rust/src/libstd/char.rs

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// Copyright 2012-2013 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.
//! Utilities for manipulating the char type
use option::{None, Option, Some};
use int;
use str::StrSlice;
use unicode::{derived_property, general_category};
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#[cfg(test)] use str::OwnedStr;
#[cfg(not(test))] use cmp::{Eq, Ord};
#[cfg(not(test))] use num::Zero;
/*
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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
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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
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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
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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
*/
/// Returns whether the specified character is considered a unicode alphabetic
/// character
pub fn is_alphabetic(c: char) -> bool { derived_property::Alphabetic(c) }
#[allow(missing_doc)]
pub fn is_XID_start(c: char) -> bool { derived_property::XID_Start(c) }
#[allow(missing_doc)]
pub fn is_XID_continue(c: char) -> bool { derived_property::XID_Continue(c) }
///
/// Indicates whether a character is in lower case, defined
/// in terms of the Unicode General Category 'Ll'
///
#[inline]
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pub fn is_lowercase(c: char) -> bool { general_category::Ll(c) }
///
/// Indicates whether a character is in upper case, defined
/// in terms of the Unicode General Category 'Lu'.
///
#[inline]
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pub fn is_uppercase(c: char) -> bool { general_category::Lu(c) }
///
/// Indicates whether a character is whitespace. Whitespace is defined in
/// terms of the Unicode General Categories 'Zs', 'Zl', 'Zp'
/// additional 'Cc'-category control codes in the range [0x09, 0x0d]
///
#[inline]
pub fn is_whitespace(c: char) -> bool {
c == ' '
|| ('\x09' <= c && c <= '\x0d')
|| general_category::Zs(c)
|| general_category::Zl(c)
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|| general_category::Zp(c)
}
///
/// Indicates whether a character is alphanumeric. Alphanumericness is
/// defined in terms of the Unicode General Categories 'Nd', 'Nl', 'No'
/// and the Derived Core Property 'Alphabetic'.
///
#[inline]
pub fn is_alphanumeric(c: char) -> bool {
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derived_property::Alphabetic(c)
|| general_category::Nd(c)
|| general_category::Nl(c)
|| general_category::No(c)
}
/// Indicates whether the character is numeric (Nd, Nl, or No)
#[inline]
pub fn is_digit(c: char) -> bool {
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general_category::Nd(c)
|| general_category::Nl(c)
|| general_category::No(c)
}
///
/// Checks if a character parses as a numeric digit in the given radix.
/// Compared to `is_digit()`, this function only recognizes the
/// characters `0-9`, `a-z` and `A-Z`.
///
/// # Return value
///
/// Returns `true` if `c` is a valid digit under `radix`, and `false`
/// otherwise.
///
/// # Failure
///
/// Fails if given a `radix` > 36.
///
/// # Note
///
/// This just wraps `to_digit()`.
///
#[inline]
pub fn is_digit_radix(c: char, radix: uint) -> bool {
match to_digit(c, radix) {
Some(_) => true,
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None => false,
}
}
///
/// Convert a char to the corresponding digit.
///
/// # Return value
///
/// If `c` is between '0' and '9', the corresponding value
/// between 0 and 9. If `c` is 'a' or 'A', 10. If `c` is
/// 'b' or 'B', 11, etc. Returns none if the char does not
/// refer to a digit in the given radix.
///
/// # Failure
///
/// Fails if given a `radix` outside the range `[0..36]`.
///
#[inline]
pub fn to_digit(c: char, radix: uint) -> Option<uint> {
if radix > 36 {
fail!("to_digit: radix %? is to high (maximum 36)", radix);
}
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let val = match c {
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'0' .. '9' => c as uint - ('0' as uint),
'a' .. 'z' => c as uint + 10u - ('a' as uint),
'A' .. 'Z' => c as uint + 10u - ('A' as uint),
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_ => return None,
};
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if val < radix { Some(val) }
else { None }
}
///
/// Converts a number to the character representing it.
///
/// # Return value
///
/// Returns `Some(char)` if `num` represents one digit under `radix`,
/// using one character of `0-9` or `a-z`, or `None` if it doesn't.
///
/// # Failure
///
/// Fails if given an `radix` > 36.
///
#[inline]
pub fn from_digit(num: uint, radix: uint) -> Option<char> {
if radix > 36 {
fail!("from_digit: radix %? is to high (maximum 36)", num);
}
if num < radix {
if num < 10 {
Some(('0' as uint + num) as char)
} else {
Some(('a' as uint + num - 10u) as char)
}
} else {
None
}
}
///
/// Return the hexadecimal unicode escape of a char.
///
/// The rules are as follows:
///
/// - chars in [0,0xff] get 2-digit escapes: `\\xNN`
/// - chars in [0x100,0xffff] get 4-digit escapes: `\\uNNNN`
/// - chars above 0x10000 get 8-digit escapes: `\\UNNNNNNNN`
///
pub fn escape_unicode(c: char, f: &fn(char)) {
// avoid calling str::to_str_radix because we don't really need to allocate
// here.
f('\\');
let pad = cond!(
(c <= '\xff') { f('x'); 2 }
(c <= '\uffff') { f('u'); 4 }
_ { f('U'); 8 }
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);
for int::range_step(4 * (pad - 1), -1, -4) |offset| {
match ((c as u32) >> offset) & 0xf {
i @ 0 .. 9 => { f('0' + i as char); }
i => { f('a' + (i - 10) as char); }
}
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}
}
///
/// Return a 'default' ASCII and C++11-like char-literal escape of a char.
///
/// The default is chosen with a bias toward producing literals that are
/// legal in a variety of languages, including C++11 and similar C-family
/// languages. The exact rules are:
///
/// - Tab, CR and LF are escaped as '\t', '\r' and '\n' respectively.
/// - Single-quote, double-quote and backslash chars are backslash-escaped.
/// - Any other chars in the range [0x20,0x7e] are not escaped.
/// - Any other chars are given hex unicode escapes; see `escape_unicode`.
///
pub fn escape_default(c: char, f: &fn(char)) {
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match c {
'\t' => { f('\\'); f('t'); }
'\r' => { f('\\'); f('r'); }
'\n' => { f('\\'); f('n'); }
'\\' => { f('\\'); f('\\'); }
'\'' => { f('\\'); f('\''); }
'"' => { f('\\'); f('"'); }
'\x20' .. '\x7e' => { f(c); }
_ => c.escape_unicode(f),
}
}
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/// Returns the amount of bytes this character would need if encoded in utf8
pub fn len_utf8_bytes(c: char) -> uint {
static MAX_ONE_B: uint = 128u;
static MAX_TWO_B: uint = 2048u;
static MAX_THREE_B: uint = 65536u;
static MAX_FOUR_B: uint = 2097152u;
let code = c as uint;
cond!(
(code < MAX_ONE_B) { 1u }
(code < MAX_TWO_B) { 2u }
(code < MAX_THREE_B) { 3u }
(code < MAX_FOUR_B) { 4u }
_ { fail!("invalid character!") }
)
}
#[allow(missing_doc)]
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pub trait Char {
fn is_alphabetic(&self) -> bool;
fn is_XID_start(&self) -> bool;
fn is_XID_continue(&self) -> bool;
fn is_lowercase(&self) -> bool;
fn is_uppercase(&self) -> bool;
fn is_whitespace(&self) -> bool;
fn is_alphanumeric(&self) -> bool;
fn is_digit(&self) -> bool;
fn is_digit_radix(&self, radix: uint) -> bool;
fn to_digit(&self, radix: uint) -> Option<uint>;
fn from_digit(num: uint, radix: uint) -> Option<char>;
fn escape_unicode(&self, f: &fn(char));
fn escape_default(&self, f: &fn(char));
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fn len_utf8_bytes(&self) -> uint;
}
impl Char for char {
fn is_alphabetic(&self) -> bool { is_alphabetic(*self) }
fn is_XID_start(&self) -> bool { is_XID_start(*self) }
fn is_XID_continue(&self) -> bool { is_XID_continue(*self) }
fn is_lowercase(&self) -> bool { is_lowercase(*self) }
fn is_uppercase(&self) -> bool { is_uppercase(*self) }
fn is_whitespace(&self) -> bool { is_whitespace(*self) }
fn is_alphanumeric(&self) -> bool { is_alphanumeric(*self) }
fn is_digit(&self) -> bool { is_digit(*self) }
fn is_digit_radix(&self, radix: uint) -> bool { is_digit_radix(*self, radix) }
fn to_digit(&self, radix: uint) -> Option<uint> { to_digit(*self, radix) }
fn from_digit(num: uint, radix: uint) -> Option<char> { from_digit(num, radix) }
fn escape_unicode(&self, f: &fn(char)) { escape_unicode(*self, f) }
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fn escape_default(&self, f: &fn(char)) { escape_default(*self, f) }
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fn len_utf8_bytes(&self) -> uint { len_utf8_bytes(*self) }
}
#[cfg(not(test))]
impl Eq for char {
#[inline]
fn eq(&self, other: &char) -> bool { (*self) == (*other) }
#[inline]
fn ne(&self, other: &char) -> bool { (*self) != (*other) }
}
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#[cfg(not(test))]
impl Ord for char {
#[inline]
fn lt(&self, other: &char) -> bool { *self < *other }
#[inline]
fn le(&self, other: &char) -> bool { *self <= *other }
#[inline]
fn gt(&self, other: &char) -> bool { *self > *other }
#[inline]
fn ge(&self, other: &char) -> bool { *self >= *other }
}
#[cfg(not(test))]
impl Zero for char {
fn zero() -> char { 0 as char }
fn is_zero(&self) -> bool { *self == 0 as char }
}
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#[test]
fn test_is_lowercase() {
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assert!('a'.is_lowercase());
assert!('ö'.is_lowercase());
assert!('ß'.is_lowercase());
assert!(!'Ü'.is_lowercase());
assert!(!'P'.is_lowercase());
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}
#[test]
fn test_is_uppercase() {
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assert!(!'h'.is_uppercase());
assert!(!'ä'.is_uppercase());
assert!(!'ß'.is_uppercase());
assert!('Ö'.is_uppercase());
assert!('T'.is_uppercase());
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}
#[test]
fn test_is_whitespace() {
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assert!(' '.is_whitespace());
assert!('\u2007'.is_whitespace());
assert!('\t'.is_whitespace());
assert!('\n'.is_whitespace());
assert!(!'a'.is_whitespace());
assert!(!'_'.is_whitespace());
assert!(!'\u0000'.is_whitespace());
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}
#[test]
fn test_to_digit() {
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assert_eq!('0'.to_digit(10u), Some(0u));
assert_eq!('1'.to_digit(2u), Some(1u));
assert_eq!('2'.to_digit(3u), Some(2u));
assert_eq!('9'.to_digit(10u), Some(9u));
assert_eq!('a'.to_digit(16u), Some(10u));
assert_eq!('A'.to_digit(16u), Some(10u));
assert_eq!('b'.to_digit(16u), Some(11u));
assert_eq!('B'.to_digit(16u), Some(11u));
assert_eq!('z'.to_digit(36u), Some(35u));
assert_eq!('Z'.to_digit(36u), Some(35u));
assert_eq!(' '.to_digit(10u), None);
assert_eq!('$'.to_digit(36u), None);
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}
#[test]
fn test_is_digit() {
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assert!('2'.is_digit());
assert!('7'.is_digit());
assert!(!'c'.is_digit());
assert!(!'i'.is_digit());
assert!(!'z'.is_digit());
assert!(!'Q'.is_digit());
}
#[test]
fn test_escape_default() {
fn string(c: char) -> ~str {
let mut result = ~"";
do escape_default(c) |c| { result.push_char(c); }
return result;
}
assert_eq!(string('\n'), ~"\\n");
assert_eq!(string('\r'), ~"\\r");
assert_eq!(string('\''), ~"\\'");
assert_eq!(string('"'), ~"\\\"");
assert_eq!(string(' '), ~" ");
assert_eq!(string('a'), ~"a");
assert_eq!(string('~'), ~"~");
assert_eq!(string('\x00'), ~"\\x00");
assert_eq!(string('\x1f'), ~"\\x1f");
assert_eq!(string('\x7f'), ~"\\x7f");
assert_eq!(string('\xff'), ~"\\xff");
assert_eq!(string('\u011b'), ~"\\u011b");
assert_eq!(string('\U0001d4b6'), ~"\\U0001d4b6");
}
#[test]
fn test_escape_unicode() {
fn string(c: char) -> ~str {
let mut result = ~"";
do escape_unicode(c) |c| { result.push_char(c); }
return result;
}
assert_eq!(string('\x00'), ~"\\x00");
assert_eq!(string('\n'), ~"\\x0a");
assert_eq!(string(' '), ~"\\x20");
assert_eq!(string('a'), ~"\\x61");
assert_eq!(string('\u011b'), ~"\\u011b");
assert_eq!(string('\U0001d4b6'), ~"\\U0001d4b6");
}