For predicates, boundaries are used to describe * the set of characters for which the method will return true. * This syntax uses fairly normal regular expression notation. * See 5.13 of the Unicode Standard, Version 4.0, for the * boundary specification. * *
See http://www.unicode.org
* for more information on the Unicode Standard.
*
* @author Tom Tromey (tromey@cygnus.com)
* @author Paul N. Fisher
* @author Jochen Hoenicke
* @author Eric Blake (ebb9@email.byu.edu)
* @author Andrew John Hughes (gnu_andrew@member.fsf.org)
* @since 1.0
* @status partly updated to 1.5; some things still missing
*/
public final class Character implements Serializable, Comparable
* Returns the
* The names are compared case-insensitively using the case comparison
* associated with the U.S. English locale. The method recognises the
* previous names used for blocks as well as the current ones. At
* present, this simply means that the deprecated `SURROGATES_AREA'
* will be recognised by this method (the This method also returns values for the letters A through Z, (not
* specified by Unicode), in these ranges: If the character lacks a numeric value property, -1 is returned.
* If the character has a numeric value property which is not representable
* as a nonnegative integer, such as a fraction, -2 is returned.
*
* character argument boundary = [Nd]|[Nl]|[No]|U+0041-U+005A|U+0061-U+007A
* |U+FF21-U+FF3A|U+FF41-U+FF5A
*
* @param ch character from which the numeric value property will
* be retrieved
* @return the numeric value property of ch, or -1 if it does not exist, or
* -2 if it is not representable as a nonnegative integer
* @see #forDigit(int, int)
* @see #digit(char, int)
* @see #isDigit(char)
* @since 1.1
*/
public static native int getNumericValue(char ch);
/**
* Returns the Unicode numeric value property of a character. For example,
* This method also returns values for the letters A through Z, (not
* specified by Unicode), in these ranges: If the character lacks a numeric value property, -1 is returned.
* If the character has a numeric value property which is not representable
* as a nonnegative integer, such as a fraction, -2 is returned.
*
* Unlike getNumericValue(char), this method supports supplementary Unicode
* code points.
*
* character argument boundary = [Nd]|[Nl]|[No]|U+0041-U+005A|U+0061-U+007A
* |U+FF21-U+FF3A|U+FF41-U+FF5A
*
* @param codePoint character from which the numeric value property will
* be retrieved
* @return the numeric value property of codePoint, or -1 if it does not
* exist, or -2 if it is not representable as a nonnegative integer
* @see #forDigit(int, int)
* @see #digit(int, int)
* @see #isDigit(int)
* @since 1.5
*/
public static native int getNumericValue(int codePoint);
/**
* Determines if a character is a ISO-LATIN-1 space. This is only the five
* characters final, and
* restricts the comparison on the == operator, so it returns
* true only for the same object.
*
* @param o the object to compare
* @return true if o is this
*/
public final boolean equals(Object o)
{
return o == this;
}
/**
* Makes the original hashCode of Object final, to be consistent with
* equals.
*
* @return the hash code for this object
*/
public final int hashCode()
{
return super.hashCode();
}
/**
* Returns the name of the subset.
*
* @return the name
*/
public final String toString()
{
return name;
}
} // class Subset
/**
* A family of character subsets in the Unicode specification. A character
* is in at most one of these blocks.
*
* This inner class was generated automatically from
* libjava/gnu/gcj/convert/Blocks-3.txt, by some perl scripts.
* This Unicode definition file can be found on the
* http://www.unicode.org website.
* JDK 1.4 uses Unicode version 3.0.0.
*
* @author scripts/unicode-blocks.pl (written by Eric Blake)
* @since 1.2
*/
public static final class UnicodeBlock extends Subset
{
/** The start of the subset. */
private final int start;
/** The end of the subset. */
private final int end;
/** The canonical name of the block according to the Unicode standard. */
private final String canonicalName;
/** Enumeration for the forName() method */
private enum NameType { CANONICAL, NO_SPACES, CONSTANT; }
/**
* Constructor for strictly defined blocks.
*
* @param start the start character of the range
* @param end the end character of the range
* @param name the block name
*/
private UnicodeBlock(int start, int end, String name,
String canonicalName)
{
super(name);
this.start = start;
this.end = end;
this.canonicalName = canonicalName;
}
/**
* Returns the Unicode character block which a character belongs to.
* Note: This method does not support the use of
* supplementary characters. For such support, of(int)
* should be used instead.
*
* @param ch the character to look up
* @return the set it belongs to, or null if it is not in one
*/
public static UnicodeBlock of(char ch)
{
return of((int) ch);
}
/**
* Returns the Unicode character block which a code point belongs to.
*
* @param codePoint the character to look up
* @return the set it belongs to, or null if it is not in one.
* @throws IllegalArgumentException if the specified code point is
* invalid.
* @since 1.5
*/
public static UnicodeBlock of(int codePoint)
{
if (codePoint > MAX_CODE_POINT)
throw new IllegalArgumentException("The supplied integer value is " +
"too large to be a codepoint.");
// Simple binary search for the correct block.
int low = 0;
int hi = sets.length - 1;
while (low <= hi)
{
int mid = (low + hi) >> 1;
UnicodeBlock b = sets[mid];
if (codePoint < b.start)
hi = mid - 1;
else if (codePoint > b.end)
low = mid + 1;
else
return b;
}
return null;
}
/**
* UnicodeBlock with the given name, as defined
* by the Unicode standard. The version of Unicode in use is defined by
* the Character class, and the names are given in the
* Blocks- file corresponding to that version.
* The name may be specified in one of three ways:
*
*
* of() methods
* only return one of the three new surrogate blocks).
* blockName is
* null.
* @throws IllegalArgumentException if the name does not match any Unicode
* block.
* @since 1.5
*/
public static final UnicodeBlock forName(String blockName)
{
NameType type;
if (blockName.indexOf(' ') != -1)
type = NameType.CANONICAL;
else if (blockName.indexOf('_') != -1)
type = NameType.CONSTANT;
else
type = NameType.NO_SPACES;
Collator usCollator = Collator.getInstance(Locale.US);
usCollator.setStrength(Collator.PRIMARY);
/* Special case for deprecated blocks not in sets */
switch (type)
{
case CANONICAL:
if (usCollator.compare(blockName, "Surrogates Area") == 0)
return SURROGATES_AREA;
break;
case NO_SPACES:
if (usCollator.compare(blockName, "SurrogatesArea") == 0)
return SURROGATES_AREA;
break;
case CONSTANT:
if (usCollator.compare(blockName, "SURROGATES_AREA") == 0)
return SURROGATES_AREA;
break;
}
/* Other cases */
switch (type)
{
case CANONICAL:
for (UnicodeBlock block : sets)
if (usCollator.compare(blockName, block.canonicalName) == 0)
return block;
break;
case NO_SPACES:
for (UnicodeBlock block : sets)
{
String nsName = block.canonicalName.replaceAll(" ","");
if (usCollator.compare(blockName, nsName) == 0)
return block;
}
break;
case CONSTANT:
for (UnicodeBlock block : sets)
if (usCollator.compare(blockName, block.toString()) == 0)
return block;
break;
}
throw new IllegalArgumentException("No Unicode block found for " +
blockName + ".");
}
/**
* Basic Latin.
* 0x0000 - 0x007F.
*/
public static final UnicodeBlock BASIC_LATIN
= new UnicodeBlock(0x0000, 0x007F,
"BASIC_LATIN",
"Basic Latin");
/**
* Latin-1 Supplement.
* 0x0080 - 0x00FF.
*/
public static final UnicodeBlock LATIN_1_SUPPLEMENT
= new UnicodeBlock(0x0080, 0x00FF,
"LATIN_1_SUPPLEMENT",
"Latin-1 Supplement");
/**
* Latin Extended-A.
* 0x0100 - 0x017F.
*/
public static final UnicodeBlock LATIN_EXTENDED_A
= new UnicodeBlock(0x0100, 0x017F,
"LATIN_EXTENDED_A",
"Latin Extended-A");
/**
* Latin Extended-B.
* 0x0180 - 0x024F.
*/
public static final UnicodeBlock LATIN_EXTENDED_B
= new UnicodeBlock(0x0180, 0x024F,
"LATIN_EXTENDED_B",
"Latin Extended-B");
/**
* IPA Extensions.
* 0x0250 - 0x02AF.
*/
public static final UnicodeBlock IPA_EXTENSIONS
= new UnicodeBlock(0x0250, 0x02AF,
"IPA_EXTENSIONS",
"IPA Extensions");
/**
* Spacing Modifier Letters.
* 0x02B0 - 0x02FF.
*/
public static final UnicodeBlock SPACING_MODIFIER_LETTERS
= new UnicodeBlock(0x02B0, 0x02FF,
"SPACING_MODIFIER_LETTERS",
"Spacing Modifier Letters");
/**
* Combining Diacritical Marks.
* 0x0300 - 0x036F.
*/
public static final UnicodeBlock COMBINING_DIACRITICAL_MARKS
= new UnicodeBlock(0x0300, 0x036F,
"COMBINING_DIACRITICAL_MARKS",
"Combining Diacritical Marks");
/**
* Greek.
* 0x0370 - 0x03FF.
*/
public static final UnicodeBlock GREEK
= new UnicodeBlock(0x0370, 0x03FF,
"GREEK",
"Greek");
/**
* Cyrillic.
* 0x0400 - 0x04FF.
*/
public static final UnicodeBlock CYRILLIC
= new UnicodeBlock(0x0400, 0x04FF,
"CYRILLIC",
"Cyrillic");
/**
* Cyrillic Supplementary.
* 0x0500 - 0x052F.
* @since 1.5
*/
public static final UnicodeBlock CYRILLIC_SUPPLEMENTARY
= new UnicodeBlock(0x0500, 0x052F,
"CYRILLIC_SUPPLEMENTARY",
"Cyrillic Supplementary");
/**
* Armenian.
* 0x0530 - 0x058F.
*/
public static final UnicodeBlock ARMENIAN
= new UnicodeBlock(0x0530, 0x058F,
"ARMENIAN",
"Armenian");
/**
* Hebrew.
* 0x0590 - 0x05FF.
*/
public static final UnicodeBlock HEBREW
= new UnicodeBlock(0x0590, 0x05FF,
"HEBREW",
"Hebrew");
/**
* Arabic.
* 0x0600 - 0x06FF.
*/
public static final UnicodeBlock ARABIC
= new UnicodeBlock(0x0600, 0x06FF,
"ARABIC",
"Arabic");
/**
* Syriac.
* 0x0700 - 0x074F.
* @since 1.4
*/
public static final UnicodeBlock SYRIAC
= new UnicodeBlock(0x0700, 0x074F,
"SYRIAC",
"Syriac");
/**
* Thaana.
* 0x0780 - 0x07BF.
* @since 1.4
*/
public static final UnicodeBlock THAANA
= new UnicodeBlock(0x0780, 0x07BF,
"THAANA",
"Thaana");
/**
* Devanagari.
* 0x0900 - 0x097F.
*/
public static final UnicodeBlock DEVANAGARI
= new UnicodeBlock(0x0900, 0x097F,
"DEVANAGARI",
"Devanagari");
/**
* Bengali.
* 0x0980 - 0x09FF.
*/
public static final UnicodeBlock BENGALI
= new UnicodeBlock(0x0980, 0x09FF,
"BENGALI",
"Bengali");
/**
* Gurmukhi.
* 0x0A00 - 0x0A7F.
*/
public static final UnicodeBlock GURMUKHI
= new UnicodeBlock(0x0A00, 0x0A7F,
"GURMUKHI",
"Gurmukhi");
/**
* Gujarati.
* 0x0A80 - 0x0AFF.
*/
public static final UnicodeBlock GUJARATI
= new UnicodeBlock(0x0A80, 0x0AFF,
"GUJARATI",
"Gujarati");
/**
* Oriya.
* 0x0B00 - 0x0B7F.
*/
public static final UnicodeBlock ORIYA
= new UnicodeBlock(0x0B00, 0x0B7F,
"ORIYA",
"Oriya");
/**
* Tamil.
* 0x0B80 - 0x0BFF.
*/
public static final UnicodeBlock TAMIL
= new UnicodeBlock(0x0B80, 0x0BFF,
"TAMIL",
"Tamil");
/**
* Telugu.
* 0x0C00 - 0x0C7F.
*/
public static final UnicodeBlock TELUGU
= new UnicodeBlock(0x0C00, 0x0C7F,
"TELUGU",
"Telugu");
/**
* Kannada.
* 0x0C80 - 0x0CFF.
*/
public static final UnicodeBlock KANNADA
= new UnicodeBlock(0x0C80, 0x0CFF,
"KANNADA",
"Kannada");
/**
* Malayalam.
* 0x0D00 - 0x0D7F.
*/
public static final UnicodeBlock MALAYALAM
= new UnicodeBlock(0x0D00, 0x0D7F,
"MALAYALAM",
"Malayalam");
/**
* Sinhala.
* 0x0D80 - 0x0DFF.
* @since 1.4
*/
public static final UnicodeBlock SINHALA
= new UnicodeBlock(0x0D80, 0x0DFF,
"SINHALA",
"Sinhala");
/**
* Thai.
* 0x0E00 - 0x0E7F.
*/
public static final UnicodeBlock THAI
= new UnicodeBlock(0x0E00, 0x0E7F,
"THAI",
"Thai");
/**
* Lao.
* 0x0E80 - 0x0EFF.
*/
public static final UnicodeBlock LAO
= new UnicodeBlock(0x0E80, 0x0EFF,
"LAO",
"Lao");
/**
* Tibetan.
* 0x0F00 - 0x0FFF.
*/
public static final UnicodeBlock TIBETAN
= new UnicodeBlock(0x0F00, 0x0FFF,
"TIBETAN",
"Tibetan");
/**
* Myanmar.
* 0x1000 - 0x109F.
* @since 1.4
*/
public static final UnicodeBlock MYANMAR
= new UnicodeBlock(0x1000, 0x109F,
"MYANMAR",
"Myanmar");
/**
* Georgian.
* 0x10A0 - 0x10FF.
*/
public static final UnicodeBlock GEORGIAN
= new UnicodeBlock(0x10A0, 0x10FF,
"GEORGIAN",
"Georgian");
/**
* Hangul Jamo.
* 0x1100 - 0x11FF.
*/
public static final UnicodeBlock HANGUL_JAMO
= new UnicodeBlock(0x1100, 0x11FF,
"HANGUL_JAMO",
"Hangul Jamo");
/**
* Ethiopic.
* 0x1200 - 0x137F.
* @since 1.4
*/
public static final UnicodeBlock ETHIOPIC
= new UnicodeBlock(0x1200, 0x137F,
"ETHIOPIC",
"Ethiopic");
/**
* Cherokee.
* 0x13A0 - 0x13FF.
* @since 1.4
*/
public static final UnicodeBlock CHEROKEE
= new UnicodeBlock(0x13A0, 0x13FF,
"CHEROKEE",
"Cherokee");
/**
* Unified Canadian Aboriginal Syllabics.
* 0x1400 - 0x167F.
* @since 1.4
*/
public static final UnicodeBlock UNIFIED_CANADIAN_ABORIGINAL_SYLLABICS
= new UnicodeBlock(0x1400, 0x167F,
"UNIFIED_CANADIAN_ABORIGINAL_SYLLABICS",
"Unified Canadian Aboriginal Syllabics");
/**
* Ogham.
* 0x1680 - 0x169F.
* @since 1.4
*/
public static final UnicodeBlock OGHAM
= new UnicodeBlock(0x1680, 0x169F,
"OGHAM",
"Ogham");
/**
* Runic.
* 0x16A0 - 0x16FF.
* @since 1.4
*/
public static final UnicodeBlock RUNIC
= new UnicodeBlock(0x16A0, 0x16FF,
"RUNIC",
"Runic");
/**
* Tagalog.
* 0x1700 - 0x171F.
* @since 1.5
*/
public static final UnicodeBlock TAGALOG
= new UnicodeBlock(0x1700, 0x171F,
"TAGALOG",
"Tagalog");
/**
* Hanunoo.
* 0x1720 - 0x173F.
* @since 1.5
*/
public static final UnicodeBlock HANUNOO
= new UnicodeBlock(0x1720, 0x173F,
"HANUNOO",
"Hanunoo");
/**
* Buhid.
* 0x1740 - 0x175F.
* @since 1.5
*/
public static final UnicodeBlock BUHID
= new UnicodeBlock(0x1740, 0x175F,
"BUHID",
"Buhid");
/**
* Tagbanwa.
* 0x1760 - 0x177F.
* @since 1.5
*/
public static final UnicodeBlock TAGBANWA
= new UnicodeBlock(0x1760, 0x177F,
"TAGBANWA",
"Tagbanwa");
/**
* Khmer.
* 0x1780 - 0x17FF.
* @since 1.4
*/
public static final UnicodeBlock KHMER
= new UnicodeBlock(0x1780, 0x17FF,
"KHMER",
"Khmer");
/**
* Mongolian.
* 0x1800 - 0x18AF.
* @since 1.4
*/
public static final UnicodeBlock MONGOLIAN
= new UnicodeBlock(0x1800, 0x18AF,
"MONGOLIAN",
"Mongolian");
/**
* Limbu.
* 0x1900 - 0x194F.
* @since 1.5
*/
public static final UnicodeBlock LIMBU
= new UnicodeBlock(0x1900, 0x194F,
"LIMBU",
"Limbu");
/**
* Tai Le.
* 0x1950 - 0x197F.
* @since 1.5
*/
public static final UnicodeBlock TAI_LE
= new UnicodeBlock(0x1950, 0x197F,
"TAI_LE",
"Tai Le");
/**
* Khmer Symbols.
* 0x19E0 - 0x19FF.
* @since 1.5
*/
public static final UnicodeBlock KHMER_SYMBOLS
= new UnicodeBlock(0x19E0, 0x19FF,
"KHMER_SYMBOLS",
"Khmer Symbols");
/**
* Phonetic Extensions.
* 0x1D00 - 0x1D7F.
* @since 1.5
*/
public static final UnicodeBlock PHONETIC_EXTENSIONS
= new UnicodeBlock(0x1D00, 0x1D7F,
"PHONETIC_EXTENSIONS",
"Phonetic Extensions");
/**
* Latin Extended Additional.
* 0x1E00 - 0x1EFF.
*/
public static final UnicodeBlock LATIN_EXTENDED_ADDITIONAL
= new UnicodeBlock(0x1E00, 0x1EFF,
"LATIN_EXTENDED_ADDITIONAL",
"Latin Extended Additional");
/**
* Greek Extended.
* 0x1F00 - 0x1FFF.
*/
public static final UnicodeBlock GREEK_EXTENDED
= new UnicodeBlock(0x1F00, 0x1FFF,
"GREEK_EXTENDED",
"Greek Extended");
/**
* General Punctuation.
* 0x2000 - 0x206F.
*/
public static final UnicodeBlock GENERAL_PUNCTUATION
= new UnicodeBlock(0x2000, 0x206F,
"GENERAL_PUNCTUATION",
"General Punctuation");
/**
* Superscripts and Subscripts.
* 0x2070 - 0x209F.
*/
public static final UnicodeBlock SUPERSCRIPTS_AND_SUBSCRIPTS
= new UnicodeBlock(0x2070, 0x209F,
"SUPERSCRIPTS_AND_SUBSCRIPTS",
"Superscripts and Subscripts");
/**
* Currency Symbols.
* 0x20A0 - 0x20CF.
*/
public static final UnicodeBlock CURRENCY_SYMBOLS
= new UnicodeBlock(0x20A0, 0x20CF,
"CURRENCY_SYMBOLS",
"Currency Symbols");
/**
* Combining Marks for Symbols.
* 0x20D0 - 0x20FF.
*/
public static final UnicodeBlock COMBINING_MARKS_FOR_SYMBOLS
= new UnicodeBlock(0x20D0, 0x20FF,
"COMBINING_MARKS_FOR_SYMBOLS",
"Combining Marks for Symbols");
/**
* Letterlike Symbols.
* 0x2100 - 0x214F.
*/
public static final UnicodeBlock LETTERLIKE_SYMBOLS
= new UnicodeBlock(0x2100, 0x214F,
"LETTERLIKE_SYMBOLS",
"Letterlike Symbols");
/**
* Number Forms.
* 0x2150 - 0x218F.
*/
public static final UnicodeBlock NUMBER_FORMS
= new UnicodeBlock(0x2150, 0x218F,
"NUMBER_FORMS",
"Number Forms");
/**
* Arrows.
* 0x2190 - 0x21FF.
*/
public static final UnicodeBlock ARROWS
= new UnicodeBlock(0x2190, 0x21FF,
"ARROWS",
"Arrows");
/**
* Mathematical Operators.
* 0x2200 - 0x22FF.
*/
public static final UnicodeBlock MATHEMATICAL_OPERATORS
= new UnicodeBlock(0x2200, 0x22FF,
"MATHEMATICAL_OPERATORS",
"Mathematical Operators");
/**
* Miscellaneous Technical.
* 0x2300 - 0x23FF.
*/
public static final UnicodeBlock MISCELLANEOUS_TECHNICAL
= new UnicodeBlock(0x2300, 0x23FF,
"MISCELLANEOUS_TECHNICAL",
"Miscellaneous Technical");
/**
* Control Pictures.
* 0x2400 - 0x243F.
*/
public static final UnicodeBlock CONTROL_PICTURES
= new UnicodeBlock(0x2400, 0x243F,
"CONTROL_PICTURES",
"Control Pictures");
/**
* Optical Character Recognition.
* 0x2440 - 0x245F.
*/
public static final UnicodeBlock OPTICAL_CHARACTER_RECOGNITION
= new UnicodeBlock(0x2440, 0x245F,
"OPTICAL_CHARACTER_RECOGNITION",
"Optical Character Recognition");
/**
* Enclosed Alphanumerics.
* 0x2460 - 0x24FF.
*/
public static final UnicodeBlock ENCLOSED_ALPHANUMERICS
= new UnicodeBlock(0x2460, 0x24FF,
"ENCLOSED_ALPHANUMERICS",
"Enclosed Alphanumerics");
/**
* Box Drawing.
* 0x2500 - 0x257F.
*/
public static final UnicodeBlock BOX_DRAWING
= new UnicodeBlock(0x2500, 0x257F,
"BOX_DRAWING",
"Box Drawing");
/**
* Block Elements.
* 0x2580 - 0x259F.
*/
public static final UnicodeBlock BLOCK_ELEMENTS
= new UnicodeBlock(0x2580, 0x259F,
"BLOCK_ELEMENTS",
"Block Elements");
/**
* Geometric Shapes.
* 0x25A0 - 0x25FF.
*/
public static final UnicodeBlock GEOMETRIC_SHAPES
= new UnicodeBlock(0x25A0, 0x25FF,
"GEOMETRIC_SHAPES",
"Geometric Shapes");
/**
* Miscellaneous Symbols.
* 0x2600 - 0x26FF.
*/
public static final UnicodeBlock MISCELLANEOUS_SYMBOLS
= new UnicodeBlock(0x2600, 0x26FF,
"MISCELLANEOUS_SYMBOLS",
"Miscellaneous Symbols");
/**
* Dingbats.
* 0x2700 - 0x27BF.
*/
public static final UnicodeBlock DINGBATS
= new UnicodeBlock(0x2700, 0x27BF,
"DINGBATS",
"Dingbats");
/**
* Miscellaneous Mathematical Symbols-A.
* 0x27C0 - 0x27EF.
* @since 1.5
*/
public static final UnicodeBlock MISCELLANEOUS_MATHEMATICAL_SYMBOLS_A
= new UnicodeBlock(0x27C0, 0x27EF,
"MISCELLANEOUS_MATHEMATICAL_SYMBOLS_A",
"Miscellaneous Mathematical Symbols-A");
/**
* Supplemental Arrows-A.
* 0x27F0 - 0x27FF.
* @since 1.5
*/
public static final UnicodeBlock SUPPLEMENTAL_ARROWS_A
= new UnicodeBlock(0x27F0, 0x27FF,
"SUPPLEMENTAL_ARROWS_A",
"Supplemental Arrows-A");
/**
* Braille Patterns.
* 0x2800 - 0x28FF.
* @since 1.4
*/
public static final UnicodeBlock BRAILLE_PATTERNS
= new UnicodeBlock(0x2800, 0x28FF,
"BRAILLE_PATTERNS",
"Braille Patterns");
/**
* Supplemental Arrows-B.
* 0x2900 - 0x297F.
* @since 1.5
*/
public static final UnicodeBlock SUPPLEMENTAL_ARROWS_B
= new UnicodeBlock(0x2900, 0x297F,
"SUPPLEMENTAL_ARROWS_B",
"Supplemental Arrows-B");
/**
* Miscellaneous Mathematical Symbols-B.
* 0x2980 - 0x29FF.
* @since 1.5
*/
public static final UnicodeBlock MISCELLANEOUS_MATHEMATICAL_SYMBOLS_B
= new UnicodeBlock(0x2980, 0x29FF,
"MISCELLANEOUS_MATHEMATICAL_SYMBOLS_B",
"Miscellaneous Mathematical Symbols-B");
/**
* Supplemental Mathematical Operators.
* 0x2A00 - 0x2AFF.
* @since 1.5
*/
public static final UnicodeBlock SUPPLEMENTAL_MATHEMATICAL_OPERATORS
= new UnicodeBlock(0x2A00, 0x2AFF,
"SUPPLEMENTAL_MATHEMATICAL_OPERATORS",
"Supplemental Mathematical Operators");
/**
* Miscellaneous Symbols and Arrows.
* 0x2B00 - 0x2BFF.
* @since 1.5
*/
public static final UnicodeBlock MISCELLANEOUS_SYMBOLS_AND_ARROWS
= new UnicodeBlock(0x2B00, 0x2BFF,
"MISCELLANEOUS_SYMBOLS_AND_ARROWS",
"Miscellaneous Symbols and Arrows");
/**
* CJK Radicals Supplement.
* 0x2E80 - 0x2EFF.
* @since 1.4
*/
public static final UnicodeBlock CJK_RADICALS_SUPPLEMENT
= new UnicodeBlock(0x2E80, 0x2EFF,
"CJK_RADICALS_SUPPLEMENT",
"CJK Radicals Supplement");
/**
* Kangxi Radicals.
* 0x2F00 - 0x2FDF.
* @since 1.4
*/
public static final UnicodeBlock KANGXI_RADICALS
= new UnicodeBlock(0x2F00, 0x2FDF,
"KANGXI_RADICALS",
"Kangxi Radicals");
/**
* Ideographic Description Characters.
* 0x2FF0 - 0x2FFF.
* @since 1.4
*/
public static final UnicodeBlock IDEOGRAPHIC_DESCRIPTION_CHARACTERS
= new UnicodeBlock(0x2FF0, 0x2FFF,
"IDEOGRAPHIC_DESCRIPTION_CHARACTERS",
"Ideographic Description Characters");
/**
* CJK Symbols and Punctuation.
* 0x3000 - 0x303F.
*/
public static final UnicodeBlock CJK_SYMBOLS_AND_PUNCTUATION
= new UnicodeBlock(0x3000, 0x303F,
"CJK_SYMBOLS_AND_PUNCTUATION",
"CJK Symbols and Punctuation");
/**
* Hiragana.
* 0x3040 - 0x309F.
*/
public static final UnicodeBlock HIRAGANA
= new UnicodeBlock(0x3040, 0x309F,
"HIRAGANA",
"Hiragana");
/**
* Katakana.
* 0x30A0 - 0x30FF.
*/
public static final UnicodeBlock KATAKANA
= new UnicodeBlock(0x30A0, 0x30FF,
"KATAKANA",
"Katakana");
/**
* Bopomofo.
* 0x3100 - 0x312F.
*/
public static final UnicodeBlock BOPOMOFO
= new UnicodeBlock(0x3100, 0x312F,
"BOPOMOFO",
"Bopomofo");
/**
* Hangul Compatibility Jamo.
* 0x3130 - 0x318F.
*/
public static final UnicodeBlock HANGUL_COMPATIBILITY_JAMO
= new UnicodeBlock(0x3130, 0x318F,
"HANGUL_COMPATIBILITY_JAMO",
"Hangul Compatibility Jamo");
/**
* Kanbun.
* 0x3190 - 0x319F.
*/
public static final UnicodeBlock KANBUN
= new UnicodeBlock(0x3190, 0x319F,
"KANBUN",
"Kanbun");
/**
* Bopomofo Extended.
* 0x31A0 - 0x31BF.
* @since 1.4
*/
public static final UnicodeBlock BOPOMOFO_EXTENDED
= new UnicodeBlock(0x31A0, 0x31BF,
"BOPOMOFO_EXTENDED",
"Bopomofo Extended");
/**
* Katakana Phonetic Extensions.
* 0x31F0 - 0x31FF.
* @since 1.5
*/
public static final UnicodeBlock KATAKANA_PHONETIC_EXTENSIONS
= new UnicodeBlock(0x31F0, 0x31FF,
"KATAKANA_PHONETIC_EXTENSIONS",
"Katakana Phonetic Extensions");
/**
* Enclosed CJK Letters and Months.
* 0x3200 - 0x32FF.
*/
public static final UnicodeBlock ENCLOSED_CJK_LETTERS_AND_MONTHS
= new UnicodeBlock(0x3200, 0x32FF,
"ENCLOSED_CJK_LETTERS_AND_MONTHS",
"Enclosed CJK Letters and Months");
/**
* CJK Compatibility.
* 0x3300 - 0x33FF.
*/
public static final UnicodeBlock CJK_COMPATIBILITY
= new UnicodeBlock(0x3300, 0x33FF,
"CJK_COMPATIBILITY",
"CJK Compatibility");
/**
* CJK Unified Ideographs Extension A.
* 0x3400 - 0x4DBF.
* @since 1.4
*/
public static final UnicodeBlock CJK_UNIFIED_IDEOGRAPHS_EXTENSION_A
= new UnicodeBlock(0x3400, 0x4DBF,
"CJK_UNIFIED_IDEOGRAPHS_EXTENSION_A",
"CJK Unified Ideographs Extension A");
/**
* Yijing Hexagram Symbols.
* 0x4DC0 - 0x4DFF.
* @since 1.5
*/
public static final UnicodeBlock YIJING_HEXAGRAM_SYMBOLS
= new UnicodeBlock(0x4DC0, 0x4DFF,
"YIJING_HEXAGRAM_SYMBOLS",
"Yijing Hexagram Symbols");
/**
* CJK Unified Ideographs.
* 0x4E00 - 0x9FFF.
*/
public static final UnicodeBlock CJK_UNIFIED_IDEOGRAPHS
= new UnicodeBlock(0x4E00, 0x9FFF,
"CJK_UNIFIED_IDEOGRAPHS",
"CJK Unified Ideographs");
/**
* Yi Syllables.
* 0xA000 - 0xA48F.
* @since 1.4
*/
public static final UnicodeBlock YI_SYLLABLES
= new UnicodeBlock(0xA000, 0xA48F,
"YI_SYLLABLES",
"Yi Syllables");
/**
* Yi Radicals.
* 0xA490 - 0xA4CF.
* @since 1.4
*/
public static final UnicodeBlock YI_RADICALS
= new UnicodeBlock(0xA490, 0xA4CF,
"YI_RADICALS",
"Yi Radicals");
/**
* Hangul Syllables.
* 0xAC00 - 0xD7AF.
*/
public static final UnicodeBlock HANGUL_SYLLABLES
= new UnicodeBlock(0xAC00, 0xD7AF,
"HANGUL_SYLLABLES",
"Hangul Syllables");
/**
* High Surrogates.
* 0xD800 - 0xDB7F.
* @since 1.5
*/
public static final UnicodeBlock HIGH_SURROGATES
= new UnicodeBlock(0xD800, 0xDB7F,
"HIGH_SURROGATES",
"High Surrogates");
/**
* High Private Use Surrogates.
* 0xDB80 - 0xDBFF.
* @since 1.5
*/
public static final UnicodeBlock HIGH_PRIVATE_USE_SURROGATES
= new UnicodeBlock(0xDB80, 0xDBFF,
"HIGH_PRIVATE_USE_SURROGATES",
"High Private Use Surrogates");
/**
* Low Surrogates.
* 0xDC00 - 0xDFFF.
* @since 1.5
*/
public static final UnicodeBlock LOW_SURROGATES
= new UnicodeBlock(0xDC00, 0xDFFF,
"LOW_SURROGATES",
"Low Surrogates");
/**
* Private Use Area.
* 0xE000 - 0xF8FF.
*/
public static final UnicodeBlock PRIVATE_USE_AREA
= new UnicodeBlock(0xE000, 0xF8FF,
"PRIVATE_USE_AREA",
"Private Use Area");
/**
* CJK Compatibility Ideographs.
* 0xF900 - 0xFAFF.
*/
public static final UnicodeBlock CJK_COMPATIBILITY_IDEOGRAPHS
= new UnicodeBlock(0xF900, 0xFAFF,
"CJK_COMPATIBILITY_IDEOGRAPHS",
"CJK Compatibility Ideographs");
/**
* Alphabetic Presentation Forms.
* 0xFB00 - 0xFB4F.
*/
public static final UnicodeBlock ALPHABETIC_PRESENTATION_FORMS
= new UnicodeBlock(0xFB00, 0xFB4F,
"ALPHABETIC_PRESENTATION_FORMS",
"Alphabetic Presentation Forms");
/**
* Arabic Presentation Forms-A.
* 0xFB50 - 0xFDFF.
*/
public static final UnicodeBlock ARABIC_PRESENTATION_FORMS_A
= new UnicodeBlock(0xFB50, 0xFDFF,
"ARABIC_PRESENTATION_FORMS_A",
"Arabic Presentation Forms-A");
/**
* Variation Selectors.
* 0xFE00 - 0xFE0F.
* @since 1.5
*/
public static final UnicodeBlock VARIATION_SELECTORS
= new UnicodeBlock(0xFE00, 0xFE0F,
"VARIATION_SELECTORS",
"Variation Selectors");
/**
* Combining Half Marks.
* 0xFE20 - 0xFE2F.
*/
public static final UnicodeBlock COMBINING_HALF_MARKS
= new UnicodeBlock(0xFE20, 0xFE2F,
"COMBINING_HALF_MARKS",
"Combining Half Marks");
/**
* CJK Compatibility Forms.
* 0xFE30 - 0xFE4F.
*/
public static final UnicodeBlock CJK_COMPATIBILITY_FORMS
= new UnicodeBlock(0xFE30, 0xFE4F,
"CJK_COMPATIBILITY_FORMS",
"CJK Compatibility Forms");
/**
* Small Form Variants.
* 0xFE50 - 0xFE6F.
*/
public static final UnicodeBlock SMALL_FORM_VARIANTS
= new UnicodeBlock(0xFE50, 0xFE6F,
"SMALL_FORM_VARIANTS",
"Small Form Variants");
/**
* Arabic Presentation Forms-B.
* 0xFE70 - 0xFEFF.
*/
public static final UnicodeBlock ARABIC_PRESENTATION_FORMS_B
= new UnicodeBlock(0xFE70, 0xFEFF,
"ARABIC_PRESENTATION_FORMS_B",
"Arabic Presentation Forms-B");
/**
* Halfwidth and Fullwidth Forms.
* 0xFF00 - 0xFFEF.
*/
public static final UnicodeBlock HALFWIDTH_AND_FULLWIDTH_FORMS
= new UnicodeBlock(0xFF00, 0xFFEF,
"HALFWIDTH_AND_FULLWIDTH_FORMS",
"Halfwidth and Fullwidth Forms");
/**
* Specials.
* 0xFFF0 - 0xFFFF.
*/
public static final UnicodeBlock SPECIALS
= new UnicodeBlock(0xFFF0, 0xFFFF,
"SPECIALS",
"Specials");
/**
* Linear B Syllabary.
* 0x10000 - 0x1007F.
* @since 1.5
*/
public static final UnicodeBlock LINEAR_B_SYLLABARY
= new UnicodeBlock(0x10000, 0x1007F,
"LINEAR_B_SYLLABARY",
"Linear B Syllabary");
/**
* Linear B Ideograms.
* 0x10080 - 0x100FF.
* @since 1.5
*/
public static final UnicodeBlock LINEAR_B_IDEOGRAMS
= new UnicodeBlock(0x10080, 0x100FF,
"LINEAR_B_IDEOGRAMS",
"Linear B Ideograms");
/**
* Aegean Numbers.
* 0x10100 - 0x1013F.
* @since 1.5
*/
public static final UnicodeBlock AEGEAN_NUMBERS
= new UnicodeBlock(0x10100, 0x1013F,
"AEGEAN_NUMBERS",
"Aegean Numbers");
/**
* Old Italic.
* 0x10300 - 0x1032F.
* @since 1.5
*/
public static final UnicodeBlock OLD_ITALIC
= new UnicodeBlock(0x10300, 0x1032F,
"OLD_ITALIC",
"Old Italic");
/**
* Gothic.
* 0x10330 - 0x1034F.
* @since 1.5
*/
public static final UnicodeBlock GOTHIC
= new UnicodeBlock(0x10330, 0x1034F,
"GOTHIC",
"Gothic");
/**
* Ugaritic.
* 0x10380 - 0x1039F.
* @since 1.5
*/
public static final UnicodeBlock UGARITIC
= new UnicodeBlock(0x10380, 0x1039F,
"UGARITIC",
"Ugaritic");
/**
* Deseret.
* 0x10400 - 0x1044F.
* @since 1.5
*/
public static final UnicodeBlock DESERET
= new UnicodeBlock(0x10400, 0x1044F,
"DESERET",
"Deseret");
/**
* Shavian.
* 0x10450 - 0x1047F.
* @since 1.5
*/
public static final UnicodeBlock SHAVIAN
= new UnicodeBlock(0x10450, 0x1047F,
"SHAVIAN",
"Shavian");
/**
* Osmanya.
* 0x10480 - 0x104AF.
* @since 1.5
*/
public static final UnicodeBlock OSMANYA
= new UnicodeBlock(0x10480, 0x104AF,
"OSMANYA",
"Osmanya");
/**
* Cypriot Syllabary.
* 0x10800 - 0x1083F.
* @since 1.5
*/
public static final UnicodeBlock CYPRIOT_SYLLABARY
= new UnicodeBlock(0x10800, 0x1083F,
"CYPRIOT_SYLLABARY",
"Cypriot Syllabary");
/**
* Byzantine Musical Symbols.
* 0x1D000 - 0x1D0FF.
* @since 1.5
*/
public static final UnicodeBlock BYZANTINE_MUSICAL_SYMBOLS
= new UnicodeBlock(0x1D000, 0x1D0FF,
"BYZANTINE_MUSICAL_SYMBOLS",
"Byzantine Musical Symbols");
/**
* Musical Symbols.
* 0x1D100 - 0x1D1FF.
* @since 1.5
*/
public static final UnicodeBlock MUSICAL_SYMBOLS
= new UnicodeBlock(0x1D100, 0x1D1FF,
"MUSICAL_SYMBOLS",
"Musical Symbols");
/**
* Tai Xuan Jing Symbols.
* 0x1D300 - 0x1D35F.
* @since 1.5
*/
public static final UnicodeBlock TAI_XUAN_JING_SYMBOLS
= new UnicodeBlock(0x1D300, 0x1D35F,
"TAI_XUAN_JING_SYMBOLS",
"Tai Xuan Jing Symbols");
/**
* Mathematical Alphanumeric Symbols.
* 0x1D400 - 0x1D7FF.
* @since 1.5
*/
public static final UnicodeBlock MATHEMATICAL_ALPHANUMERIC_SYMBOLS
= new UnicodeBlock(0x1D400, 0x1D7FF,
"MATHEMATICAL_ALPHANUMERIC_SYMBOLS",
"Mathematical Alphanumeric Symbols");
/**
* CJK Unified Ideographs Extension B.
* 0x20000 - 0x2A6DF.
* @since 1.5
*/
public static final UnicodeBlock CJK_UNIFIED_IDEOGRAPHS_EXTENSION_B
= new UnicodeBlock(0x20000, 0x2A6DF,
"CJK_UNIFIED_IDEOGRAPHS_EXTENSION_B",
"CJK Unified Ideographs Extension B");
/**
* CJK Compatibility Ideographs Supplement.
* 0x2F800 - 0x2FA1F.
* @since 1.5
*/
public static final UnicodeBlock CJK_COMPATIBILITY_IDEOGRAPHS_SUPPLEMENT
= new UnicodeBlock(0x2F800, 0x2FA1F,
"CJK_COMPATIBILITY_IDEOGRAPHS_SUPPLEMENT",
"CJK Compatibility Ideographs Supplement");
/**
* Tags.
* 0xE0000 - 0xE007F.
* @since 1.5
*/
public static final UnicodeBlock TAGS
= new UnicodeBlock(0xE0000, 0xE007F,
"TAGS",
"Tags");
/**
* Variation Selectors Supplement.
* 0xE0100 - 0xE01EF.
* @since 1.5
*/
public static final UnicodeBlock VARIATION_SELECTORS_SUPPLEMENT
= new UnicodeBlock(0xE0100, 0xE01EF,
"VARIATION_SELECTORS_SUPPLEMENT",
"Variation Selectors Supplement");
/**
* Supplementary Private Use Area-A.
* 0xF0000 - 0xFFFFF.
* @since 1.5
*/
public static final UnicodeBlock SUPPLEMENTARY_PRIVATE_USE_AREA_A
= new UnicodeBlock(0xF0000, 0xFFFFF,
"SUPPLEMENTARY_PRIVATE_USE_AREA_A",
"Supplementary Private Use Area-A");
/**
* Supplementary Private Use Area-B.
* 0x100000 - 0x10FFFF.
* @since 1.5
*/
public static final UnicodeBlock SUPPLEMENTARY_PRIVATE_USE_AREA_B
= new UnicodeBlock(0x100000, 0x10FFFF,
"SUPPLEMENTARY_PRIVATE_USE_AREA_B",
"Supplementary Private Use Area-B");
/**
* Surrogates Area.
* 'D800' - 'DFFF'.
* @deprecated As of 1.5, the three areas,
* HIGH_SURROGATES,
* HIGH_PRIVATE_USE_SURROGATES
* and LOW_SURROGATES, as defined
* by the Unicode standard, should be used in preference to
* this. These are also returned from calls to of(int)
* and of(char).
*/
@Deprecated
public static final UnicodeBlock SURROGATES_AREA
= new UnicodeBlock(0xD800, 0xDFFF,
"SURROGATES_AREA",
"Surrogates Area");
/**
* The defined subsets.
*/
private static final UnicodeBlock sets[] = {
BASIC_LATIN,
LATIN_1_SUPPLEMENT,
LATIN_EXTENDED_A,
LATIN_EXTENDED_B,
IPA_EXTENSIONS,
SPACING_MODIFIER_LETTERS,
COMBINING_DIACRITICAL_MARKS,
GREEK,
CYRILLIC,
CYRILLIC_SUPPLEMENTARY,
ARMENIAN,
HEBREW,
ARABIC,
SYRIAC,
THAANA,
DEVANAGARI,
BENGALI,
GURMUKHI,
GUJARATI,
ORIYA,
TAMIL,
TELUGU,
KANNADA,
MALAYALAM,
SINHALA,
THAI,
LAO,
TIBETAN,
MYANMAR,
GEORGIAN,
HANGUL_JAMO,
ETHIOPIC,
CHEROKEE,
UNIFIED_CANADIAN_ABORIGINAL_SYLLABICS,
OGHAM,
RUNIC,
TAGALOG,
HANUNOO,
BUHID,
TAGBANWA,
KHMER,
MONGOLIAN,
LIMBU,
TAI_LE,
KHMER_SYMBOLS,
PHONETIC_EXTENSIONS,
LATIN_EXTENDED_ADDITIONAL,
GREEK_EXTENDED,
GENERAL_PUNCTUATION,
SUPERSCRIPTS_AND_SUBSCRIPTS,
CURRENCY_SYMBOLS,
COMBINING_MARKS_FOR_SYMBOLS,
LETTERLIKE_SYMBOLS,
NUMBER_FORMS,
ARROWS,
MATHEMATICAL_OPERATORS,
MISCELLANEOUS_TECHNICAL,
CONTROL_PICTURES,
OPTICAL_CHARACTER_RECOGNITION,
ENCLOSED_ALPHANUMERICS,
BOX_DRAWING,
BLOCK_ELEMENTS,
GEOMETRIC_SHAPES,
MISCELLANEOUS_SYMBOLS,
DINGBATS,
MISCELLANEOUS_MATHEMATICAL_SYMBOLS_A,
SUPPLEMENTAL_ARROWS_A,
BRAILLE_PATTERNS,
SUPPLEMENTAL_ARROWS_B,
MISCELLANEOUS_MATHEMATICAL_SYMBOLS_B,
SUPPLEMENTAL_MATHEMATICAL_OPERATORS,
MISCELLANEOUS_SYMBOLS_AND_ARROWS,
CJK_RADICALS_SUPPLEMENT,
KANGXI_RADICALS,
IDEOGRAPHIC_DESCRIPTION_CHARACTERS,
CJK_SYMBOLS_AND_PUNCTUATION,
HIRAGANA,
KATAKANA,
BOPOMOFO,
HANGUL_COMPATIBILITY_JAMO,
KANBUN,
BOPOMOFO_EXTENDED,
KATAKANA_PHONETIC_EXTENSIONS,
ENCLOSED_CJK_LETTERS_AND_MONTHS,
CJK_COMPATIBILITY,
CJK_UNIFIED_IDEOGRAPHS_EXTENSION_A,
YIJING_HEXAGRAM_SYMBOLS,
CJK_UNIFIED_IDEOGRAPHS,
YI_SYLLABLES,
YI_RADICALS,
HANGUL_SYLLABLES,
HIGH_SURROGATES,
HIGH_PRIVATE_USE_SURROGATES,
LOW_SURROGATES,
PRIVATE_USE_AREA,
CJK_COMPATIBILITY_IDEOGRAPHS,
ALPHABETIC_PRESENTATION_FORMS,
ARABIC_PRESENTATION_FORMS_A,
VARIATION_SELECTORS,
COMBINING_HALF_MARKS,
CJK_COMPATIBILITY_FORMS,
SMALL_FORM_VARIANTS,
ARABIC_PRESENTATION_FORMS_B,
HALFWIDTH_AND_FULLWIDTH_FORMS,
SPECIALS,
LINEAR_B_SYLLABARY,
LINEAR_B_IDEOGRAMS,
AEGEAN_NUMBERS,
OLD_ITALIC,
GOTHIC,
UGARITIC,
DESERET,
SHAVIAN,
OSMANYA,
CYPRIOT_SYLLABARY,
BYZANTINE_MUSICAL_SYMBOLS,
MUSICAL_SYMBOLS,
TAI_XUAN_JING_SYMBOLS,
MATHEMATICAL_ALPHANUMERIC_SYMBOLS,
CJK_UNIFIED_IDEOGRAPHS_EXTENSION_B,
CJK_COMPATIBILITY_IDEOGRAPHS_SUPPLEMENT,
TAGS,
VARIATION_SELECTORS_SUPPLEMENT,
SUPPLEMENTARY_PRIVATE_USE_AREA_A,
SUPPLEMENTARY_PRIVATE_USE_AREA_B,
};
} // class UnicodeBlock
/**
* The immutable value of this Character.
*
* @serial the value of this Character
*/
private final char value;
/**
* Compatible with JDK 1.0+.
*/
private static final long serialVersionUID = 3786198910865385080L;
/**
* Smallest value allowed for radix arguments in Java. This value is 2.
*
* @see #digit(char, int)
* @see #forDigit(int, int)
* @see Integer#toString(int, int)
* @see Integer#valueOf(String)
*/
public static final int MIN_RADIX = 2;
/**
* Largest value allowed for radix arguments in Java. This value is 36.
*
* @see #digit(char, int)
* @see #forDigit(int, int)
* @see Integer#toString(int, int)
* @see Integer#valueOf(String)
*/
public static final int MAX_RADIX = 36;
/**
* The minimum value the char data type can hold.
* This value is '\\u0000'.
*/
public static final char MIN_VALUE = '\u0000';
/**
* The maximum value the char data type can hold.
* This value is '\\uFFFF'.
*/
public static final char MAX_VALUE = '\uFFFF';
/**
* The minimum Unicode 4.0 code point. This value is 0.
* @since 1.5
*/
public static final int MIN_CODE_POINT = 0;
/**
* The maximum Unicode 4.0 code point, which is greater than the range
* of the char data type.
* This value is 0x10FFFF.
* @since 1.5
*/
public static final int MAX_CODE_POINT = 0x10FFFF;
/**
* The minimum Unicode high surrogate code unit, or
* '\uD800'.
* @since 1.5
*/
public static final char MIN_HIGH_SURROGATE = '\uD800';
/**
* The maximum Unicode high surrogate code unit, or
* '\uDBFF'.
* @since 1.5
*/
public static final char MAX_HIGH_SURROGATE = '\uDBFF';
/**
* The minimum Unicode low surrogate code unit, or
* '\uDC00'.
* @since 1.5
*/
public static final char MIN_LOW_SURROGATE = '\uDC00';
/**
* The maximum Unicode low surrogate code unit, or
* '\uDFFF'.
* @since 1.5
*/
public static final char MAX_LOW_SURROGATE = '\uDFFF';
/**
* The minimum Unicode surrogate code unit in the UTF-16 character encoding.
* This value is '\uD800'.
* @since 1.5
*/
public static final char MIN_SURROGATE = MIN_HIGH_SURROGATE;
/**
* The maximum Unicode surrogate code unit in the UTF-16 character encoding.
* This value is '\uDFFF'.
* @since 1.5
*/
public static final char MAX_SURROGATE = MAX_LOW_SURROGATE;
/**
* The lowest possible supplementary Unicode code point (the first code
* point outside the basic multilingual plane (BMP)).
* This value is 0x10000.
*/
public static final int MIN_SUPPLEMENTARY_CODE_POINT = 0x10000;
/**
* Class object representing the primitive char data type.
*
* @since 1.1
*/
public static final Classchar.
* @since 1.5
*/
public static final int SIZE = 16;
// This caches some Character values, and is used by boxing
// conversions via valueOf(). We must cache at least 0..127;
// this constant controls how much we actually cache.
private static final int MAX_CACHE = 127;
private static Character[] charCache = new Character[MAX_CACHE + 1];
/**
* Lu = Letter, Uppercase (Informative).
*
* @since 1.1
*/
public static final byte UPPERCASE_LETTER = 1;
/**
* Ll = Letter, Lowercase (Informative).
*
* @since 1.1
*/
public static final byte LOWERCASE_LETTER = 2;
/**
* Lt = Letter, Titlecase (Informative).
*
* @since 1.1
*/
public static final byte TITLECASE_LETTER = 3;
/**
* Mn = Mark, Non-Spacing (Normative).
*
* @since 1.1
*/
public static final byte NON_SPACING_MARK = 6;
/**
* Mc = Mark, Spacing Combining (Normative).
*
* @since 1.1
*/
public static final byte COMBINING_SPACING_MARK = 8;
/**
* Me = Mark, Enclosing (Normative).
*
* @since 1.1
*/
public static final byte ENCLOSING_MARK = 7;
/**
* Nd = Number, Decimal Digit (Normative).
*
* @since 1.1
*/
public static final byte DECIMAL_DIGIT_NUMBER = 9;
/**
* Nl = Number, Letter (Normative).
*
* @since 1.1
*/
public static final byte LETTER_NUMBER = 10;
/**
* No = Number, Other (Normative).
*
* @since 1.1
*/
public static final byte OTHER_NUMBER = 11;
/**
* Zs = Separator, Space (Normative).
*
* @since 1.1
*/
public static final byte SPACE_SEPARATOR = 12;
/**
* Zl = Separator, Line (Normative).
*
* @since 1.1
*/
public static final byte LINE_SEPARATOR = 13;
/**
* Zp = Separator, Paragraph (Normative).
*
* @since 1.1
*/
public static final byte PARAGRAPH_SEPARATOR = 14;
/**
* Cc = Other, Control (Normative).
*
* @since 1.1
*/
public static final byte CONTROL = 15;
/**
* Cf = Other, Format (Normative).
*
* @since 1.1
*/
public static final byte FORMAT = 16;
/**
* Cs = Other, Surrogate (Normative).
*
* @since 1.1
*/
public static final byte SURROGATE = 19;
/**
* Co = Other, Private Use (Normative).
*
* @since 1.1
*/
public static final byte PRIVATE_USE = 18;
/**
* Cn = Other, Not Assigned (Normative).
*
* @since 1.1
*/
public static final byte UNASSIGNED = 0;
/**
* Lm = Letter, Modifier (Informative).
*
* @since 1.1
*/
public static final byte MODIFIER_LETTER = 4;
/**
* Lo = Letter, Other (Informative).
*
* @since 1.1
*/
public static final byte OTHER_LETTER = 5;
/**
* Pc = Punctuation, Connector (Informative).
*
* @since 1.1
*/
public static final byte CONNECTOR_PUNCTUATION = 23;
/**
* Pd = Punctuation, Dash (Informative).
*
* @since 1.1
*/
public static final byte DASH_PUNCTUATION = 20;
/**
* Ps = Punctuation, Open (Informative).
*
* @since 1.1
*/
public static final byte START_PUNCTUATION = 21;
/**
* Pe = Punctuation, Close (Informative).
*
* @since 1.1
*/
public static final byte END_PUNCTUATION = 22;
/**
* Pi = Punctuation, Initial Quote (Informative).
*
* @since 1.4
*/
public static final byte INITIAL_QUOTE_PUNCTUATION = 29;
/**
* Pf = Punctuation, Final Quote (Informative).
*
* @since 1.4
*/
public static final byte FINAL_QUOTE_PUNCTUATION = 30;
/**
* Po = Punctuation, Other (Informative).
*
* @since 1.1
*/
public static final byte OTHER_PUNCTUATION = 24;
/**
* Sm = Symbol, Math (Informative).
*
* @since 1.1
*/
public static final byte MATH_SYMBOL = 25;
/**
* Sc = Symbol, Currency (Informative).
*
* @since 1.1
*/
public static final byte CURRENCY_SYMBOL = 26;
/**
* Sk = Symbol, Modifier (Informative).
*
* @since 1.1
*/
public static final byte MODIFIER_SYMBOL = 27;
/**
* So = Symbol, Other (Informative).
*
* @since 1.1
*/
public static final byte OTHER_SYMBOL = 28;
/**
* Undefined bidirectional character type. Undefined char values have
* undefined directionality in the Unicode specification.
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_UNDEFINED = -1;
/**
* Strong bidirectional character type "L".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_LEFT_TO_RIGHT = 0;
/**
* Strong bidirectional character type "R".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_RIGHT_TO_LEFT = 1;
/**
* Strong bidirectional character type "AL".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_RIGHT_TO_LEFT_ARABIC = 2;
/**
* Weak bidirectional character type "EN".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_EUROPEAN_NUMBER = 3;
/**
* Weak bidirectional character type "ES".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_EUROPEAN_NUMBER_SEPARATOR = 4;
/**
* Weak bidirectional character type "ET".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_EUROPEAN_NUMBER_TERMINATOR = 5;
/**
* Weak bidirectional character type "AN".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_ARABIC_NUMBER = 6;
/**
* Weak bidirectional character type "CS".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_COMMON_NUMBER_SEPARATOR = 7;
/**
* Weak bidirectional character type "NSM".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_NONSPACING_MARK = 8;
/**
* Weak bidirectional character type "BN".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_BOUNDARY_NEUTRAL = 9;
/**
* Neutral bidirectional character type "B".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_PARAGRAPH_SEPARATOR = 10;
/**
* Neutral bidirectional character type "S".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_SEGMENT_SEPARATOR = 11;
/**
* Strong bidirectional character type "WS".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_WHITESPACE = 12;
/**
* Neutral bidirectional character type "ON".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_OTHER_NEUTRALS = 13;
/**
* Strong bidirectional character type "LRE".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_LEFT_TO_RIGHT_EMBEDDING = 14;
/**
* Strong bidirectional character type "LRO".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_LEFT_TO_RIGHT_OVERRIDE = 15;
/**
* Strong bidirectional character type "RLE".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_RIGHT_TO_LEFT_EMBEDDING = 16;
/**
* Strong bidirectional character type "RLO".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_RIGHT_TO_LEFT_OVERRIDE = 17;
/**
* Weak bidirectional character type "PDF".
*
* @since 1.4
*/
public static final byte DIRECTIONALITY_POP_DIRECTIONAL_FORMAT = 18;
/**
* Mask for grabbing the type out of the result of readChar.
* @see #readChar(char)
*/
private static final int TYPE_MASK = 0x1F;
/**
* Mask for grabbing the non-breaking space flag out of the result of
* readChar.
* @see #readChar(char)
*/
private static final int NO_BREAK_MASK = 0x20;
/**
* Mask for grabbing the mirrored directionality flag out of the result
* of readChar.
* @see #readChar(char)
*/
private static final int MIRROR_MASK = 0x40;
/**
* Grabs an attribute offset from the Unicode attribute database. The lower
* 5 bits are the character type, the next 2 bits are flags, and the top
* 9 bits are the offset into the attribute tables. Note that the top 9
* bits are meaningless in this context; they are useful only in the native
* code.
*
* @param ch the character to look up
* @return the character's attribute offset and type
* @see #TYPE_MASK
* @see #NO_BREAK_MASK
* @see #MIRROR_MASK
*/
private static native char readChar(char ch);
/**
* Grabs an attribute offset from the Unicode attribute database. The lower
* 5 bits are the character type, the next 2 bits are flags, and the top
* 9 bits are the offset into the attribute tables. Note that the top 9
* bits are meaningless in this context; they are useful only in the native
* code.
*
* @param codePoint the character to look up
* @return the character's attribute offset and type
* @see #TYPE_MASK
* @see #NO_BREAK_MASK
* @see #MIRROR_MASK
*/
private static native char readCodePoint(int codePoint);
/**
* Wraps up a character.
*
* @param value the character to wrap
*/
public Character(char value)
{
this.value = value;
}
/**
* Returns the character which has been wrapped by this class.
*
* @return the character wrapped
*/
public char charValue()
{
return value;
}
/**
* Returns the numerical value (unsigned) of the wrapped character.
* Range of returned values: 0x0000-0xFFFF.
*
* @return the value of the wrapped character
*/
public int hashCode()
{
return value;
}
/**
* Determines if an object is equal to this object. This is only true for
* another Character object wrapping the same value.
*
* @param o object to compare
* @return true if o is a Character with the same value
*/
public boolean equals(Object o)
{
return o instanceof Character && value == ((Character) o).value;
}
/**
* Converts the wrapped character into a String.
*
* @return a String containing one character -- the wrapped character
* of this instance
*/
public String toString()
{
// This assumes that String.valueOf(char) can create a single-character
// String more efficiently than through the public API.
return String.valueOf(value);
}
/**
* Returns a String of length 1 representing the specified character.
*
* @param ch the character to convert
* @return a String containing the character
* @since 1.4
*/
public static String toString(char ch)
{
// This assumes that String.valueOf(char) can create a single-character
// String more efficiently than through the public API.
return String.valueOf(ch);
}
/**
* Determines if a character is a Unicode lowercase letter. For example,
* 'a' is lowercase.
*
* lowercase = [Ll]
*
* @param ch character to test
* @return true if ch is a Unicode lowercase letter, else false
* @see #isUpperCase(char)
* @see #isTitleCase(char)
* @see #toLowerCase(char)
* @see #getType(char)
*/
public static boolean isLowerCase(char ch)
{
return getType(ch) == LOWERCASE_LETTER;
}
/**
* Determines if a character is a Unicode lowercase letter. For example,
* 'a' is lowercase. Unlike isLowerCase(char), this method
* supports supplementary Unicode code points.
*
* lowercase = [Ll]
*
* @param codePoint character to test
* @return true if codePoint is a Unicode lowercase letter, else false
* @see #isUpperCase(int)
* @see #isTitleCase(int)
* @see #toLowerCase(int)
* @see #getType(int)
* @since 1.5
*/
public static boolean isLowerCase(int codePoint)
{
return getType(codePoint) == LOWERCASE_LETTER;
}
/**
* Determines if a character is a Unicode uppercase letter. For example,
* 'A' is uppercase.
*
* uppercase = [Lu]
*
* @param ch character to test
* @return true if ch is a Unicode uppercase letter, else false
* @see #isLowerCase(char)
* @see #isTitleCase(char)
* @see #toUpperCase(char)
* @see #getType(char)
*/
public static boolean isUpperCase(char ch)
{
return getType(ch) == UPPERCASE_LETTER;
}
/**
* Determines if a character is a Unicode uppercase letter. For example,
* 'A' is uppercase. Unlike isUpperCase(char), this method
* supports supplementary Unicode code points.
*
* uppercase = [Lu]
*
* @param codePoint character to test
* @return true if codePoint is a Unicode uppercase letter, else false
* @see #isLowerCase(int)
* @see #isTitleCase(int)
* @see #toUpperCase(int)
* @see #getType(int)
* @since 1.5
*/
public static boolean isUpperCase(int codePoint)
{
return getType(codePoint) == UPPERCASE_LETTER;
}
/**
* Determines if a character is a Unicode titlecase letter. For example,
* the character "Lj" (Latin capital L with small letter j) is titlecase.
*
* titlecase = [Lt]
*
* @param ch character to test
* @return true if ch is a Unicode titlecase letter, else false
* @see #isLowerCase(char)
* @see #isUpperCase(char)
* @see #toTitleCase(char)
* @see #getType(char)
*/
public static boolean isTitleCase(char ch)
{
return getType(ch) == TITLECASE_LETTER;
}
/**
* Determines if a character is a Unicode titlecase letter. For example,
* the character "Lj" (Latin capital L with small letter j) is titlecase.
* Unlike isTitleCase(char), this method supports supplementary Unicode
* code points.
*
* titlecase = [Lt]
*
* @param codePoint character to test
* @return true if codePoint is a Unicode titlecase letter, else false
* @see #isLowerCase(int)
* @see #isUpperCase(int)
* @see #toTitleCase(int)
* @see #getType(int)
* @since 1.5
*/
public static boolean isTitleCase(int codePoint)
{
return getType(codePoint) == TITLECASE_LETTER;
}
/**
* Determines if a character is a Unicode decimal digit. For example,
* '0' is a digit.
*
* Unicode decimal digit = [Nd]
*
* @param ch character to test
* @return true if ch is a Unicode decimal digit, else false
* @see #digit(char, int)
* @see #forDigit(int, int)
* @see #getType(char)
*/
public static boolean isDigit(char ch)
{
return getType(ch) == DECIMAL_DIGIT_NUMBER;
}
/**
* Determines if a character is a Unicode decimal digit. For example,
* '0' is a digit. Unlike isDigit(char), this method
* supports supplementary Unicode code points.
*
* Unicode decimal digit = [Nd]
*
* @param codePoint character to test
* @return true if ccodePoint is a Unicode decimal digit, else false
* @see #digit(int, int)
* @see #forDigit(int, int)
* @see #getType(int)
* @since 1.5
*/
public static boolean isDigit(int codePoint)
{
return getType(codePoint) == DECIMAL_DIGIT_NUMBER;
}
/**
* Determines if a character is part of the Unicode Standard. This is an
* evolving standard, but covers every character in the data file.
*
* defined = not [Cn]
*
* @param ch character to test
* @return true if ch is a Unicode character, else false
* @see #isDigit(char)
* @see #isLetter(char)
* @see #isLetterOrDigit(char)
* @see #isLowerCase(char)
* @see #isTitleCase(char)
* @see #isUpperCase(char)
*/
public static boolean isDefined(char ch)
{
return getType(ch) != UNASSIGNED;
}
/**
* Determines if a character is part of the Unicode Standard. This is an
* evolving standard, but covers every character in the data file. Unlike
* isDefined(char), this method supports supplementary Unicode code points.
*
* defined = not [Cn]
*
* @param codePoint character to test
* @return true if codePoint is a Unicode character, else false
* @see #isDigit(int)
* @see #isLetter(int)
* @see #isLetterOrDigit(int)
* @see #isLowerCase(int)
* @see #isTitleCase(int)
* @see #isUpperCase(int)
* @since 1.5
*/
public static boolean isDefined(int codePoint)
{
return getType(codePoint) != UNASSIGNED;
}
/**
* Determines if a character is a Unicode letter. Not all letters have case,
* so this may return true when isLowerCase and isUpperCase return false.
*
* letter = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]
*
* @param ch character to test
* @return true if ch is a Unicode letter, else false
* @see #isDigit(char)
* @see #isJavaIdentifierStart(char)
* @see #isJavaLetter(char)
* @see #isJavaLetterOrDigit(char)
* @see #isLetterOrDigit(char)
* @see #isLowerCase(char)
* @see #isTitleCase(char)
* @see #isUnicodeIdentifierStart(char)
* @see #isUpperCase(char)
*/
public static boolean isLetter(char ch)
{
return ((1 << getType(ch))
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER))) != 0;
}
/**
* Determines if a character is a Unicode letter. Not all letters have case,
* so this may return true when isLowerCase and isUpperCase return false.
* Unlike isLetter(char), this method supports supplementary Unicode code
* points.
*
* letter = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]
*
* @param codePoint character to test
* @return true if codePoint is a Unicode letter, else false
* @see #isDigit(int)
* @see #isJavaIdentifierStart(int)
* @see #isJavaLetter(int)
* @see #isJavaLetterOrDigit(int)
* @see #isLetterOrDigit(int)
* @see #isLowerCase(int)
* @see #isTitleCase(int)
* @see #isUnicodeIdentifierStart(int)
* @see #isUpperCase(int)
* @since 1.5
*/
public static boolean isLetter(int codePoint)
{
return ((1 << getType(codePoint))
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER))) != 0;
}
/**
* Returns the index into the given CharSequence that is offset
* codePointOffset code points from index.
* @param seq the CharSequence
* @param index the start position in the CharSequence
* @param codePointOffset the number of code points offset from the start
* position
* @return the index into the CharSequence that is codePointOffset code
* points offset from index
*
* @throws NullPointerException if seq is null
* @throws IndexOutOfBoundsException if index is negative or greater than the
* length of the sequence.
* @throws IndexOutOfBoundsException if codePointOffset is positive and the
* subsequence from index to the end of seq has fewer than codePointOffset
* code points
* @throws IndexOutOfBoundsException if codePointOffset is negative and the
* subsequence from the start of seq to index has fewer than
* (-codePointOffset) code points
* @since 1.5
*/
public static int offsetByCodePoints(CharSequence seq,
int index,
int codePointOffset)
{
int len = seq.length();
if (index < 0 || index > len)
throw new IndexOutOfBoundsException();
int numToGo = codePointOffset;
int offset = index;
int adjust = 1;
if (numToGo >= 0)
{
for (; numToGo > 0; offset++)
{
numToGo--;
if (Character.isHighSurrogate(seq.charAt(offset))
&& (offset + 1) < len
&& Character.isLowSurrogate(seq.charAt(offset + 1)))
offset++;
}
return offset;
}
else
{
numToGo *= -1;
for (; numToGo > 0;)
{
numToGo--;
offset--;
if (Character.isLowSurrogate(seq.charAt(offset))
&& (offset - 1) >= 0
&& Character.isHighSurrogate(seq.charAt(offset - 1)))
offset--;
}
return offset;
}
}
/**
* Returns the index into the given char subarray that is offset
* codePointOffset code points from index.
* @param a the char array
* @param start the start index of the subarray
* @param count the length of the subarray
* @param index the index to be offset
* @param codePointOffset the number of code points offset from index
*
* @return the index into the char array
*
* @throws NullPointerException if a is null
* @throws IndexOutOfBoundsException if start or count is negative or if
* start + count is greater than the length of the array
* @throws IndexOutOfBoundsException if index is less than start or larger
* than start + count
* @throws IndexOutOfBoundsException if codePointOffset is positive and the
* subarray from index to start + count - 1 has fewer than codePointOffset
* code points.
* @throws IndexOutOfBoundsException if codePointOffset is negative and the
* subarray from start to index - 1 has fewer than (-codePointOffset) code
* points
* @since 1.5
*/
public static int offsetByCodePoints(char[] a,
int start,
int count,
int index,
int codePointOffset)
{
int len = a.length;
int end = start + count;
if (start < 0 || count < 0 || end > len || index < start || index > end)
throw new IndexOutOfBoundsException();
int numToGo = codePointOffset;
int offset = index;
int adjust = 1;
if (numToGo >= 0)
{
for (; numToGo > 0; offset++)
{
numToGo--;
if (Character.isHighSurrogate(a[offset])
&& (offset + 1) < len
&& Character.isLowSurrogate(a[offset + 1]))
offset++;
}
return offset;
}
else
{
numToGo *= -1;
for (; numToGo > 0;)
{
numToGo--;
offset--;
if (Character.isLowSurrogate(a[offset])
&& (offset - 1) >= 0
&& Character.isHighSurrogate(a[offset - 1]))
offset--;
if (offset < start)
throw new IndexOutOfBoundsException();
}
return offset;
}
}
/**
* Returns the number of Unicode code points in the specified range of the
* given CharSequence. The first char in the range is at position
* beginIndex and the last one is at position endIndex - 1. Paired
* surrogates (supplementary characters are represented by a pair of chars -
* one from the high surrogates and one from the low surrogates)
* count as just one code point.
* @param seq the CharSequence to inspect
* @param beginIndex the beginning of the range
* @param endIndex the end of the range
* @return the number of Unicode code points in the given range of the
* sequence
* @throws NullPointerException if seq is null
* @throws IndexOutOfBoundsException if beginIndex is negative, endIndex is
* larger than the length of seq, or if beginIndex is greater than endIndex.
* @since 1.5
*/
public static int codePointCount(CharSequence seq, int beginIndex,
int endIndex)
{
int len = seq.length();
if (beginIndex < 0 || endIndex > len || beginIndex > endIndex)
throw new IndexOutOfBoundsException();
int count = 0;
for (int i = beginIndex; i < endIndex; i++)
{
count++;
// If there is a pairing, count it only once.
if (isHighSurrogate(seq.charAt(i)) && (i + 1) < endIndex
&& isLowSurrogate(seq.charAt(i + 1)))
i ++;
}
return count;
}
/**
* Returns the number of Unicode code points in the specified range of the
* given char array. The first char in the range is at position
* offset and the length of the range is count. Paired surrogates
* (supplementary characters are represented by a pair of chars -
* one from the high surrogates and one from the low surrogates)
* count as just one code point.
* @param a the char array to inspect
* @param offset the beginning of the range
* @param count the length of the range
* @return the number of Unicode code points in the given range of the
* array
* @throws NullPointerException if a is null
* @throws IndexOutOfBoundsException if offset or count is negative or if
* offset + countendIndex is larger than the length of a.
* @since 1.5
*/
public static int codePointCount(char[] a, int offset,
int count)
{
int len = a.length;
int end = offset + count;
if (offset < 0 || count < 0 || end > len)
throw new IndexOutOfBoundsException();
int counter = 0;
for (int i = offset; i < end; i++)
{
counter++;
// If there is a pairing, count it only once.
if (isHighSurrogate(a[i]) && (i + 1) < end
&& isLowSurrogate(a[i + 1]))
i ++;
}
return counter;
}
/**
* Determines if a character is a Unicode letter or a Unicode digit. This
* is the combination of isLetter and isDigit.
*
* letter or digit = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nd]
*
* @param ch character to test
* @return true if ch is a Unicode letter or a Unicode digit, else false
* @see #isDigit(char)
* @see #isJavaIdentifierPart(char)
* @see #isJavaLetter(char)
* @see #isJavaLetterOrDigit(char)
* @see #isLetter(char)
* @see #isUnicodeIdentifierPart(char)
*/
public static boolean isLetterOrDigit(char ch)
{
return ((1 << getType(ch))
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << DECIMAL_DIGIT_NUMBER))) != 0;
}
/**
* Determines if a character is a Unicode letter or a Unicode digit. This
* is the combination of isLetter and isDigit. Unlike isLetterOrDigit(char),
* this method supports supplementary Unicode code points.
*
* letter or digit = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nd]
*
* @param codePoint character to test
* @return true if codePoint is a Unicode letter or a Unicode digit, else false
* @see #isDigit(int)
* @see #isJavaIdentifierPart(int)
* @see #isJavaLetter(int)
* @see #isJavaLetterOrDigit(int)
* @see #isLetter(int)
* @see #isUnicodeIdentifierPart(int)
* @since 1.5
*/
public static boolean isLetterOrDigit(int codePoint)
{
return ((1 << getType(codePoint)
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << DECIMAL_DIGIT_NUMBER))) != 0);
}
/**
* Determines if a character can start a Java identifier. This is the
* combination of isLetter, any character where getType returns
* LETTER_NUMBER, currency symbols (like '$'), and connecting punctuation
* (like '_').
*
* @param ch character to test
* @return true if ch can start a Java identifier, else false
* @deprecated Replaced by {@link #isJavaIdentifierStart(char)}
* @see #isJavaLetterOrDigit(char)
* @see #isJavaIdentifierStart(char)
* @see #isJavaIdentifierPart(char)
* @see #isLetter(char)
* @see #isLetterOrDigit(char)
* @see #isUnicodeIdentifierStart(char)
*/
public static boolean isJavaLetter(char ch)
{
return isJavaIdentifierStart(ch);
}
/**
* Determines if a character can start a Java identifier. This is the
* combination of isLetter, any character where getType returns
* LETTER_NUMBER, currency symbols (like '$'), and connecting punctuation
* (like '_'). Unlike isJavaIdentifierStart(char), this method supports
* supplementary Unicode code points.
*
* Java identifier start = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]|[Sc]|[Pc]
*
* @param codePoint character to test
* @return true if codePoint can start a Java identifier, else false
* @see #isJavaIdentifierPart(int)
* @see #isLetter(int)
* @see #isUnicodeIdentifierStart(int)
* @since 1.5
*/
public static boolean isJavaIdentifierStart(int codePoint)
{
return ((1 << getType(codePoint))
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << LETTER_NUMBER)
| (1 << CURRENCY_SYMBOL)
| (1 << CONNECTOR_PUNCTUATION))) != 0;
}
/**
* Determines if a character can follow the first letter in
* a Java identifier. This is the combination of isJavaLetter (isLetter,
* type of LETTER_NUMBER, currency, connecting punctuation) and digit,
* numeric letter (like Roman numerals), combining marks, non-spacing marks,
* or isIdentifierIgnorable.
*
* @param ch character to test
* @return true if ch can follow the first letter in a Java identifier
* @deprecated Replaced by {@link #isJavaIdentifierPart(char)}
* @see #isJavaLetter(char)
* @see #isJavaIdentifierStart(char)
* @see #isJavaIdentifierPart(char)
* @see #isLetter(char)
* @see #isLetterOrDigit(char)
* @see #isUnicodeIdentifierPart(char)
* @see #isIdentifierIgnorable(char)
*/
public static boolean isJavaLetterOrDigit(char ch)
{
return isJavaIdentifierPart(ch);
}
/**
* Determines if a character can start a Java identifier. This is the
* combination of isLetter, any character where getType returns
* LETTER_NUMBER, currency symbols (like '$'), and connecting punctuation
* (like '_').
*
* Java identifier start = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]|[Sc]|[Pc]
*
* @param ch character to test
* @return true if ch can start a Java identifier, else false
* @see #isJavaIdentifierPart(char)
* @see #isLetter(char)
* @see #isUnicodeIdentifierStart(char)
* @since 1.1
*/
public static boolean isJavaIdentifierStart(char ch)
{
return ((1 << getType(ch))
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << LETTER_NUMBER)
| (1 << CURRENCY_SYMBOL)
| (1 << CONNECTOR_PUNCTUATION))) != 0;
}
/**
* Determines if a character can follow the first letter in
* a Java identifier. This is the combination of isJavaLetter (isLetter,
* type of LETTER_NUMBER, currency, connecting punctuation) and digit,
* numeric letter (like Roman numerals), combining marks, non-spacing marks,
* or isIdentifierIgnorable.
*
* Java identifier extender =
* [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]|[Sc]|[Pc]|[Mn]|[Mc]|[Nd]|[Cf]
* |U+0000-U+0008|U+000E-U+001B|U+007F-U+009F
*
* @param ch character to test
* @return true if ch can follow the first letter in a Java identifier
* @see #isIdentifierIgnorable(char)
* @see #isJavaIdentifierStart(char)
* @see #isLetterOrDigit(char)
* @see #isUnicodeIdentifierPart(char)
* @since 1.1
*/
public static boolean isJavaIdentifierPart(char ch)
{
int category = getType(ch);
return ((1 << category)
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << NON_SPACING_MARK)
| (1 << COMBINING_SPACING_MARK)
| (1 << DECIMAL_DIGIT_NUMBER)
| (1 << LETTER_NUMBER)
| (1 << CURRENCY_SYMBOL)
| (1 << CONNECTOR_PUNCTUATION)
| (1 << FORMAT))) != 0
|| (category == CONTROL && isIdentifierIgnorable(ch));
}
/**
* Determines if a character can follow the first letter in
* a Java identifier. This is the combination of isJavaLetter (isLetter,
* type of LETTER_NUMBER, currency, connecting punctuation) and digit,
* numeric letter (like Roman numerals), combining marks, non-spacing marks,
* or isIdentifierIgnorable. Unlike isJavaIdentifierPart(char), this method
* supports supplementary Unicode code points.
*
* Java identifier extender =
* [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]|[Sc]|[Pc]|[Mn]|[Mc]|[Nd]|[Cf]
* |U+0000-U+0008|U+000E-U+001B|U+007F-U+009F
*
* @param codePoint character to test
* @return true if codePoint can follow the first letter in a Java identifier
* @see #isIdentifierIgnorable(int)
* @see #isJavaIdentifierStart(int)
* @see #isLetterOrDigit(int)
* @see #isUnicodeIdentifierPart(int)
* @since 1.5
*/
public static boolean isJavaIdentifierPart(int codePoint)
{
int category = getType(codePoint);
return ((1 << category)
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << NON_SPACING_MARK)
| (1 << COMBINING_SPACING_MARK)
| (1 << DECIMAL_DIGIT_NUMBER)
| (1 << LETTER_NUMBER)
| (1 << CURRENCY_SYMBOL)
| (1 << CONNECTOR_PUNCTUATION)
| (1 << FORMAT))) != 0
|| (category == CONTROL && isIdentifierIgnorable(codePoint));
}
/**
* Determines if a character can start a Unicode identifier. Only
* letters can start a Unicode identifier, but this includes characters
* in LETTER_NUMBER.
*
* Unicode identifier start = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]
*
* @param ch character to test
* @return true if ch can start a Unicode identifier, else false
* @see #isJavaIdentifierStart(char)
* @see #isLetter(char)
* @see #isUnicodeIdentifierPart(char)
* @since 1.1
*/
public static boolean isUnicodeIdentifierStart(char ch)
{
return ((1 << getType(ch))
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << LETTER_NUMBER))) != 0;
}
/**
* Determines if a character can start a Unicode identifier. Only
* letters can start a Unicode identifier, but this includes characters
* in LETTER_NUMBER. Unlike isUnicodeIdentifierStart(char), this method
* supports supplementary Unicode code points.
*
* Unicode identifier start = [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]
*
* @param codePoint character to test
* @return true if codePoint can start a Unicode identifier, else false
* @see #isJavaIdentifierStart(int)
* @see #isLetter(int)
* @see #isUnicodeIdentifierPart(int)
* @since 1.5
*/
public static boolean isUnicodeIdentifierStart(int codePoint)
{
return ((1 << getType(codePoint))
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << LETTER_NUMBER))) != 0;
}
/**
* Determines if a character can follow the first letter in
* a Unicode identifier. This includes letters, connecting punctuation,
* digits, numeric letters, combining marks, non-spacing marks, and
* isIdentifierIgnorable.
*
* Unicode identifier extender =
* [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]|[Mn]|[Mc]|[Nd]|[Pc]|[Cf]|
* |U+0000-U+0008|U+000E-U+001B|U+007F-U+009F
*
* @param ch character to test
* @return true if ch can follow the first letter in a Unicode identifier
* @see #isIdentifierIgnorable(char)
* @see #isJavaIdentifierPart(char)
* @see #isLetterOrDigit(char)
* @see #isUnicodeIdentifierStart(char)
* @since 1.1
*/
public static boolean isUnicodeIdentifierPart(char ch)
{
int category = getType(ch);
return ((1 << category)
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << NON_SPACING_MARK)
| (1 << COMBINING_SPACING_MARK)
| (1 << DECIMAL_DIGIT_NUMBER)
| (1 << LETTER_NUMBER)
| (1 << CONNECTOR_PUNCTUATION)
| (1 << FORMAT))) != 0
|| (category == CONTROL && isIdentifierIgnorable(ch));
}
/**
* Determines if a character can follow the first letter in
* a Unicode identifier. This includes letters, connecting punctuation,
* digits, numeric letters, combining marks, non-spacing marks, and
* isIdentifierIgnorable. Unlike isUnicodeIdentifierPart(char), this method
* supports supplementary Unicode code points.
*
* Unicode identifier extender =
* [Lu]|[Ll]|[Lt]|[Lm]|[Lo]|[Nl]|[Mn]|[Mc]|[Nd]|[Pc]|[Cf]|
* |U+0000-U+0008|U+000E-U+001B|U+007F-U+009F
*
* @param codePoint character to test
* @return true if codePoint can follow the first letter in a Unicode
* identifier
* @see #isIdentifierIgnorable(int)
* @see #isJavaIdentifierPart(int)
* @see #isLetterOrDigit(int)
* @see #isUnicodeIdentifierStart(int)
* @since 1.5
*/
public static boolean isUnicodeIdentifierPart(int codePoint)
{
int category = getType(codePoint);
return ((1 << category)
& ((1 << UPPERCASE_LETTER)
| (1 << LOWERCASE_LETTER)
| (1 << TITLECASE_LETTER)
| (1 << MODIFIER_LETTER)
| (1 << OTHER_LETTER)
| (1 << NON_SPACING_MARK)
| (1 << COMBINING_SPACING_MARK)
| (1 << DECIMAL_DIGIT_NUMBER)
| (1 << LETTER_NUMBER)
| (1 << CONNECTOR_PUNCTUATION)
| (1 << FORMAT))) != 0
|| (category == CONTROL && isIdentifierIgnorable(codePoint));
}
/**
* Determines if a character is ignorable in a Unicode identifier. This
* includes the non-whitespace ISO control characters ('\u0000'
* through '\u0008', '\u000E' through
* '\u001B', and '\u007F' through
* '\u009F'), and FORMAT characters.
*
* Unicode identifier ignorable = [Cf]|U+0000-U+0008|U+000E-U+001B
* |U+007F-U+009F
*
* @param ch character to test
* @return true if ch is ignorable in a Unicode or Java identifier
* @see #isJavaIdentifierPart(char)
* @see #isUnicodeIdentifierPart(char)
* @since 1.1
*/
public static boolean isIdentifierIgnorable(char ch)
{
return (ch <= '\u009F' && (ch < '\t' || ch >= '\u007F'
|| (ch <= '\u001B' && ch >= '\u000E')))
|| getType(ch) == FORMAT;
}
/**
* Determines if a character is ignorable in a Unicode identifier. This
* includes the non-whitespace ISO control characters ('\u0000'
* through '\u0008', '\u000E' through
* '\u001B', and '\u007F' through
* '\u009F'), and FORMAT characters. Unlike
* isIdentifierIgnorable(char), this method supports supplementary Unicode
* code points.
*
* Unicode identifier ignorable = [Cf]|U+0000-U+0008|U+000E-U+001B
* |U+007F-U+009F
*
* @param codePoint character to test
* @return true if codePoint is ignorable in a Unicode or Java identifier
* @see #isJavaIdentifierPart(int)
* @see #isUnicodeIdentifierPart(int)
* @since 1.5
*/
public static boolean isIdentifierIgnorable(int codePoint)
{
return ((codePoint >= 0 && codePoint <= 0x0008)
|| (codePoint >= 0x000E && codePoint <= 0x001B)
|| (codePoint >= 0x007F && codePoint <= 0x009F)
|| getType(codePoint) == FORMAT);
}
/**
* Converts a Unicode character into its lowercase equivalent mapping.
* If a mapping does not exist, then the character passed is returned.
* Note that isLowerCase(toLowerCase(ch)) does not always return true.
*
* @param ch character to convert to lowercase
* @return lowercase mapping of ch, or ch if lowercase mapping does
* not exist
* @see #isLowerCase(char)
* @see #isUpperCase(char)
* @see #toTitleCase(char)
* @see #toUpperCase(char)
*/
public static native char toLowerCase(char ch);
/**
* Converts a Unicode character into its lowercase equivalent mapping.
* If a mapping does not exist, then the character passed is returned.
* Note that isLowerCase(toLowerCase(codePoint)) does not always return true.
* Unlike toLowerCase(char), this method supports supplementary Unicode
* code points.
*
* @param codePoint character to convert to lowercase
* @return lowercase mapping of codePoint, or codePoint if lowercase
* mapping does not exist
* @see #isLowerCase(int)
* @see #isUpperCase(int)
* @see #toTitleCase(int)
* @see #toUpperCase(int)
* @since 1.5
*/
public static native int toLowerCase(int codePoint);
/**
* Converts a Unicode character into its uppercase equivalent mapping.
* If a mapping does not exist, then the character passed is returned.
* Note that isUpperCase(toUpperCase(ch)) does not always return true.
*
* @param ch character to convert to uppercase
* @return uppercase mapping of ch, or ch if uppercase mapping does
* not exist
* @see #isLowerCase(char)
* @see #isUpperCase(char)
* @see #toLowerCase(char)
* @see #toTitleCase(char)
*/
public static native char toUpperCase(char ch);
/**
* Converts a Unicode character into its uppercase equivalent mapping.
* If a mapping does not exist, then the character passed is returned.
* Note that isUpperCase(toUpperCase(codePoint)) does not always return true.
* Unlike toUpperCase(char), this method supports supplementary
* Unicode code points.
*
* @param codePoint character to convert to uppercase
* @return uppercase mapping of codePoint, or codePoint if uppercase
* mapping does not exist
* @see #isLowerCase(int)
* @see #isUpperCase(int)
* @see #toLowerCase(int)
* @see #toTitleCase(int)
* @since 1.5
*/
public static native int toUpperCase(int codePoint);
/**
* Converts a Unicode character into its titlecase equivalent mapping.
* If a mapping does not exist, then the character passed is returned.
* Note that isTitleCase(toTitleCase(ch)) does not always return true.
*
* @param ch character to convert to titlecase
* @return titlecase mapping of ch, or ch if titlecase mapping does
* not exist
* @see #isTitleCase(char)
* @see #toLowerCase(char)
* @see #toUpperCase(char)
*/
public static native char toTitleCase(char ch);
/**
* Converts a Unicode character into its titlecase equivalent mapping.
* If a mapping does not exist, then the character passed is returned.
* Note that isTitleCase(toTitleCase(codePoint)) does not always return true.
* Unlike toTitleCase(char), this method supports supplementary
* Unicode code points.
*
* @param codePoint character to convert to titlecase
* @return titlecase mapping of codePoint, or codePoint if titlecase
* mapping does not exist
* @see #isTitleCase(int)
* @see #toLowerCase(int)
* @see #toUpperCase(int)
* @since 1.5
*/
public static native int toTitleCase(int codePoint);
/**
* Converts a character into a digit of the specified radix. If the radix
* exceeds MIN_RADIX or MAX_RADIX, or if the result of getNumericValue(ch)
* exceeds the radix, or if ch is not a decimal digit or in the case
* insensitive set of 'a'-'z', the result is -1.
*
* character argument boundary = [Nd]|U+0041-U+005A|U+0061-U+007A
* |U+FF21-U+FF3A|U+FF41-U+FF5A
*
* @param ch character to convert into a digit
* @param radix radix in which ch is a digit
* @return digit which ch represents in radix, or -1 not a valid digit
* @see #MIN_RADIX
* @see #MAX_RADIX
* @see #forDigit(int, int)
* @see #isDigit(char)
* @see #getNumericValue(char)
*/
public static native int digit(char ch, int radix);
/**
* Converts a character into a digit of the specified radix. If the radix
* exceeds MIN_RADIX or MAX_RADIX, or if the result of getNumericValue(int)
* exceeds the radix, or if codePoint is not a decimal digit or in the case
* insensitive set of 'a'-'z', the result is -1. Unlike digit(char, int),
* this method supports supplementary Unicode code points.
*
* character argument boundary = [Nd]|U+0041-U+005A|U+0061-U+007A
* |U+FF21-U+FF3A|U+FF41-U+FF5A
*
* @param codePoint character to convert into a digit
* @param radix radix in which codePoint is a digit
* @return digit which codePoint represents in radix, or -1 not a valid digit
* @see #MIN_RADIX
* @see #MAX_RADIX
* @see #forDigit(int, int)
* @see #isDigit(int)
* @see #getNumericValue(int)
* @since 1.5
*/
public static native int digit(int codePoint, int radix);
/**
* Returns the Unicode numeric value property of a character. For example,
* '\\u216C' (the Roman numeral fifty) returns 50.
*
* '\u0041'
* through '\u005A' (uppercase); '\u0061'
* through '\u007A' (lowercase); and '\uFF21'
* through '\uFF3A', '\uFF41' through
* '\uFF5A' (full width variants).
*
* '\\u216C' (the Roman numeral fifty) returns 50.
*
* '\u0041'
* through '\u005A' (uppercase); '\u0061'
* through '\u007A' (lowercase); and '\uFF21'
* through '\uFF3A', '\uFF41' through
* '\uFF5A' (full width variants).
*
* '\t', '\n', '\f',
* '\r', and ' '.
*
* Java space = U+0020|U+0009|U+000A|U+000C|U+000D
*
* @param ch character to test
* @return true if ch is a space, else false
* @deprecated Replaced by {@link #isWhitespace(char)}
* @see #isSpaceChar(char)
* @see #isWhitespace(char)
*/
public static boolean isSpace(char ch)
{
// Performing the subtraction up front alleviates need to compare longs.
return ch-- <= ' ' && ((1 << ch)
& ((1 << (' ' - 1))
| (1 << ('\t' - 1))
| (1 << ('\n' - 1))
| (1 << ('\r' - 1))
| (1 << ('\f' - 1)))) != 0;
}
/**
* Determines if a character is a Unicode space character. This includes
* SPACE_SEPARATOR, LINE_SEPARATOR, and PARAGRAPH_SEPARATOR.
*
* Unicode space = [Zs]|[Zp]|[Zl]
*
* @param ch character to test
* @return true if ch is a Unicode space, else false
* @see #isWhitespace(char)
* @since 1.1
*/
public static boolean isSpaceChar(char ch)
{
return ((1 << getType(ch))
& ((1 << SPACE_SEPARATOR)
| (1 << LINE_SEPARATOR)
| (1 << PARAGRAPH_SEPARATOR))) != 0;
}
/**
* Determines if a character is a Unicode space character. This includes
* SPACE_SEPARATOR, LINE_SEPARATOR, and PARAGRAPH_SEPARATOR. Unlike
* isSpaceChar(char), this method supports supplementary Unicode code points.
*
* Unicode space = [Zs]|[Zp]|[Zl]
*
* @param codePoint character to test
* @return true if codePoint is a Unicode space, else false
* @see #isWhitespace(int)
* @since 1.5
*/
public static boolean isSpaceChar(int codePoint)
{
return ((1 << getType(codePoint))
& ((1 << SPACE_SEPARATOR)
| (1 << LINE_SEPARATOR)
| (1 << PARAGRAPH_SEPARATOR))) != 0;
}
/**
* Determines if a character is Java whitespace. This includes Unicode
* space characters (SPACE_SEPARATOR, LINE_SEPARATOR, and
* PARAGRAPH_SEPARATOR) except the non-breaking spaces
* ('\u00A0', '\u2007', and '\u202F');
* and these characters: '\u0009', '\u000A',
* '\u000B', '\u000C', '\u000D',
* '\u001C', '\u001D', '\u001E',
* and '\u001F'.
*
* Java whitespace = ([Zs] not Nb)|[Zl]|[Zp]|U+0009-U+000D|U+001C-U+001F
*
* @param ch character to test
* @return true if ch is Java whitespace, else false
* @see #isSpaceChar(char)
* @since 1.1
*/
public static boolean isWhitespace(char ch)
{
int attr = readChar(ch);
return ((((1 << (attr & TYPE_MASK))
& ((1 << SPACE_SEPARATOR)
| (1 << LINE_SEPARATOR)
| (1 << PARAGRAPH_SEPARATOR))) != 0)
&& (attr & NO_BREAK_MASK) == 0)
|| (ch <= '\u001F' && ((1 << ch)
& ((1 << '\t')
| (1 << '\n')
| (1 << '\u000B')
| (1 << '\u000C')
| (1 << '\r')
| (1 << '\u001C')
| (1 << '\u001D')
| (1 << '\u001E')
| (1 << '\u001F'))) != 0);
}
/**
* Determines if a character is Java whitespace. This includes Unicode
* space characters (SPACE_SEPARATOR, LINE_SEPARATOR, and
* PARAGRAPH_SEPARATOR) except the non-breaking spaces
* ('\u00A0', '\u2007', and '\u202F');
* and these characters: '\u0009', '\u000A',
* '\u000B', '\u000C', '\u000D',
* '\u001C', '\u001D', '\u001E',
* and '\u001F'. Unlike isWhitespace(char), this method
* supports supplementary Unicode code points.
*
* Java whitespace = ([Zs] not Nb)|[Zl]|[Zp]|U+0009-U+000D|U+001C-U+001F
*
* @param codePoint character to test
* @return true if codePoint is Java whitespace, else false
* @see #isSpaceChar(int)
* @since 1.5
*/
public static boolean isWhitespace(int codePoint)
{
int plane = codePoint >>> 16;
if (plane > 2 && plane != 14)
return false;
int attr = readCodePoint(codePoint);
return ((((1 << (attr & TYPE_MASK))
& ((1 << SPACE_SEPARATOR)
| (1 << LINE_SEPARATOR)
| (1 << PARAGRAPH_SEPARATOR))) != 0)
&& (attr & NO_BREAK_MASK) == 0)
|| (codePoint <= '\u001F' && ((1 << codePoint)
& ((1 << '\t')
| (1 << '\n')
| (1 << '\u000B')
| (1 << '\u000C')
| (1 << '\r')
| (1 << '\u001C')
| (1 << '\u001D')
| (1 << '\u001E')
| (1 << '\u001F'))) != 0);
}
/**
* Determines if a character has the ISO Control property.
*
* ISO Control = [Cc]
*
* @param ch character to test
* @return true if ch is an ISO Control character, else false
* @see #isSpaceChar(char)
* @see #isWhitespace(char)
* @since 1.1
*/
public static boolean isISOControl(char ch)
{
return getType(ch) == CONTROL;
}
/**
* Determines if a character has the ISO Control property. Unlike
* isISOControl(char), this method supports supplementary unicode
* code points.
*
* ISO Control = [Cc]
*
* @param codePoint character to test
* @return true if codePoint is an ISO Control character, else false
* @see #isSpaceChar(int)
* @see #isWhitespace(int)
* @since 1.5
*/
public static boolean isISOControl(int codePoint)
{
return getType(codePoint) == CONTROL;
}
/**
* Returns the Unicode general category property of a character.
*
* @param ch character from which the general category property will
* be retrieved
* @return the character category property of ch as an integer
* @see #UNASSIGNED
* @see #UPPERCASE_LETTER
* @see #LOWERCASE_LETTER
* @see #TITLECASE_LETTER
* @see #MODIFIER_LETTER
* @see #OTHER_LETTER
* @see #NON_SPACING_MARK
* @see #ENCLOSING_MARK
* @see #COMBINING_SPACING_MARK
* @see #DECIMAL_DIGIT_NUMBER
* @see #LETTER_NUMBER
* @see #OTHER_NUMBER
* @see #SPACE_SEPARATOR
* @see #LINE_SEPARATOR
* @see #PARAGRAPH_SEPARATOR
* @see #CONTROL
* @see #FORMAT
* @see #PRIVATE_USE
* @see #SURROGATE
* @see #DASH_PUNCTUATION
* @see #START_PUNCTUATION
* @see #END_PUNCTUATION
* @see #CONNECTOR_PUNCTUATION
* @see #OTHER_PUNCTUATION
* @see #MATH_SYMBOL
* @see #CURRENCY_SYMBOL
* @see #MODIFIER_SYMBOL
* @see #INITIAL_QUOTE_PUNCTUATION
* @see #FINAL_QUOTE_PUNCTUATION
* @since 1.1
*/
public static native int getType(char ch);
/**
* Returns the Unicode general category property of a character. Supports
* supplementary Unicode code points.
*
* @param codePoint character from which the general category property will
* be retrieved
* @return the character category property of codePoint as an integer
* @see #UNASSIGNED
* @see #UPPERCASE_LETTER
* @see #LOWERCASE_LETTER
* @see #TITLECASE_LETTER
* @see #MODIFIER_LETTER
* @see #OTHER_LETTER
* @see #NON_SPACING_MARK
* @see #ENCLOSING_MARK
* @see #COMBINING_SPACING_MARK
* @see #DECIMAL_DIGIT_NUMBER
* @see #LETTER_NUMBER
* @see #OTHER_NUMBER
* @see #SPACE_SEPARATOR
* @see #LINE_SEPARATOR
* @see #PARAGRAPH_SEPARATOR
* @see #CONTROL
* @see #FORMAT
* @see #PRIVATE_USE
* @see #SURROGATE
* @see #DASH_PUNCTUATION
* @see #START_PUNCTUATION
* @see #END_PUNCTUATION
* @see #CONNECTOR_PUNCTUATION
* @see #OTHER_PUNCTUATION
* @see #MATH_SYMBOL
* @see #CURRENCY_SYMBOL
* @see #MODIFIER_SYMBOL
* @see #INITIAL_QUOTE_PUNCTUATION
* @see #FINAL_QUOTE_PUNCTUATION
* @since 1.5
*/
public static native int getType(int codePoint);
/**
* Converts a digit into a character which represents that digit
* in a specified radix. If the radix exceeds MIN_RADIX or MAX_RADIX,
* or the digit exceeds the radix, then the null character '\0'
* is returned. Otherwise the return value is in '0'-'9' and 'a'-'z'.
*
* return value boundary = U+0030-U+0039|U+0061-U+007A
*
* @param digit digit to be converted into a character
* @param radix radix of digit
* @return character representing digit in radix, or '\0'
* @see #MIN_RADIX
* @see #MAX_RADIX
* @see #digit(char, int)
*/
public static char forDigit(int digit, int radix)
{
if (radix < MIN_RADIX || radix > MAX_RADIX
|| digit < 0 || digit >= radix)
return '\0';
return (char) (digit < 10 ? ('0' + digit) : ('a' - 10 + digit));
}
/**
* Returns the Unicode directionality property of the character. This
* is used in the visual ordering of text.
*
* @param ch the character to look up
* @return the directionality constant, or DIRECTIONALITY_UNDEFINED
* @see #DIRECTIONALITY_UNDEFINED
* @see #DIRECTIONALITY_LEFT_TO_RIGHT
* @see #DIRECTIONALITY_RIGHT_TO_LEFT
* @see #DIRECTIONALITY_RIGHT_TO_LEFT_ARABIC
* @see #DIRECTIONALITY_EUROPEAN_NUMBER
* @see #DIRECTIONALITY_EUROPEAN_NUMBER_SEPARATOR
* @see #DIRECTIONALITY_EUROPEAN_NUMBER_TERMINATOR
* @see #DIRECTIONALITY_ARABIC_NUMBER
* @see #DIRECTIONALITY_COMMON_NUMBER_SEPARATOR
* @see #DIRECTIONALITY_NONSPACING_MARK
* @see #DIRECTIONALITY_BOUNDARY_NEUTRAL
* @see #DIRECTIONALITY_PARAGRAPH_SEPARATOR
* @see #DIRECTIONALITY_SEGMENT_SEPARATOR
* @see #DIRECTIONALITY_WHITESPACE
* @see #DIRECTIONALITY_OTHER_NEUTRALS
* @see #DIRECTIONALITY_LEFT_TO_RIGHT_EMBEDDING
* @see #DIRECTIONALITY_LEFT_TO_RIGHT_OVERRIDE
* @see #DIRECTIONALITY_RIGHT_TO_LEFT_EMBEDDING
* @see #DIRECTIONALITY_RIGHT_TO_LEFT_OVERRIDE
* @see #DIRECTIONALITY_POP_DIRECTIONAL_FORMAT
* @since 1.4
*/
public static native byte getDirectionality(char ch);
/**
* Returns the Unicode directionality property of the character. This
* is used in the visual ordering of text. Unlike getDirectionality(char),
* this method supports supplementary Unicode code points.
*
* @param codePoint the character to look up
* @return the directionality constant, or DIRECTIONALITY_UNDEFINED
* @see #DIRECTIONALITY_UNDEFINED
* @see #DIRECTIONALITY_LEFT_TO_RIGHT
* @see #DIRECTIONALITY_RIGHT_TO_LEFT
* @see #DIRECTIONALITY_RIGHT_TO_LEFT_ARABIC
* @see #DIRECTIONALITY_EUROPEAN_NUMBER
* @see #DIRECTIONALITY_EUROPEAN_NUMBER_SEPARATOR
* @see #DIRECTIONALITY_EUROPEAN_NUMBER_TERMINATOR
* @see #DIRECTIONALITY_ARABIC_NUMBER
* @see #DIRECTIONALITY_COMMON_NUMBER_SEPARATOR
* @see #DIRECTIONALITY_NONSPACING_MARK
* @see #DIRECTIONALITY_BOUNDARY_NEUTRAL
* @see #DIRECTIONALITY_PARAGRAPH_SEPARATOR
* @see #DIRECTIONALITY_SEGMENT_SEPARATOR
* @see #DIRECTIONALITY_WHITESPACE
* @see #DIRECTIONALITY_OTHER_NEUTRALS
* @see #DIRECTIONALITY_LEFT_TO_RIGHT_EMBEDDING
* @see #DIRECTIONALITY_LEFT_TO_RIGHT_OVERRIDE
* @see #DIRECTIONALITY_RIGHT_TO_LEFT_EMBEDDING
* @see #DIRECTIONALITY_RIGHT_TO_LEFT_OVERRIDE
* @see #DIRECTIONALITY_POP_DIRECTIONAL_FORMAT
* @since 1.5
*/
public static native byte getDirectionality(int codePoint);
/**
* Determines whether the character is mirrored according to Unicode. For
* example, \u0028 (LEFT PARENTHESIS) appears as '(' in
* left-to-right text, but ')' in right-to-left text.
*
* @param ch the character to look up
* @return true if the character is mirrored
* @since 1.4
*/
public static boolean isMirrored(char ch)
{
return (readChar(ch) & MIRROR_MASK) != 0;
}
/**
* Determines whether the character is mirrored according to Unicode. For
* example, \u0028 (LEFT PARENTHESIS) appears as '(' in
* left-to-right text, but ')' in right-to-left text. Unlike
* isMirrored(char), this method supports supplementary Unicode code points.
*
* @param codePoint the character to look up
* @return true if the character is mirrored
* @since 1.5
*/
public static boolean isMirrored(int codePoint)
{
int plane = codePoint >>> 16;
if (plane > 2 && plane != 14)
return false;
return (readCodePoint(codePoint) & MIRROR_MASK) != 0;
}
/**
* Compares another Character to this Character, numerically.
*
* @param anotherCharacter Character to compare with this Character
* @return a negative integer if this Character is less than
* anotherCharacter, zero if this Character is equal, and
* a positive integer if this Character is greater
* @throws NullPointerException if anotherCharacter is null
* @since 1.2
*/
public int compareTo(Character anotherCharacter)
{
return value - anotherCharacter.value;
}
/**
* Returns an Character object wrapping the value.
* In contrast to the Character constructor, this method
* will cache some values. It is used by boxing conversion.
*
* @param val the value to wrap
* @return the Character
*
* @since 1.5
*/
public static Character valueOf(char val)
{
if (val > MAX_CACHE)
return new Character(val);
synchronized (charCache)
{
if (charCache[val - MIN_VALUE] == null)
charCache[val - MIN_VALUE] = new Character(val);
return charCache[val - MIN_VALUE];
}
}
/**
* Reverse the bytes in val.
* @since 1.5
*/
public static char reverseBytes(char val)
{
return (char) (((val >> 8) & 0xff) | ((val << 8) & 0xff00));
}
/**
* Converts a unicode code point to a UTF-16 representation of that
* code point.
*
* @param codePoint the unicode code point
*
* @return the UTF-16 representation of that code point
*
* @throws IllegalArgumentException if the code point is not a valid
* unicode code point
*
* @since 1.5
*/
public static char[] toChars(int codePoint)
{
if (!isValidCodePoint(codePoint))
throw new IllegalArgumentException("Illegal Unicode code point : "
+ codePoint);
char[] result = new char[charCount(codePoint)];
int ignore = toChars(codePoint, result, 0);
return result;
}
/**
* Converts a unicode code point to its UTF-16 representation.
*
* @param codePoint the unicode code point
* @param dst the target char array
* @param dstIndex the start index for the target
*
* @return number of characters written to dst
*
* @throws IllegalArgumentException if codePoint is not a
* valid unicode code point
* @throws NullPointerException if dst is null
* @throws IndexOutOfBoundsException if dstIndex is not valid
* in dst or if the UTF-16 representation does not
* fit into dst
*
* @since 1.5
*/
public static int toChars(int codePoint, char[] dst, int dstIndex)
{
if (!isValidCodePoint(codePoint))
{
throw new IllegalArgumentException("not a valid code point: "
+ codePoint);
}
int result;
if (isSupplementaryCodePoint(codePoint))
{
// Write second char first to cause IndexOutOfBoundsException
// immediately.
final int cp2 = codePoint - 0x10000;
dst[dstIndex + 1] = (char) ((cp2 % 0x400) + (int) MIN_LOW_SURROGATE);
dst[dstIndex] = (char) ((cp2 / 0x400) + (int) MIN_HIGH_SURROGATE);
result = 2;
}
else
{
dst[dstIndex] = (char) codePoint;
result = 1;
}
return result;
}
/**
* Return number of 16-bit characters required to represent the given
* code point.
*
* @param codePoint a unicode code point
*
* @return 2 if codePoint >= 0x10000, 1 otherwise.
*
* @since 1.5
*/
public static int charCount(int codePoint)
{
return
(codePoint >= MIN_SUPPLEMENTARY_CODE_POINT)
? 2
: 1;
}
/**
* Determines whether the specified code point is
* in the range 0x10000 .. 0x10FFFF, i.e. the character is within the Unicode
* supplementary character range.
*
* @param codePoint a Unicode code point
*
* @return true if code point is in supplementary range
*
* @since 1.5
*/
public static boolean isSupplementaryCodePoint(int codePoint)
{
return codePoint >= MIN_SUPPLEMENTARY_CODE_POINT
&& codePoint <= MAX_CODE_POINT;
}
/**
* Determines whether the specified code point is
* in the range 0x0000 .. 0x10FFFF, i.e. it is a valid Unicode code point.
*
* @param codePoint a Unicode code point
*
* @return true if code point is valid
*
* @since 1.5
*/
public static boolean isValidCodePoint(int codePoint)
{
return codePoint >= MIN_CODE_POINT && codePoint <= MAX_CODE_POINT;
}
/**
* Return true if the given character is a high surrogate.
* @param ch the character
* @return true if the character is a high surrogate character
*
* @since 1.5
*/
public static boolean isHighSurrogate(char ch)
{
return ch >= MIN_HIGH_SURROGATE && ch <= MAX_HIGH_SURROGATE;
}
/**
* Return true if the given character is a low surrogate.
* @param ch the character
* @return true if the character is a low surrogate character
*
* @since 1.5
*/
public static boolean isLowSurrogate(char ch)
{
return ch >= MIN_LOW_SURROGATE && ch <= MAX_LOW_SURROGATE;
}
/**
* Return true if the given characters compose a surrogate pair.
* This is true if the first character is a high surrogate and the
* second character is a low surrogate.
* @param ch1 the first character
* @param ch2 the first character
* @return true if the characters compose a surrogate pair
*
* @since 1.5
*/
public static boolean isSurrogatePair(char ch1, char ch2)
{
return isHighSurrogate(ch1) && isLowSurrogate(ch2);
}
/**
* Given a valid surrogate pair, this returns the corresponding
* code point.
* @param high the high character of the pair
* @param low the low character of the pair
* @return the corresponding code point
*
* @since 1.5
*/
public static int toCodePoint(char high, char low)
{
return ((high - MIN_HIGH_SURROGATE) * 0x400) +
(low - MIN_LOW_SURROGATE) + 0x10000;
}
/**
* Get the code point at the specified index in the CharSequence.
* This is like CharSequence#charAt(int), but if the character is
* the start of a surrogate pair, and there is a following
* character, and this character completes the pair, then the
* corresponding supplementary code point is returned. Otherwise,
* the character at the index is returned.
*
* @param sequence the CharSequence
* @param index the index of the codepoint to get, starting at 0
* @return the codepoint at the specified index
* @throws IndexOutOfBoundsException if index is negative or >= length()
* @since 1.5
*/
public static int codePointAt(CharSequence sequence, int index)
{
int len = sequence.length();
if (index < 0 || index >= len)
throw new IndexOutOfBoundsException();
char high = sequence.charAt(index);
if (! isHighSurrogate(high) || ++index >= len)
return high;
char low = sequence.charAt(index);
if (! isLowSurrogate(low))
return high;
return toCodePoint(high, low);
}
/**
* Get the code point at the specified index in the CharSequence.
* If the character is the start of a surrogate pair, and there is a
* following character, and this character completes the pair, then
* the corresponding supplementary code point is returned.
* Otherwise, the character at the index is returned.
*
* @param chars the character array in which to look
* @param index the index of the codepoint to get, starting at 0
* @return the codepoint at the specified index
* @throws IndexOutOfBoundsException if index is negative or >= length()
* @since 1.5
*/
public static int codePointAt(char[] chars, int index)
{
return codePointAt(chars, index, chars.length);
}
/**
* Get the code point at the specified index in the CharSequence.
* If the character is the start of a surrogate pair, and there is a
* following character within the specified range, and this
* character completes the pair, then the corresponding
* supplementary code point is returned. Otherwise, the character
* at the index is returned.
*
* @param chars the character array in which to look
* @param index the index of the codepoint to get, starting at 0
* @param limit the limit past which characters should not be examined
* @return the codepoint at the specified index
* @throws IndexOutOfBoundsException if index is negative or >=
* limit, or if limit is negative or >= the length of the array
* @since 1.5
*/
public static int codePointAt(char[] chars, int index, int limit)
{
if (index < 0 || index >= limit || limit < 0 || limit > chars.length)
throw new IndexOutOfBoundsException();
char high = chars[index];
if (! isHighSurrogate(high) || ++index >= limit)
return high;
char low = chars[index];
if (! isLowSurrogate(low))
return high;
return toCodePoint(high, low);
}
/**
* Get the code point before the specified index. This is like
* #codePointAt(char[], int), but checks the characters at
* index-1 and index-2 to see if they form
* a supplementary code point. If they do not, the character at
* index-1 is returned.
*
* @param chars the character array
* @param index the index just past the codepoint to get, starting at 0
* @return the codepoint at the specified index
* @throws IndexOutOfBoundsException if index is negative or >= length()
* @since 1.5
*/
public static int codePointBefore(char[] chars, int index)
{
return codePointBefore(chars, index, 1);
}
/**
* Get the code point before the specified index. This is like
* #codePointAt(char[], int), but checks the characters at
* index-1 and index-2 to see if they form
* a supplementary code point. If they do not, the character at
* index-1 is returned. The start parameter is used to
* limit the range of the array which may be examined.
*
* @param chars the character array
* @param index the index just past the codepoint to get, starting at 0
* @param start the index before which characters should not be examined
* @return the codepoint at the specified index
* @throws IndexOutOfBoundsException if index is > start or >
* the length of the array, or if limit is negative or >= the
* length of the array
* @since 1.5
*/
public static int codePointBefore(char[] chars, int index, int start)
{
if (index < start || index > chars.length
|| start < 0 || start >= chars.length)
throw new IndexOutOfBoundsException();
--index;
char low = chars[index];
if (! isLowSurrogate(low) || --index < start)
return low;
char high = chars[index];
if (! isHighSurrogate(high))
return low;
return toCodePoint(high, low);
}
/**
* Get the code point before the specified index. This is like
* #codePointAt(CharSequence, int), but checks the characters at
* index-1 and index-2 to see if they form
* a supplementary code point. If they do not, the character at
* index-1 is returned.
*
* @param sequence the CharSequence
* @param index the index just past the codepoint to get, starting at 0
* @return the codepoint at the specified index
* @throws IndexOutOfBoundsException if index is negative or >= length()
* @since 1.5
*/
public static int codePointBefore(CharSequence sequence, int index)
{
int len = sequence.length();
if (index < 1 || index > len)
throw new IndexOutOfBoundsException();
--index;
char low = sequence.charAt(index);
if (! isLowSurrogate(low) || --index < 0)
return low;
char high = sequence.charAt(index);
if (! isHighSurrogate(high))
return low;
return toCodePoint(high, low);
}
} // class Character