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chromium / external / github.com / rust-lang / rust / 0f02309e4b0ea05ee905205278fb6d131341c41f / . / src / libstd / sys / common / wtf8.rs
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// Copyright 2015 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.
//! Implementation of [the WTF-8 encoding](https://simonsapin.github.io/wtf-8/).
//!
//! This library uses Rust’s type system to maintain
//! [well-formedness](https://simonsapin.github.io/wtf-8/#well-formed),
//! like the `String` and `&str` types do for UTF-8.
//!
//! Since [WTF-8 must not be used
//! for interchange](https://simonsapin.github.io/wtf-8/#intended-audience),
//! this library deliberately does not provide access to the underlying bytes
//! of WTF-8 strings,
//! nor can it decode WTF-8 from arbitrary bytes.
//! WTF-8 strings can be obtained from UTF-8, UTF-16, or code points.
// this module is imported from @SimonSapin's repo and has tons of dead code on
// unix (it's mostly used on windows), so don't worry about dead code here.
#![allow(dead_code)]
use core::str::next_code_point;
use ascii::*;
use borrow::Cow;
use char;
use fmt;
use hash::{Hash, Hasher};
use iter::FromIterator;
use mem;
use ops;
use slice;
use str;
use string::String;
use sys_common::AsInner;
use vec::Vec;
const UTF8_REPLACEMENT_CHARACTER: &'static [u8] = b"\xEF\xBF\xBD";
/// A Unicode code point: from U+0000 to U+10FFFF.
///
/// Compare with the `char` type,
/// which represents a Unicode scalar value:
/// a code point that is not a surrogate (U+D800 to U+DFFF).
#[derive(Eq, PartialEq, Ord, PartialOrd, Clone, Copy)]
pub struct CodePoint {
value: u32
}
/// Format the code point as `U+` followed by four to six hexadecimal digits.
/// Example: `U+1F4A9`
impl fmt::Debug for CodePoint {
#[inline]
fn fmt(&self, formatter: &mut fmt::Formatter) -> Result<(), fmt::Error> {
write!(formatter, "U+{:04X}", self.value)
}
}
impl CodePoint {
/// Unsafely creates a new `CodePoint` without checking the value.
///
/// Only use when `value` is known to be less than or equal to 0x10FFFF.
#[inline]
pub unsafe fn from_u32_unchecked(value: u32) -> CodePoint {
CodePoint { value: value }
}
/// Creates a new `CodePoint` if the value is a valid code point.
///
/// Returns `None` if `value` is above 0x10FFFF.
#[inline]
pub fn from_u32(value: u32) -> Option<CodePoint> {
match value {
0 ... 0x10FFFF => Some(CodePoint { value: value }),
_ => None
}
}
/// Creates a new `CodePoint` from a `char`.
///
/// Since all Unicode scalar values are code points, this always succeeds.
#[inline]
pub fn from_char(value: char) -> CodePoint {
CodePoint { value: value as u32 }
}
/// Returns the numeric value of the code point.
#[inline]
pub fn to_u32(&self) -> u32 {
self.value
}
/// Optionally returns a Unicode scalar value for the code point.
///
/// Returns `None` if the code point is a surrogate (from U+D800 to U+DFFF).
#[inline]
pub fn to_char(&self) -> Option<char> {
match self.value {
0xD800 ... 0xDFFF => None,
_ => Some(unsafe { char::from_u32_unchecked(self.value) })
}
}
/// Returns a Unicode scalar value for the code point.
///
/// Returns `'\u{FFFD}'` (the replacement character “�”)
/// if the code point is a surrogate (from U+D800 to U+DFFF).
#[inline]
pub fn to_char_lossy(&self) -> char {
self.to_char().unwrap_or('\u{FFFD}')
}
}
/// An owned, growable string of well-formed WTF-8 data.
///
/// Similar to `String`, but can additionally contain surrogate code points
/// if they’re not in a surrogate pair.
#[derive(Eq, PartialEq, Ord, PartialOrd, Clone)]
pub struct Wtf8Buf {
bytes: Vec<u8>
}
impl ops::Deref for Wtf8Buf {
type Target = Wtf8;
fn deref(&self) -> &Wtf8 {
self.as_slice()
}
}
/// Format the string with double quotes,
/// and surrogates as `\u` followed by four hexadecimal digits.
/// Example: `"a\u{D800}"` for a string with code points [U+0061, U+D800]
impl fmt::Debug for Wtf8Buf {
#[inline]
fn fmt(&self, formatter: &mut fmt::Formatter) -> Result<(), fmt::Error> {
fmt::Debug::fmt(&**self, formatter)
}
}
impl Wtf8Buf {
/// Creates a new, empty WTF-8 string.
#[inline]
pub fn new() -> Wtf8Buf {
Wtf8Buf { bytes: Vec::new() }
}
/// Creates a new, empty WTF-8 string with pre-allocated capacity for `n` bytes.
#[inline]
pub fn with_capacity(n: usize) -> Wtf8Buf {
Wtf8Buf { bytes: Vec::with_capacity(n) }
}
/// Creates a WTF-8 string from a UTF-8 `String`.
///
/// This takes ownership of the `String` and does not copy.
///
/// Since WTF-8 is a superset of UTF-8, this always succeeds.
#[inline]
pub fn from_string(string: String) -> Wtf8Buf {
Wtf8Buf { bytes: string.into_bytes() }
}
/// Creates a WTF-8 string from a UTF-8 `&str` slice.
///
/// This copies the content of the slice.
///
/// Since WTF-8 is a superset of UTF-8, this always succeeds.
#[inline]
pub fn from_str(str: &str) -> Wtf8Buf {
Wtf8Buf { bytes: <[_]>::to_vec(str.as_bytes()) }
}
pub fn clear(&mut self) {
self.bytes.clear()
}
/// Creates a WTF-8 string from a potentially ill-formed UTF-16 slice of 16-bit code units.
///
/// This is lossless: calling `.encode_wide()` on the resulting string
/// will always return the original code units.
pub fn from_wide(v: &[u16]) -> Wtf8Buf {
let mut string = Wtf8Buf::with_capacity(v.len());
for item in char::decode_utf16(v.iter().cloned()) {
match item {
Ok(ch) => string.push_char(ch),
Err(surrogate) => {
// Surrogates are known to be in the code point range.
let code_point = unsafe { CodePoint::from_u32_unchecked(surrogate as u32) };
// Skip the WTF-8 concatenation check,
// surrogate pairs are already decoded by decode_utf16
string.push_code_point_unchecked(code_point)
}
}
}
string
}
/// Copied from String::push
/// This does **not** include the WTF-8 concatenation check.
fn push_code_point_unchecked(&mut self, code_point: CodePoint) {
let bytes = unsafe {
char::from_u32_unchecked(code_point.value).encode_utf8()
};
self.bytes.extend_from_slice(bytes.as_slice());
}
#[inline]
pub fn as_slice(&self) -> &Wtf8 {
unsafe { Wtf8::from_bytes_unchecked(&self.bytes) }
}
/// Reserves capacity for at least `additional` more bytes to be inserted
/// in the given `Wtf8Buf`.
/// The collection may reserve more space to avoid frequent reallocations.
///
/// # Panics
///
/// Panics if the new capacity overflows `usize`.
#[inline]
pub fn reserve(&mut self, additional: usize) {
self.bytes.reserve(additional)
}
#[inline]
pub fn reserve_exact(&mut self, additional: usize) {
self.bytes.reserve_exact(additional)
}
/// Returns the number of bytes that this string buffer can hold without reallocating.
#[inline]
pub fn capacity(&self) -> usize {
self.bytes.capacity()
}
/// Append a UTF-8 slice at the end of the string.
#[inline]
pub fn push_str(&mut self, other: &str) {
self.bytes.extend_from_slice(other.as_bytes())
}
/// Append a WTF-8 slice at the end of the string.
///
/// This replaces newly paired surrogates at the boundary
/// with a supplementary code point,
/// like concatenating ill-formed UTF-16 strings effectively would.
#[inline]
pub fn push_wtf8(&mut self, other: &Wtf8) {
match ((&*self).final_lead_surrogate(), other.initial_trail_surrogate()) {
// Replace newly paired surrogates by a supplementary code point.
(Some(lead), Some(trail)) => {
let len_without_lead_surrogate = self.len() - 3;
self.bytes.truncate(len_without_lead_surrogate);
let other_without_trail_surrogate = &other.bytes[3..];
// 4 bytes for the supplementary code point
self.bytes.reserve(4 + other_without_trail_surrogate.len());
self.push_char(decode_surrogate_pair(lead, trail));
self.bytes.extend_from_slice(other_without_trail_surrogate);
}
_ => self.bytes.extend_from_slice(&other.bytes)
}
}
/// Append a Unicode scalar value at the end of the string.
#[inline]
pub fn push_char(&mut self, c: char) {
self.push_code_point_unchecked(CodePoint::from_char(c))
}
/// Append a code point at the end of the string.
///
/// This replaces newly paired surrogates at the boundary
/// with a supplementary code point,
/// like concatenating ill-formed UTF-16 strings effectively would.
#[inline]
pub fn push(&mut self, code_point: CodePoint) {
if let trail @ 0xDC00...0xDFFF = code_point.to_u32() {
if let Some(lead) = (&*self).final_lead_surrogate() {
let len_without_lead_surrogate = self.len() - 3;
self.bytes.truncate(len_without_lead_surrogate);
self.push_char(decode_surrogate_pair(lead, trail as u16));
return
}
}
// No newly paired surrogates at the boundary.
self.push_code_point_unchecked(code_point)
}
/// Shortens a string to the specified length.
///
/// # Panics
///
/// Panics if `new_len` > current length,
/// or if `new_len` is not a code point boundary.
#[inline]
pub fn truncate(&mut self, new_len: usize) {
assert!(is_code_point_boundary(self, new_len));
self.bytes.truncate(new_len)
}
/// Consumes the WTF-8 string and tries to convert it to UTF-8.
///
/// This does not copy the data.
///
/// If the contents are not well-formed UTF-8
/// (that is, if the string contains surrogates),
/// the original WTF-8 string is returned instead.
pub fn into_string(self) -> Result<String, Wtf8Buf> {
match self.next_surrogate(0) {
None => Ok(unsafe { String::from_utf8_unchecked(self.bytes) }),
Some(_) => Err(self),
}
}
/// Consumes the WTF-8 string and converts it lossily to UTF-8.
///
/// This does not copy the data (but may overwrite parts of it in place).
///
/// Surrogates are replaced with `"\u{FFFD}"` (the replacement character “�”)
pub fn into_string_lossy(mut self) -> String {
let mut pos = 0;
loop {
match self.next_surrogate(pos) {
Some((surrogate_pos, _)) => {
pos = surrogate_pos + 3;
self.bytes[surrogate_pos..pos]
.copy_from_slice(UTF8_REPLACEMENT_CHARACTER);
},
None => return unsafe { String::from_utf8_unchecked(self.bytes) }
}
}
}
}
/// Create a new WTF-8 string from an iterator of code points.
///
/// This replaces surrogate code point pairs with supplementary code points,
/// like concatenating ill-formed UTF-16 strings effectively would.
impl FromIterator<CodePoint> for Wtf8Buf {
fn from_iter<T: IntoIterator<Item=CodePoint>>(iter: T) -> Wtf8Buf {
let mut string = Wtf8Buf::new();
string.extend(iter);
string
}
}
/// Append code points from an iterator to the string.
///
/// This replaces surrogate code point pairs with supplementary code points,
/// like concatenating ill-formed UTF-16 strings effectively would.
impl Extend<CodePoint> for Wtf8Buf {
fn extend<T: IntoIterator<Item=CodePoint>>(&mut self, iterable: T) {
let iterator = iterable.into_iter();
let (low, _high) = iterator.size_hint();
// Lower bound of one byte per code point (ASCII only)
self.bytes.reserve(low);
for code_point in iterator {
self.push(code_point);
}
}
}
/// A borrowed slice of well-formed WTF-8 data.
///
/// Similar to `&str`, but can additionally contain surrogate code points
/// if they’re not in a surrogate pair.
#[derive(Eq, Ord, PartialEq, PartialOrd)]
pub struct Wtf8 {
bytes: [u8]
}
impl AsInner<[u8]> for Wtf8 {
fn as_inner(&self) -> &[u8] { &self.bytes }
}
/// Format the slice with double quotes,
/// and surrogates as `\u` followed by four hexadecimal digits.
/// Example: `"a\u{D800}"` for a slice with code points [U+0061, U+D800]
impl fmt::Debug for Wtf8 {
fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
fn write_str_escaped(f: &mut fmt::Formatter, s: &str) -> fmt::Result {
use fmt::Write;
for c in s.chars().flat_map(|c| c.escape_default()) {
f.write_char(c)?
}
Ok(())
}
formatter.write_str("\"")?;
let mut pos = 0;
loop {
match self.next_surrogate(pos) {
None => break,
Some((surrogate_pos, surrogate)) => {
write_str_escaped(
formatter,
unsafe { str::from_utf8_unchecked(
&self.bytes[pos .. surrogate_pos]
)},
)?;
write!(formatter, "\\u{{{:X}}}", surrogate)?;
pos = surrogate_pos + 3;
}
}
}
write_str_escaped(
formatter,
unsafe { str::from_utf8_unchecked(&self.bytes[pos..]) },
)?;
formatter.write_str("\"")
}
}
impl Wtf8 {
/// Creates a WTF-8 slice from a UTF-8 `&str` slice.
///
/// Since WTF-8 is a superset of UTF-8, this always succeeds.
#[inline]
pub fn from_str(value: &str) -> &Wtf8 {
unsafe { Wtf8::from_bytes_unchecked(value.as_bytes()) }
}
/// Creates a WTF-8 slice from a WTF-8 byte slice.
///
/// Since the byte slice is not checked for valid WTF-8, this functions is
/// marked unsafe.
#[inline]
unsafe fn from_bytes_unchecked(value: &[u8]) -> &Wtf8 {
mem::transmute(value)
}
/// Returns the length, in WTF-8 bytes.
#[inline]
pub fn len(&self) -> usize {
self.bytes.len()
}
#[inline]
pub fn is_empty(&self) -> bool {
self.bytes.is_empty()
}
/// Returns the code point at `position` if it is in the ASCII range,
/// or `b'\xFF' otherwise.
///
/// # Panics
///
/// Panics if `position` is beyond the end of the string.
#[inline]
pub fn ascii_byte_at(&self, position: usize) -> u8 {
match self.bytes[position] {
ascii_byte @ 0x00 ... 0x7F => ascii_byte,
_ => 0xFF
}
}
/// Returns an iterator for the string’s code points.
#[inline]
pub fn code_points(&self) -> Wtf8CodePoints {
Wtf8CodePoints { bytes: self.bytes.iter() }
}
/// Tries to convert the string to UTF-8 and return a `&str` slice.
///
/// Returns `None` if the string contains surrogates.
///
/// This does not copy the data.
#[inline]
pub fn as_str(&self) -> Option<&str> {
// Well-formed WTF-8 is also well-formed UTF-8
// if and only if it contains no surrogate.
match self.next_surrogate(0) {
None => Some(unsafe { str::from_utf8_unchecked(&self.bytes) }),
Some(_) => None,
}
}
/// Lossily converts the string to UTF-8.
/// Returns a UTF-8 `&str` slice if the contents are well-formed in UTF-8.
///
/// Surrogates are replaced with `"\u{FFFD}"` (the replacement character “�”).
///
/// This only copies the data if necessary (if it contains any surrogate).
pub fn to_string_lossy(&self) -> Cow<str> {
let surrogate_pos = match self.next_surrogate(0) {
None => return Cow::Borrowed(unsafe { str::from_utf8_unchecked(&self.bytes) }),
Some((pos, _)) => pos,
};
let wtf8_bytes = &self.bytes;
let mut utf8_bytes = Vec::with_capacity(self.len());
utf8_bytes.extend_from_slice(&wtf8_bytes[..surrogate_pos]);
utf8_bytes.extend_from_slice(UTF8_REPLACEMENT_CHARACTER);
let mut pos = surrogate_pos + 3;
loop {
match self.next_surrogate(pos) {
Some((surrogate_pos, _)) => {
utf8_bytes.extend_from_slice(&wtf8_bytes[pos .. surrogate_pos]);
utf8_bytes.extend_from_slice(UTF8_REPLACEMENT_CHARACTER);
pos = surrogate_pos + 3;
},
None => {
utf8_bytes.extend_from_slice(&wtf8_bytes[pos..]);
return Cow::Owned(unsafe { String::from_utf8_unchecked(utf8_bytes) })
}
}
}
}
/// Converts the WTF-8 string to potentially ill-formed UTF-16
/// and return an iterator of 16-bit code units.
///
/// This is lossless:
/// calling `Wtf8Buf::from_ill_formed_utf16` on the resulting code units
/// would always return the original WTF-8 string.
#[inline]
pub fn encode_wide(&self) -> EncodeWide {
EncodeWide { code_points: self.code_points(), extra: 0 }
}
#[inline]
fn next_surrogate(&self, mut pos: usize) -> Option<(usize, u16)> {
let mut iter = self.bytes[pos..].iter();
loop {
let b = match iter.next() {
None => return None,
Some(&b) => b,
};
if b < 0x80 {
pos += 1;
} else if b < 0xE0 {
iter.next();
pos += 2;
} else if b == 0xED {
match (iter.next(), iter.next()) {
(Some(&b2), Some(&b3)) if b2 >= 0xA0 => {
return Some((pos, decode_surrogate(b2, b3)))
}
_ => pos += 3
}
} else if b < 0xF0 {
iter.next();
iter.next();
pos += 3;
} else {
iter.next();
iter.next();
iter.next();
pos += 4;
}
}
}
#[inline]
fn final_lead_surrogate(&self) -> Option<u16> {
let len = self.len();
if len < 3 {
return None
}
match &self.bytes[(len - 3)..] {
[0xED, b2 @ 0xA0...0xAF, b3] => Some(decode_surrogate(b2, b3)),
_ => None
}
}
#[inline]
fn initial_trail_surrogate(&self) -> Option<u16> {
let len = self.len();
if len < 3 {
return None
}
match &self.bytes[..3] {
[0xED, b2 @ 0xB0...0xBF, b3] => Some(decode_surrogate(b2, b3)),
_ => None
}
}
}
/// Return a slice of the given string for the byte range [`begin`..`end`).
///
/// # Panics
///
/// Panics when `begin` and `end` do not point to code point boundaries,
/// or point beyond the end of the string.
impl ops::Index<ops::Range<usize>> for Wtf8 {
type Output = Wtf8;
#[inline]
fn index(&self, range: ops::Range<usize>) -> &Wtf8 {
// is_code_point_boundary checks that the index is in [0, .len()]
if range.start <= range.end &&
is_code_point_boundary(self, range.start) &&
is_code_point_boundary(self, range.end) {
unsafe { slice_unchecked(self, range.start, range.end) }
} else {
slice_error_fail(self, range.start, range.end)
}
}
}
/// Return a slice of the given string from byte `begin` to its end.
///
/// # Panics
///
/// Panics when `begin` is not at a code point boundary,
/// or is beyond the end of the string.
impl ops::Index<ops::RangeFrom<usize>> for Wtf8 {
type Output = Wtf8;
#[inline]
fn index(&self, range: ops::RangeFrom<usize>) -> &Wtf8 {
// is_code_point_boundary checks that the index is in [0, .len()]
if is_code_point_boundary(self, range.start) {
unsafe { slice_unchecked(self, range.start, self.len()) }
} else {
slice_error_fail(self, range.start, self.len())
}
}
}
/// Return a slice of the given string from its beginning to byte `end`.
///
/// # Panics
///
/// Panics when `end` is not at a code point boundary,
/// or is beyond the end of the string.
impl ops::Index<ops::RangeTo<usize>> for Wtf8 {
type Output = Wtf8;
#[inline]
fn index(&self, range: ops::RangeTo<usize>) -> &Wtf8 {
// is_code_point_boundary checks that the index is in [0, .len()]
if is_code_point_boundary(self, range.end) {
unsafe { slice_unchecked(self, 0, range.end) }
} else {
slice_error_fail(self, 0, range.end)
}
}
}
impl ops::Index<ops::RangeFull> for Wtf8 {
type Output = Wtf8;
#[inline]
fn index(&self, _range: ops::RangeFull) -> &Wtf8 {
self
}
}
#[inline]
fn decode_surrogate(second_byte: u8, third_byte: u8) -> u16 {
// The first byte is assumed to be 0xED
0xD800 | (second_byte as u16 & 0x3F) << 6 | third_byte as u16 & 0x3F
}
#[inline]
fn decode_surrogate_pair(lead: u16, trail: u16) -> char {
let code_point = 0x10000 + ((((lead - 0xD800) as u32) << 10) | (trail - 0xDC00) as u32);
unsafe { char::from_u32_unchecked(code_point) }
}
/// Copied from core::str::StrPrelude::is_char_boundary
#[inline]
pub fn is_code_point_boundary(slice: &Wtf8, index: usize) -> bool {
if index == slice.len() { return true; }
match slice.bytes.get(index) {
None => false,
Some(&b) => b < 128 || b >= 192,
}
}
/// Copied from core::str::raw::slice_unchecked
#[inline]
pub unsafe fn slice_unchecked(s: &Wtf8, begin: usize, end: usize) -> &Wtf8 {
// memory layout of an &[u8] and &Wtf8 are the same
Wtf8::from_bytes_unchecked(slice::from_raw_parts(
s.bytes.as_ptr().offset(begin as isize),
end - begin
))
}
/// Copied from core::str::raw::slice_error_fail
#[inline(never)]
pub fn slice_error_fail(s: &Wtf8, begin: usize, end: usize) -> ! {
assert!(begin <= end);
panic!("index {} and/or {} in `{:?}` do not lie on character boundary",
begin, end, s);
}
/// Iterator for the code points of a WTF-8 string.
///
/// Created with the method `.code_points()`.
#[derive(Clone)]
pub struct Wtf8CodePoints<'a> {
bytes: slice::Iter<'a, u8>
}
impl<'a> Iterator for Wtf8CodePoints<'a> {
type Item = CodePoint;
#[inline]
fn next(&mut self) -> Option<CodePoint> {
next_code_point(&mut self.bytes).map(|c| CodePoint { value: c })
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let (len, _) = self.bytes.size_hint();
(len.saturating_add(3) / 4, Some(len))
}
}
#[stable(feature = "rust1", since = "1.0.0")]
#[derive(Clone)]
pub struct EncodeWide<'a> {
code_points: Wtf8CodePoints<'a>,
extra: u16
}
// Copied from libunicode/u_str.rs
#[stable(feature = "rust1", since = "1.0.0")]
impl<'a> Iterator for EncodeWide<'a> {
type Item = u16;
#[inline]
fn next(&mut self) -> Option<u16> {
if self.extra != 0 {
let tmp = self.extra;
self.extra = 0;
return Some(tmp);
}
self.code_points.next().map(|code_point| {
let n = unsafe {
char::from_u32_unchecked(code_point.value).encode_utf16()
};
let n = n.as_slice();
if n.len() == 2 {
self.extra = n[1];
}
n[0]
})
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let (low, high) = self.code_points.size_hint();
// every code point gets either one u16 or two u16,
// so this iterator is between 1 or 2 times as
// long as the underlying iterator.
(low, high.and_then(|n| n.checked_mul(2)))
}
}
impl Hash for CodePoint {
#[inline]
fn hash<H: Hasher>(&self, state: &mut H) {
self.value.hash(state)
}
}
impl Hash for Wtf8Buf {
#[inline]
fn hash<H: Hasher>(&self, state: &mut H) {
state.write(&self.bytes);
0xfeu8.hash(state)
}
}
impl Hash for Wtf8 {
#[inline]
fn hash<H: Hasher>(&self, state: &mut H) {
state.write(&self.bytes);
0xfeu8.hash(state)
}
}
impl AsciiExt for Wtf8 {
type Owned = Wtf8Buf;
fn is_ascii(&self) -> bool {
self.bytes.is_ascii()
}
fn to_ascii_uppercase(&self) -> Wtf8Buf {
Wtf8Buf { bytes: self.bytes.to_ascii_uppercase() }
}
fn to_ascii_lowercase(&self) -> Wtf8Buf {
Wtf8Buf { bytes: self.bytes.to_ascii_lowercase() }
}
fn eq_ignore_ascii_case(&self, other: &Wtf8) -> bool {
self.bytes.eq_ignore_ascii_case(&other.bytes)
}
fn make_ascii_uppercase(&mut self) { self.bytes.make_ascii_uppercase() }
fn make_ascii_lowercase(&mut self) { self.bytes.make_ascii_lowercase() }
}
#[cfg(test)]
mod tests {
use prelude::v1::*;
use borrow::Cow;
use super::*;
#[test]
fn code_point_from_u32() {
assert!(CodePoint::from_u32(0).is_some());
assert!(CodePoint::from_u32(0xD800).is_some());
assert!(CodePoint::from_u32(0x10FFFF).is_some());
assert!(CodePoint::from_u32(0x110000).is_none());
}
#[test]
fn code_point_to_u32() {
fn c(value: u32) -> CodePoint { CodePoint::from_u32(value).unwrap() }
assert_eq!(c(0).to_u32(), 0);
assert_eq!(c(0xD800).to_u32(), 0xD800);
assert_eq!(c(0x10FFFF).to_u32(), 0x10FFFF);
}
#[test]
fn code_point_from_char() {
assert_eq!(CodePoint::from_char('a').to_u32(), 0x61);
assert_eq!(CodePoint::from_char('💩').to_u32(), 0x1F4A9);
}
#[test]
fn code_point_to_string() {
assert_eq!(format!("{:?}", CodePoint::from_char('a')), "U+0061");
assert_eq!(format!("{:?}", CodePoint::from_char('💩')), "U+1F4A9");
}
#[test]
fn code_point_to_char() {
fn c(value: u32) -> CodePoint { CodePoint::from_u32(value).unwrap() }
assert_eq!(c(0x61).to_char(), Some('a'));
assert_eq!(c(0x1F4A9).to_char(), Some('💩'));
assert_eq!(c(0xD800).to_char(), None);
}
#[test]
fn code_point_to_char_lossy() {
fn c(value: u32) -> CodePoint { CodePoint::from_u32(value).unwrap() }
assert_eq!(c(0x61).to_char_lossy(), 'a');
assert_eq!(c(0x1F4A9).to_char_lossy(), '💩');
assert_eq!(c(0xD800).to_char_lossy(), '\u{FFFD}');
}
#[test]
fn wtf8buf_new() {
assert_eq!(Wtf8Buf::new().bytes, b"");
}
#[test]
fn wtf8buf_from_str() {
assert_eq!(Wtf8Buf::from_str("").bytes, b"");
assert_eq!(Wtf8Buf::from_str("aé 💩").bytes,
b"a\xC3\xA9 \xF0\x9F\x92\xA9");
}
#[test]
fn wtf8buf_from_string() {
assert_eq!(Wtf8Buf::from_string(String::from("")).bytes, b"");
assert_eq!(Wtf8Buf::from_string(String::from("aé 💩")).bytes,
b"a\xC3\xA9 \xF0\x9F\x92\xA9");
}
#[test]
fn wtf8buf_from_wide() {
assert_eq!(Wtf8Buf::from_wide(&[]).bytes, b"");
assert_eq!(Wtf8Buf::from_wide(
&[0x61, 0xE9, 0x20, 0xD83D, 0xD83D, 0xDCA9]).bytes,
b"a\xC3\xA9 \xED\xA0\xBD\xF0\x9F\x92\xA9");
}
#[test]
fn wtf8buf_push_str() {
let mut string = Wtf8Buf::new();
assert_eq!(string.bytes, b"");
string.push_str("aé 💩");
assert_eq!(string.bytes, b"a\xC3\xA9 \xF0\x9F\x92\xA9");
}
#[test]
fn wtf8buf_push_char() {
let mut string = Wtf8Buf::from_str("aé ");
assert_eq!(string.bytes, b"a\xC3\xA9 ");
string.push_char('💩');
assert_eq!(string.bytes, b"a\xC3\xA9 \xF0\x9F\x92\xA9");
}
#[test]
fn wtf8buf_push() {
let mut string = Wtf8Buf::from_str("aé ");
assert_eq!(string.bytes, b"a\xC3\xA9 ");
string.push(CodePoint::from_char('💩'));
assert_eq!(string.bytes, b"a\xC3\xA9 \xF0\x9F\x92\xA9");
fn c(value: u32) -> CodePoint { CodePoint::from_u32(value).unwrap() }
let mut string = Wtf8Buf::new();
string.push(c(0xD83D)); // lead
string.push(c(0xDCA9)); // trail
assert_eq!(string.bytes, b"\xF0\x9F\x92\xA9"); // Magic!
let mut string = Wtf8Buf::new();
string.push(c(0xD83D)); // lead
string.push(c(0x20)); // not surrogate
string.push(c(0xDCA9)); // trail
assert_eq!(string.bytes, b"\xED\xA0\xBD \xED\xB2\xA9");
let mut string = Wtf8Buf::new();
string.push(c(0xD800)); // lead
string.push(c(0xDBFF)); // lead
assert_eq!(string.bytes, b"\xED\xA0\x80\xED\xAF\xBF");
let mut string = Wtf8Buf::new();
string.push(c(0xD800)); // lead
string.push(c(0xE000)); // not surrogate
assert_eq!(string.bytes, b"\xED\xA0\x80\xEE\x80\x80");
let mut string = Wtf8Buf::new();
string.push(c(0xD7FF)); // not surrogate
string.push(c(0xDC00)); // trail
assert_eq!(string.bytes, b"\xED\x9F\xBF\xED\xB0\x80");
let mut string = Wtf8Buf::new();
string.push(c(0x61)); // not surrogate, < 3 bytes
string.push(c(0xDC00)); // trail
assert_eq!(string.bytes, b"\x61\xED\xB0\x80");
let mut string = Wtf8Buf::new();
string.push(c(0xDC00)); // trail
assert_eq!(string.bytes, b"\xED\xB0\x80");
}
#[test]
fn wtf8buf_push_wtf8() {
let mut string = Wtf8Buf::from_str("aé");
assert_eq!(string.bytes, b"a\xC3\xA9");
string.push_wtf8(Wtf8::from_str(" 💩"));
assert_eq!(string.bytes, b"a\xC3\xA9 \xF0\x9F\x92\xA9");
fn w(v: &[u8]) -> &Wtf8 { unsafe { Wtf8::from_bytes_unchecked(v) } }
let mut string = Wtf8Buf::new();
string.push_wtf8(w(b"\xED\xA0\xBD")); // lead
string.push_wtf8(w(b"\xED\xB2\xA9")); // trail
assert_eq!(string.bytes, b"\xF0\x9F\x92\xA9"); // Magic!
let mut string = Wtf8Buf::new();
string.push_wtf8(w(b"\xED\xA0\xBD")); // lead
string.push_wtf8(w(b" ")); // not surrogate
string.push_wtf8(w(b"\xED\xB2\xA9")); // trail
assert_eq!(string.bytes, b"\xED\xA0\xBD \xED\xB2\xA9");
let mut string = Wtf8Buf::new();
string.push_wtf8(w(b"\xED\xA0\x80")); // lead
string.push_wtf8(w(b"\xED\xAF\xBF")); // lead
assert_eq!(string.bytes, b"\xED\xA0\x80\xED\xAF\xBF");
let mut string = Wtf8Buf::new();
string.push_wtf8(w(b"\xED\xA0\x80")); // lead
string.push_wtf8(w(b"\xEE\x80\x80")); // not surrogate
assert_eq!(string.bytes, b"\xED\xA0\x80\xEE\x80\x80");
let mut string = Wtf8Buf::new();
string.push_wtf8(w(b"\xED\x9F\xBF")); // not surrogate
string.push_wtf8(w(b"\xED\xB0\x80")); // trail
assert_eq!(string.bytes, b"\xED\x9F\xBF\xED\xB0\x80");
let mut string = Wtf8Buf::new();
string.push_wtf8(w(b"a")); // not surrogate, < 3 bytes
string.push_wtf8(w(b"\xED\xB0\x80")); // trail
assert_eq!(string.bytes, b"\x61\xED\xB0\x80");
let mut string = Wtf8Buf::new();
string.push_wtf8(w(b"\xED\xB0\x80")); // trail
assert_eq!(string.bytes, b"\xED\xB0\x80");
}
#[test]
fn wtf8buf_truncate() {
let mut string = Wtf8Buf::from_str("aé");
string.truncate(1);
assert_eq!(string.bytes, b"a");
}
#[test]
#[should_panic]
fn wtf8buf_truncate_fail_code_point_boundary() {
let mut string = Wtf8Buf::from_str("aé");
string.truncate(2);
}
#[test]
#[should_panic]
fn wtf8buf_truncate_fail_longer() {
let mut string = Wtf8Buf::from_str("aé");
string.truncate(4);
}
#[test]
fn wtf8buf_into_string() {
let mut string = Wtf8Buf::from_str("aé 💩");
assert_eq!(string.clone().into_string(), Ok(String::from("aé 💩")));
string.push(CodePoint::from_u32(0xD800).unwrap());
assert_eq!(string.clone().into_string(), Err(string));
}
#[test]
fn wtf8buf_into_string_lossy() {
let mut string = Wtf8Buf::from_str("aé 💩");
assert_eq!(string.clone().into_string_lossy(), String::from("aé 💩"));
string.push(CodePoint::from_u32(0xD800).unwrap());
assert_eq!(string.clone().into_string_lossy(), String::from("aé 💩�"));
}
#[test]
fn wtf8buf_from_iterator() {
fn f(values: &[u32]) -> Wtf8Buf {
values.iter().map(|&c| CodePoint::from_u32(c).unwrap()).collect::<Wtf8Buf>()
}
assert_eq!(f(&[0x61, 0xE9, 0x20, 0x1F4A9]).bytes, b"a\xC3\xA9 \xF0\x9F\x92\xA9");
assert_eq!(f(&[0xD83D, 0xDCA9]).bytes, b"\xF0\x9F\x92\xA9"); // Magic!
assert_eq!(f(&[0xD83D, 0x20, 0xDCA9]).bytes, b"\xED\xA0\xBD \xED\xB2\xA9");
assert_eq!(f(&[0xD800, 0xDBFF]).bytes, b"\xED\xA0\x80\xED\xAF\xBF");
assert_eq!(f(&[0xD800, 0xE000]).bytes, b"\xED\xA0\x80\xEE\x80\x80");
assert_eq!(f(&[0xD7FF, 0xDC00]).bytes, b"\xED\x9F\xBF\xED\xB0\x80");
assert_eq!(f(&[0x61, 0xDC00]).bytes, b"\x61\xED\xB0\x80");
assert_eq!(f(&[0xDC00]).bytes, b"\xED\xB0\x80");
}
#[test]
fn wtf8buf_extend() {
fn e(initial: &[u32], extended: &[u32]) -> Wtf8Buf {
fn c(value: &u32) -> CodePoint { CodePoint::from_u32(*value).unwrap() }
let mut string = initial.iter().map(c).collect::<Wtf8Buf>();
string.extend(extended.iter().map(c));
string
}
assert_eq!(e(&[0x61, 0xE9], &[0x20, 0x1F4A9]).bytes,
b"a\xC3\xA9 \xF0\x9F\x92\xA9");
assert_eq!(e(&[0xD83D], &[0xDCA9]).bytes, b"\xF0\x9F\x92\xA9"); // Magic!
assert_eq!(e(&[0xD83D, 0x20], &[0xDCA9]).bytes, b"\xED\xA0\xBD \xED\xB2\xA9");
assert_eq!(e(&[0xD800], &[0xDBFF]).bytes, b"\xED\xA0\x80\xED\xAF\xBF");
assert_eq!(e(&[0xD800], &[0xE000]).bytes, b"\xED\xA0\x80\xEE\x80\x80");
assert_eq!(e(&[0xD7FF], &[0xDC00]).bytes, b"\xED\x9F\xBF\xED\xB0\x80");
assert_eq!(e(&[0x61], &[0xDC00]).bytes, b"\x61\xED\xB0\x80");
assert_eq!(e(&[], &[0xDC00]).bytes, b"\xED\xB0\x80");
}
#[test]
fn wtf8buf_show() {
let mut string = Wtf8Buf::from_str("a\té 💩\r");
string.push(CodePoint::from_u32(0xD800).unwrap());
assert_eq!(format!("{:?}", string), r#""a\t\u{e9} \u{1f4a9}\r\u{D800}""#);
}
#[test]
fn wtf8buf_as_slice() {
assert_eq!(Wtf8Buf::from_str("aé").as_slice(), Wtf8::from_str("aé"));
}
#[test]
fn wtf8buf_show_str() {
let text = "a\té 💩\r";
let string = Wtf8Buf::from_str(text);
assert_eq!(format!("{:?}", text), format!("{:?}", string));
}
#[test]
fn wtf8_from_str() {
assert_eq!(&Wtf8::from_str("").bytes, b"");
assert_eq!(&Wtf8::from_str("aé 💩").bytes, b"a\xC3\xA9 \xF0\x9F\x92\xA9");
}
#[test]
fn wtf8_len() {
assert_eq!(Wtf8::from_str("").len(), 0);
assert_eq!(Wtf8::from_str("aé 💩").len(), 8);
}
#[test]
fn wtf8_slice() {
assert_eq!(&Wtf8::from_str("aé 💩")[1.. 4].bytes, b"\xC3\xA9 ");
}
#[test]
#[should_panic]
fn wtf8_slice_not_code_point_boundary() {
&Wtf8::from_str("aé 💩")[2.. 4];
}
#[test]
fn wtf8_slice_from() {
assert_eq!(&Wtf8::from_str("aé 💩")[1..].bytes, b"\xC3\xA9 \xF0\x9F\x92\xA9");
}
#[test]
#[should_panic]
fn wtf8_slice_from_not_code_point_boundary() {
&Wtf8::from_str("aé 💩")[2..];
}
#[test]
fn wtf8_slice_to() {
assert_eq!(&Wtf8::from_str("aé 💩")[..4].bytes, b"a\xC3\xA9 ");
}
#[test]
#[should_panic]
fn wtf8_slice_to_not_code_point_boundary() {
&Wtf8::from_str("aé 💩")[5..];
}
#[test]
fn wtf8_ascii_byte_at() {
let slice = Wtf8::from_str("aé 💩");
assert_eq!(slice.ascii_byte_at(0), b'a');
assert_eq!(slice.ascii_byte_at(1), b'\xFF');
assert_eq!(slice.ascii_byte_at(2), b'\xFF');
assert_eq!(slice.ascii_byte_at(3), b' ');
assert_eq!(slice.ascii_byte_at(4), b'\xFF');
}
#[test]
fn wtf8_code_points() {
fn c(value: u32) -> CodePoint { CodePoint::from_u32(value).unwrap() }
fn cp(string: &Wtf8Buf) -> Vec<Option<char>> {
string.code_points().map(|c| c.to_char()).collect::<Vec<_>>()
}
let mut string = Wtf8Buf::from_str("é ");
assert_eq!(cp(&string), [Some('é'), Some(' ')]);
string.push(c(0xD83D));
assert_eq!(cp(&string), [Some('é'), Some(' '), None]);
string.push(c(0xDCA9));
assert_eq!(cp(&string), [Some('é'), Some(' '), Some('💩')]);
}
#[test]
fn wtf8_as_str() {
assert_eq!(Wtf8::from_str("").as_str(), Some(""));
assert_eq!(Wtf8::from_str("aé 💩").as_str(), Some("aé 💩"));
let mut string = Wtf8Buf::new();
string.push(CodePoint::from_u32(0xD800).unwrap());
assert_eq!(string.as_str(), None);
}
#[test]
fn wtf8_to_string_lossy() {
assert_eq!(Wtf8::from_str("").to_string_lossy(), Cow::Borrowed(""));
assert_eq!(Wtf8::from_str("aé 💩").to_string_lossy(), Cow::Borrowed("aé 💩"));
let mut string = Wtf8Buf::from_str("aé 💩");
string.push(CodePoint::from_u32(0xD800).unwrap());
let expected: Cow<str> = Cow::Owned(String::from("aé 💩�"));
assert_eq!(string.to_string_lossy(), expected);
}
#[test]
fn wtf8_encode_wide() {
let mut string = Wtf8Buf::from_str("aé ");
string.push(CodePoint::from_u32(0xD83D).unwrap());
string.push_char('💩');
assert_eq!(string.encode_wide().collect::<Vec<_>>(),
vec![0x61, 0xE9, 0x20, 0xD83D, 0xD83D, 0xDCA9]);
}
}