rust/src/libcoretest/char.rs

// Copyright 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

use core::char::{escape_unicode, escape_default};

#[test]
fn test_is_lowercase() {
    assert!('a'.is_lowercase());
    assert!('ö'.is_lowercase());
    assert!('ß'.is_lowercase());
    assert!(!'Ü'.is_lowercase());
    assert!(!'P'.is_lowercase());
}

#[test]
fn test_is_uppercase() {
    assert!(!'h'.is_uppercase());
    assert!(!'ä'.is_uppercase());
    assert!(!'ß'.is_uppercase());
    assert!('Ö'.is_uppercase());
    assert!('T'.is_uppercase());
}

#[test]
fn test_is_whitespace() {
    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());
}

#[test]
fn test_to_digit() {
    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);
}

#[test]
fn test_to_lowercase() {
    assert_eq!('A'.to_lowercase(), 'a');
    assert_eq!('Ö'.to_lowercase(), 'ö');
    assert_eq!('ß'.to_lowercase(), 'ß');
    assert_eq!('Ü'.to_lowercase(), 'ü');
    assert_eq!('💩'.to_lowercase(), '💩');
    assert_eq!('Σ'.to_lowercase(), 'σ');
    assert_eq!('Τ'.to_lowercase(), 'τ');
    assert_eq!('Ι'.to_lowercase(), 'ι');
    assert_eq!('Γ'.to_lowercase(), 'γ');
    assert_eq!('Μ'.to_lowercase(), 'μ');
    assert_eq!('Α'.to_lowercase(), 'α');
    assert_eq!('Σ'.to_lowercase(), 'σ');
}

#[test]
fn test_to_uppercase() {
    assert_eq!('a'.to_uppercase(), 'A');
    assert_eq!('ö'.to_uppercase(), 'Ö');
    assert_eq!('ß'.to_uppercase(), 'ß'); // not ẞ: Latin capital letter sharp s
    assert_eq!('ü'.to_uppercase(), 'Ü');
    assert_eq!('💩'.to_uppercase(), '💩');

    assert_eq!('σ'.to_uppercase(), 'Σ');
    assert_eq!('τ'.to_uppercase(), 'Τ');
    assert_eq!('ι'.to_uppercase(), 'Ι');
    assert_eq!('γ'.to_uppercase(), 'Γ');
    assert_eq!('μ'.to_uppercase(), 'Μ');
    assert_eq!('α'.to_uppercase(), 'Α');
    assert_eq!('ς'.to_uppercase(), 'Σ');
}

#[test]
fn test_is_control() {
    assert!('\u0000'.is_control());
    assert!('\u0003'.is_control());
    assert!('\u0006'.is_control());
    assert!('\u0009'.is_control());
    assert!('\u007f'.is_control());
    assert!('\u0092'.is_control());
    assert!(!'\u0020'.is_control());
    assert!(!'\u0055'.is_control());
    assert!(!'\u0068'.is_control());
}

#[test]
fn test_is_digit() {
   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) -> String {
        let mut result = String::new();
        escape_default(c, |c| { result.push(c); });
        return result;
    }
    let s = string('\n');
    assert_eq!(s.as_slice(), "\\n");
    let s = string('\r');
    assert_eq!(s.as_slice(), "\\r");
    let s = string('\'');
    assert_eq!(s.as_slice(), "\\'");
    let s = string('"');
    assert_eq!(s.as_slice(), "\\\"");
    let s = string(' ');
    assert_eq!(s.as_slice(), " ");
    let s = string('a');
    assert_eq!(s.as_slice(), "a");
    let s = string('~');
    assert_eq!(s.as_slice(), "~");
    let s = string('\x00');
    assert_eq!(s.as_slice(), "\\x00");
    let s = string('\x1f');
    assert_eq!(s.as_slice(), "\\x1f");
    let s = string('\x7f');
    assert_eq!(s.as_slice(), "\\x7f");
    let s = string('\u00ff');
    assert_eq!(s.as_slice(), "\\u00ff");
    let s = string('\u011b');
    assert_eq!(s.as_slice(), "\\u011b");
    let s = string('\U0001d4b6');
    assert_eq!(s.as_slice(), "\\U0001d4b6");
}

#[test]
fn test_escape_unicode() {
    fn string(c: char) -> String {
        let mut result = String::new();
        escape_unicode(c, |c| { result.push(c); });
        return result;
    }
    let s = string('\x00');
    assert_eq!(s.as_slice(), "\\x00");
    let s = string('\n');
    assert_eq!(s.as_slice(), "\\x0a");
    let s = string(' ');
    assert_eq!(s.as_slice(), "\\x20");
    let s = string('a');
    assert_eq!(s.as_slice(), "\\x61");
    let s = string('\u011b');
    assert_eq!(s.as_slice(), "\\u011b");
    let s = string('\U0001d4b6');
    assert_eq!(s.as_slice(), "\\U0001d4b6");
}

#[test]
fn test_encode_utf8() {
    fn check(input: char, expect: &[u8]) {
        let mut buf = [0u8, ..4];
        let n = input.encode_utf8(buf.as_mut_slice()).unwrap_or(0);
        assert_eq!(buf[..n], expect);
    }

    check('x', [0x78]);
    check('\u00e9', [0xc3, 0xa9]);
    check('\ua66e', [0xea, 0x99, 0xae]);
    check('\U0001f4a9', [0xf0, 0x9f, 0x92, 0xa9]);
}

#[test]
fn test_encode_utf16() {
    fn check(input: char, expect: &[u16]) {
        let mut buf = [0u16, ..2];
        let n = input.encode_utf16(buf.as_mut_slice()).unwrap_or(0);
        assert_eq!(buf[..n], expect);
    }

    check('x', [0x0078]);
    check('\u00e9', [0x00e9]);
    check('\ua66e', [0xa66e]);
    check('\U0001f4a9', [0xd83d, 0xdca9]);
}

#[test]
fn test_width() {
    assert_eq!('\x00'.width(false),Some(0));
    assert_eq!('\x00'.width(true),Some(0));

    assert_eq!('\x0A'.width(false),None);
    assert_eq!('\x0A'.width(true),None);

    assert_eq!('w'.width(false),Some(1));
    assert_eq!('w'.width(true),Some(1));

    assert_eq!('ｈ'.width(false),Some(2));
    assert_eq!('ｈ'.width(true),Some(2));

    assert_eq!('\u00AD'.width(false),Some(1));
    assert_eq!('\u00AD'.width(true),Some(1));

    assert_eq!('\u1160'.width(false),Some(0));
    assert_eq!('\u1160'.width(true),Some(0));

    assert_eq!('\u00a1'.width(false),Some(1));
    assert_eq!('\u00a1'.width(true),Some(2));

    assert_eq!('\u0300'.width(false),Some(0));
    assert_eq!('\u0300'.width(true),Some(0));
}
-												Extract tests from libcore to a separate crate

Libcore's test infrastructure is complicated by the fact that many lang
items are defined in the crate. The current approach (realcore/realstd
imports) is hacky and hard to work with (tests inside of core::cmp
haven't been run for months!).

Moving tests to a separate crate does mean that they can only test the
public API of libcore, but I don't feel that that is too much of an
issue. The only tests that I had to get rid of were some checking the
various numeric formatters, but those are also exercised through normal
format! calls in other tests.

											
										
										
											2014-06-28 20:57:36 +00:00
+								// Copyright 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 to broken files and remove some tray hyphens

I blame @ChrisMorgan for the hyphens.

											
										
										
											2014-07-15 03:46:04 +00:00
+								//
 								// ignore-lexer-test FIXME #15679
-												Extract tests from libcore to a separate crate

Libcore's test infrastructure is complicated by the fact that many lang
items are defined in the crate. The current approach (realcore/realstd
imports) is hacky and hard to work with (tests inside of core::cmp
haven't been run for months!).

Moving tests to a separate crate does mean that they can only test the
public API of libcore, but I don't feel that that is too much of an
issue. The only tests that I had to get rid of were some checking the
various numeric formatters, but those are also exercised through normal
format! calls in other tests.

											
										
										
											2014-06-28 20:57:36 +00:00
 								use core::char::{escape_unicode, escape_default};
 								#[test]
 								fn test_is_lowercase() {
 								    assert!('a'.is_lowercase());
 								    assert!('ö'.is_lowercase());
 								    assert!('ß'.is_lowercase());
 								    assert!(!'Ü'.is_lowercase());
 								    assert!(!'P'.is_lowercase());
 								}
 								#[test]
 								fn test_is_uppercase() {
 								    assert!(!'h'.is_uppercase());
 								    assert!(!'ä'.is_uppercase());
 								    assert!(!'ß'.is_uppercase());
 								    assert!('Ö'.is_uppercase());
 								    assert!('T'.is_uppercase());
 								}
 								#[test]
 								fn test_is_whitespace() {
 								    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());
 								}
 								#[test]
 								fn test_to_digit() {
 								    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);
 								}
 								#[test]
 								fn test_to_lowercase() {
 								    assert_eq!('A'.to_lowercase(), 'a');
 								    assert_eq!('Ö'.to_lowercase(), 'ö');
 								    assert_eq!('ß'.to_lowercase(), 'ß');
 								    assert_eq!('Ü'.to_lowercase(), 'ü');
 								    assert_eq!('💩'.to_lowercase(), '💩');
 								    assert_eq!('Σ'.to_lowercase(), 'σ');
 								    assert_eq!('Τ'.to_lowercase(), 'τ');
 								    assert_eq!('Ι'.to_lowercase(), 'ι');
 								    assert_eq!('Γ'.to_lowercase(), 'γ');
 								    assert_eq!('Μ'.to_lowercase(), 'μ');
 								    assert_eq!('Α'.to_lowercase(), 'α');
 								    assert_eq!('Σ'.to_lowercase(), 'σ');
 								}
 								#[test]
 								fn test_to_uppercase() {
 								    assert_eq!('a'.to_uppercase(), 'A');
 								    assert_eq!('ö'.to_uppercase(), 'Ö');
 								    assert_eq!('ß'.to_uppercase(), 'ß'); // not ẞ: Latin capital letter sharp s
 								    assert_eq!('ü'.to_uppercase(), 'Ü');
 								    assert_eq!('💩'.to_uppercase(), '💩');
 								    assert_eq!('σ'.to_uppercase(), 'Σ');
 								    assert_eq!('τ'.to_uppercase(), 'Τ');
 								    assert_eq!('ι'.to_uppercase(), 'Ι');
 								    assert_eq!('γ'.to_uppercase(), 'Γ');
 								    assert_eq!('μ'.to_uppercase(), 'Μ');
 								    assert_eq!('α'.to_uppercase(), 'Α');
 								    assert_eq!('ς'.to_uppercase(), 'Σ');
 								}
 								#[test]
 								fn test_is_control() {
 								    assert!('\u0000'.is_control());
 								    assert!('\u0003'.is_control());
 								    assert!('\u0006'.is_control());
 								    assert!('\u0009'.is_control());
 								    assert!('\u007f'.is_control());
 								    assert!('\u0092'.is_control());
 								    assert!(!'\u0020'.is_control());
 								    assert!(!'\u0055'.is_control());
 								    assert!(!'\u0068'.is_control());
 								}
 								#[test]
 								fn test_is_digit() {
 								   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) -> String {
 								        let mut result = String::new();
-												Clean up rustc warnings.

compiletest: compact "linux" "macos" etc.as "unix".
liballoc: remove a superfluous "use".
libcollections: remove invocations of deprecated methods in favor of
    their suggested replacements and use "_" for a loop counter.
libcoretest: remove invocations of deprecated methods;  also add
    "allow(deprecated)" for testing a deprecated method itself.
libglob: use "cfg_attr".
libgraphviz: add a test for one of data constructors.
libgreen: remove a superfluous "use".
libnum: "allow(type_overflow)" for type cast into u8 in a test code.
librustc: names of static variables should be in upper case.
libserialize: v[i] instead of get().
libstd/ascii: to_lowercase() instead of to_lower().
libstd/bitflags: modify AnotherSetOfFlags to use i8 as its backend.
    It will serve better for testing various aspects of bitflags!.
libstd/collections: "allow(deprecated)" for testing a deprecated
    method itself.
libstd/io: remove invocations of deprecated methods and superfluous "use".
    Also add #[test] where it was missing.
libstd/num: introduce a helper function to effectively remove
    invocations of a deprecated method.
libstd/path and rand: remove invocations of deprecated methods and
    superfluous "use".
libstd/task and libsync/comm: "allow(deprecated)" for testing
    a deprecated method itself.
libsync/deque: remove superfluous "unsafe".
libsync/mutex and once: names of static variables should be in upper case.
libterm: introduce a helper function to effectively remove
    invocations of a deprecated method.

We still see a few warnings about using obsoleted native::task::spawn()
in the test modules for libsync.  I'm not sure how I should replace them
with std::task::TaksBuilder and native::task::NativeTaskBuilder
(dependency to libstd?)

Signed-off-by: NODA, Kai <nodakai@gmail.com>

											
										
										
											2014-10-05 10:11:17 +00:00
+								        escape_default(c, |c| { result.push(c); });
-												Extract tests from libcore to a separate crate

Libcore's test infrastructure is complicated by the fact that many lang
items are defined in the crate. The current approach (realcore/realstd
imports) is hacky and hard to work with (tests inside of core::cmp
haven't been run for months!).

Moving tests to a separate crate does mean that they can only test the
public API of libcore, but I don't feel that that is too much of an
issue. The only tests that I had to get rid of were some checking the
various numeric formatters, but those are also exercised through normal
format! calls in other tests.

											
										
										
											2014-06-28 20:57:36 +00:00
+								        return result;
 								    }
 								    let s = string('\n');
 								    assert_eq!(s.as_slice(), "\\n");
 								    let s = string('\r');
 								    assert_eq!(s.as_slice(), "\\r");
 								    let s = string('\'');
 								    assert_eq!(s.as_slice(), "\\'");
 								    let s = string('"');
 								    assert_eq!(s.as_slice(), "\\\"");
 								    let s = string(' ');
 								    assert_eq!(s.as_slice(), " ");
 								    let s = string('a');
 								    assert_eq!(s.as_slice(), "a");
 								    let s = string('~');
 								    assert_eq!(s.as_slice(), "~");
 								    let s = string('\x00');
 								    assert_eq!(s.as_slice(), "\\x00");
 								    let s = string('\x1f');
 								    assert_eq!(s.as_slice(), "\\x1f");
 								    let s = string('\x7f');
 								    assert_eq!(s.as_slice(), "\\x7f");
-												libsyntax: Forbid escapes in the inclusive range `\x80`-`\xff` in
Unicode characters and strings.

Use `\u0080`-`\u00ff` instead. ASCII/byte literals are unaffected.

This PR introduces a new function, `escape_default`, into the ASCII
module. This was necessary for the pretty printer to continue to
function.

RFC #326.

Closes #18062.

[breaking-change]

											
										
										
											2014-10-27 16:13:51 +00:00
+								    let s = string('\u00ff');
 								    assert_eq!(s.as_slice(), "\\u00ff");
-												Extract tests from libcore to a separate crate

Libcore's test infrastructure is complicated by the fact that many lang
items are defined in the crate. The current approach (realcore/realstd
imports) is hacky and hard to work with (tests inside of core::cmp
haven't been run for months!).

Moving tests to a separate crate does mean that they can only test the
public API of libcore, but I don't feel that that is too much of an
issue. The only tests that I had to get rid of were some checking the
various numeric formatters, but those are also exercised through normal
format! calls in other tests.

											
										
										
											2014-06-28 20:57:36 +00:00
+								    let s = string('\u011b');
 								    assert_eq!(s.as_slice(), "\\u011b");
 								    let s = string('\U0001d4b6');
 								    assert_eq!(s.as_slice(), "\\U0001d4b6");
 								}
 								#[test]
 								fn test_escape_unicode() {
 								    fn string(c: char) -> String {
 								        let mut result = String::new();
-												Clean up rustc warnings.

compiletest: compact "linux" "macos" etc.as "unix".
liballoc: remove a superfluous "use".
libcollections: remove invocations of deprecated methods in favor of
    their suggested replacements and use "_" for a loop counter.
libcoretest: remove invocations of deprecated methods;  also add
    "allow(deprecated)" for testing a deprecated method itself.
libglob: use "cfg_attr".
libgraphviz: add a test for one of data constructors.
libgreen: remove a superfluous "use".
libnum: "allow(type_overflow)" for type cast into u8 in a test code.
librustc: names of static variables should be in upper case.
libserialize: v[i] instead of get().
libstd/ascii: to_lowercase() instead of to_lower().
libstd/bitflags: modify AnotherSetOfFlags to use i8 as its backend.
    It will serve better for testing various aspects of bitflags!.
libstd/collections: "allow(deprecated)" for testing a deprecated
    method itself.
libstd/io: remove invocations of deprecated methods and superfluous "use".
    Also add #[test] where it was missing.
libstd/num: introduce a helper function to effectively remove
    invocations of a deprecated method.
libstd/path and rand: remove invocations of deprecated methods and
    superfluous "use".
libstd/task and libsync/comm: "allow(deprecated)" for testing
    a deprecated method itself.
libsync/deque: remove superfluous "unsafe".
libsync/mutex and once: names of static variables should be in upper case.
libterm: introduce a helper function to effectively remove
    invocations of a deprecated method.

We still see a few warnings about using obsoleted native::task::spawn()
in the test modules for libsync.  I'm not sure how I should replace them
with std::task::TaksBuilder and native::task::NativeTaskBuilder
(dependency to libstd?)

Signed-off-by: NODA, Kai <nodakai@gmail.com>

											
										
										
											2014-10-05 10:11:17 +00:00
+								        escape_unicode(c, |c| { result.push(c); });
-												Extract tests from libcore to a separate crate

Libcore's test infrastructure is complicated by the fact that many lang
items are defined in the crate. The current approach (realcore/realstd
imports) is hacky and hard to work with (tests inside of core::cmp
haven't been run for months!).

Moving tests to a separate crate does mean that they can only test the
public API of libcore, but I don't feel that that is too much of an
issue. The only tests that I had to get rid of were some checking the
various numeric formatters, but those are also exercised through normal
format! calls in other tests.

											
										
										
											2014-06-28 20:57:36 +00:00
+								        return result;
 								    }
 								    let s = string('\x00');
 								    assert_eq!(s.as_slice(), "\\x00");
 								    let s = string('\n');
 								    assert_eq!(s.as_slice(), "\\x0a");
 								    let s = string(' ');
 								    assert_eq!(s.as_slice(), "\\x20");
 								    let s = string('a');
 								    assert_eq!(s.as_slice(), "\\x61");
 								    let s = string('\u011b');
 								    assert_eq!(s.as_slice(), "\\u011b");
 								    let s = string('\U0001d4b6');
 								    assert_eq!(s.as_slice(), "\\U0001d4b6");
 								}
 								#[test]
 								fn test_encode_utf8() {
 								    fn check(input: char, expect: &[u8]) {
 								        let mut buf = [0u8, ..4];
-												Optimized IR generation for UTF-8 and UTF-16 encoding

- Both can now be inlined and constant folded away
- Both can no longer cause failure
- Both now return an `Option` instead

Removed debug `assert!()`s over the valid ranges of a `char`
- It affected optimizations due to unwinding
- Char handling is now sound enought that they became uneccessary

											
										
										
											2014-08-13 23:02:31 +00:00
+								        let n = input.encode_utf8(buf.as_mut_slice()).unwrap_or(0);
-												Use slice syntax instead of slice_to, etc.

											
										
										
											2014-09-24 11:41:09 +00:00
+								        assert_eq!(buf[..n], expect);
-												Extract tests from libcore to a separate crate

Libcore's test infrastructure is complicated by the fact that many lang
items are defined in the crate. The current approach (realcore/realstd
imports) is hacky and hard to work with (tests inside of core::cmp
haven't been run for months!).

Moving tests to a separate crate does mean that they can only test the
public API of libcore, but I don't feel that that is too much of an
issue. The only tests that I had to get rid of were some checking the
various numeric formatters, but those are also exercised through normal
format! calls in other tests.

											
										
										
											2014-06-28 20:57:36 +00:00
+								    }
 								    check('x', [0x78]);
 								    check('\u00e9', [0xc3, 0xa9]);
 								    check('\ua66e', [0xea, 0x99, 0xae]);
 								    check('\U0001f4a9', [0xf0, 0x9f, 0x92, 0xa9]);
 								}
 								#[test]
 								fn test_encode_utf16() {
 								    fn check(input: char, expect: &[u16]) {
 								        let mut buf = [0u16, ..2];
-												Optimized IR generation for UTF-8 and UTF-16 encoding

- Both can now be inlined and constant folded away
- Both can no longer cause failure
- Both now return an `Option` instead

Removed debug `assert!()`s over the valid ranges of a `char`
- It affected optimizations due to unwinding
- Char handling is now sound enought that they became uneccessary

											
										
										
											2014-08-13 23:02:31 +00:00
+								        let n = input.encode_utf16(buf.as_mut_slice()).unwrap_or(0);
-												Use slice syntax instead of slice_to, etc.

											
										
										
											2014-09-24 11:41:09 +00:00
+								        assert_eq!(buf[..n], expect);
-												Extract tests from libcore to a separate crate

Libcore's test infrastructure is complicated by the fact that many lang
items are defined in the crate. The current approach (realcore/realstd
imports) is hacky and hard to work with (tests inside of core::cmp
haven't been run for months!).

Moving tests to a separate crate does mean that they can only test the
public API of libcore, but I don't feel that that is too much of an
issue. The only tests that I had to get rid of were some checking the
various numeric formatters, but those are also exercised through normal
format! calls in other tests.

											
										
										
											2014-06-28 20:57:36 +00:00
+								    }
 								    check('x', [0x0078]);
 								    check('\u00e9', [0x00e9]);
 								    check('\ua66e', [0xa66e]);
 								    check('\U0001f4a9', [0xd83d, 0xdca9]);
 								}
-												Add libunicode; move unicode functions from core

- created new crate, libunicode, below libstd
- split Char trait into Char (libcore) and UnicodeChar (libunicode)
  - Unicode-aware functions now live in libunicode
    - is_alphabetic, is_XID_start, is_XID_continue, is_lowercase,
      is_uppercase, is_whitespace, is_alphanumeric, is_control,
      is_digit, to_uppercase, to_lowercase
  - added width method in UnicodeChar trait
    - determines printed width of character in columns, or None if it is
      a non-NULL control character
    - takes a boolean argument indicating whether the present context is
      CJK or not (characters with 'A'mbiguous widths are double-wide in
      CJK contexts, single-wide otherwise)
- split StrSlice into StrSlice (libcore) and UnicodeStrSlice
  (libunicode)
  - functionality formerly in StrSlice that relied upon Unicode
    functionality from Char is now in UnicodeStrSlice
    - words, is_whitespace, is_alphanumeric, trim, trim_left, trim_right
  - also moved Words type alias into libunicode because words method is
    in UnicodeStrSlice
- unified Unicode tables from libcollections, libcore, and libregex into
  libunicode
- updated unicode.py in src/etc to generate aforementioned tables
- generated new tables based on latest Unicode data
- added UnicodeChar and UnicodeStrSlice traits to prelude
- libunicode is now the collection point for the std::char module,
  combining the libunicode functionality with the Char functionality
  from libcore
  - thus, moved doc comment for char from core::char to unicode::char
- libcollections remains the collection point for std::str

The Unicode-aware functions that previously lived in the Char and
StrSlice traits are no longer available to programs that only use
libcore. To regain use of these methods, include the libunicode crate
and use the UnicodeChar and/or UnicodeStrSlice traits:

    extern crate unicode;
    use unicode::UnicodeChar;
    use unicode::UnicodeStrSlice;
    use unicode::Words; // if you want to use the words() method

NOTE: this does *not* impact programs that use libstd, since UnicodeChar
and UnicodeStrSlice have been added to the prelude.

closes #15224
[breaking-change]

											
										
										
											2014-06-30 21:04:10 +00:00
 								#[test]
 								fn test_width() {
 								    assert_eq!('\x00'.width(false),Some(0));
 								    assert_eq!('\x00'.width(true),Some(0));
 								    assert_eq!('\x0A'.width(false),None);
 								    assert_eq!('\x0A'.width(true),None);
 								    assert_eq!('w'.width(false),Some(1));
 								    assert_eq!('w'.width(true),Some(1));
 								    assert_eq!('ｈ'.width(false),Some(2));
 								    assert_eq!('ｈ'.width(true),Some(2));
-												libsyntax: Forbid escapes in the inclusive range `\x80`-`\xff` in
Unicode characters and strings.

Use `\u0080`-`\u00ff` instead. ASCII/byte literals are unaffected.

This PR introduces a new function, `escape_default`, into the ASCII
module. This was necessary for the pretty printer to continue to
function.

RFC #326.

Closes #18062.

[breaking-change]

											
										
										
											2014-10-27 16:13:51 +00:00
+								    assert_eq!('\u00AD'.width(false),Some(1));
 								    assert_eq!('\u00AD'.width(true),Some(1));
-												Add libunicode; move unicode functions from core

- created new crate, libunicode, below libstd
- split Char trait into Char (libcore) and UnicodeChar (libunicode)
  - Unicode-aware functions now live in libunicode
    - is_alphabetic, is_XID_start, is_XID_continue, is_lowercase,
      is_uppercase, is_whitespace, is_alphanumeric, is_control,
      is_digit, to_uppercase, to_lowercase
  - added width method in UnicodeChar trait
    - determines printed width of character in columns, or None if it is
      a non-NULL control character
    - takes a boolean argument indicating whether the present context is
      CJK or not (characters with 'A'mbiguous widths are double-wide in
      CJK contexts, single-wide otherwise)
- split StrSlice into StrSlice (libcore) and UnicodeStrSlice
  (libunicode)
  - functionality formerly in StrSlice that relied upon Unicode
    functionality from Char is now in UnicodeStrSlice
    - words, is_whitespace, is_alphanumeric, trim, trim_left, trim_right
  - also moved Words type alias into libunicode because words method is
    in UnicodeStrSlice
- unified Unicode tables from libcollections, libcore, and libregex into
  libunicode
- updated unicode.py in src/etc to generate aforementioned tables
- generated new tables based on latest Unicode data
- added UnicodeChar and UnicodeStrSlice traits to prelude
- libunicode is now the collection point for the std::char module,
  combining the libunicode functionality with the Char functionality
  from libcore
  - thus, moved doc comment for char from core::char to unicode::char
- libcollections remains the collection point for std::str

The Unicode-aware functions that previously lived in the Char and
StrSlice traits are no longer available to programs that only use
libcore. To regain use of these methods, include the libunicode crate
and use the UnicodeChar and/or UnicodeStrSlice traits:

    extern crate unicode;
    use unicode::UnicodeChar;
    use unicode::UnicodeStrSlice;
    use unicode::Words; // if you want to use the words() method

NOTE: this does *not* impact programs that use libstd, since UnicodeChar
and UnicodeStrSlice have been added to the prelude.

closes #15224
[breaking-change]

											
										
										
											2014-06-30 21:04:10 +00:00
 								    assert_eq!('\u1160'.width(false),Some(0));
 								    assert_eq!('\u1160'.width(true),Some(0));
 								    assert_eq!('\u00a1'.width(false),Some(1));
 								    assert_eq!('\u00a1'.width(true),Some(2));
 								    assert_eq!('\u0300'.width(false),Some(0));
 								    assert_eq!('\u0300'.width(true),Some(0));
 								}