("华华华华华");
i += 1;
}
rs
}
let letters = a_million_letter_x();
assert!(half_a_million_letter_x() ==
String::from_str(letters.slice(0u, 3u * 500000u)));
}
#[test]
fn test_slice_2() {
let ss = "中华Việt Nam";
assert_eq!("", ss.slice(3u, 6u));
assert_eq!("Việt Nam", ss.slice(6u, 16u));
assert_eq!("ab", "abc".slice(0u, 2u));
assert_eq!("bc", "abc".slice(1u, 3u));
assert_eq!("", "abc".slice(1u, 1u));
assert_eq!("", ss.slice(0u, 3u));
assert_eq!("华V", ss.slice(3u, 7u));
assert_eq!("", ss.slice(3u, 3u));
/*0: 中
3: 华
6: V
7: i
8: ệ
11: t
12:
13: N
14: a
15: m */
}
#[test]
#[should_fail]
fn test_slice_fail() {
"中华Việt Nam".slice(0u, 2u);
}
#[test]
fn test_slice_from() {
assert_eq!("abcd".slice_from(0), "abcd");
assert_eq!("abcd".slice_from(2), "cd");
assert_eq!("abcd".slice_from(4), "");
}
#[test]
fn test_slice_to() {
assert_eq!("abcd".slice_to(0), "");
assert_eq!("abcd".slice_to(2), "ab");
assert_eq!("abcd".slice_to(4), "abcd");
}
#[test]
fn test_trim_left_chars() {
let v: &[char] = &[];
assert_eq!(" *** foo *** ".trim_left_chars(v), " *** foo *** ");
let chars: &[char] = &['*', ' '];
assert_eq!(" *** foo *** ".trim_left_chars(chars), "foo *** ");
assert_eq!(" *** *** ".trim_left_chars(chars), "");
assert_eq!("foo *** ".trim_left_chars(chars), "foo *** ");
assert_eq!("11foo1bar11".trim_left_chars('1'), "foo1bar11");
let chars: &[char] = &['1', '2'];
assert_eq!("12foo1bar12".trim_left_chars(chars), "foo1bar12");
assert_eq!("123foo1bar123".trim_left_chars(|&: c: char| c.is_numeric()), "foo1bar123");
}
#[test]
fn test_trim_right_chars() {
let v: &[char] = &[];
assert_eq!(" *** foo *** ".trim_right_chars(v), " *** foo *** ");
let chars: &[char] = &['*', ' '];
assert_eq!(" *** foo *** ".trim_right_chars(chars), " *** foo");
assert_eq!(" *** *** ".trim_right_chars(chars), "");
assert_eq!(" *** foo".trim_right_chars(chars), " *** foo");
assert_eq!("11foo1bar11".trim_right_chars('1'), "11foo1bar");
let chars: &[char] = &['1', '2'];
assert_eq!("12foo1bar12".trim_right_chars(chars), "12foo1bar");
assert_eq!("123foo1bar123".trim_right_chars(|&: c: char| c.is_numeric()), "123foo1bar");
}
#[test]
fn test_trim_chars() {
let v: &[char] = &[];
assert_eq!(" *** foo *** ".trim_chars(v), " *** foo *** ");
let chars: &[char] = &['*', ' '];
assert_eq!(" *** foo *** ".trim_chars(chars), "foo");
assert_eq!(" *** *** ".trim_chars(chars), "");
assert_eq!("foo".trim_chars(chars), "foo");
assert_eq!("11foo1bar11".trim_chars('1'), "foo1bar");
let chars: &[char] = &['1', '2'];
assert_eq!("12foo1bar12".trim_chars(chars), "foo1bar");
assert_eq!("123foo1bar123".trim_chars(|&: c: char| c.is_numeric()), "foo1bar");
}
#[test]
fn test_trim_left() {
assert_eq!("".trim_left(), "");
assert_eq!("a".trim_left(), "a");
assert_eq!(" ".trim_left(), "");
assert_eq!(" blah".trim_left(), "blah");
assert_eq!(" \u{3000} wut".trim_left(), "wut");
assert_eq!("hey ".trim_left(), "hey ");
}
#[test]
fn test_trim_right() {
assert_eq!("".trim_right(), "");
assert_eq!("a".trim_right(), "a");
assert_eq!(" ".trim_right(), "");
assert_eq!("blah ".trim_right(), "blah");
assert_eq!("wut \u{3000} ".trim_right(), "wut");
assert_eq!(" hey".trim_right(), " hey");
}
#[test]
fn test_trim() {
assert_eq!("".trim(), "");
assert_eq!("a".trim(), "a");
assert_eq!(" ".trim(), "");
assert_eq!(" blah ".trim(), "blah");
assert_eq!("\nwut \u{3000} ".trim(), "wut");
assert_eq!(" hey dude ".trim(), "hey dude");
}
#[test]
fn test_is_whitespace() {
assert!("".is_whitespace());
assert!(" ".is_whitespace());
assert!("\u{2009}".is_whitespace()); // Thin space
assert!(" \n\t ".is_whitespace());
assert!(!" _ ".is_whitespace());
}
#[test]
fn test_slice_shift_char() {
let data = "ประเทศไทย中";
assert_eq!(data.slice_shift_char(), Some(('ป', "ระเทศไทย中")));
}
#[test]
fn test_slice_shift_char_2() {
let empty = "";
assert_eq!(empty.slice_shift_char(), None);
}
#[test]
fn test_is_utf8() {
// deny overlong encodings
assert!(!is_utf8(&[0xc0, 0x80]));
assert!(!is_utf8(&[0xc0, 0xae]));
assert!(!is_utf8(&[0xe0, 0x80, 0x80]));
assert!(!is_utf8(&[0xe0, 0x80, 0xaf]));
assert!(!is_utf8(&[0xe0, 0x81, 0x81]));
assert!(!is_utf8(&[0xf0, 0x82, 0x82, 0xac]));
assert!(!is_utf8(&[0xf4, 0x90, 0x80, 0x80]));
// deny surrogates
assert!(!is_utf8(&[0xED, 0xA0, 0x80]));
assert!(!is_utf8(&[0xED, 0xBF, 0xBF]));
assert!(is_utf8(&[0xC2, 0x80]));
assert!(is_utf8(&[0xDF, 0xBF]));
assert!(is_utf8(&[0xE0, 0xA0, 0x80]));
assert!(is_utf8(&[0xED, 0x9F, 0xBF]));
assert!(is_utf8(&[0xEE, 0x80, 0x80]));
assert!(is_utf8(&[0xEF, 0xBF, 0xBF]));
assert!(is_utf8(&[0xF0, 0x90, 0x80, 0x80]));
assert!(is_utf8(&[0xF4, 0x8F, 0xBF, 0xBF]));
}
#[test]
fn test_is_utf16() {
macro_rules! pos ( ($($e:expr),*) => { { $(assert!(is_utf16($e));)* } });
// non-surrogates
pos!(&[0x0000],
&[0x0001, 0x0002],
&[0xD7FF],
&[0xE000]);
// surrogate pairs (randomly generated with Python 3's
// .encode('utf-16be'))
pos!(&[0xdb54, 0xdf16, 0xd880, 0xdee0, 0xdb6a, 0xdd45],
&[0xd91f, 0xdeb1, 0xdb31, 0xdd84, 0xd8e2, 0xde14],
&[0xdb9f, 0xdc26, 0xdb6f, 0xde58, 0xd850, 0xdfae]);
// mixtures (also random)
pos!(&[0xd921, 0xdcc2, 0x002d, 0x004d, 0xdb32, 0xdf65],
&[0xdb45, 0xdd2d, 0x006a, 0xdacd, 0xddfe, 0x0006],
&[0x0067, 0xd8ff, 0xddb7, 0x000f, 0xd900, 0xdc80]);
// negative tests
macro_rules! neg ( ($($e:expr),*) => { { $(assert!(!is_utf16($e));)* } });
neg!(
// surrogate + regular unit
&[0xdb45, 0x0000],
// surrogate + lead surrogate
&[0xd900, 0xd900],
// unterminated surrogate
&[0xd8ff],
// trail surrogate without a lead
&[0xddb7]);
// random byte sequences that Python 3's .decode('utf-16be')
// failed on
neg!(&[0x5b3d, 0x0141, 0xde9e, 0x8fdc, 0xc6e7],
&[0xdf5a, 0x82a5, 0x62b9, 0xb447, 0x92f3],
&[0xda4e, 0x42bc, 0x4462, 0xee98, 0xc2ca],
&[0xbe00, 0xb04a, 0x6ecb, 0xdd89, 0xe278],
&[0x0465, 0xab56, 0xdbb6, 0xa893, 0x665e],
&[0x6b7f, 0x0a19, 0x40f4, 0xa657, 0xdcc5],
&[0x9b50, 0xda5e, 0x24ec, 0x03ad, 0x6dee],
&[0x8d17, 0xcaa7, 0xf4ae, 0xdf6e, 0xbed7],
&[0xdaee, 0x2584, 0x7d30, 0xa626, 0x121a],
&[0xd956, 0x4b43, 0x7570, 0xccd6, 0x4f4a],
&[0x9dcf, 0x1b49, 0x4ba5, 0xfce9, 0xdffe],
&[0x6572, 0xce53, 0xb05a, 0xf6af, 0xdacf],
&[0x1b90, 0x728c, 0x9906, 0xdb68, 0xf46e],
&[0x1606, 0xbeca, 0xbe76, 0x860f, 0xdfa5],
&[0x8b4f, 0xde7a, 0xd220, 0x9fac, 0x2b6f],
&[0xb8fe, 0xebbe, 0xda32, 0x1a5f, 0x8b8b],
&[0x934b, 0x8956, 0xc434, 0x1881, 0xddf7],
&[0x5a95, 0x13fc, 0xf116, 0xd89b, 0x93f9],
&[0xd640, 0x71f1, 0xdd7d, 0x77eb, 0x1cd8],
&[0x348b, 0xaef0, 0xdb2c, 0xebf1, 0x1282],
&[0x50d7, 0xd824, 0x5010, 0xb369, 0x22ea]);
}
#[test]
fn test_as_bytes() {
// no null
let v = [
224, 184, 168, 224, 185, 132, 224, 184, 151, 224, 184, 162, 228,
184, 173, 229, 141, 142, 86, 105, 225, 187, 135, 116, 32, 78, 97,
109
];
let b: &[u8] = &[];
assert_eq!("".as_bytes(), b);
assert_eq!("abc".as_bytes(), b"abc");
assert_eq!("ศไทย中华Việt Nam".as_bytes(), v);
}
#[test]
#[should_fail]
fn test_as_bytes_fail() {
// Don't double free. (I'm not sure if this exercises the
// original problem code path anymore.)
let s = String::from_str("");
let _bytes = s.as_bytes();
panic!();
}
#[test]
fn test_as_ptr() {
let buf = "hello".as_ptr();
unsafe {
assert_eq!(*buf.offset(0), b'h');
assert_eq!(*buf.offset(1), b'e');
assert_eq!(*buf.offset(2), b'l');
assert_eq!(*buf.offset(3), b'l');
assert_eq!(*buf.offset(4), b'o');
}
}
#[test]
fn test_subslice_offset() {
let a = "kernelsprite";
let b = a.slice(7, a.len());
let c = a.slice(0, a.len() - 6);
assert_eq!(a.subslice_offset(b), 7);
assert_eq!(a.subslice_offset(c), 0);
let string = "a\nb\nc";
let lines: Vec<&str> = string.lines().collect();
assert_eq!(string.subslice_offset(lines[0]), 0);
assert_eq!(string.subslice_offset(lines[1]), 2);
assert_eq!(string.subslice_offset(lines[2]), 4);
}
#[test]
#[should_fail]
fn test_subslice_offset_2() {
let a = "alchemiter";
let b = "cruxtruder";
a.subslice_offset(b);
}
#[test]
fn vec_str_conversions() {
let s1: String = String::from_str("All mimsy were the borogoves");
let v: Vec<u8> = s1.as_bytes().to_vec();
let s2: String = String::from_str(from_utf8(v.as_slice()).unwrap());
let mut i: uint = 0u;
let n1: uint = s1.len();
let n2: uint = v.len();
assert_eq!(n1, n2);
while i < n1 {
let a: u8 = s1.as_bytes()[i];
let b: u8 = s2.as_bytes()[i];
debug!("{}", a);
debug!("{}", b);
assert_eq!(a, b);
i += 1u;
}
}
#[test]
fn test_contains() {
assert!("abcde".contains("bcd"));
assert!("abcde".contains("abcd"));
assert!("abcde".contains("bcde"));
assert!("abcde".contains(""));
assert!("".contains(""));
assert!(!"abcde".contains("def"));
assert!(!"".contains("a"));
let data = "ประเทศไทย中华Việt Nam";
assert!(data.contains("ประเ"));
assert!(data.contains("ะเ"));
assert!(data.contains("中华"));
assert!(!data.contains("ไท华"));
}
#[test]
fn test_contains_char() {
assert!("abc".contains_char('b'));
assert!("a".contains_char('a'));
assert!(!"abc".contains_char('d'));
assert!(!"".contains_char('a'));
}
#[test]
fn test_truncate_utf16_at_nul() {
let v = [];
let b: &[u16] = &[];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [0, 2, 3];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [1, 0, 3];
let b: &[u16] = &[1];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [1, 2, 0];
let b: &[u16] = &[1, 2];
assert_eq!(truncate_utf16_at_nul(&v), b);
let v = [1, 2, 3];
let b: &[u16] = &[1, 2, 3];
assert_eq!(truncate_utf16_at_nul(&v), b);
}
#[test]
fn test_char_at() {
let s = "ศไทย中华Việt Nam";
let v = vec!['ศ','ไ','ท','ย','中','华','V','i','ệ','t',' ','N','a','m'];
let mut pos = 0;
for ch in v.iter() {
assert!(s.char_at(pos) == *ch);
pos += String::from_char(1, *ch).len();
}
}
#[test]
fn test_char_at_reverse() {
let s = "ศไทย中华Việt Nam";
let v = vec!['ศ','ไ','ท','ย','中','华','V','i','ệ','t',' ','N','a','m'];
let mut pos = s.len();
for ch in v.iter().rev() {
assert!(s.char_at_reverse(pos) == *ch);
pos -= String::from_char(1, *ch).len();
}
}
#[test]
fn test_escape_unicode() {
assert_eq!("abc".escape_unicode(),
String::from_str("\\u{61}\\u{62}\\u{63}"));
assert_eq!("a c".escape_unicode(),
String::from_str("\\u{61}\\u{20}\\u{63}"));
assert_eq!("\r\n\t".escape_unicode(),
String::from_str("\\u{d}\\u{a}\\u{9}"));
assert_eq!("'\"\\".escape_unicode(),
String::from_str("\\u{27}\\u{22}\\u{5c}"));
assert_eq!("\x00\x01\u{fe}\u{ff}".escape_unicode(),
String::from_str("\\u{0}\\u{1}\\u{fe}\\u{ff}"));
assert_eq!("\u{100}\u{ffff}".escape_unicode(),
String::from_str("\\u{100}\\u{ffff}"));
assert_eq!("\u{10000}\u{10ffff}".escape_unicode(),
String::from_str("\\u{10000}\\u{10ffff}"));
assert_eq!("ab\u{fb00}".escape_unicode(),
String::from_str("\\u{61}\\u{62}\\u{fb00}"));
assert_eq!("\u{1d4ea}\r".escape_unicode(),
String::from_str("\\u{1d4ea}\\u{d}"));
}
#[test]
fn test_escape_default() {
assert_eq!("abc".escape_default(), String::from_str("abc"));
assert_eq!("a c".escape_default(), String::from_str("a c"));
assert_eq!("\r\n\t".escape_default(), String::from_str("\\r\\n\\t"));
assert_eq!("'\"\\".escape_default(), String::from_str("\\'\\\"\\\\"));
assert_eq!("\u{100}\u{ffff}".escape_default(),
String::from_str("\\u{100}\\u{ffff}"));
assert_eq!("\u{10000}\u{10ffff}".escape_default(),
String::from_str("\\u{10000}\\u{10ffff}"));
assert_eq!("ab\u{fb00}".escape_default(),
String::from_str("ab\\u{fb00}"));
assert_eq!("\u{1d4ea}\r".escape_default(),
String::from_str("\\u{1d4ea}\\r"));
}
#[test]
fn test_total_ord() {
"1234".cmp("123") == Greater;
"123".cmp("1234") == Less;
"1234".cmp("1234") == Equal;
"12345555".cmp("123456") == Less;
"22".cmp("1234") == Greater;
}
#[test]
fn test_char_range_at() {
let data = "b¢€𤭢𤭢€¢b";
assert_eq!('b', data.char_range_at(0).ch);
assert_eq!('¢', data.char_range_at(1).ch);
assert_eq!('€', data.char_range_at(3).ch);
assert_eq!('𤭢', data.char_range_at(6).ch);
assert_eq!('𤭢', data.char_range_at(10).ch);
assert_eq!('€', data.char_range_at(14).ch);
assert_eq!('¢', data.char_range_at(17).ch);
assert_eq!('b', data.char_range_at(19).ch);
}
#[test]
fn test_char_range_at_reverse_underflow() {
assert_eq!("abc".char_range_at_reverse(0).next, 0);
}
#[test]
fn test_iterator() {
let s = "ศไทย中华Việt Nam";
let v = ['ศ','ไ','ท','ย','中','华','V','i','ệ','t',' ','N','a','m'];
let mut pos = 0;
let mut it = s.chars();
for c in it {
assert_eq!(c, v[pos]);
pos += 1;
}
assert_eq!(pos, v.len());
}
#[test]
fn test_rev_iterator() {
let s = "ศไทย中华Việt Nam";
let v = ['m', 'a', 'N', ' ', 't', 'ệ','i','V','华','中','ย','ท','ไ','ศ'];
let mut pos = 0;
let mut it = s.chars().rev();
for c in it {
assert_eq!(c, v[pos]);
pos += 1;
}
assert_eq!(pos, v.len());
}
#[test]
fn test_chars_decoding() {
let mut bytes = [0u8, ..4];
for c in range(0u32, 0x110000).filter_map(|c| ::core::char::from_u32(c)) {
let len = c.encode_utf8(&mut bytes).unwrap_or(0);
let s = ::core::str::from_utf8(bytes[..len]).unwrap();
if Some(c) != s.chars().next() {
panic!("character {:x}={} does not decode correctly", c as u32, c);
}
}
}
#[test]
fn test_chars_rev_decoding() {
let mut bytes = [0u8, ..4];
for c in range(0u32, 0x110000).filter_map(|c| ::core::char::from_u32(c)) {
let len = c.encode_utf8(&mut bytes).unwrap_or(0);
let s = ::core::str::from_utf8(bytes[..len]).unwrap();
if Some(c) != s.chars().rev().next() {
panic!("character {:x}={} does not decode correctly", c as u32, c);
}
}
}
#[test]
fn test_iterator_clone() {
let s = "ศไทย中华Việt Nam";
let mut it = s.chars();
it.next();
assert!(it.zip(it.clone()).all(|(x,y)| x == y));
}
#[test]
fn test_bytesator() {
let s = "ศไทย中华Việt Nam";
let v = [
224, 184, 168, 224, 185, 132, 224, 184, 151, 224, 184, 162, 228,
184, 173, 229, 141, 142, 86, 105, 225, 187, 135, 116, 32, 78, 97,
109
];
let mut pos = 0;
for b in s.bytes() {
assert_eq!(b, v[pos]);
pos += 1;
}
}
#[test]
fn test_bytes_revator() {
let s = "ศไทย中华Việt Nam";
let v = [
224, 184, 168, 224, 185, 132, 224, 184, 151, 224, 184, 162, 228,
184, 173, 229, 141, 142, 86, 105, 225, 187, 135, 116, 32, 78, 97,
109
];
let mut pos = v.len();
for b in s.bytes().rev() {
pos -= 1;
assert_eq!(b, v[pos]);
}
}
#[test]
fn test_char_indicesator() {
let s = "ศไทย中华Việt Nam";
let p = [0, 3, 6, 9, 12, 15, 18, 19, 20, 23, 24, 25, 26, 27];
let v = ['ศ','ไ','ท','ย','中','华','V','i','ệ','t',' ','N','a','m'];
let mut pos = 0;
let mut it = s.char_indices();
for c in it {
assert_eq!(c, (p[pos], v[pos]));
pos += 1;
}
assert_eq!(pos, v.len());
assert_eq!(pos, p.len());
}
#[test]
fn test_char_indices_revator() {
let s = "ศไทย中华Việt Nam";
let p = [27, 26, 25, 24, 23, 20, 19, 18, 15, 12, 9, 6, 3, 0];
let v = ['m', 'a', 'N', ' ', 't', 'ệ','i','V','华','中','ย','ท','ไ','ศ'];
let mut pos = 0;
let mut it = s.char_indices().rev();
for c in it {
assert_eq!(c, (p[pos], v[pos]));
pos += 1;
}
assert_eq!(pos, v.len());
assert_eq!(pos, p.len());
}
#[test]
fn test_splitn_char_iterator() {
let data = "\nMäry häd ä little lämb\nLittle lämb\n";
let split: Vec<&str> = data.splitn(3, ' ').collect();
assert_eq!(split, vec!["\nMäry", "häd", "ä", "little lämb\nLittle lämb\n"]);
let split: Vec<&str> = data.splitn(3, |&: c: char| c == ' ').collect();
assert_eq!(split, vec!["\nMäry", "häd", "ä", "little lämb\nLittle lämb\n"]);
// Unicode
let split: Vec<&str> = data.splitn(3, 'ä').collect();
assert_eq!(split, vec!["\nM", "ry h", "d ", " little lämb\nLittle lämb\n"]);
let split: Vec<&str> = data.splitn(3, |&: c: char| c == 'ä').collect();
assert_eq!(split, vec!["\nM", "ry h", "d ", " little lämb\nLittle lämb\n"]);
}
#[test]
fn test_split_char_iterator_no_trailing() {
let data = "\nMäry häd ä little lämb\nLittle lämb\n";
let split: Vec<&str> = data.split('\n').collect();
assert_eq!(split, vec!["", "Märy häd ä little lämb", "Little lämb", ""]);
let split: Vec<&str> = data.split_terminator('\n').collect();
assert_eq!(split, vec!["", "Märy häd ä little lämb", "Little lämb"]);
}
#[test]
fn test_words() {
let data = "\n \tMäry häd\tä little lämb\nLittle lämb\n";
let words: Vec<&str> = data.words().collect();
assert_eq!(words, vec!["Märy", "häd", "ä", "little", "lämb", "Little", "lämb"])
}
#[test]
fn test_lev_distance() {
use core::char::{ from_u32, MAX };
// Test bytelength agnosticity
for c in range(0u32, MAX as u32)
.filter_map(|i| from_u32(i))
.map(|i| String::from_char(1, i)) {
assert_eq!(c[].lev_distance(c[]), 0);
}
let a = "\nMäry häd ä little lämb\n\nLittle lämb\n";
let b = "\nMary häd ä little lämb\n\nLittle lämb\n";
let c = "Mary häd ä little lämb\n\nLittle lämb\n";
assert_eq!(a.lev_distance(b), 1);
assert_eq!(b.lev_distance(a), 1);
assert_eq!(a.lev_distance(c), 2);
assert_eq!(c.lev_distance(a), 2);
assert_eq!(b.lev_distance(c), 1);
assert_eq!(c.lev_distance(b), 1);
}
#[test]
fn test_nfd_chars() {
macro_rules! t {
($input: expr, $expected: expr) => {
assert_eq!($input.nfd_chars().collect::<String>(), $expected);
}
}
t!("abc", "abc");
t!("\u{1e0b}\u{1c4}", "d\u{307}\u{1c4}");
t!("\u{2026}", "\u{2026}");
t!("\u{2126}", "\u{3a9}");
t!("\u{1e0b}\u{323}", "d\u{323}\u{307}");
t!("\u{1e0d}\u{307}", "d\u{323}\u{307}");
t!("a\u{301}", "a\u{301}");
t!("\u{301}a", "\u{301}a");
t!("\u{d4db}", "\u{1111}\u{1171}\u{11b6}");
t!("\u{ac1c}", "\u{1100}\u{1162}");
}
#[test]
fn test_nfkd_chars() {
macro_rules! t {
($input: expr, $expected: expr) => {
assert_eq!($input.nfkd_chars().collect::<String>(), $expected);
}
}
t!("abc", "abc");
t!("\u{1e0b}\u{1c4}", "d\u{307}DZ\u{30c}");
t!("\u{2026}", "...");
t!("\u{2126}", "\u{3a9}");
t!("\u{1e0b}\u{323}", "d\u{323}\u{307}");
t!("\u{1e0d}\u{307}", "d\u{323}\u{307}");
t!("a\u{301}", "a\u{301}");
t!("\u{301}a", "\u{301}a");
t!("\u{d4db}", "\u{1111}\u{1171}\u{11b6}");
t!("\u{ac1c}", "\u{1100}\u{1162}");
}
#[test]
fn test_nfc_chars() {
macro_rules! t {
($input: expr, $expected: expr) => {
assert_eq!($input.nfc_chars().collect::<String>(), $expected);
}
}
t!("abc", "abc");
t!("\u{1e0b}\u{1c4}", "\u{1e0b}\u{1c4}");
t!("\u{2026}", "\u{2026}");
t!("\u{2126}", "\u{3a9}");
t!("\u{1e0b}\u{323}", "\u{1e0d}\u{307}");
t!("\u{1e0d}\u{307}", "\u{1e0d}\u{307}");
t!("a\u{301}", "\u{e1}");
t!("\u{301}a", "\u{301}a");
t!("\u{d4db}", "\u{d4db}");
t!("\u{ac1c}", "\u{ac1c}");
t!("a\u{300}\u{305}\u{315}\u{5ae}b", "\u{e0}\u{5ae}\u{305}\u{315}b");
}
#[test]
fn test_nfkc_chars() {
macro_rules! t {
($input: expr, $expected: expr) => {
assert_eq!($input.nfkc_chars().collect::<String>(), $expected);
}
}
t!("abc", "abc");
t!("\u{1e0b}\u{1c4}", "\u{1e0b}D\u{17d}");
t!("\u{2026}", "...");
t!("\u{2126}", "\u{3a9}");
t!("\u{1e0b}\u{323}", "\u{1e0d}\u{307}");
t!("\u{1e0d}\u{307}", "\u{1e0d}\u{307}");
t!("a\u{301}", "\u{e1}");
t!("\u{301}a", "\u{301}a");
t!("\u{d4db}", "\u{d4db}");
t!("\u{ac1c}", "\u{ac1c}");
t!("a\u{300}\u{305}\u{315}\u{5ae}b", "\u{e0}\u{5ae}\u{305}\u{315}b");
}
#[test]
fn test_lines() {
let data = "\nMäry häd ä little lämb\n\nLittle lämb\n";
let lines: Vec<&str> = data.lines().collect();
assert_eq!(lines, vec!["", "Märy häd ä little lämb", "", "Little lämb"]);
let data = "\nMäry häd ä little lämb\n\nLittle lämb"; // no trailing \n
let lines: Vec<&str> = data.lines().collect();
assert_eq!(lines, vec!["", "Märy häd ä little lämb", "", "Little lämb"]);
}
#[test]
fn test_graphemes() {
use core::iter::order;
// official Unicode test data
// from http://www.unicode.org/Public/UCD/latest/ucd/auxiliary/GraphemeBreakTest.txt
let test_same: [(_, &[_]), .. 325] = [
("\u{20}\u{20}", &["\u{20}", "\u{20}"]),
("\u{20}\u{308}\u{20}", &["\u{20}\u{308}", "\u{20}"]),
("\u{20}\u{D}", &["\u{20}", "\u{D}"]),
("\u{20}\u{308}\u{D}", &["\u{20}\u{308}", "\u{D}"]),
("\u{20}\u{A}", &["\u{20}", "\u{A}"]),
("\u{20}\u{308}\u{A}", &["\u{20}\u{308}", "\u{A}"]),
("\u{20}\u{1}", &["\u{20}", "\u{1}"]),
("\u{20}\u{308}\u{1}", &["\u{20}\u{308}", "\u{1}"]),
("\u{20}\u{300}", &["\u{20}\u{300}"]),
("\u{20}\u{308}\u{300}", &["\u{20}\u{308}\u{300}"]),
("\u{20}\u{1100}", &["\u{20}", "\u{1100}"]),
("\u{20}\u{308}\u{1100}", &["\u{20}\u{308}", "\u{1100}"]),
("\u{20}\u{1160}", &["\u{20}", "\u{1160}"]),
("\u{20}\u{308}\u{1160}", &["\u{20}\u{308}", "\u{1160}"]),
("\u{20}\u{11A8}", &["\u{20}", "\u{11A8}"]),
("\u{20}\u{308}\u{11A8}", &["\u{20}\u{308}", "\u{11A8}"]),
("\u{20}\u{AC00}", &["\u{20}", "\u{AC00}"]),
("\u{20}\u{308}\u{AC00}", &["\u{20}\u{308}", "\u{AC00}"]),
("\u{20}\u{AC01}", &["\u{20}", "\u{AC01}"]),
("\u{20}\u{308}\u{AC01}", &["\u{20}\u{308}", "\u{AC01}"]),
("\u{20}\u{1F1E6}", &["\u{20}", "\u{1F1E6}"]),
("\u{20}\u{308}\u{1F1E6}", &["\u{20}\u{308}", "\u{1F1E6}"]),
("\u{20}\u{378}", &["\u{20}", "\u{378}"]),
("\u{20}\u{308}\u{378}", &["\u{20}\u{308}", "\u{378}"]),
("\u{D}\u{20}", &["\u{D}", "\u{20}"]),
("\u{D}\u{308}\u{20}", &["\u{D}", "\u{308}", "\u{20}"]),
("\u{D}\u{D}", &["\u{D}", "\u{D}"]),
("\u{D}\u{308}\u{D}", &["\u{D}", "\u{308}", "\u{D}"]),
("\u{D}\u{A}", &["\u{D}\u{A}"]),
("\u{D}\u{308}\u{A}", &["\u{D}", "\u{308}", "\u{A}"]),
("\u{D}\u{1}", &["\u{D}", "\u{1}"]),
("\u{D}\u{308}\u{1}", &["\u{D}", "\u{308}", "\u{1}"]),
("\u{D}\u{300}", &["\u{D}", "\u{300}"]),
("\u{D}\u{308}\u{300}", &["\u{D}", "\u{308}\u{300}"]),
("\u{D}\u{903}", &["\u{D}", "\u{903}"]),
("\u{D}\u{1100}", &["\u{D}", "\u{1100}"]),
("\u{D}\u{308}\u{1100}", &["\u{D}", "\u{308}", "\u{1100}"]),
("\u{D}\u{1160}", &["\u{D}", "\u{1160}"]),
("\u{D}\u{308}\u{1160}", &["\u{D}", "\u{308}", "\u{1160}"]),
("\u{D}\u{11A8}", &["\u{D}", "\u{11A8}"]),
("\u{D}\u{308}\u{11A8}", &["\u{D}", "\u{308}", "\u{11A8}"]),
("\u{D}\u{AC00}", &["\u{D}", "\u{AC00}"]),
("\u{D}\u{308}\u{AC00}", &["\u{D}", "\u{308}", "\u{AC00}"]),
("\u{D}\u{AC01}", &["\u{D}", "\u{AC01}"]),
("\u{D}\u{308}\u{AC01}", &["\u{D}", "\u{308}", "\u{AC01}"]),
("\u{D}\u{1F1E6}", &["\u{D}", "\u{1F1E6}"]),
("\u{D}\u{308}\u{1F1E6}", &["\u{D}", "\u{308}", "\u{1F1E6}"]),
("\u{D}\u{378}", &["\u{D}", "\u{378}"]),
("\u{D}\u{308}\u{378}", &["\u{D}", "\u{308}", "\u{378}"]),
("\u{A}\u{20}", &["\u{A}", "\u{20}"]),
("\u{A}\u{308}\u{20}", &["\u{A}", "\u{308}", "\u{20}"]),
("\u{A}\u{D}", &["\u{A}", "\u{D}"]),
("\u{A}\u{308}\u{D}", &["\u{A}", "\u{308}", "\u{D}"]),
("\u{A}\u{A}", &["\u{A}", "\u{A}"]),
("\u{A}\u{308}\u{A}", &["\u{A}", "\u{308}", "\u{A}"]),
("\u{A}\u{1}", &["\u{A}", "\u{1}"]),
("\u{A}\u{308}\u{1}", &["\u{A}", "\u{308}", "\u{1}"]),
("\u{A}\u{300}", &["\u{A}", "\u{300}"]),
("\u{A}\u{308}\u{300}", &["\u{A}", "\u{308}\u{300}"]),
("\u{A}\u{903}", &["\u{A}", "\u{903}"]),
("\u{A}\u{1100}", &["\u{A}", "\u{1100}"]),
("\u{A}\u{308}\u{1100}", &["\u{A}", "\u{308}", "\u{1100}"]),
("\u{A}\u{1160}", &["\u{A}", "\u{1160}"]),
("\u{A}\u{308}\u{1160}", &["\u{A}", "\u{308}", "\u{1160}"]),
("\u{A}\u{11A8}", &["\u{A}", "\u{11A8}"]),
("\u{A}\u{308}\u{11A8}", &["\u{A}", "\u{308}", "\u{11A8}"]),
("\u{A}\u{AC00}", &["\u{A}", "\u{AC00}"]),
("\u{A}\u{308}\u{AC00}", &["\u{A}", "\u{308}", "\u{AC00}"]),
("\u{A}\u{AC01}", &["\u{A}", "\u{AC01}"]),
("\u{A}\u{308}\u{AC01}", &["\u{A}", "\u{308}", "\u{AC01}"]),
("\u{A}\u{1F1E6}", &["\u{A}", "\u{1F1E6}"]),
("\u{A}\u{308}\u{1F1E6}", &["\u{A}", "\u{308}", "\u{1F1E6}"]),
("\u{A}\u{378}", &["\u{A}", "\u{378}"]),
("\u{A}\u{308}\u{378}", &["\u{A}", "\u{308}", "\u{378}"]),
("\u{1}\u{20}", &["\u{1}", "\u{20}"]),
("\u{1}\u{308}\u{20}", &["\u{1}", "\u{308}", "\u{20}"]),
("\u{1}\u{D}", &["\u{1}", "\u{D}"]),
("\u{1}\u{308}\u{D}", &["\u{1}", "\u{308}", "\u{D}"]),
("\u{1}\u{A}", &["\u{1}", "\u{A}"]),
("\u{1}\u{308}\u{A}", &["\u{1}", "\u{308}", "\u{A}"]),
("\u{1}\u{1}", &["\u{1}", "\u{1}"]),
("\u{1}\u{308}\u{1}", &["\u{1}", "\u{308}", "\u{1}"]),
("\u{1}\u{300}", &["\u{1}", "\u{300}"]),
("\u{1}\u{308}\u{300}", &["\u{1}", "\u{308}\u{300}"]),
("\u{1}\u{903}", &["\u{1}", "\u{903}"]),
("\u{1}\u{1100}", &["\u{1}", "\u{1100}"]),
("\u{1}\u{308}\u{1100}", &["\u{1}", "\u{308}", "\u{1100}"]),
("\u{1}\u{1160}", &["\u{1}", "\u{1160}"]),
("\u{1}\u{308}\u{1160}", &["\u{1}", "\u{308}", "\u{1160}"]),
("\u{1}\u{11A8}", &["\u{1}", "\u{11A8}"]),
("\u{1}\u{308}\u{11A8}", &["\u{1}", "\u{308}", "\u{11A8}"]),
("\u{1}\u{AC00}", &["\u{1}", "\u{AC00}"]),
("\u{1}\u{308}\u{AC00}", &["\u{1}", "\u{308}", "\u{AC00}"]),
("\u{1}\u{AC01}", &["\u{1}", "\u{AC01}"]),
("\u{1}\u{308}\u{AC01}", &["\u{1}", "\u{308}", "\u{AC01}"]),
("\u{1}\u{1F1E6}", &["\u{1}", "\u{1F1E6}"]),
("\u{1}\u{308}\u{1F1E6}", &["\u{1}", "\u{308}", "\u{1F1E6}"]),
("\u{1}\u{378}", &["\u{1}", "\u{378}"]),
("\u{1}\u{308}\u{378}", &["\u{1}", "\u{308}", "\u{378}"]),
("\u{300}\u{20}", &["\u{300}", "\u{20}"]),
("\u{300}\u{308}\u{20}", &["\u{300}\u{308}", "\u{20}"]),
("\u{300}\u{D}", &["\u{300}", "\u{D}"]),
("\u{300}\u{308}\u{D}", &["\u{300}\u{308}", "\u{D}"]),
("\u{300}\u{A}", &["\u{300}", "\u{A}"]),
("\u{300}\u{308}\u{A}", &["\u{300}\u{308}", "\u{A}"]),
("\u{300}\u{1}", &["\u{300}", "\u{1}"]),
("\u{300}\u{308}\u{1}", &["\u{300}\u{308}", "\u{1}"]),
("\u{300}\u{300}", &["\u{300}\u{300}"]),
("\u{300}\u{308}\u{300}", &["\u{300}\u{308}\u{300}"]),
("\u{300}\u{1100}", &["\u{300}", "\u{1100}"]),
("\u{300}\u{308}\u{1100}", &["\u{300}\u{308}", "\u{1100}"]),
("\u{300}\u{1160}", &["\u{300}", "\u{1160}"]),
("\u{300}\u{308}\u{1160}", &["\u{300}\u{308}", "\u{1160}"]),
("\u{300}\u{11A8}", &["\u{300}", "\u{11A8}"]),
("\u{300}\u{308}\u{11A8}", &["\u{300}\u{308}", "\u{11A8}"]),
("\u{300}\u{AC00}", &["\u{300}", "\u{AC00}"]),
("\u{300}\u{308}\u{AC00}", &["\u{300}\u{308}", "\u{AC00}"]),
("\u{300}\u{AC01}", &["\u{300}", "\u{AC01}"]),
("\u{300}\u{308}\u{AC01}", &["\u{300}\u{308}", "\u{AC01}"]),
("\u{300}\u{1F1E6}", &["\u{300}", "\u{1F1E6}"]),
("\u{300}\u{308}\u{1F1E6}", &["\u{300}\u{308}", "\u{1F1E6}"]),
("\u{300}\u{378}", &["\u{300}", "\u{378}"]),
("\u{300}\u{308}\u{378}", &["\u{300}\u{308}", "\u{378}"]),
("\u{903}\u{20}", &["\u{903}", "\u{20}"]),
("\u{903}\u{308}\u{20}", &["\u{903}\u{308}", "\u{20}"]),
("\u{903}\u{D}", &["\u{903}", "\u{D}"]),
("\u{903}\u{308}\u{D}", &["\u{903}\u{308}", "\u{D}"]),
("\u{903}\u{A}", &["\u{903}", "\u{A}"]),
("\u{903}\u{308}\u{A}", &["\u{903}\u{308}", "\u{A}"]),
("\u{903}\u{1}", &["\u{903}", "\u{1}"]),
("\u{903}\u{308}\u{1}", &["\u{903}\u{308}", "\u{1}"]),
("\u{903}\u{300}", &["\u{903}\u{300}"]),
("\u{903}\u{308}\u{300}", &["\u{903}\u{308}\u{300}"]),
("\u{903}\u{1100}", &["\u{903}", "\u{1100}"]),
("\u{903}\u{308}\u{1100}", &["\u{903}\u{308}", "\u{1100}"]),
("\u{903}\u{1160}", &["\u{903}", "\u{1160}"]),
("\u{903}\u{308}\u{1160}", &["\u{903}\u{308}", "\u{1160}"]),
("\u{903}\u{11A8}", &["\u{903}", "\u{11A8}"]),
("\u{903}\u{308}\u{11A8}", &["\u{903}\u{308}", "\u{11A8}"]),
("\u{903}\u{AC00}", &["\u{903}", "\u{AC00}"]),
("\u{903}\u{308}\u{AC00}", &["\u{903}\u{308}", "\u{AC00}"]),
("\u{903}\u{AC01}", &["\u{903}", "\u{AC01}"]),
("\u{903}\u{308}\u{AC01}", &["\u{903}\u{308}", "\u{AC01}"]),
("\u{903}\u{1F1E6}", &["\u{903}", "\u{1F1E6}"]),
("\u{903}\u{308}\u{1F1E6}", &["\u{903}\u{308}", "\u{1F1E6}"]),
("\u{903}\u{378}", &["\u{903}", "\u{378}"]),
("\u{903}\u{308}\u{378}", &["\u{903}\u{308}", "\u{378}"]),
("\u{1100}\u{20}", &["\u{1100}", "\u{20}"]),
("\u{1100}\u{308}\u{20}", &["\u{1100}\u{308}", "\u{20}"]),
("\u{1100}\u{D}", &["\u{1100}", "\u{D}"]),
("\u{1100}\u{308}\u{D}", &["\u{1100}\u{308}", "\u{D}"]),
("\u{1100}\u{A}", &["\u{1100}", "\u{A}"]),
("\u{1100}\u{308}\u{A}", &["\u{1100}\u{308}", "\u{A}"]),
("\u{1100}\u{1}", &["\u{1100}", "\u{1}"]),
("\u{1100}\u{308}\u{1}", &["\u{1100}\u{308}", "\u{1}"]),
("\u{1100}\u{300}", &["\u{1100}\u{300}"]),
("\u{1100}\u{308}\u{300}", &["\u{1100}\u{308}\u{300}"]),
("\u{1100}\u{1100}", &["\u{1100}\u{1100}"]),
("\u{1100}\u{308}\u{1100}", &["\u{1100}\u{308}", "\u{1100}"]),
("\u{1100}\u{1160}", &["\u{1100}\u{1160}"]),
("\u{1100}\u{308}\u{1160}", &["\u{1100}\u{308}", "\u{1160}"]),
("\u{1100}\u{11A8}", &["\u{1100}", "\u{11A8}"]),
("\u{1100}\u{308}\u{11A8}", &["\u{1100}\u{308}", "\u{11A8}"]),
("\u{1100}\u{AC00}", &["\u{1100}\u{AC00}"]),
("\u{1100}\u{308}\u{AC00}", &["\u{1100}\u{308}", "\u{AC00}"]),
("\u{1100}\u{AC01}", &["\u{1100}\u{AC01}"]),
("\u{1100}\u{308}\u{AC01}", &["\u{1100}\u{308}", "\u{AC01}"]),
("\u{1100}\u{1F1E6}", &["\u{1100}", "\u{1F1E6}"]),
("\u{1100}\u{308}\u{1F1E6}", &["\u{1100}\u{308}", "\u{1F1E6}"]),
("\u{1100}\u{378}", &["\u{1100}", "\u{378}"]),
("\u{1100}\u{308}\u{378}", &["\u{1100}\u{308}", "\u{378}"]),
("\u{1160}\u{20}", &["\u{1160}", "\u{20}"]),
("\u{1160}\u{308}\u{20}", &["\u{1160}\u{308}", "\u{20}"]),
("\u{1160}\u{D}", &["\u{1160}", "\u{D}"]),
("\u{1160}\u{308}\u{D}", &["\u{1160}\u{308}", "\u{D}"]),
("\u{1160}\u{A}", &["\u{1160}", "\u{A}"]),
("\u{1160}\u{308}\u{A}", &["\u{1160}\u{308}", "\u{A}"]),
("\u{1160}\u{1}", &["\u{1160}", "\u{1}"]),
("\u{1160}\u{308}\u{1}", &["\u{1160}\u{308}", "\u{1}"]),
("\u{1160}\u{300}", &["\u{1160}\u{300}"]),
("\u{1160}\u{308}\u{300}", &["\u{1160}\u{308}\u{300}"]),
("\u{1160}\u{1100}", &["\u{1160}", "\u{1100}"]),
("\u{1160}\u{308}\u{1100}", &["\u{1160}\u{308}", "\u{1100}"]),
("\u{1160}\u{1160}", &["\u{1160}\u{1160}"]),
("\u{1160}\u{308}\u{1160}", &["\u{1160}\u{308}", "\u{1160}"]),
("\u{1160}\u{11A8}", &["\u{1160}\u{11A8}"]),
("\u{1160}\u{308}\u{11A8}", &["\u{1160}\u{308}", "\u{11A8}"]),
("\u{1160}\u{AC00}", &["\u{1160}", "\u{AC00}"]),
("\u{1160}\u{308}\u{AC00}", &["\u{1160}\u{308}", "\u{AC00}"]),
("\u{1160}\u{AC01}", &["\u{1160}", "\u{AC01}"]),
("\u{1160}\u{308}\u{AC01}", &["\u{1160}\u{308}", "\u{AC01}"]),
("\u{1160}\u{1F1E6}", &["\u{1160}", "\u{1F1E6}"]),
("\u{1160}\u{308}\u{1F1E6}", &["\u{1160}\u{308}", "\u{1F1E6}"]),
("\u{1160}\u{378}", &["\u{1160}", "\u{378}"]),
("\u{1160}\u{308}\u{378}", &["\u{1160}\u{308}", "\u{378}"]),
("\u{11A8}\u{20}", &["\u{11A8}", "\u{20}"]),
("\u{11A8}\u{308}\u{20}", &["\u{11A8}\u{308}", "\u{20}"]),
("\u{11A8}\u{D}", &["\u{11A8}", "\u{D}"]),
("\u{11A8}\u{308}\u{D}", &["\u{11A8}\u{308}", "\u{D}"]),
("\u{11A8}\u{A}", &["\u{11A8}", "\u{A}"]),
("\u{11A8}\u{308}\u{A}", &["\u{11A8}\u{308}", "\u{A}"]),
("\u{11A8}\u{1}", &["\u{11A8}", "\u{1}"]),
("\u{11A8}\u{308}\u{1}", &["\u{11A8}\u{308}", "\u{1}"]),
("\u{11A8}\u{300}", &["\u{11A8}\u{300}"]),
("\u{11A8}\u{308}\u{300}", &["\u{11A8}\u{308}\u{300}"]),
("\u{11A8}\u{1100}", &["\u{11A8}", "\u{1100}"]),
("\u{11A8}\u{308}\u{1100}", &["\u{11A8}\u{308}", "\u{1100}"]),
("\u{11A8}\u{1160}", &["\u{11A8}", "\u{1160}"]),
("\u{11A8}\u{308}\u{1160}", &["\u{11A8}\u{308}", "\u{1160}"]),
("\u{11A8}\u{11A8}", &["\u{11A8}\u{11A8}"]),
("\u{11A8}\u{308}\u{11A8}", &["\u{11A8}\u{308}", "\u{11A8}"]),
("\u{11A8}\u{AC00}", &["\u{11A8}", "\u{AC00}"]),
("\u{11A8}\u{308}\u{AC00}", &["\u{11A8}\u{308}", "\u{AC00}"]),
("\u{11A8}\u{AC01}", &["\u{11A8}", "\u{AC01}"]),
("\u{11A8}\u{308}\u{AC01}", &["\u{11A8}\u{308}", "\u{AC01}"]),
("\u{11A8}\u{1F1E6}", &["\u{11A8}", "\u{1F1E6}"]),
("\u{11A8}\u{308}\u{1F1E6}", &["\u{11A8}\u{308}", "\u{1F1E6}"]),
("\u{11A8}\u{378}", &["\u{11A8}", "\u{378}"]),
("\u{11A8}\u{308}\u{378}", &["\u{11A8}\u{308}", "\u{378}"]),
("\u{AC00}\u{20}", &["\u{AC00}", "\u{20}"]),
("\u{AC00}\u{308}\u{20}", &["\u{AC00}\u{308}", "\u{20}"]),
("\u{AC00}\u{D}", &["\u{AC00}", "\u{D}"]),
("\u{AC00}\u{308}\u{D}", &["\u{AC00}\u{308}", "\u{D}"]),
("\u{AC00}\u{A}", &["\u{AC00}", "\u{A}"]),
("\u{AC00}\u{308}\u{A}", &["\u{AC00}\u{308}", "\u{A}"]),
("\u{AC00}\u{1}", &["\u{AC00}", "\u{1}"]),
("\u{AC00}\u{308}\u{1}", &["\u{AC00}\u{308}", "\u{1}"]),
("\u{AC00}\u{300}", &["\u{AC00}\u{300}"]),
("\u{AC00}\u{308}\u{300}", &["\u{AC00}\u{308}\u{300}"]),
("\u{AC00}\u{1100}", &["\u{AC00}", "\u{1100}"]),
("\u{AC00}\u{308}\u{1100}", &["\u{AC00}\u{308}", "\u{1100}"]),
("\u{AC00}\u{1160}", &["\u{AC00}\u{1160}"]),
("\u{AC00}\u{308}\u{1160}", &["\u{AC00}\u{308}", "\u{1160}"]),
("\u{AC00}\u{11A8}", &["\u{AC00}\u{11A8}"]),
("\u{AC00}\u{308}\u{11A8}", &["\u{AC00}\u{308}", "\u{11A8}"]),
("\u{AC00}\u{AC00}", &["\u{AC00}", "\u{AC00}"]),
("\u{AC00}\u{308}\u{AC00}", &["\u{AC00}\u{308}", "\u{AC00}"]),
("\u{AC00}\u{AC01}", &["\u{AC00}", "\u{AC01}"]),
("\u{AC00}\u{308}\u{AC01}", &["\u{AC00}\u{308}", "\u{AC01}"]),
("\u{AC00}\u{1F1E6}", &["\u{AC00}", "\u{1F1E6}"]),
("\u{AC00}\u{308}\u{1F1E6}", &["\u{AC00}\u{308}", "\u{1F1E6}"]),
("\u{AC00}\u{378}", &["\u{AC00}", "\u{378}"]),
("\u{AC00}\u{308}\u{378}", &["\u{AC00}\u{308}", "\u{378}"]),
("\u{AC01}\u{20}", &["\u{AC01}", "\u{20}"]),
("\u{AC01}\u{308}\u{20}", &["\u{AC01}\u{308}", "\u{20}"]),
("\u{AC01}\u{D}", &["\u{AC01}", "\u{D}"]),
("\u{AC01}\u{308}\u{D}", &["\u{AC01}\u{308}", "\u{D}"]),
("\u{AC01}\u{A}", &["\u{AC01}", "\u{A}"]),
("\u{AC01}\u{308}\u{A}", &["\u{AC01}\u{308}", "\u{A}"]),
("\u{AC01}\u{1}", &["\u{AC01}", "\u{1}"]),
("\u{AC01}\u{308}\u{1}", &["\u{AC01}\u{308}", "\u{1}"]),
("\u{AC01}\u{300}", &["\u{AC01}\u{300}"]),
("\u{AC01}\u{308}\u{300}", &["\u{AC01}\u{308}\u{300}"]),
("\u{AC01}\u{1100}", &["\u{AC01}", "\u{1100}"]),
("\u{AC01}\u{308}\u{1100}", &["\u{AC01}\u{308}", "\u{1100}"]),
("\u{AC01}\u{1160}", &["\u{AC01}", "\u{1160}"]),
("\u{AC01}\u{308}\u{1160}", &["\u{AC01}\u{308}", "\u{1160}"]),
("\u{AC01}\u{11A8}", &["\u{AC01}\u{11A8}"]),
("\u{AC01}\u{308}\u{11A8}", &["\u{AC01}\u{308}", "\u{11A8}"]),
("\u{AC01}\u{AC00}", &["\u{AC01}", "\u{AC00}"]),
("\u{AC01}\u{308}\u{AC00}", &["\u{AC01}\u{308}", "\u{AC00}"]),
("\u{AC01}\u{AC01}", &["\u{AC01}", "\u{AC01}"]),
("\u{AC01}\u{308}\u{AC01}", &["\u{AC01}\u{308}", "\u{AC01}"]),
("\u{AC01}\u{1F1E6}", &["\u{AC01}", "\u{1F1E6}"]),
("\u{AC01}\u{308}\u{1F1E6}", &["\u{AC01}\u{308}", "\u{1F1E6}"]),
("\u{AC01}\u{378}", &["\u{AC01}", "\u{378}"]),
("\u{AC01}\u{308}\u{378}", &["\u{AC01}\u{308}", "\u{378}"]),
("\u{1F1E6}\u{20}", &["\u{1F1E6}", "\u{20}"]),
("\u{1F1E6}\u{308}\u{20}", &["\u{1F1E6}\u{308}", "\u{20}"]),
("\u{1F1E6}\u{D}", &["\u{1F1E6}", "\u{D}"]),
("\u{1F1E6}\u{308}\u{D}", &["\u{1F1E6}\u{308}", "\u{D}"]),
("\u{1F1E6}\u{A}", &["\u{1F1E6}", "\u{A}"]),
("\u{1F1E6}\u{308}\u{A}", &["\u{1F1E6}\u{308}", "\u{A}"]),
("\u{1F1E6}\u{1}", &["\u{1F1E6}", "\u{1}"]),
("\u{1F1E6}\u{308}\u{1}", &["\u{1F1E6}\u{308}", "\u{1}"]),
("\u{1F1E6}\u{300}", &["\u{1F1E6}\u{300}"]),
("\u{1F1E6}\u{308}\u{300}", &["\u{1F1E6}\u{308}\u{300}"]),
("\u{1F1E6}\u{1100}", &["\u{1F1E6}", "\u{1100}"]),
("\u{1F1E6}\u{308}\u{1100}", &["\u{1F1E6}\u{308}", "\u{1100}"]),
("\u{1F1E6}\u{1160}", &["\u{1F1E6}", "\u{1160}"]),
("\u{1F1E6}\u{308}\u{1160}", &["\u{1F1E6}\u{308}", "\u{1160}"]),
("\u{1F1E6}\u{11A8}", &["\u{1F1E6}", "\u{11A8}"]),
("\u{1F1E6}\u{308}\u{11A8}", &["\u{1F1E6}\u{308}", "\u{11A8}"]),
("\u{1F1E6}\u{AC00}", &["\u{1F1E6}", "\u{AC00}"]),
("\u{1F1E6}\u{308}\u{AC00}", &["\u{1F1E6}\u{308}", "\u{AC00}"]),
("\u{1F1E6}\u{AC01}", &["\u{1F1E6}", "\u{AC01}"]),
("\u{1F1E6}\u{308}\u{AC01}", &["\u{1F1E6}\u{308}", "\u{AC01}"]),
("\u{1F1E6}\u{1F1E6}", &["\u{1F1E6}\u{1F1E6}"]),
("\u{1F1E6}\u{308}\u{1F1E6}", &["\u{1F1E6}\u{308}", "\u{1F1E6}"]),
("\u{1F1E6}\u{378}", &["\u{1F1E6}", "\u{378}"]),
("\u{1F1E6}\u{308}\u{378}", &["\u{1F1E6}\u{308}", "\u{378}"]),
("\u{378}\u{20}", &["\u{378}", "\u{20}"]),
("\u{378}\u{308}\u{20}", &["\u{378}\u{308}", "\u{20}"]),
("\u{378}\u{D}", &["\u{378}", "\u{D}"]),
("\u{378}\u{308}\u{D}", &["\u{378}\u{308}", "\u{D}"]),
("\u{378}\u{A}", &["\u{378}", "\u{A}"]),
("\u{378}\u{308}\u{A}", &["\u{378}\u{308}", "\u{A}"]),
("\u{378}\u{1}", &["\u{378}", "\u{1}"]),
("\u{378}\u{308}\u{1}", &["\u{378}\u{308}", "\u{1}"]),
("\u{378}\u{300}", &["\u{378}\u{300}"]),
("\u{378}\u{308}\u{300}", &["\u{378}\u{308}\u{300}"]),
("\u{378}\u{1100}", &["\u{378}", "\u{1100}"]),
("\u{378}\u{308}\u{1100}", &["\u{378}\u{308}", "\u{1100}"]),
("\u{378}\u{1160}", &["\u{378}", "\u{1160}"]),
("\u{378}\u{308}\u{1160}", &["\u{378}\u{308}", "\u{1160}"]),
("\u{378}\u{11A8}", &["\u{378}", "\u{11A8}"]),
("\u{378}\u{308}\u{11A8}", &["\u{378}\u{308}", "\u{11A8}"]),
("\u{378}\u{AC00}", &["\u{378}", "\u{AC00}"]),
("\u{378}\u{308}\u{AC00}", &["\u{378}\u{308}", "\u{AC00}"]),
("\u{378}\u{AC01}", &["\u{378}", "\u{AC01}"]),
("\u{378}\u{308}\u{AC01}", &["\u{378}\u{308}", "\u{AC01}"]),
("\u{378}\u{1F1E6}", &["\u{378}", "\u{1F1E6}"]),
("\u{378}\u{308}\u{1F1E6}", &["\u{378}\u{308}", "\u{1F1E6}"]),
("\u{378}\u{378}", &["\u{378}", "\u{378}"]),
("\u{378}\u{308}\u{378}", &["\u{378}\u{308}", "\u{378}"]),
("\u{61}\u{1F1E6}\u{62}", &["\u{61}", "\u{1F1E6}", "\u{62}"]),
("\u{1F1F7}\u{1F1FA}", &["\u{1F1F7}\u{1F1FA}"]),
("\u{1F1F7}\u{1F1FA}\u{1F1F8}", &["\u{1F1F7}\u{1F1FA}\u{1F1F8}"]),
("\u{1F1F7}\u{1F1FA}\u{1F1F8}\u{1F1EA}",
&["\u{1F1F7}\u{1F1FA}\u{1F1F8}\u{1F1EA}"]),
("\u{1F1F7}\u{1F1FA}\u{200B}\u{1F1F8}\u{1F1EA}",
&["\u{1F1F7}\u{1F1FA}", "\u{200B}", "\u{1F1F8}\u{1F1EA}"]),
("\u{1F1E6}\u{1F1E7}\u{1F1E8}", &["\u{1F1E6}\u{1F1E7}\u{1F1E8}"]),
("\u{1F1E6}\u{200D}\u{1F1E7}\u{1F1E8}", &["\u{1F1E6}\u{200D}",
"\u{1F1E7}\u{1F1E8}"]),
("\u{1F1E6}\u{1F1E7}\u{200D}\u{1F1E8}",
&["\u{1F1E6}\u{1F1E7}\u{200D}", "\u{1F1E8}"]),
("\u{20}\u{200D}\u{646}", &["\u{20}\u{200D}", "\u{646}"]),
("\u{646}\u{200D}\u{20}", &["\u{646}\u{200D}", "\u{20}"]),
];
let test_diff: [(_, &[_], &[_]), .. 23] = [
("\u{20}\u{903}", &["\u{20}\u{903}"], &["\u{20}", "\u{903}"]), ("\u{20}\u{308}\u{903}",
&["\u{20}\u{308}\u{903}"], &["\u{20}\u{308}", "\u{903}"]), ("\u{D}\u{308}\u{903}",
&["\u{D}", "\u{308}\u{903}"], &["\u{D}", "\u{308}", "\u{903}"]), ("\u{A}\u{308}\u{903}",
&["\u{A}", "\u{308}\u{903}"], &["\u{A}", "\u{308}", "\u{903}"]), ("\u{1}\u{308}\u{903}",
&["\u{1}", "\u{308}\u{903}"], &["\u{1}", "\u{308}", "\u{903}"]), ("\u{300}\u{903}",
&["\u{300}\u{903}"], &["\u{300}", "\u{903}"]), ("\u{300}\u{308}\u{903}",
&["\u{300}\u{308}\u{903}"], &["\u{300}\u{308}", "\u{903}"]), ("\u{903}\u{903}",
&["\u{903}\u{903}"], &["\u{903}", "\u{903}"]), ("\u{903}\u{308}\u{903}",
&["\u{903}\u{308}\u{903}"], &["\u{903}\u{308}", "\u{903}"]), ("\u{1100}\u{903}",
&["\u{1100}\u{903}"], &["\u{1100}", "\u{903}"]), ("\u{1100}\u{308}\u{903}",
&["\u{1100}\u{308}\u{903}"], &["\u{1100}\u{308}", "\u{903}"]), ("\u{1160}\u{903}",
&["\u{1160}\u{903}"], &["\u{1160}", "\u{903}"]), ("\u{1160}\u{308}\u{903}",
&["\u{1160}\u{308}\u{903}"], &["\u{1160}\u{308}", "\u{903}"]), ("\u{11A8}\u{903}",
&["\u{11A8}\u{903}"], &["\u{11A8}", "\u{903}"]), ("\u{11A8}\u{308}\u{903}",
&["\u{11A8}\u{308}\u{903}"], &["\u{11A8}\u{308}", "\u{903}"]), ("\u{AC00}\u{903}",
&["\u{AC00}\u{903}"], &["\u{AC00}", "\u{903}"]), ("\u{AC00}\u{308}\u{903}",
&["\u{AC00}\u{308}\u{903}"], &["\u{AC00}\u{308}", "\u{903}"]), ("\u{AC01}\u{903}",
&["\u{AC01}\u{903}"], &["\u{AC01}", "\u{903}"]), ("\u{AC01}\u{308}\u{903}",
&["\u{AC01}\u{308}\u{903}"], &["\u{AC01}\u{308}", "\u{903}"]), ("\u{1F1E6}\u{903}",
&["\u{1F1E6}\u{903}"], &["\u{1F1E6}", "\u{903}"]), ("\u{1F1E6}\u{308}\u{903}",
&["\u{1F1E6}\u{308}\u{903}"], &["\u{1F1E6}\u{308}", "\u{903}"]), ("\u{378}\u{903}",
&["\u{378}\u{903}"], &["\u{378}", "\u{903}"]), ("\u{378}\u{308}\u{903}",
&["\u{378}\u{308}\u{903}"], &["\u{378}\u{308}", "\u{903}"]),
];
for &(s, g) in test_same.iter() {
// test forward iterator
assert!(order::equals(s.graphemes(true), g.iter().map(|&x| x)));
assert!(order::equals(s.graphemes(false), g.iter().map(|&x| x)));
// test reverse iterator
assert!(order::equals(s.graphemes(true).rev(), g.iter().rev().map(|&x| x)));
assert!(order::equals(s.graphemes(false).rev(), g.iter().rev().map(|&x| x)));
}
for &(s, gt, gf) in test_diff.iter() {
// test forward iterator
assert!(order::equals(s.graphemes(true), gt.iter().map(|&x| x)));
assert!(order::equals(s.graphemes(false), gf.iter().map(|&x| x)));
// test reverse iterator
assert!(order::equals(s.graphemes(true).rev(), gt.iter().rev().map(|&x| x)));
assert!(order::equals(s.graphemes(false).rev(), gf.iter().rev().map(|&x| x)));
}
// test the indices iterators
let s = "a̐éö̲\r\n";
let gr_inds = s.grapheme_indices(true).collect::<Vec<(uint, &str)>>();
let b: &[_] = &[(0u, ""), (3, ""), (6, "ö̲"), (11, "\r\n")];
assert_eq!(gr_inds, b);
let gr_inds = s.grapheme_indices(true).rev().collect::<Vec<(uint, &str)>>();
let b: &[_] = &[(11, "\r\n"), (6, "ö̲"), (3, ""), (0u, "")];
assert_eq!(gr_inds, b);
let mut gr_inds_iter = s.grapheme_indices(true);
{
let gr_inds = gr_inds_iter.by_ref();
let e1 = gr_inds.size_hint();
assert_eq!(e1, (1, Some(13)));
let c = gr_inds.count();
assert_eq!(c, 4);
}
let e2 = gr_inds_iter.size_hint();
assert_eq!(e2, (0, Some(0)));
// make sure the reverse iterator does the right thing with "\n" at beginning of string
let s = "\n\r\n\r";
let gr = s.graphemes(true).rev().collect::<Vec<&str>>();
let b: &[_] = &["\r", "\r\n", "\n"];
assert_eq!(gr, b);
}
#[test]
fn test_split_strator() {
fn t(s: &str, sep: &str, u: &[&str]) {
let v: Vec<&str> = s.split_str(sep).collect();
assert_eq!(v, u);
}
t("--1233345--", "12345", &["--1233345--"]);
t("abc::hello::there", "::", &["abc", "hello", "there"]);
t("::hello::there", "::", &["", "hello", "there"]);
t("hello::there::", "::", &["hello", "there", ""]);
t("::hello::there::", "::", &["", "hello", "there", ""]);
t("ประเทศไทย中华Việt Nam", "中华", &["ประเทศไทย", "Việt Nam"]);
t("zzXXXzzYYYzz", "zz", &["", "XXX", "YYY", ""]);
t("zzXXXzYYYz", "XXX", &["zz", "zYYYz"]);
t(".XXX.YYY.", ".", &["", "XXX", "YYY", ""]);
t("", ".", &[""]);
t("zz", "zz", &["",""]);
t("ok", "z", &["ok"]);
t("zzz", "zz", &["","z"]);
t("zzzzz", "zz", &["","","z"]);
}
#[test]
fn test_str_default() {
use core::default::Default;
fn t<S: Default + Str>() {
let s: S = Default::default();
assert_eq!(s.as_slice(), "");
}
t::<&str>();
t::<String>();
}
#[test]
fn test_str_container() {
fn sum_len(v: &[&str]) -> uint {
v.iter().map(|x| x.len()).sum()
}
let s = String::from_str("01234");
assert_eq!(5, sum_len(&["012", "", "34"]));
assert_eq!(5, sum_len(&[String::from_str("01").as_slice(),
String::from_str("2").as_slice(),
String::from_str("34").as_slice(),
String::from_str("").as_slice()]));
assert_eq!(5, sum_len(&[s.as_slice()]));
}
#[test]
fn test_str_from_utf8() {
let xs = b"hello";
assert_eq!(from_utf8(xs), Some("hello"));
let xs = "ศไทย中华Việt Nam".as_bytes();
assert_eq!(from_utf8(xs), Some("ศไทย中华Việt Nam"));
let xs = b"hello\xFF";
assert_eq!(from_utf8(xs), None);
}
#[test]
fn test_maybe_owned_traits() {
let s = Slice("abcde");
assert_eq!(s.len(), 5);
assert_eq!(s.as_slice(), "abcde");
assert_eq!(String::from_str(s.as_slice()).as_slice(), "abcde");
assert_eq!(format!("{}", s).as_slice(), "abcde");
assert!(s.lt(&Owned(String::from_str("bcdef"))));
assert_eq!(Slice(""), Default::default());
let o = Owned(String::from_str("abcde"));
assert_eq!(o.len(), 5);
assert_eq!(o.as_slice(), "abcde");
assert_eq!(String::from_str(o.as_slice()).as_slice(), "abcde");
assert_eq!(format!("{}", o).as_slice(), "abcde");
assert!(o.lt(&Slice("bcdef")));
assert_eq!(Owned(String::from_str("")), Default::default());
assert!(s.cmp(&o) == Equal);
assert!(s.equiv(&o));
assert!(o.cmp(&s) == Equal);
assert!(o.equiv(&s));
}
#[test]
fn test_maybe_owned_methods() {
let s = Slice("abcde");
assert!(s.is_slice());
assert!(!s.is_owned());
let o = Owned(String::from_str("abcde"));
assert!(!o.is_slice());
assert!(o.is_owned());
}
#[test]
fn test_maybe_owned_clone() {
assert_eq!(Owned(String::from_str("abcde")), Slice("abcde").clone());
assert_eq!(Owned(String::from_str("abcde")), Owned(String::from_str("abcde")).clone());
assert_eq!(Slice("abcde"), Slice("abcde").clone());
assert_eq!(Slice("abcde"), Owned(String::from_str("abcde")).clone());
}
#[test]
fn test_maybe_owned_into_string() {
assert_eq!(Slice("abcde").into_string(), String::from_str("abcde"));
assert_eq!(Owned(String::from_str("abcde")).into_string(),
String::from_str("abcde"));
}
#[test]
fn test_into_maybe_owned() {
assert_eq!("abcde".into_maybe_owned(), Slice("abcde"));
assert_eq!((String::from_str("abcde")).into_maybe_owned(), Slice("abcde"));
assert_eq!("abcde".into_maybe_owned(), Owned(String::from_str("abcde")));
assert_eq!((String::from_str("abcde")).into_maybe_owned(),
Owned(String::from_str("abcde")));
}
}
#[cfg(test)]
mod bench {
use prelude::*;
use test::Bencher;
use test::black_box;
use super::*;
#[bench]
fn char_iterator(b: &mut Bencher) {
let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb";
b.iter(|| s.chars().count());
}
#[bench]
fn char_iterator_for(b: &mut Bencher) {
let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb";
b.iter(|| {
for ch in s.chars() { black_box(ch) }
});
}
#[bench]
fn char_iterator_ascii(b: &mut Bencher) {
let s = "Mary had a little lamb, Little lamb
Mary had a little lamb, Little lamb
Mary had a little lamb, Little lamb
Mary had a little lamb, Little lamb
Mary had a little lamb, Little lamb
Mary had a little lamb, Little lamb";
b.iter(|| s.chars().count());
}
#[bench]
fn char_iterator_rev(b: &mut Bencher) {
let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb";
b.iter(|| s.chars().rev().count());
}
#[bench]
fn char_iterator_rev_for(b: &mut Bencher) {
let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb";
b.iter(|| {
for ch in s.chars().rev() { black_box(ch) }
});
}
#[bench]
fn char_indicesator(b: &mut Bencher) {
let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb";
let len = s.char_len();
b.iter(|| assert_eq!(s.char_indices().count(), len));
}
#[bench]
fn char_indicesator_rev(b: &mut Bencher) {
let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb";
let len = s.char_len();
b.iter(|| assert_eq!(s.char_indices().rev().count(), len));
}
#[bench]
fn split_unicode_ascii(b: &mut Bencher) {
let s = "ประเทศไทย中华Việt Namประเทศไทย中华Việt Nam";
b.iter(|| assert_eq!(s.split('V').count(), 3));
}
#[bench]
fn split_unicode_not_ascii(b: &mut Bencher) {
struct NotAscii(char);
impl CharEq for NotAscii {
fn matches(&mut self, c: char) -> bool {
let NotAscii(cc) = *self;
cc == c
}
fn only_ascii(&self) -> bool { false }
}
let s = "ประเทศไทย中华Việt Namประเทศไทย中华Việt Nam";
b.iter(|| assert_eq!(s.split(NotAscii('V')).count(), 3));
}
#[bench]
fn split_ascii(b: &mut Bencher) {
let s = "Mary had a little lamb, Little lamb, little-lamb.";
let len = s.split(' ').count();
b.iter(|| assert_eq!(s.split(' ').count(), len));
}
#[bench]
fn split_not_ascii(b: &mut Bencher) {
struct NotAscii(char);
impl CharEq for NotAscii {
#[inline]
fn matches(&mut self, c: char) -> bool {
let NotAscii(cc) = *self;
cc == c
}
fn only_ascii(&self) -> bool { false }
}
let s = "Mary had a little lamb, Little lamb, little-lamb.";
let len = s.split(' ').count();
b.iter(|| assert_eq!(s.split(NotAscii(' ')).count(), len));
}
#[bench]
fn split_extern_fn(b: &mut Bencher) {
let s = "Mary had a little lamb, Little lamb, little-lamb.";
let len = s.split(' ').count();
fn pred(c: char) -> bool { c == ' ' }
b.iter(|| assert_eq!(s.split(pred).count(), len));
}
#[bench]
fn split_closure(b: &mut Bencher) {
let s = "Mary had a little lamb, Little lamb, little-lamb.";
let len = s.split(' ').count();
b.iter(|| assert_eq!(s.split(|&: c: char| c == ' ').count(), len));
}
#[bench]
fn split_slice(b: &mut Bencher) {
let s = "Mary had a little lamb, Little lamb, little-lamb.";
let len = s.split(' ').count();
let c: &[char] = &[' '];
b.iter(|| assert_eq!(s.split(c).count(), len));
}
#[bench]
fn is_utf8_100_ascii(b: &mut Bencher) {
let s = b"Hello there, the quick brown fox jumped over the lazy dog! \
Lorem ipsum dolor sit amet, consectetur. ";
assert_eq!(100, s.len());
b.iter(|| {
is_utf8(s)
});
}
#[bench]
fn is_utf8_100_multibyte(b: &mut Bencher) {
let s = "𐌀𐌖𐌋𐌄𐌑𐌉ปรدولة الكويتทศไทย中华𐍅𐌿𐌻𐍆𐌹𐌻𐌰".as_bytes();
assert_eq!(100, s.len());
b.iter(|| {
is_utf8(s)
});
}
#[bench]
fn bench_connect(b: &mut Bencher) {
let s = "ศไทย中华Việt Nam; Mary had a little lamb, Little lamb";
let sep = "";
let v = [s, s, s, s, s, s, s, s, s, s];
b.iter(|| {
assert_eq!(v.connect(sep).len(), s.len() * 10 + sep.len() * 9);
})
}
#[bench]
fn bench_contains_short_short(b: &mut Bencher) {
let haystack = "Lorem ipsum dolor sit amet, consectetur adipiscing elit.";
let needle = "sit";
b.iter(|| {
assert!(haystack.contains(needle));
})
}
#[bench]
fn bench_contains_short_long(b: &mut Bencher) {
let haystack = "\
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Suspendisse quis lorem sit amet dolor \
ultricies condimentum. Praesent iaculis purus elit, ac malesuada quam malesuada in. Duis sed orci \
eros. Suspendisse sit amet magna mollis, mollis nunc luctus, imperdiet mi. Integer fringilla non \
sem ut lacinia. Fusce varius tortor a risus porttitor hendrerit. Morbi mauris dui, ultricies nec \
tempus vel, gravida nec quam.
In est dui, tincidunt sed tempus interdum, adipiscing laoreet ante. Etiam tempor, tellus quis \
sagittis interdum, nulla purus mattis sem, quis auctor erat odio ac tellus. In nec nunc sit amet \
diam volutpat molestie at sed ipsum. Vestibulum laoreet consequat vulputate. Integer accumsan \
lorem ac dignissim placerat. Suspendisse convallis faucibus lorem. Aliquam erat volutpat. In vel \
eleifend felis. Sed suscipit nulla lorem, sed mollis est sollicitudin et. Nam fermentum egestas \
interdum. Curabitur ut nisi justo.
Sed sollicitudin ipsum tellus, ut condimentum leo eleifend nec. Cras ut velit ante. Phasellus nec \
mollis odio. Mauris molestie erat in arcu mattis, at aliquet dolor vehicula. Quisque malesuada \
lectus sit amet nisi pretium, a condimentum ipsum porta. Morbi at dapibus diam. Praesent egestas \
est sed risus elementum, eu rutrum metus ultrices. Etiam fermentum consectetur magna, id rutrum \
felis accumsan a. Aliquam ut pellentesque libero. Sed mi nulla, lobortis eu tortor id, suscipit \
ultricies neque. Morbi iaculis sit amet risus at iaculis. Praesent eget ligula quis turpis \
feugiat suscipit vel non arcu. Interdum et malesuada fames ac ante ipsum primis in faucibus. \
Aliquam sit amet placerat lorem.
Cras a lacus vel ante posuere elementum. Nunc est leo, bibendum ut facilisis vel, bibendum at \
mauris. Nullam adipiscing diam vel odio ornare, luctus adipiscing mi luctus. Nulla facilisi. \
Mauris adipiscing bibendum neque, quis adipiscing lectus tempus et. Sed feugiat erat et nisl \
lobortis pharetra. Donec vitae erat enim. Nullam sit amet felis et quam lacinia tincidunt. Aliquam \
suscipit dapibus urna. Sed volutpat urna in magna pulvinar volutpat. Phasellus nec tellus ac diam \
cursus accumsan.
Nam lectus enim, dapibus non nisi tempor, consectetur convallis massa. Maecenas eleifend dictum \
feugiat. Etiam quis mauris vel risus luctus mattis a a nunc. Nullam orci quam, imperdiet id \
vehicula in, porttitor ut nibh. Duis sagittis adipiscing nisl vitae congue. Donec mollis risus eu \
leo suscipit, varius porttitor nulla porta. Pellentesque ut sem nec nisi euismod vehicula. Nulla \
malesuada sollicitudin quam eu fermentum.";
let needle = "english";
b.iter(|| {
assert!(!haystack.contains(needle));
})
}
#[bench]
fn bench_contains_bad_naive(b: &mut Bencher) {
let haystack = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa";
let needle = "aaaaaaaab";
b.iter(|| {
assert!(!haystack.contains(needle));
})
}
#[bench]
fn bench_contains_equal(b: &mut Bencher) {
let haystack = "Lorem ipsum dolor sit amet, consectetur adipiscing elit.";
let needle = "Lorem ipsum dolor sit amet, consectetur adipiscing elit.";
b.iter(|| {
assert!(haystack.contains(needle));
})
}
}
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