scuffed-code/icu4c/source/i18n/upropset.cpp
2001-11-20 00:47:12 +00:00

652 lines
22 KiB
C++

/*
**********************************************************************
* Copyright (c) 2001, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
* $Source: /xsrl/Nsvn/icu/icu/source/i18n/Attic/upropset.cpp,v $
* $Date: 2001/11/20 00:46:44 $
* $Revision: 1.7 $
**********************************************************************
*/
#include "upropset.h"
#include "ustrfmt.h"
#include "unicode/unistr.h"
#include "unicode/uscript.h"
#include "unicode/uniset.h"
#include "unicode/parsepos.h"
#include "hash.h"
#include "mutex.h"
#include "ucln_in.h"
#include "charstr.h"
U_NAMESPACE_BEGIN
static Hashtable* NAME_MAP = NULL;
static Hashtable* CATEGORY_MAP = NULL;
/**
* A cache mapping character category integers, as returned by
* UCharacter.getType(), to sets. Entries are initially
* null and are created on demand.
*/
static UnicodeSet* CATEGORY_CACHE = NULL;
/**
* A cache mapping script integers, as defined by
* UScript, to sets. Entries are initially
* null and are created on demand.
*/
static UnicodeSet* SCRIPT_CACHE = NULL;
// Special value codes
static const int32_t ANY = -1; // general category: all code points
// >From UnicodeData:
// 3400;<CJK Ideograph Extension A, First>;Lo;0;L;;;;;N;;;;;
// 4DB5;<CJK Ideograph Extension A, Last>;Lo;0;L;;;;;N;;;;;
// 4E00;<CJK Ideograph, First>;Lo;0;L;;;;;N;;;;;
// 9FA5;<CJK Ideograph, Last>;Lo;0;L;;;;;N;;;;;
// AC00;<Hangul Syllable, First>;Lo;0;L;;;;;N;;;;;
// D7A3;<Hangul Syllable, Last>;Lo;0;L;;;;;N;;;;;
// D800;<Non Private Use High Surrogate, First>;Cs;0;L;;;;;N;;;;;
// DB7F;<Non Private Use High Surrogate, Last>;Cs;0;L;;;;;N;;;;;
// DB80;<Private Use High Surrogate, First>;Cs;0;L;;;;;N;;;;;
// DBFF;<Private Use High Surrogate, Last>;Cs;0;L;;;;;N;;;;;
// DC00;<Low Surrogate, First>;Cs;0;L;;;;;N;;;;;
// DFFF;<Low Surrogate, Last>;Cs;0;L;;;;;N;;;;;
// E000;<Private Use, First>;Co;0;L;;;;;N;;;;;
// F8FF;<Private Use, Last>;Co;0;L;;;;;N;;;;;
// 20000;<CJK Ideograph Extension B, First>;Lo;0;L;;;;;N;;;;;
// 2A6D6;<CJK Ideograph Extension B, Last>;Lo;0;L;;;;;N;;;;;
// F0000;<Plane 15 Private Use, First>;Co;0;L;;;;;N;;;;;
// FFFFD;<Plane 15 Private Use, Last>;Co;0;L;;;;;N;;;;;
// 100000;<Plane 16 Private Use, First>;Co;0;L;;;;;N;;;;;
// 10FFFD;<Plane 16 Private Use, Last>;Co;0;L;;;;;N;;;;;
//
// >Large Blocks of Unassigned: (from DerivedGeneralCategory)
// 1044E..1CFFF ; Cn # [52146]
// 1D800..1FFFF ; Cn # [10240]
// 2A6D7..2F7FF ; Cn # [20777]
// 2FA1E..E0000 ; Cn # [722403]
// E0080..EFFFF ; Cn # [65408]
/**
* A set of all characters _except_ the first characters of
* certain ranges. These ranges are ranges of characters whose
* properties are all exactly alike, e.g. CJK Ideographs from
* U+4E00 to U+9FA5.
*/
static UnicodeSet* INCLUSIONS = NULL;
//----------------------------------------------------------------
// Unicode string and character constants
//----------------------------------------------------------------
static const UChar POSIX_OPEN[] = { 91,58,0 }; // "[:"
static const UChar POSIX_CLOSE[] = { 58,93,0 }; // ":]"
static const UChar PERL_OPEN[] = { 92,112,0 }; // "\\p"
static const UChar PERL_CLOSE[] = { 125,0 }; // "}"
static const UChar HAT = 0x005E; /*^*/
static const UChar UPPER_P = 0x0050; /*P*/
static const UChar LEFT_BRACE = 0x007B; /*{*/
static const UChar EQUALS = 0x003D; /*=*/
// See INCLUSIONS above
static const UChar INCLUSIONS_PATTERN[] =
{91,94,92,117,51,52,48,49,45,92,117,52,68,66,53,32,
92,117,52,69,48,49,45,92,117,57,70,65,53,32,
92,117,65,67,48,49,45,92,117,68,55,65,51,32,
92,117,68,56,48,49,45,92,117,68,66,55,70,32,
92,117,68,66,56,49,45,92,117,68,66,70,70,32,
92,117,68,67,48,49,45,92,117,68,70,70,70,32,
92,117,69,48,48,49,45,92,117,70,56,70,70,32,
92,85,48,48,48,49,48,52,52,70,45,92,85,48,48,48,49,67,70,70,70,32,
92,85,48,48,48,49,68,56,48,49,45,92,85,48,48,48,49,70,70,70,70,32,
92,85,48,48,48,50,48,48,48,49,45,92,85,48,48,48,50,65,54,68,54,32,
92,85,48,48,48,50,65,54,68,56,45,92,85,48,48,48,50,70,55,70,70,32,
92,85,48,48,48,50,70,65,49,70,45,92,85,48,48,48,69,48,48,48,48,32,
92,85,48,48,48,69,48,48,56,49,45,92,85,48,48,48,69,70,70,70,70,32,
92,85,48,48,48,70,48,48,48,49,45,92,85,48,48,48,70,70,70,70,68,32,
92,85,48,48,49,48,48,48,48,49,45,92,85,48,48,49,48,70,70,70,68,93,0};
// "[^\\u3401-\\u4DB5 \\u4E01-\\u9FA5 \\uAC01-\\uD7A3 \\uD801-\\uDB7F \\uDB81-\\uDBFF \\uDC01-\\uDFFF \\uE001-\\uF8FF \\U0001044F-\\U0001CFFF \\U0001D801-\\U0001FFFF \\U00020001-\\U0002A6D6 \\U0002A6D8-\\U0002F7FF \\U0002FA1F-\\U000E0000 \\U000E0081-\\U000EFFFF \\U000F0001-\\U000FFFFD \\U00100001-\\U0010FFFD]"
//----------------------------------------------------------------
// Public API
//----------------------------------------------------------------
/**
* Return true if the given position, in the given pattern, appears
* to be the start of a property set pattern [:foo:], \p{foo}, or
* \P{foo}.
*/
UBool UnicodePropertySet::resemblesPattern(const UnicodeString& pattern,
int32_t pos) {
// Patterns are at least 5 characters long
if ((pos+5) > pattern.length()) {
return FALSE;
}
// Look for an opening [:, [:^, \p, or \P
return (0 == pattern.compare(pos, 2, POSIX_OPEN)) ||
(0 == pattern.caseCompare(pos, 2, PERL_OPEN, U_FOLD_CASE_DEFAULT));
}
/**
* Create a UnicodeSet by parsing the given pattern at the given
* parse position.
*
* @param pattern the pattern string
* @param ppos on entry, the position at which to begin parsing.
* This shold be one of the locations marked '^':
*
* [:blah:] \p{blah} \P{blah}
* ^ % ^ % ^ %
*
* On return, the position after the last character parsed, that is,
* the locations marked '%'. If the parse fails, ppos is returned
* unchanged.
* @return a newly-constructed UnicodeSet object, or null upon
* failure.
*/
UnicodeSet* UnicodePropertySet::createFromPattern(const UnicodeString& pattern,
ParsePosition& ppos) {
init();
UnicodeSet* set = NULL;
int32_t pos = ppos.getIndex();
// On entry, ppos should point to one of the following locations:
// Minimum length is 5 characters, e.g. \p{L}
if ((pos+5) > pattern.length()) {
return NULL;
}
UBool posix = FALSE; // true for [:pat:], false for \p{pat} \P{pat}
UBool invert = FALSE;
// Look for an opening [:, [:^, \p, or \P
if (0 == pattern.compare(pos, 2, POSIX_OPEN)) {
posix = TRUE;
pos = skipWhitespace(pattern, pos+2);
if (pos < pattern.length() && pattern.charAt(pos) == HAT) {
++pos;
invert = TRUE;
}
} else if (0 == pattern.caseCompare(pos, 2, PERL_OPEN, U_FOLD_CASE_DEFAULT)) {
invert = (pattern.charAt(pos+1) == UPPER_P);
pos = skipWhitespace(pattern, pos+2);
if (pos == pattern.length() || pattern.charAt(pos++) != LEFT_BRACE) {
// Syntax error; "\p" or "\P" not followed by "{"
return NULL;
}
} else {
// Open delimiter not seen
return NULL;
}
// Look for the matching close delimiter, either :] or }
int32_t close = pattern.indexOf(posix ? POSIX_CLOSE : PERL_CLOSE, pos);
if (close < 0) {
// Syntax error; close delimiter missing
return NULL;
}
// Look for an '=' sign. If this is present, we will parse a
// medium \p{gc=Cf} or long \p{GeneralCategory=Format}
// pattern.
int32_t equals = pattern.indexOf(EQUALS, pos);
if (equals >= 0 && equals < close) {
// Equals seen; parse medium/long pattern
UnicodeString typeName = munge(pattern, pos, equals);
UnicodeString valueName = munge(pattern, equals+1, close);
SetFactory factory;
factory = voidPtrToSetFactory(NAME_MAP->get(typeName));
if (factory == NULL) {
// Syntax error; type name not recognized
return NULL;
}
set = (*factory)(valueName);
} else {
// No equals seen; parse short format \p{Cf}
UnicodeString shortName = munge(pattern, pos, close);
// First try general category
set = createCategorySet(shortName);
// If this fails, try script
if (set == NULL) {
set = createScriptSet(shortName);
}
}
// Upon failure, return NULL with ppos unchanged
if (set == NULL) {
return NULL;
}
if (invert) {
set->complement();
}
// Move to the limit position after the close delimiter
ppos.setIndex(close + (posix ? 2 : 1));
return set;
}
//----------------------------------------------------------------
// Property set factory static methods
// NOTE: This will change/go away when we implement UCharacter
// based property retrieval.
//----------------------------------------------------------------
static UBool _numericValueFilter(UChar32 c, void* context) {
int32_t value = * (int32_t*) context;
// TODO: Change this to a more generic function, like
// u_charNumericValue (when one exists).
return u_charDigitValue(c) == value;
}
UnicodeSet* UnicodePropertySet::createNumericValueSet(const UnicodeString& valueName) {
CharString cvalueName(valueName);
UnicodeSet* set = new UnicodeSet();
char* end;
double value = uprv_strtod(cvalueName, &end);
int32_t ivalue = (int32_t) value;
if (ivalue != value || ivalue < 0 || *end != 0) {
// UCharacter doesn't support negative or non-integral
// values, so just return an empty set
return set;
}
initSetFromFilter(*set, _numericValueFilter, &ivalue);
return set;
}
/**
* Given a general category value name, create a corresponding
* set and return it, or return null if the name is invalid.
* @param valueName a pre-munged general category value name
*/
UnicodeSet* UnicodePropertySet::createCategorySet(const UnicodeString& valueName) {
int32_t valueCode = CATEGORY_MAP->geti(valueName);
if (valueCode == 0) {
return NULL;
}
UnicodeSet* set = new UnicodeSet();
if (valueCode == ANY) {
set->complement();
return set;
}
for (int32_t cat=0; cat<U_CHAR_CATEGORY_COUNT; ++cat) {
if ((valueCode & (1 << cat)) != 0) {
set->addAll(getCategorySet(cat));
}
}
return set;
}
/**
* Given a script value name, create a corresponding set and
* return it, or return null if the name is invalid.
* @param valueName a pre-munged script value name
*/
UnicodeSet* UnicodePropertySet::createScriptSet(const UnicodeString& valueName) {
CharString cvalueName(valueName);
UErrorCode ec = U_ZERO_ERROR;
const int32_t capacity = 10;
UScriptCode script[capacity]={USCRIPT_INVALID_CODE};
int32_t num = uscript_getCode(cvalueName,script,capacity, &ec);
if (script[0] == USCRIPT_INVALID_CODE || U_FAILURE(ec)) {
// Syntax error; unknown short name
return NULL;
}
return new UnicodeSet(getScriptSet(script[0]));
}
//----------------------------------------------------------------
// Utility methods
//----------------------------------------------------------------
static UBool _categoryFilter(UChar32 c, void* context) {
int32_t value = * (int32_t*) context;
return u_charType(c) == value;
}
/**
* Returns a UnicodeSet for the given category. This set is
* cached and returned again if this method is called again with
* the same parameter.
*
* Callers MUST NOT MODIFY the returned set.
*/
const UnicodeSet& UnicodePropertySet::getCategorySet(int32_t cat) {
if (CATEGORY_CACHE[cat].isEmpty()) {
initSetFromFilter(CATEGORY_CACHE[cat], _categoryFilter, &cat);
}
return CATEGORY_CACHE[cat];
}
static UBool _scriptFilter(UChar32 c, void* context) {
UScriptCode value = * (UScriptCode*) context;
UErrorCode ec = U_ZERO_ERROR;
return uscript_getScript(c, &ec) == value;
}
/**
* Returns a UnicodeSet for the given script. This set is
* cached and returned again if this method is called again with
* the same parameter.
*
* Callers MUST NOT MODIFY the returned set.
*/
const UnicodeSet& UnicodePropertySet::getScriptSet(UScriptCode script) {
if (SCRIPT_CACHE[script].isEmpty()) {
initSetFromFilter(SCRIPT_CACHE[script], _scriptFilter, &script);
}
return SCRIPT_CACHE[script];
}
/**
* Given a string, munge it to lose the whitespace. So "General
* Category " becomes "GeneralCategory". We munge all type and value
* strings, and store all type and value keys pre-munged. NOTE:
* Unlike the Java version, we do not modify the case, since we use a
* case-insensitive compare function.
*/
UnicodeString UnicodePropertySet::munge(const UnicodeString& str,
int32_t start, int32_t limit) {
UnicodeString buf;
for (int32_t i=start; i<limit; ) {
UChar32 c = str.char32At(i);
i += UTF_CHAR_LENGTH(c);
if (!u_isspace(c)) {
buf.append(c);
}
}
return buf;
}
/**
* Skip over a sequence of zero or more white space characters
* at pos. Return the index of the first non-white-space character
* at or after pos, or str.length(), if there is none.
*/
int32_t UnicodePropertySet::skipWhitespace(const UnicodeString& str,
int32_t pos) {
while (pos < str.length()) {
UChar32 c = str.char32At(pos);
if (!u_isspace(c)) {
break;
}
pos += UTF_CHAR_LENGTH(c);
}
return pos;
}
//----------------------------------------------------------------
// Generic filter-based scanning code
//
// NOTE: In general, we don't want to do this! This is a temporary
// implementation until we have time for something that examines
// the underlying UCharacter data structures in an intelligent
// way. Iterating over all code points is dumb. What we want to
// do, for instance, is iterate over internally-stored ranges
// of characters that have a given property.
//----------------------------------------------------------------
void UnicodePropertySet::initSetFromFilter(UnicodeSet& set, Filter filter,
void* context) {
// Walk through all Unicode characters, noting the start
// and end of each range for which filter.contain(c) is
// true. Add each range to a set.
//
// To improve performance, use the INCLUSIONS set, which
// encodes information about character ranges that are known
// to have identical properties, such as the CJK Ideographs
// from U+4E00 to U+9FA5. INCLUSIONS contains all characters
// except the first characters of such ranges.
//
// TODO Where possible, instead of scanning over code points,
// use internal property data to initialize UnicodeSets for
// those properties. Scanning code points is slow.
if (INCLUSIONS == NULL) {
Mutex lock;
if (INCLUSIONS == NULL) {
UErrorCode ec = U_ZERO_ERROR;
INCLUSIONS = new UnicodeSet(INCLUSIONS_PATTERN, ec);
}
}
set.clear();
int32_t startHasProperty = -1;
int limitRange = INCLUSIONS->getRangeCount();
for (int j=0; j<limitRange; ++j) {
// get current range
UChar32 start = INCLUSIONS->getRangeStart(j);
UChar32 end = INCLUSIONS->getRangeEnd(j);
// for all the code points in the range, process
for (UChar32 ch = start; ch <= end; ++ch) {
// only add to the unicodeset on inflection points --
// where the hasProperty value changes to false
if ((*filter)((UChar32) ch, context)) {
if (startHasProperty < 0) {
startHasProperty = ch;
}
} else if (startHasProperty >= 0) {
set.add((UChar32)startHasProperty, (UChar32)ch-1);
startHasProperty = -1;
}
}
}
if (startHasProperty >= 0) {
set.add((UChar32)startHasProperty, (UChar32)0x10FFFF);
}
}
//----------------------------------------------------------------
// Type and value name maps
//----------------------------------------------------------------
/**
* Add a type mapping to the name map.
*/
void UnicodePropertySet::addType(const UnicodeString& shortName,
const UnicodeString& longName,
SetFactory factory) {
UErrorCode ec = U_ZERO_ERROR;
void* p = setFactoryToVoidPtr(factory);
NAME_MAP->put(shortName, p, ec);
NAME_MAP->put(longName, p, ec);
}
/**
* Add a value mapping to the name map.
*/
void UnicodePropertySet::addValue(Hashtable* map,
const UnicodeString& shortName,
const UnicodeString& longName,
int32_t value) {
// assert(value != 0);
UErrorCode ec = U_ZERO_ERROR;
map->puti(shortName, value, ec);
if (longName.length() != 0) {
map->puti(longName, value, ec);
}
}
void UnicodePropertySet::init() {
if (NAME_MAP != NULL) {
return;
}
NAME_MAP = new Hashtable(TRUE);
CATEGORY_MAP = new Hashtable(TRUE);
CATEGORY_CACHE = new UnicodeSet[U_CHAR_CATEGORY_COUNT];
SCRIPT_CACHE = new UnicodeSet[USCRIPT_CODE_LIMIT];
ucln_i18n_registerCleanup(); // Call this when allocating statics
// NOTE: We munge all search keys to have no whitespace
// and upper case. As such, all stored keys should have
// this format.
// Load the map with type data
addType("GC", "GENERALCATEGORY", createCategorySet);
//addType("CC", "COMBININGCLASS", COMBINING_CLASS);
//addType("BC", "BIDICLASS", BIDI_CLASS);
//addType("DT", "DECOMPOSITIONTYPE", DECOMPOSITION_TYPE);
addType("NV", "NUMERICVALUE", createNumericValueSet);
//addType("NT", "NUMERICTYPE", NUMERIC_TYPE);
//addType("EA", "EASTASIANWIDTH", EAST_ASIAN_WIDTH);
//addType("LB", "LINEBREAK", LINE_BREAK);
//addType("JT", "JOININGTYPE", JOINING_TYPE);
addType("SC", "SCRIPT", createScriptSet);
// Load the map with value data
// General Category
addValue(CATEGORY_MAP, "ANY", "", ANY); // special case
addValue(CATEGORY_MAP, "C", "OTHER",
(1 << U_CONTROL_CHAR) |
(1 << U_FORMAT_CHAR) |
(1 << U_GENERAL_OTHER_TYPES) |
(1 << U_PRIVATE_USE_CHAR) |
(1 << U_SURROGATE));
addValue(CATEGORY_MAP, "CC", "CONTROL",
1 << U_CONTROL_CHAR);
addValue(CATEGORY_MAP, "CF", "FORMAT",
1 << U_FORMAT_CHAR);
addValue(CATEGORY_MAP, "CN", "UNASSIGNED",
1 << U_GENERAL_OTHER_TYPES);
addValue(CATEGORY_MAP, "CO", "PRIVATEUSE",
1 << U_PRIVATE_USE_CHAR);
addValue(CATEGORY_MAP, "CS", "SURROGATE",
1 << U_SURROGATE);
addValue(CATEGORY_MAP, "L", "LETTER",
(1 << U_LOWERCASE_LETTER) |
(1 << U_MODIFIER_LETTER) |
(1 << U_OTHER_LETTER) |
(1 << U_TITLECASE_LETTER) |
(1 << U_UPPERCASE_LETTER));
addValue(CATEGORY_MAP, "LL", "LOWERCASELETTER",
1 << U_LOWERCASE_LETTER);
addValue(CATEGORY_MAP, "LM", "MODIFIERLETTER",
1 << U_MODIFIER_LETTER);
addValue(CATEGORY_MAP, "LO", "OTHERLETTER",
1 << U_OTHER_LETTER);
addValue(CATEGORY_MAP, "LT", "TITLECASELETTER",
1 << U_TITLECASE_LETTER);
addValue(CATEGORY_MAP, "LU", "UPPERCASELETTER",
1 << U_UPPERCASE_LETTER);
addValue(CATEGORY_MAP, "M", "MARK",
(1 << U_NON_SPACING_MARK) |
(1 << U_COMBINING_SPACING_MARK) |
(1 << U_ENCLOSING_MARK));
addValue(CATEGORY_MAP, "MN", "NONSPACINGMARK",
1 << U_NON_SPACING_MARK);
addValue(CATEGORY_MAP, "MC", "SPACINGMARK",
1 << U_COMBINING_SPACING_MARK);
addValue(CATEGORY_MAP, "ME", "ENCLOSINGMARK",
1 << U_ENCLOSING_MARK);
addValue(CATEGORY_MAP, "N", "NUMBER",
(1 << U_DECIMAL_DIGIT_NUMBER) |
(1 << U_LETTER_NUMBER) |
(1 << U_OTHER_NUMBER));
addValue(CATEGORY_MAP, "ND", "DECIMALNUMBER",
1 << U_DECIMAL_DIGIT_NUMBER);
addValue(CATEGORY_MAP, "NL", "LETTERNUMBER",
1 << U_LETTER_NUMBER);
addValue(CATEGORY_MAP, "NO", "OTHERNUMBER",
1 << U_OTHER_NUMBER);
addValue(CATEGORY_MAP, "P", "PUNCTUATION",
(1 << U_CONNECTOR_PUNCTUATION) |
(1 << U_DASH_PUNCTUATION) |
(1 << U_END_PUNCTUATION) |
(1 << U_FINAL_PUNCTUATION) |
(1 << U_INITIAL_PUNCTUATION) |
(1 << U_OTHER_PUNCTUATION) |
(1 << U_START_PUNCTUATION));
addValue(CATEGORY_MAP, "PC", "CONNECTORPUNCTUATION",
1 << U_CONNECTOR_PUNCTUATION);
addValue(CATEGORY_MAP, "PD", "DASHPUNCTUATION",
1 << U_DASH_PUNCTUATION);
addValue(CATEGORY_MAP, "PE", "ENDPUNCTUATION",
1 << U_END_PUNCTUATION);
addValue(CATEGORY_MAP, "PF", "FINALPUNCTUATION",
1 << U_FINAL_PUNCTUATION);
addValue(CATEGORY_MAP, "PI", "INITIALPUNCTUATION",
1 << U_INITIAL_PUNCTUATION);
addValue(CATEGORY_MAP, "PO", "OTHERPUNCTUATION",
1 << U_OTHER_PUNCTUATION);
addValue(CATEGORY_MAP, "PS", "STARTPUNCTUATION",
1 << U_START_PUNCTUATION);
addValue(CATEGORY_MAP, "S", "SYMBOL",
(1 << U_CURRENCY_SYMBOL) |
(1 << U_MODIFIER_SYMBOL) |
(1 << U_MATH_SYMBOL) |
(1 << U_OTHER_SYMBOL));
addValue(CATEGORY_MAP, "SC", "CURRENCYSYMBOL",
1 << U_CURRENCY_SYMBOL);
addValue(CATEGORY_MAP, "SK", "MODIFIERSYMBOL",
1 << U_MODIFIER_SYMBOL);
addValue(CATEGORY_MAP, "SM", "MATHSYMBOL",
1 << U_MATH_SYMBOL);
addValue(CATEGORY_MAP, "SO", "OTHERSYMBOL",
1 << U_OTHER_SYMBOL);
addValue(CATEGORY_MAP, "Z", "SEPARATOR",
(1 << U_LINE_SEPARATOR) |
(1 << U_PARAGRAPH_SEPARATOR) |
(1 << U_SPACE_SEPARATOR));
addValue(CATEGORY_MAP, "ZL", "LINESEPARATOR",
1 << U_LINE_SEPARATOR);
addValue(CATEGORY_MAP, "ZP", "PARAGRAPHSEPARATOR",
1 << U_PARAGRAPH_SEPARATOR);
addValue(CATEGORY_MAP, "ZS", "SPACESEPARATOR",
1 << U_SPACE_SEPARATOR);
}
void UnicodePropertySet::cleanup() {
if (NAME_MAP != NULL) {
delete NAME_MAP; NAME_MAP = NULL;
delete CATEGORY_MAP; CATEGORY_MAP = NULL;
delete[] CATEGORY_CACHE; CATEGORY_CACHE = NULL;
delete[] SCRIPT_CACHE; SCRIPT_CACHE = NULL;
delete INCLUSIONS; INCLUSIONS = NULL;
}
}
U_NAMESPACE_END
//eof