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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 conversions. use convert::TryFrom; use fmt; use mem::transmute; use str::FromStr; use super::MAX; /// Converts a `u32` to a `char`. /// /// Note that all [`char`]s are valid [`u32`]s, and can be cast 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/first-edition/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> { char::try_from(i).ok() } /// Converts a `u32` to a `char`, ignoring validity. /// /// Note that all [`char`]s are valid [`u32`]s, and can be cast 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/first-edition/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) } #[stable(feature = "char_convert", since = "1.13.0")] impl From<char> for u32 { #[inline] fn from(c: char) -> Self { c as u32 } } /// Maps a byte in 0x00...0xFF to a `char` whose code point has the same value, in U+0000 to U+00FF. /// /// Unicode is designed such that this effectively decodes bytes /// with the character encoding that IANA calls ISO-8859-1. /// This encoding is compatible with ASCII. /// /// Note that this is different from ISO/IEC 8859-1 a.k.a. ISO 8859-1 (with one less hyphen), /// which leaves some "blanks", byte values that are not assigned to any character. /// ISO-8859-1 (the IANA one) assigns them to the C0 and C1 control codes. /// /// Note that this is *also* different from Windows-1252 a.k.a. code page 1252, /// which is a superset ISO/IEC 8859-1 that assigns some (not all!) blanks /// to punctuation and various Latin characters. /// /// To confuse things further, [on the Web](https://encoding.spec.whatwg.org/) /// `ascii`, `iso-8859-1`, and `windows-1252` are all aliases /// for a superset of Windows-1252 that fills the remaining blanks with corresponding /// C0 and C1 control codes. #[stable(feature = "char_convert", since = "1.13.0")] impl From<u8> for char { #[inline] fn from(i: u8) -> Self { i as char } } /// An error which can be returned when parsing a char. #[stable(feature = "char_from_str", since = "1.20.0")] #[derive(Clone, Debug, PartialEq, Eq)] pub struct ParseCharError { kind: CharErrorKind, } impl ParseCharError { #[unstable(feature = "char_error_internals", reason = "this method should not be available publicly", issue = "0")] #[doc(hidden)] pub fn __description(&self) -> &str { match self.kind { CharErrorKind::EmptyString => { "cannot parse char from empty string" }, CharErrorKind::TooManyChars => "too many characters in string" } } } #[derive(Copy, Clone, Debug, PartialEq, Eq)] enum CharErrorKind { EmptyString, TooManyChars, } #[stable(feature = "char_from_str", since = "1.20.0")] impl fmt::Display for ParseCharError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { self.__description().fmt(f) } } #[stable(feature = "char_from_str", since = "1.20.0")] impl FromStr for char { type Err = ParseCharError; #[inline] fn from_str(s: &str) -> Result<Self, Self::Err> { let mut chars = s.chars(); match (chars.next(), chars.next()) { (None, _) => { Err(ParseCharError { kind: CharErrorKind::EmptyString }) }, (Some(c), None) => Ok(c), _ => { Err(ParseCharError { kind: CharErrorKind::TooManyChars }) } } } } #[unstable(feature = "try_from", issue = "33417")] impl TryFrom<u32> for char { type Error = CharTryFromError; #[inline] fn try_from(i: u32) -> Result<Self, Self::Error> { if (i > MAX as u32) || (i >= 0xD800 && i <= 0xDFFF) { Err(CharTryFromError(())) } else { Ok(unsafe { from_u32_unchecked(i) }) } } } /// The error type returned when a conversion from u32 to char fails. #[unstable(feature = "try_from", issue = "33417")] #[derive(Copy, Clone, Debug, PartialEq, Eq)] pub struct CharTryFromError(()); #[unstable(feature = "try_from", issue = "33417")] impl fmt::Display for CharTryFromError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { "converted integer out of range for `char`".fmt(f) } } /// 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 /// radices 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 } }