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rust/src/libcore/char.rs
Jeffrey Seyfried e2ad3be178 Use #[prelude_import] in libcore.
2016-08-24 22:12:23 +00:00

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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.
//! Character manipulation.
//!
//! For more details, see ::rustc_unicode::char (a.k.a. std::char)
#![allow(non_snake_case)]
#![stable(feature = "core_char", since = "1.2.0")]
use char_private::is_printable;
use iter::FusedIterator;
use mem::transmute;
// UTF-8 ranges and tags for encoding characters
const TAG_CONT: u8 = 0b1000_0000;
const TAG_TWO_B: u8 = 0b1100_0000;
const TAG_THREE_B: u8 = 0b1110_0000;
const TAG_FOUR_B: u8 = 0b1111_0000;
const MAX_ONE_B: u32 = 0x80;
const MAX_TWO_B: u32 = 0x800;
const MAX_THREE_B: u32 = 0x10000;
/*
Lu Uppercase_Letter an uppercase letter
Ll Lowercase_Letter a lowercase letter
Lt Titlecase_Letter a digraphic character, with first part uppercase
Lm Modifier_Letter a modifier letter
Lo Other_Letter other letters, including syllables and ideographs
Mn Nonspacing_Mark a nonspacing combining mark (zero advance width)
Mc Spacing_Mark a spacing combining mark (positive advance width)
Me Enclosing_Mark an enclosing combining mark
Nd Decimal_Number a decimal digit
Nl Letter_Number a letterlike numeric character
No Other_Number a numeric character of other type
Pc Connector_Punctuation a connecting punctuation mark, like a tie
Pd Dash_Punctuation a dash or hyphen punctuation mark
Ps Open_Punctuation an opening punctuation mark (of a pair)
Pe Close_Punctuation a closing punctuation mark (of a pair)
Pi Initial_Punctuation an initial quotation mark
Pf Final_Punctuation a final quotation mark
Po Other_Punctuation a punctuation mark of other type
Sm Math_Symbol a symbol of primarily mathematical use
Sc Currency_Symbol a currency sign
Sk Modifier_Symbol a non-letterlike modifier symbol
So Other_Symbol a symbol of other type
Zs Space_Separator a space character (of various non-zero widths)
Zl Line_Separator U+2028 LINE SEPARATOR only
Zp Paragraph_Separator U+2029 PARAGRAPH SEPARATOR only
Cc Control a C0 or C1 control code
Cf Format a format control character
Cs Surrogate a surrogate code point
Co Private_Use a private-use character
Cn Unassigned a reserved unassigned code point or a noncharacter
*/
/// The highest valid code point a `char` can have.
///
/// A [`char`] is a [Unicode Scalar Value], which means that it is a [Code
/// Point], but only ones within a certain range. `MAX` is the highest valid
/// code point that's a valid [Unicode Scalar Value].
///
/// [`char`]: ../../std/primitive.char.html
/// [Unicode Scalar Value]: http://www.unicode.org/glossary/#unicode_scalar_value
/// [Code Point]: http://www.unicode.org/glossary/#code_point
#[stable(feature = "rust1", since = "1.0.0")]
pub const MAX: char = '\u{10ffff}';
/// Converts a `u32` to a `char`.
///
/// Note that all [`char`]s are valid [`u32`]s, and can be casted to one with
/// [`as`]:
///
/// ```
/// let c = '💯';
/// let i = c as u32;
///
/// assert_eq!(128175, i);
/// ```
///
/// However, the reverse is not true: not all valid [`u32`]s are valid
/// [`char`]s. `from_u32()` will return `None` if the input is not a valid value
/// for a [`char`].
///
/// [`char`]: ../../std/primitive.char.html
/// [`u32`]: ../../std/primitive.u32.html
/// [`as`]: ../../book/casting-between-types.html#as
///
/// For an unsafe version of this function which ignores these checks, see
/// [`from_u32_unchecked()`].
///
/// [`from_u32_unchecked()`]: fn.from_u32_unchecked.html
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// use std::char;
///
/// let c = char::from_u32(0x2764);
///
/// assert_eq!(Some('❤'), c);
/// ```
///
/// Returning `None` when the input is not a valid [`char`]:
///
/// ```
/// use std::char;
///
/// let c = char::from_u32(0x110000);
///
/// assert_eq!(None, c);
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn from_u32(i: u32) -> Option<char> {
// catch out-of-bounds and surrogates
if (i > MAX as u32) || (i >= 0xD800 && i <= 0xDFFF) {
None
} else {
Some(unsafe { from_u32_unchecked(i) })
}
}
/// Converts a `u32` to a `char`, ignoring validity.
///
/// Note that all [`char`]s are valid [`u32`]s, and can be casted to one with
/// [`as`]:
///
/// ```
/// let c = '💯';
/// let i = c as u32;
///
/// assert_eq!(128175, i);
/// ```
///
/// However, the reverse is not true: not all valid [`u32`]s are valid
/// [`char`]s. `from_u32_unchecked()` will ignore this, and blindly cast to
/// [`char`], possibly creating an invalid one.
///
/// [`char`]: ../../std/primitive.char.html
/// [`u32`]: ../../std/primitive.u32.html
/// [`as`]: ../../book/casting-between-types.html#as
///
/// # Safety
///
/// This function is unsafe, as it may construct invalid `char` values.
///
/// For a safe version of this function, see the [`from_u32()`] function.
///
/// [`from_u32()`]: fn.from_u32.html
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// use std::char;
///
/// let c = unsafe { char::from_u32_unchecked(0x2764) };
///
/// assert_eq!('❤', c);
/// ```
#[inline]
#[stable(feature = "char_from_unchecked", since = "1.5.0")]
pub unsafe fn from_u32_unchecked(i: u32) -> char {
transmute(i)
}
/// Converts a digit in the given radix to a `char`.
///
/// A 'radix' here is sometimes also called a 'base'. A radix of two
/// indicates a binary number, a radix of ten, decimal, and a radix of
/// sixteen, hexadecimal, to give some common values. Arbitrary
/// radicum are supported.
///
/// `from_digit()` will return `None` if the input is not a digit in
/// the given radix.
///
/// # Panics
///
/// Panics if given a radix larger than 36.
///
/// # Examples
///
/// Basic usage:
///
/// ```
/// use std::char;
///
/// let c = char::from_digit(4, 10);
///
/// assert_eq!(Some('4'), c);
///
/// // Decimal 11 is a single digit in base 16
/// let c = char::from_digit(11, 16);
///
/// assert_eq!(Some('b'), c);
/// ```
///
/// Returning `None` when the input is not a digit:
///
/// ```
/// use std::char;
///
/// let c = char::from_digit(20, 10);
///
/// assert_eq!(None, c);
/// ```
///
/// Passing a large radix, causing a panic:
///
/// ```
/// use std::thread;
/// use std::char;
///
/// let result = thread::spawn(|| {
/// // this panics
/// let c = char::from_digit(1, 37);
/// }).join();
///
/// assert!(result.is_err());
/// ```
#[inline]
#[stable(feature = "rust1", since = "1.0.0")]
pub fn from_digit(num: u32, radix: u32) -> Option<char> {
if radix > 36 {
panic!("from_digit: radix is too high (maximum 36)");
}
if num < radix {
let num = num as u8;
if num < 10 {
Some((b'0' + num) as char)
} else {
Some((b'a' + num - 10) as char)
}
} else {
None
}
}
// NB: the stabilization and documentation for this trait is in
// unicode/char.rs, not here
#[allow(missing_docs)] // docs in libunicode/u_char.rs
#[doc(hidden)]
#[unstable(feature = "core_char_ext",
reason = "the stable interface is `impl char` in later crate",
issue = "32110")]
pub trait CharExt {
#[stable(feature = "core", since = "1.6.0")]
fn is_digit(self, radix: u32) -> bool;
#[stable(feature = "core", since = "1.6.0")]
fn to_digit(self, radix: u32) -> Option<u32>;
#[stable(feature = "core", since = "1.6.0")]
fn escape_unicode(self) -> EscapeUnicode;
#[stable(feature = "core", since = "1.6.0")]
fn escape_default(self) -> EscapeDefault;
#[unstable(feature = "char_escape_debug", issue = "35068")]
fn escape_debug(self) -> EscapeDebug;
#[stable(feature = "core", since = "1.6.0")]
fn len_utf8(self) -> usize;
#[stable(feature = "core", since = "1.6.0")]
fn len_utf16(self) -> usize;
#[unstable(feature = "unicode", issue = "27784")]
fn encode_utf8(self) -> EncodeUtf8;
#[unstable(feature = "unicode", issue = "27784")]
fn encode_utf16(self) -> EncodeUtf16;
}
#[stable(feature = "core", since = "1.6.0")]
impl CharExt for char {
#[inline]
fn is_digit(self, radix: u32) -> bool {
self.to_digit(radix).is_some()
}
#[inline]
fn to_digit(self, radix: u32) -> Option<u32> {
if radix > 36 {
panic!("to_digit: radix is too high (maximum 36)");
}
let val = match self {
'0' ... '9' => self as u32 - '0' as u32,
'a' ... 'z' => self as u32 - 'a' as u32 + 10,
'A' ... 'Z' => self as u32 - 'A' as u32 + 10,
_ => return None,
};
if val < radix { Some(val) }
else { None }
}
#[inline]
fn escape_unicode(self) -> EscapeUnicode {
let c = self as u32;
// or-ing 1 ensures that for c==0 the code computes that one
// digit should be printed and (which is the same) avoids the
// (31 - 32) underflow
let msb = 31 - (c | 1).leading_zeros();
// the index of the most significant hex digit
let ms_hex_digit = msb / 4;
EscapeUnicode {
c: self,
state: EscapeUnicodeState::Backslash,
hex_digit_idx: ms_hex_digit as usize,
}
}
#[inline]
fn escape_default(self) -> EscapeDefault {
let init_state = match self {
'\t' => EscapeDefaultState::Backslash('t'),
'\r' => EscapeDefaultState::Backslash('r'),
'\n' => EscapeDefaultState::Backslash('n'),
'\\' | '\'' | '"' => EscapeDefaultState::Backslash(self),
'\x20' ... '\x7e' => EscapeDefaultState::Char(self),
_ => EscapeDefaultState::Unicode(self.escape_unicode())
};
EscapeDefault { state: init_state }
}
#[inline]
fn escape_debug(self) -> EscapeDebug {
let init_state = match self {
'\t' => EscapeDefaultState::Backslash('t'),
'\r' => EscapeDefaultState::Backslash('r'),
'\n' => EscapeDefaultState::Backslash('n'),
'\\' | '\'' | '"' => EscapeDefaultState::Backslash(self),
c if is_printable(c) => EscapeDefaultState::Char(c),
c => EscapeDefaultState::Unicode(c.escape_unicode()),
};
EscapeDebug(EscapeDefault { state: init_state })
}
#[inline]
fn len_utf8(self) -> usize {
let code = self as u32;
if code < MAX_ONE_B {
1
} else if code < MAX_TWO_B {
2
} else if code < MAX_THREE_B {
3
} else {
4
}
}
#[inline]
fn len_utf16(self) -> usize {
let ch = self as u32;
if (ch & 0xFFFF) == ch { 1 } else { 2 }
}
#[inline]
fn encode_utf8(self) -> EncodeUtf8 {
let code = self as u32;
let mut buf = [0; 4];
let pos = if code < MAX_ONE_B {
buf[3] = code as u8;
3
} else if code < MAX_TWO_B {
buf[2] = (code >> 6 & 0x1F) as u8 | TAG_TWO_B;
buf[3] = (code & 0x3F) as u8 | TAG_CONT;
2
} else if code < MAX_THREE_B {
buf[1] = (code >> 12 & 0x0F) as u8 | TAG_THREE_B;
buf[2] = (code >> 6 & 0x3F) as u8 | TAG_CONT;
buf[3] = (code & 0x3F) as u8 | TAG_CONT;
1
} else {
buf[0] = (code >> 18 & 0x07) as u8 | TAG_FOUR_B;
buf[1] = (code >> 12 & 0x3F) as u8 | TAG_CONT;
buf[2] = (code >> 6 & 0x3F) as u8 | TAG_CONT;
buf[3] = (code & 0x3F) as u8 | TAG_CONT;
0
};
EncodeUtf8 { buf: buf, pos: pos }
}
#[inline]
fn encode_utf16(self) -> EncodeUtf16 {
let mut buf = [0; 2];
let mut code = self as u32;
let pos = if (code & 0xFFFF) == code {
// The BMP falls through (assuming non-surrogate, as it should)
buf[1] = code as u16;
1
} else {
// Supplementary planes break into surrogates.
code -= 0x1_0000;
buf[0] = 0xD800 | ((code >> 10) as u16);
buf[1] = 0xDC00 | ((code as u16) & 0x3FF);
0
};
EncodeUtf16 { buf: buf, pos: pos }
}
}
/// Returns an iterator that yields the hexadecimal Unicode escape of a
/// character, as `char`s.
///
/// This `struct` is created by the [`escape_unicode()`] method on [`char`]. See
/// its documentation for more.
///
/// [`escape_unicode()`]: ../../std/primitive.char.html#method.escape_unicode
/// [`char`]: ../../std/primitive.char.html
#[derive(Clone, Debug)]
#[stable(feature = "rust1", since = "1.0.0")]
pub struct EscapeUnicode {
c: char,
state: EscapeUnicodeState,
// The index of the next hex digit to be printed (0 if none),
// i.e. the number of remaining hex digits to be printed;
// increasing from the least significant digit: 0x543210
hex_digit_idx: usize,
}
// The enum values are ordered so that their representation is the
// same as the remaining length (besides the hexadecimal digits). This
// likely makes `len()` a single load from memory) and inline-worth.
#[derive(Clone, Debug)]
enum EscapeUnicodeState {
Done,
RightBrace,
Value,
LeftBrace,
Type,
Backslash,
}
#[stable(feature = "rust1", since = "1.0.0")]
impl Iterator for EscapeUnicode {
type Item = char;
fn next(&mut self) -> Option<char> {
match self.state {
EscapeUnicodeState::Backslash => {
self.state = EscapeUnicodeState::Type;
Some('\\')
}
EscapeUnicodeState::Type => {
self.state = EscapeUnicodeState::LeftBrace;
Some('u')
}
EscapeUnicodeState::LeftBrace => {
self.state = EscapeUnicodeState::Value;
Some('{')
}
EscapeUnicodeState::Value => {
let hex_digit = ((self.c as u32) >> (self.hex_digit_idx * 4)) & 0xf;
let c = from_digit(hex_digit, 16).unwrap();
if self.hex_digit_idx == 0 {
self.state = EscapeUnicodeState::RightBrace;
} else {
self.hex_digit_idx -= 1;
}
Some(c)
}
EscapeUnicodeState::RightBrace => {
self.state = EscapeUnicodeState::Done;
Some('}')
}
EscapeUnicodeState::Done => None,
}
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let n = self.len();
(n, Some(n))
}
#[inline]
fn count(self) -> usize {
self.len()
}
fn last(self) -> Option<char> {
match self.state {
EscapeUnicodeState::Done => None,
EscapeUnicodeState::RightBrace |
EscapeUnicodeState::Value |
EscapeUnicodeState::LeftBrace |
EscapeUnicodeState::Type |
EscapeUnicodeState::Backslash => Some('}'),
}
}
}
#[stable(feature = "exact_size_escape", since = "1.11.0")]
impl ExactSizeIterator for EscapeUnicode {
#[inline]
fn len(&self) -> usize {
// The match is a single memory access with no branching
self.hex_digit_idx + match self.state {
EscapeUnicodeState::Done => 0,
EscapeUnicodeState::RightBrace => 1,
EscapeUnicodeState::Value => 2,
EscapeUnicodeState::LeftBrace => 3,
EscapeUnicodeState::Type => 4,
EscapeUnicodeState::Backslash => 5,
}
}
}
#[unstable(feature = "fused", issue = "35602")]
impl FusedIterator for EscapeUnicode {}
/// An iterator that yields the literal escape code of a `char`.
///
/// This `struct` is created by the [`escape_default()`] method on [`char`]. See
/// its documentation for more.
///
/// [`escape_default()`]: ../../std/primitive.char.html#method.escape_default
/// [`char`]: ../../std/primitive.char.html
#[derive(Clone, Debug)]
#[stable(feature = "rust1", since = "1.0.0")]
pub struct EscapeDefault {
state: EscapeDefaultState
}
#[derive(Clone, Debug)]
enum EscapeDefaultState {
Done,
Char(char),
Backslash(char),
Unicode(EscapeUnicode),
}
#[stable(feature = "rust1", since = "1.0.0")]
impl Iterator for EscapeDefault {
type Item = char;
fn next(&mut self) -> Option<char> {
match self.state {
EscapeDefaultState::Backslash(c) => {
self.state = EscapeDefaultState::Char(c);
Some('\\')
}
EscapeDefaultState::Char(c) => {
self.state = EscapeDefaultState::Done;
Some(c)
}
EscapeDefaultState::Done => None,
EscapeDefaultState::Unicode(ref mut iter) => iter.next(),
}
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
let n = self.len();
(n, Some(n))
}
#[inline]
fn count(self) -> usize {
self.len()
}
fn nth(&mut self, n: usize) -> Option<char> {
match self.state {
EscapeDefaultState::Backslash(c) if n == 0 => {
self.state = EscapeDefaultState::Char(c);
Some('\\')
},
EscapeDefaultState::Backslash(c) if n == 1 => {
self.state = EscapeDefaultState::Done;
Some(c)
},
EscapeDefaultState::Backslash(_) => {
self.state = EscapeDefaultState::Done;
None
},
EscapeDefaultState::Char(c) => {
self.state = EscapeDefaultState::Done;
if n == 0 {
Some(c)
} else {
None
}
},
EscapeDefaultState::Done => return None,
EscapeDefaultState::Unicode(ref mut i) => return i.nth(n),
}
}
fn last(self) -> Option<char> {
match self.state {
EscapeDefaultState::Unicode(iter) => iter.last(),
EscapeDefaultState::Done => None,
EscapeDefaultState::Backslash(c) | EscapeDefaultState::Char(c) => Some(c),
}
}
}
#[stable(feature = "exact_size_escape", since = "1.11.0")]
impl ExactSizeIterator for EscapeDefault {
fn len(&self) -> usize {
match self.state {
EscapeDefaultState::Done => 0,
EscapeDefaultState::Char(_) => 1,
EscapeDefaultState::Backslash(_) => 2,
EscapeDefaultState::Unicode(ref iter) => iter.len(),
}
}
}
#[unstable(feature = "fused", issue = "35602")]
impl FusedIterator for EscapeDefault {}
/// An iterator that yields the literal escape code of a `char`.
///
/// This `struct` is created by the [`escape_debug()`] method on [`char`]. See its
/// documentation for more.
///
/// [`escape_debug()`]: ../../std/primitive.char.html#method.escape_debug
/// [`char`]: ../../std/primitive.char.html
#[unstable(feature = "char_escape_debug", issue = "35068")]
#[derive(Clone, Debug)]
pub struct EscapeDebug(EscapeDefault);
#[unstable(feature = "char_escape_debug", issue = "35068")]
impl Iterator for EscapeDebug {
type Item = char;
fn next(&mut self) -> Option<char> { self.0.next() }
fn size_hint(&self) -> (usize, Option<usize>) { self.0.size_hint() }
}
#[unstable(feature = "char_escape_debug", issue = "35068")]
impl ExactSizeIterator for EscapeDebug { }
#[unstable(feature = "fused", issue = "35602")]
impl FusedIterator for EscapeDebug {}
/// An iterator over `u8` entries represending the UTF-8 encoding of a `char`
/// value.
///
/// Constructed via the `.encode_utf8()` method on `char`.
#[unstable(feature = "unicode", issue = "27784")]
#[derive(Debug)]
pub struct EncodeUtf8 {
buf: [u8; 4],
pos: usize,
}
impl EncodeUtf8 {
/// Returns the remaining bytes of this iterator as a slice.
#[unstable(feature = "unicode", issue = "27784")]
pub fn as_slice(&self) -> &[u8] {
&self.buf[self.pos..]
}
}
#[unstable(feature = "unicode", issue = "27784")]
impl Iterator for EncodeUtf8 {
type Item = u8;
fn next(&mut self) -> Option<u8> {
if self.pos == self.buf.len() {
None
} else {
let ret = Some(self.buf[self.pos]);
self.pos += 1;
ret
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.as_slice().iter().size_hint()
}
}
#[unstable(feature = "fused", issue = "35602")]
impl FusedIterator for EncodeUtf8 {}
/// An iterator over `u16` entries represending the UTF-16 encoding of a `char`
/// value.
///
/// Constructed via the `.encode_utf16()` method on `char`.
#[unstable(feature = "unicode", issue = "27784")]
#[derive(Debug)]
pub struct EncodeUtf16 {
buf: [u16; 2],
pos: usize,
}
impl EncodeUtf16 {
/// Returns the remaining bytes of this iterator as a slice.
#[unstable(feature = "unicode", issue = "27784")]
pub fn as_slice(&self) -> &[u16] {
&self.buf[self.pos..]
}
}
#[unstable(feature = "unicode", issue = "27784")]
impl Iterator for EncodeUtf16 {
type Item = u16;
fn next(&mut self) -> Option<u16> {
if self.pos == self.buf.len() {
None
} else {
let ret = Some(self.buf[self.pos]);
self.pos += 1;
ret
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
self.as_slice().iter().size_hint()
}
}
#[unstable(feature = "fused", issue = "35602")]
impl FusedIterator for EncodeUtf16 {}
/// An iterator over an iterator of bytes of the characters the bytes represent
/// as UTF-8
#[unstable(feature = "decode_utf8", issue = "33906")]
#[derive(Clone, Debug)]
pub struct DecodeUtf8<I: Iterator<Item = u8>>(::iter::Peekable<I>);
/// Decodes an `Iterator` of bytes as UTF-8.
#[unstable(feature = "decode_utf8", issue = "33906")]
#[inline]
pub fn decode_utf8<I: IntoIterator<Item = u8>>(i: I) -> DecodeUtf8<I::IntoIter> {
DecodeUtf8(i.into_iter().peekable())
}
/// `<DecodeUtf8 as Iterator>::next` returns this for an invalid input sequence.
#[unstable(feature = "decode_utf8", issue = "33906")]
#[derive(PartialEq, Debug)]
pub struct InvalidSequence(());
#[unstable(feature = "decode_utf8", issue = "33906")]
impl<I: Iterator<Item = u8>> Iterator for DecodeUtf8<I> {
type Item = Result<char, InvalidSequence>;
#[inline]
fn next(&mut self) -> Option<Result<char, InvalidSequence>> {
self.0.next().map(|b| {
if b & 0x80 == 0 { Ok(b as char) } else {
let l = (!b).leading_zeros() as usize; // number of bytes in UTF-8 representation
if l < 2 || l > 6 { return Err(InvalidSequence(())) };
let mut x = (b as u32) & (0x7F >> l);
for _ in 0..l-1 {
match self.0.peek() {
Some(&b) if b & 0xC0 == 0x80 => {
self.0.next();
x = (x << 6) | (b as u32) & 0x3F;
},
_ => return Err(InvalidSequence(())),
}
}
match from_u32(x) {
Some(x) if l == x.len_utf8() => Ok(x),
_ => Err(InvalidSequence(())),
}
}
})
}
}
#[unstable(feature = "fused", issue = "35602")]
impl<I: FusedIterator<Item = u8>> FusedIterator for DecodeUtf8<I> {}
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