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author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
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committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /intl/icu/source/common/uniset.cpp | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
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Add m-esr52 at 52.6.0
Diffstat (limited to 'intl/icu/source/common/uniset.cpp')
-rw-r--r-- | intl/icu/source/common/uniset.cpp | 2362 |
1 files changed, 2362 insertions, 0 deletions
diff --git a/intl/icu/source/common/uniset.cpp b/intl/icu/source/common/uniset.cpp new file mode 100644 index 000000000..7866719a1 --- /dev/null +++ b/intl/icu/source/common/uniset.cpp @@ -0,0 +1,2362 @@ +// Copyright (C) 2016 and later: Unicode, Inc. and others. +// License & terms of use: http://www.unicode.org/copyright.html +/* +********************************************************************** +* Copyright (C) 1999-2015, International Business Machines +* Corporation and others. All Rights Reserved. +********************************************************************** +* Date Name Description +* 10/20/99 alan Creation. +********************************************************************** +*/ + +#include "unicode/utypes.h" +#include "unicode/parsepos.h" +#include "unicode/symtable.h" +#include "unicode/uniset.h" +#include "unicode/utf8.h" +#include "unicode/utf16.h" +#include "ruleiter.h" +#include "cmemory.h" +#include "cstring.h" +#include "patternprops.h" +#include "uelement.h" +#include "util.h" +#include "uvector.h" +#include "charstr.h" +#include "ustrfmt.h" +#include "uassert.h" +#include "bmpset.h" +#include "unisetspan.h" + +// Define UChar constants using hex for EBCDIC compatibility +// Used #define to reduce private static exports and memory access time. +#define SET_OPEN ((UChar)0x005B) /*[*/ +#define SET_CLOSE ((UChar)0x005D) /*]*/ +#define HYPHEN ((UChar)0x002D) /*-*/ +#define COMPLEMENT ((UChar)0x005E) /*^*/ +#define COLON ((UChar)0x003A) /*:*/ +#define BACKSLASH ((UChar)0x005C) /*\*/ +#define INTERSECTION ((UChar)0x0026) /*&*/ +#define UPPER_U ((UChar)0x0055) /*U*/ +#define LOWER_U ((UChar)0x0075) /*u*/ +#define OPEN_BRACE ((UChar)123) /*{*/ +#define CLOSE_BRACE ((UChar)125) /*}*/ +#define UPPER_P ((UChar)0x0050) /*P*/ +#define LOWER_P ((UChar)0x0070) /*p*/ +#define UPPER_N ((UChar)78) /*N*/ +#define EQUALS ((UChar)0x003D) /*=*/ + +// HIGH_VALUE > all valid values. 110000 for codepoints +#define UNICODESET_HIGH 0x0110000 + +// LOW <= all valid values. ZERO for codepoints +#define UNICODESET_LOW 0x000000 + +// initial storage. Must be >= 0 +#define START_EXTRA 16 + +// extra amount for growth. Must be >= 0 +#define GROW_EXTRA START_EXTRA + +U_NAMESPACE_BEGIN + +SymbolTable::~SymbolTable() {} + +UOBJECT_DEFINE_RTTI_IMPLEMENTATION(UnicodeSet) + +/** + * Modify the given UChar32 variable so that it is in range, by + * pinning values < UNICODESET_LOW to UNICODESET_LOW, and + * pinning values > UNICODESET_HIGH-1 to UNICODESET_HIGH-1. + * It modifies its argument in-place and also returns it. + */ +static inline UChar32 pinCodePoint(UChar32& c) { + if (c < UNICODESET_LOW) { + c = UNICODESET_LOW; + } else if (c > (UNICODESET_HIGH-1)) { + c = (UNICODESET_HIGH-1); + } + return c; +} + +//---------------------------------------------------------------- +// Debugging +//---------------------------------------------------------------- + +// DO NOT DELETE THIS CODE. This code is used to debug memory leaks. +// To enable the debugging, define the symbol DEBUG_MEM in the line +// below. This will result in text being sent to stdout that looks +// like this: +// DEBUG UnicodeSet: ct 0x00A39B20; 397 [\u0A81-\u0A83\u0A85- +// DEBUG UnicodeSet: dt 0x00A39B20; 396 [\u0A81-\u0A83\u0A85- +// Each line lists a construction (ct) or destruction (dt) event, the +// object address, the number of outstanding objects after the event, +// and the pattern of the object in question. + +// #define DEBUG_MEM + +#ifdef DEBUG_MEM +#include <stdio.h> +static int32_t _dbgCount = 0; + +static inline void _dbgct(UnicodeSet* set) { + UnicodeString str; + set->toPattern(str, TRUE); + char buf[40]; + str.extract(0, 39, buf, ""); + printf("DEBUG UnicodeSet: ct 0x%08X; %d %s\n", set, ++_dbgCount, buf); +} + +static inline void _dbgdt(UnicodeSet* set) { + UnicodeString str; + set->toPattern(str, TRUE); + char buf[40]; + str.extract(0, 39, buf, ""); + printf("DEBUG UnicodeSet: dt 0x%08X; %d %s\n", set, --_dbgCount, buf); +} + +#else + +#define _dbgct(set) +#define _dbgdt(set) + +#endif + +//---------------------------------------------------------------- +// UnicodeString in UVector support +//---------------------------------------------------------------- + +static void U_CALLCONV cloneUnicodeString(UElement *dst, UElement *src) { + dst->pointer = new UnicodeString(*(UnicodeString*)src->pointer); +} + +static int8_t U_CALLCONV compareUnicodeString(UElement t1, UElement t2) { + const UnicodeString &a = *(const UnicodeString*)t1.pointer; + const UnicodeString &b = *(const UnicodeString*)t2.pointer; + return a.compare(b); +} + +//---------------------------------------------------------------- +// Constructors &c +//---------------------------------------------------------------- + +/** + * Constructs an empty set. + */ +UnicodeSet::UnicodeSet() : + len(1), capacity(1 + START_EXTRA), list(0), bmpSet(0), buffer(0), + bufferCapacity(0), patLen(0), pat(NULL), strings(NULL), stringSpan(NULL), + fFlags(0) +{ + UErrorCode status = U_ZERO_ERROR; + allocateStrings(status); + if (U_FAILURE(status)) { + return; + } + list = (UChar32*) uprv_malloc(sizeof(UChar32) * capacity); + if(list!=NULL){ + list[0] = UNICODESET_HIGH; + } else { // If memory allocation failed, set to bogus state. + setToBogus(); + return; + } + _dbgct(this); +} + +/** + * Constructs a set containing the given range. If <code>end > + * start</code> then an empty set is created. + * + * @param start first character, inclusive, of range + * @param end last character, inclusive, of range + */ +UnicodeSet::UnicodeSet(UChar32 start, UChar32 end) : + len(1), capacity(1 + START_EXTRA), list(0), bmpSet(0), buffer(0), + bufferCapacity(0), patLen(0), pat(NULL), strings(NULL), stringSpan(NULL), + fFlags(0) +{ + UErrorCode status = U_ZERO_ERROR; + allocateStrings(status); + if (U_FAILURE(status)) { + return; + } + list = (UChar32*) uprv_malloc(sizeof(UChar32) * capacity); + if(list!=NULL){ + list[0] = UNICODESET_HIGH; + complement(start, end); + } else { // If memory allocation failed, set to bogus state. + setToBogus(); + return; + } + _dbgct(this); +} + +/** + * Constructs a set that is identical to the given UnicodeSet. + */ +UnicodeSet::UnicodeSet(const UnicodeSet& o) : + UnicodeFilter(o), + len(0), capacity(o.isFrozen() ? o.len : o.len + GROW_EXTRA), list(0), + bmpSet(0), + buffer(0), bufferCapacity(0), + patLen(0), pat(NULL), strings(NULL), stringSpan(NULL), + fFlags(0) +{ + UErrorCode status = U_ZERO_ERROR; + allocateStrings(status); + if (U_FAILURE(status)) { + return; + } + list = (UChar32*) uprv_malloc(sizeof(UChar32) * capacity); + if(list!=NULL){ + *this = o; + } else { // If memory allocation failed, set to bogus state. + setToBogus(); + return; + } + _dbgct(this); +} + +// Copy-construct as thawed. +UnicodeSet::UnicodeSet(const UnicodeSet& o, UBool /* asThawed */) : + UnicodeFilter(o), + len(0), capacity(o.len + GROW_EXTRA), list(0), + bmpSet(0), + buffer(0), bufferCapacity(0), + patLen(0), pat(NULL), strings(NULL), stringSpan(NULL), + fFlags(0) +{ + UErrorCode status = U_ZERO_ERROR; + allocateStrings(status); + if (U_FAILURE(status)) { + return; + } + list = (UChar32*) uprv_malloc(sizeof(UChar32) * capacity); + if(list!=NULL){ + // *this = o except for bmpSet and stringSpan + len = o.len; + uprv_memcpy(list, o.list, (size_t)len*sizeof(UChar32)); + if (strings != NULL && o.strings != NULL) { + strings->assign(*o.strings, cloneUnicodeString, status); + } else { // Invalid strings. + setToBogus(); + return; + } + if (o.pat) { + setPattern(UnicodeString(o.pat, o.patLen)); + } + } else { // If memory allocation failed, set to bogus state. + setToBogus(); + return; + } + _dbgct(this); +} + +/** + * Destructs the set. + */ +UnicodeSet::~UnicodeSet() { + _dbgdt(this); // first! + uprv_free(list); + delete bmpSet; + if (buffer) { + uprv_free(buffer); + } + delete strings; + delete stringSpan; + releasePattern(); +} + +/** + * Assigns this object to be a copy of another. + */ +UnicodeSet& UnicodeSet::operator=(const UnicodeSet& o) { + if (this == &o) { + return *this; + } + if (isFrozen()) { + return *this; + } + if (o.isBogus()) { + setToBogus(); + return *this; + } + UErrorCode ec = U_ZERO_ERROR; + ensureCapacity(o.len, ec); + if (U_FAILURE(ec)) { + return *this; // There is no way to report this error :-( + } + len = o.len; + uprv_memcpy(list, o.list, (size_t)len*sizeof(UChar32)); + if (o.bmpSet == NULL) { + bmpSet = NULL; + } else { + bmpSet = new BMPSet(*o.bmpSet, list, len); + if (bmpSet == NULL) { // Check for memory allocation error. + setToBogus(); + return *this; + } + } + if (strings != NULL && o.strings != NULL) { + strings->assign(*o.strings, cloneUnicodeString, ec); + } else { // Invalid strings. + setToBogus(); + return *this; + } + if (o.stringSpan == NULL) { + stringSpan = NULL; + } else { + stringSpan = new UnicodeSetStringSpan(*o.stringSpan, *strings); + if (stringSpan == NULL) { // Check for memory allocation error. + setToBogus(); + return *this; + } + } + releasePattern(); + if (o.pat) { + setPattern(UnicodeString(o.pat, o.patLen)); + } + return *this; +} + +/** + * Returns a copy of this object. All UnicodeMatcher objects have + * to support cloning in order to allow classes using + * UnicodeMatchers, such as Transliterator, to implement cloning. + */ +UnicodeFunctor* UnicodeSet::clone() const { + return new UnicodeSet(*this); +} + +UnicodeFunctor *UnicodeSet::cloneAsThawed() const { + return new UnicodeSet(*this, TRUE); +} + +/** + * Compares the specified object with this set for equality. Returns + * <tt>true</tt> if the two sets + * have the same size, and every member of the specified set is + * contained in this set (or equivalently, every member of this set is + * contained in the specified set). + * + * @param o set to be compared for equality with this set. + * @return <tt>true</tt> if the specified set is equal to this set. + */ +UBool UnicodeSet::operator==(const UnicodeSet& o) const { + if (len != o.len) return FALSE; + for (int32_t i = 0; i < len; ++i) { + if (list[i] != o.list[i]) return FALSE; + } + if (*strings != *o.strings) return FALSE; + return TRUE; +} + +/** + * Returns the hash code value for this set. + * + * @return the hash code value for this set. + * @see Object#hashCode() + */ +int32_t UnicodeSet::hashCode(void) const { + int32_t result = len; + for (int32_t i = 0; i < len; ++i) { + result *= 1000003; + result += list[i]; + } + return result; +} + +//---------------------------------------------------------------- +// Public API +//---------------------------------------------------------------- + +/** + * Returns the number of elements in this set (its cardinality), + * Note than the elements of a set may include both individual + * codepoints and strings. + * + * @return the number of elements in this set (its cardinality). + */ +int32_t UnicodeSet::size(void) const { + int32_t n = 0; + int32_t count = getRangeCount(); + for (int32_t i = 0; i < count; ++i) { + n += getRangeEnd(i) - getRangeStart(i) + 1; + } + return n + strings->size(); +} + +/** + * Returns <tt>true</tt> if this set contains no elements. + * + * @return <tt>true</tt> if this set contains no elements. + */ +UBool UnicodeSet::isEmpty(void) const { + return len == 1 && strings->size() == 0; +} + +/** + * Returns true if this set contains the given character. + * @param c character to be checked for containment + * @return true if the test condition is met + */ +UBool UnicodeSet::contains(UChar32 c) const { + // Set i to the index of the start item greater than ch + // We know we will terminate without length test! + // LATER: for large sets, add binary search + //int32_t i = -1; + //for (;;) { + // if (c < list[++i]) break; + //} + if (bmpSet != NULL) { + return bmpSet->contains(c); + } + if (stringSpan != NULL) { + return stringSpan->contains(c); + } + if (c >= UNICODESET_HIGH) { // Don't need to check LOW bound + return FALSE; + } + int32_t i = findCodePoint(c); + return (UBool)(i & 1); // return true if odd +} + +/** + * Returns the smallest value i such that c < list[i]. Caller + * must ensure that c is a legal value or this method will enter + * an infinite loop. This method performs a binary search. + * @param c a character in the range MIN_VALUE..MAX_VALUE + * inclusive + * @return the smallest integer i in the range 0..len-1, + * inclusive, such that c < list[i] + */ +int32_t UnicodeSet::findCodePoint(UChar32 c) const { + /* Examples: + findCodePoint(c) + set list[] c=0 1 3 4 7 8 + === ============== =========== + [] [110000] 0 0 0 0 0 0 + [\u0000-\u0003] [0, 4, 110000] 1 1 1 2 2 2 + [\u0004-\u0007] [4, 8, 110000] 0 0 0 1 1 2 + [:Any:] [0, 110000] 1 1 1 1 1 1 + */ + + // Return the smallest i such that c < list[i]. Assume + // list[len - 1] == HIGH and that c is legal (0..HIGH-1). + if (c < list[0]) + return 0; + // High runner test. c is often after the last range, so an + // initial check for this condition pays off. + int32_t lo = 0; + int32_t hi = len - 1; + if (lo >= hi || c >= list[hi-1]) + return hi; + // invariant: c >= list[lo] + // invariant: c < list[hi] + for (;;) { + int32_t i = (lo + hi) >> 1; + if (i == lo) { + break; // Found! + } else if (c < list[i]) { + hi = i; + } else { + lo = i; + } + } + return hi; +} + +/** + * Returns true if this set contains every character + * of the given range. + * @param start first character, inclusive, of the range + * @param end last character, inclusive, of the range + * @return true if the test condition is met + */ +UBool UnicodeSet::contains(UChar32 start, UChar32 end) const { + //int32_t i = -1; + //for (;;) { + // if (start < list[++i]) break; + //} + int32_t i = findCodePoint(start); + return ((i & 1) != 0 && end < list[i]); +} + +/** + * Returns <tt>true</tt> if this set contains the given + * multicharacter string. + * @param s string to be checked for containment + * @return <tt>true</tt> if this set contains the specified string + */ +UBool UnicodeSet::contains(const UnicodeString& s) const { + if (s.length() == 0) return FALSE; + int32_t cp = getSingleCP(s); + if (cp < 0) { + return strings->contains((void*) &s); + } else { + return contains((UChar32) cp); + } +} + +/** + * Returns true if this set contains all the characters and strings + * of the given set. + * @param c set to be checked for containment + * @return true if the test condition is met + */ +UBool UnicodeSet::containsAll(const UnicodeSet& c) const { + // The specified set is a subset if all of its pairs are contained in + // this set. It's possible to code this more efficiently in terms of + // direct manipulation of the inversion lists if the need arises. + int32_t n = c.getRangeCount(); + for (int i=0; i<n; ++i) { + if (!contains(c.getRangeStart(i), c.getRangeEnd(i))) { + return FALSE; + } + } + if (!strings->containsAll(*c.strings)) return FALSE; + return TRUE; +} + +/** + * Returns true if this set contains all the characters + * of the given string. + * @param s string containing characters to be checked for containment + * @return true if the test condition is met + */ +UBool UnicodeSet::containsAll(const UnicodeString& s) const { + return (UBool)(span(s.getBuffer(), s.length(), USET_SPAN_CONTAINED) == + s.length()); +} + +/** + * Returns true if this set contains none of the characters + * of the given range. + * @param start first character, inclusive, of the range + * @param end last character, inclusive, of the range + * @return true if the test condition is met + */ +UBool UnicodeSet::containsNone(UChar32 start, UChar32 end) const { + //int32_t i = -1; + //for (;;) { + // if (start < list[++i]) break; + //} + int32_t i = findCodePoint(start); + return ((i & 1) == 0 && end < list[i]); +} + +/** + * Returns true if this set contains none of the characters and strings + * of the given set. + * @param c set to be checked for containment + * @return true if the test condition is met + */ +UBool UnicodeSet::containsNone(const UnicodeSet& c) const { + // The specified set is a subset if all of its pairs are contained in + // this set. It's possible to code this more efficiently in terms of + // direct manipulation of the inversion lists if the need arises. + int32_t n = c.getRangeCount(); + for (int32_t i=0; i<n; ++i) { + if (!containsNone(c.getRangeStart(i), c.getRangeEnd(i))) { + return FALSE; + } + } + if (!strings->containsNone(*c.strings)) return FALSE; + return TRUE; +} + +/** + * Returns true if this set contains none of the characters + * of the given string. + * @param s string containing characters to be checked for containment + * @return true if the test condition is met + */ +UBool UnicodeSet::containsNone(const UnicodeString& s) const { + return (UBool)(span(s.getBuffer(), s.length(), USET_SPAN_NOT_CONTAINED) == + s.length()); +} + +/** + * Returns <tt>true</tt> if this set contains any character whose low byte + * is the given value. This is used by <tt>RuleBasedTransliterator</tt> for + * indexing. + */ +UBool UnicodeSet::matchesIndexValue(uint8_t v) const { + /* The index value v, in the range [0,255], is contained in this set if + * it is contained in any pair of this set. Pairs either have the high + * bytes equal, or unequal. If the high bytes are equal, then we have + * aaxx..aayy, where aa is the high byte. Then v is contained if xx <= + * v <= yy. If the high bytes are unequal we have aaxx..bbyy, bb>aa. + * Then v is contained if xx <= v || v <= yy. (This is identical to the + * time zone month containment logic.) + */ + int32_t i; + int32_t rangeCount=getRangeCount(); + for (i=0; i<rangeCount; ++i) { + UChar32 low = getRangeStart(i); + UChar32 high = getRangeEnd(i); + if ((low & ~0xFF) == (high & ~0xFF)) { + if ((low & 0xFF) <= v && v <= (high & 0xFF)) { + return TRUE; + } + } else if ((low & 0xFF) <= v || v <= (high & 0xFF)) { + return TRUE; + } + } + if (strings->size() != 0) { + for (i=0; i<strings->size(); ++i) { + const UnicodeString& s = *(const UnicodeString*)strings->elementAt(i); + //if (s.length() == 0) { + // // Empty strings match everything + // return TRUE; + //} + // assert(s.length() != 0); // We enforce this elsewhere + UChar32 c = s.char32At(0); + if ((c & 0xFF) == v) { + return TRUE; + } + } + } + return FALSE; +} + +/** + * Implementation of UnicodeMatcher::matches(). Always matches the + * longest possible multichar string. + */ +UMatchDegree UnicodeSet::matches(const Replaceable& text, + int32_t& offset, + int32_t limit, + UBool incremental) { + if (offset == limit) { + // Strings, if any, have length != 0, so we don't worry + // about them here. If we ever allow zero-length strings + // we much check for them here. + if (contains(U_ETHER)) { + return incremental ? U_PARTIAL_MATCH : U_MATCH; + } else { + return U_MISMATCH; + } + } else { + if (strings->size() != 0) { // try strings first + + // might separate forward and backward loops later + // for now they are combined + + // TODO Improve efficiency of this, at least in the forward + // direction, if not in both. In the forward direction we + // can assume the strings are sorted. + + int32_t i; + UBool forward = offset < limit; + + // firstChar is the leftmost char to match in the + // forward direction or the rightmost char to match in + // the reverse direction. + UChar firstChar = text.charAt(offset); + + // If there are multiple strings that can match we + // return the longest match. + int32_t highWaterLength = 0; + + for (i=0; i<strings->size(); ++i) { + const UnicodeString& trial = *(const UnicodeString*)strings->elementAt(i); + + //if (trial.length() == 0) { + // return U_MATCH; // null-string always matches + //} + // assert(trial.length() != 0); // We ensure this elsewhere + + UChar c = trial.charAt(forward ? 0 : trial.length() - 1); + + // Strings are sorted, so we can optimize in the + // forward direction. + if (forward && c > firstChar) break; + if (c != firstChar) continue; + + int32_t matchLen = matchRest(text, offset, limit, trial); + + if (incremental) { + int32_t maxLen = forward ? limit-offset : offset-limit; + if (matchLen == maxLen) { + // We have successfully matched but only up to limit. + return U_PARTIAL_MATCH; + } + } + + if (matchLen == trial.length()) { + // We have successfully matched the whole string. + if (matchLen > highWaterLength) { + highWaterLength = matchLen; + } + // In the forward direction we know strings + // are sorted so we can bail early. + if (forward && matchLen < highWaterLength) { + break; + } + continue; + } + } + + // We've checked all strings without a partial match. + // If we have full matches, return the longest one. + if (highWaterLength != 0) { + offset += forward ? highWaterLength : -highWaterLength; + return U_MATCH; + } + } + return UnicodeFilter::matches(text, offset, limit, incremental); + } +} + +/** + * Returns the longest match for s in text at the given position. + * If limit > start then match forward from start+1 to limit + * matching all characters except s.charAt(0). If limit < start, + * go backward starting from start-1 matching all characters + * except s.charAt(s.length()-1). This method assumes that the + * first character, text.charAt(start), matches s, so it does not + * check it. + * @param text the text to match + * @param start the first character to match. In the forward + * direction, text.charAt(start) is matched against s.charAt(0). + * In the reverse direction, it is matched against + * s.charAt(s.length()-1). + * @param limit the limit offset for matching, either last+1 in + * the forward direction, or last-1 in the reverse direction, + * where last is the index of the last character to match. + * @return If part of s matches up to the limit, return |limit - + * start|. If all of s matches before reaching the limit, return + * s.length(). If there is a mismatch between s and text, return + * 0 + */ +int32_t UnicodeSet::matchRest(const Replaceable& text, + int32_t start, int32_t limit, + const UnicodeString& s) { + int32_t i; + int32_t maxLen; + int32_t slen = s.length(); + if (start < limit) { + maxLen = limit - start; + if (maxLen > slen) maxLen = slen; + for (i = 1; i < maxLen; ++i) { + if (text.charAt(start + i) != s.charAt(i)) return 0; + } + } else { + maxLen = start - limit; + if (maxLen > slen) maxLen = slen; + --slen; // <=> slen = s.length() - 1; + for (i = 1; i < maxLen; ++i) { + if (text.charAt(start - i) != s.charAt(slen - i)) return 0; + } + } + return maxLen; +} + +/** + * Implement of UnicodeMatcher + */ +void UnicodeSet::addMatchSetTo(UnicodeSet& toUnionTo) const { + toUnionTo.addAll(*this); +} + +/** + * Returns the index of the given character within this set, where + * the set is ordered by ascending code point. If the character + * is not in this set, return -1. The inverse of this method is + * <code>charAt()</code>. + * @return an index from 0..size()-1, or -1 + */ +int32_t UnicodeSet::indexOf(UChar32 c) const { + if (c < MIN_VALUE || c > MAX_VALUE) { + return -1; + } + int32_t i = 0; + int32_t n = 0; + for (;;) { + UChar32 start = list[i++]; + if (c < start) { + return -1; + } + UChar32 limit = list[i++]; + if (c < limit) { + return n + c - start; + } + n += limit - start; + } +} + +/** + * Returns the character at the given index within this set, where + * the set is ordered by ascending code point. If the index is + * out of range, return (UChar32)-1. The inverse of this method is + * <code>indexOf()</code>. + * @param index an index from 0..size()-1 + * @return the character at the given index, or (UChar32)-1. + */ +UChar32 UnicodeSet::charAt(int32_t index) const { + if (index >= 0) { + // len2 is the largest even integer <= len, that is, it is len + // for even values and len-1 for odd values. With odd values + // the last entry is UNICODESET_HIGH. + int32_t len2 = len & ~1; + for (int32_t i=0; i < len2;) { + UChar32 start = list[i++]; + int32_t count = list[i++] - start; + if (index < count) { + return (UChar32)(start + index); + } + index -= count; + } + } + return (UChar32)-1; +} + +/** + * Make this object represent the range <code>start - end</code>. + * If <code>end > start</code> then this object is set to an + * an empty range. + * + * @param start first character in the set, inclusive + * @rparam end last character in the set, inclusive + */ +UnicodeSet& UnicodeSet::set(UChar32 start, UChar32 end) { + clear(); + complement(start, end); + return *this; +} + +/** + * Adds the specified range to this set if it is not already + * present. If this set already contains the specified range, + * the call leaves this set unchanged. If <code>end > start</code> + * then an empty range is added, leaving the set unchanged. + * + * @param start first character, inclusive, of range to be added + * to this set. + * @param end last character, inclusive, of range to be added + * to this set. + */ +UnicodeSet& UnicodeSet::add(UChar32 start, UChar32 end) { + if (pinCodePoint(start) < pinCodePoint(end)) { + UChar32 range[3] = { start, end+1, UNICODESET_HIGH }; + add(range, 2, 0); + } else if (start == end) { + add(start); + } + return *this; +} + +// #define DEBUG_US_ADD + +#ifdef DEBUG_US_ADD +#include <stdio.h> +void dump(UChar32 c) { + if (c <= 0xFF) { + printf("%c", (char)c); + } else { + printf("U+%04X", c); + } +} +void dump(const UChar32* list, int32_t len) { + printf("["); + for (int32_t i=0; i<len; ++i) { + if (i != 0) printf(", "); + dump(list[i]); + } + printf("]"); +} +#endif + +/** + * Adds the specified character to this set if it is not already + * present. If this set already contains the specified character, + * the call leaves this set unchanged. + */ +UnicodeSet& UnicodeSet::add(UChar32 c) { + // find smallest i such that c < list[i] + // if odd, then it is IN the set + // if even, then it is OUT of the set + int32_t i = findCodePoint(pinCodePoint(c)); + + // already in set? + if ((i & 1) != 0 || isFrozen() || isBogus()) return *this; + + // HIGH is 0x110000 + // assert(list[len-1] == HIGH); + + // empty = [HIGH] + // [start_0, limit_0, start_1, limit_1, HIGH] + + // [..., start_k-1, limit_k-1, start_k, limit_k, ..., HIGH] + // ^ + // list[i] + + // i == 0 means c is before the first range + +#ifdef DEBUG_US_ADD + printf("Add of "); + dump(c); + printf(" found at %d", i); + printf(": "); + dump(list, len); + printf(" => "); +#endif + + if (c == list[i]-1) { + // c is before start of next range + list[i] = c; + // if we touched the HIGH mark, then add a new one + if (c == (UNICODESET_HIGH - 1)) { + UErrorCode status = U_ZERO_ERROR; + ensureCapacity(len+1, status); + if (U_FAILURE(status)) { + return *this; // There is no way to report this error :-( + } + list[len++] = UNICODESET_HIGH; + } + if (i > 0 && c == list[i-1]) { + // collapse adjacent ranges + + // [..., start_k-1, c, c, limit_k, ..., HIGH] + // ^ + // list[i] + + //for (int32_t k=i-1; k<len-2; ++k) { + // list[k] = list[k+2]; + //} + UChar32* dst = list + i - 1; + UChar32* src = dst + 2; + UChar32* srclimit = list + len; + while (src < srclimit) *(dst++) = *(src++); + + len -= 2; + } + } + + else if (i > 0 && c == list[i-1]) { + // c is after end of prior range + list[i-1]++; + // no need to check for collapse here + } + + else { + // At this point we know the new char is not adjacent to + // any existing ranges, and it is not 10FFFF. + + + // [..., start_k-1, limit_k-1, start_k, limit_k, ..., HIGH] + // ^ + // list[i] + + // [..., start_k-1, limit_k-1, c, c+1, start_k, limit_k, ..., HIGH] + // ^ + // list[i] + + UErrorCode status = U_ZERO_ERROR; + ensureCapacity(len+2, status); + if (U_FAILURE(status)) { + return *this; // There is no way to report this error :-( + } + + //for (int32_t k=len-1; k>=i; --k) { + // list[k+2] = list[k]; + //} + UChar32* src = list + len; + UChar32* dst = src + 2; + UChar32* srclimit = list + i; + while (src > srclimit) *(--dst) = *(--src); + + list[i] = c; + list[i+1] = c+1; + len += 2; + } + +#ifdef DEBUG_US_ADD + dump(list, len); + printf("\n"); + + for (i=1; i<len; ++i) { + if (list[i] <= list[i-1]) { + // Corrupt array! + printf("ERROR: list has been corrupted\n"); + exit(1); + } + } +#endif + + releasePattern(); + return *this; +} + +/** + * Adds the specified multicharacter to this set if it is not already + * present. If this set already contains the multicharacter, + * the call leaves this set unchanged. + * Thus "ch" => {"ch"} + * <br><b>Warning: you cannot add an empty string ("") to a UnicodeSet.</b> + * @param s the source string + * @return the modified set, for chaining + */ +UnicodeSet& UnicodeSet::add(const UnicodeString& s) { + if (s.length() == 0 || isFrozen() || isBogus()) return *this; + int32_t cp = getSingleCP(s); + if (cp < 0) { + if (!strings->contains((void*) &s)) { + _add(s); + releasePattern(); + } + } else { + add((UChar32)cp); + } + return *this; +} + +/** + * Adds the given string, in order, to 'strings'. The given string + * must have been checked by the caller to not be empty and to not + * already be in 'strings'. + */ +void UnicodeSet::_add(const UnicodeString& s) { + if (isFrozen() || isBogus()) { + return; + } + UnicodeString* t = new UnicodeString(s); + if (t == NULL) { // Check for memory allocation error. + setToBogus(); + return; + } + UErrorCode ec = U_ZERO_ERROR; + strings->sortedInsert(t, compareUnicodeString, ec); + if (U_FAILURE(ec)) { + setToBogus(); + delete t; + } +} + +/** + * @return a code point IF the string consists of a single one. + * otherwise returns -1. + * @param string to test + */ +int32_t UnicodeSet::getSingleCP(const UnicodeString& s) { + //if (s.length() < 1) { + // throw new IllegalArgumentException("Can't use zero-length strings in UnicodeSet"); + //} + if (s.length() > 2) return -1; + if (s.length() == 1) return s.charAt(0); + + // at this point, len = 2 + UChar32 cp = s.char32At(0); + if (cp > 0xFFFF) { // is surrogate pair + return cp; + } + return -1; +} + +/** + * Adds each of the characters in this string to the set. Thus "ch" => {"c", "h"} + * If this set already any particular character, it has no effect on that character. + * @param the source string + * @return the modified set, for chaining + */ +UnicodeSet& UnicodeSet::addAll(const UnicodeString& s) { + UChar32 cp; + for (int32_t i = 0; i < s.length(); i += U16_LENGTH(cp)) { + cp = s.char32At(i); + add(cp); + } + return *this; +} + +/** + * Retains EACH of the characters in this string. Note: "ch" == {"c", "h"} + * If this set already any particular character, it has no effect on that character. + * @param the source string + * @return the modified set, for chaining + */ +UnicodeSet& UnicodeSet::retainAll(const UnicodeString& s) { + UnicodeSet set; + set.addAll(s); + retainAll(set); + return *this; +} + +/** + * Complement EACH of the characters in this string. Note: "ch" == {"c", "h"} + * If this set already any particular character, it has no effect on that character. + * @param the source string + * @return the modified set, for chaining + */ +UnicodeSet& UnicodeSet::complementAll(const UnicodeString& s) { + UnicodeSet set; + set.addAll(s); + complementAll(set); + return *this; +} + +/** + * Remove EACH of the characters in this string. Note: "ch" == {"c", "h"} + * If this set already any particular character, it has no effect on that character. + * @param the source string + * @return the modified set, for chaining + */ +UnicodeSet& UnicodeSet::removeAll(const UnicodeString& s) { + UnicodeSet set; + set.addAll(s); + removeAll(set); + return *this; +} + +UnicodeSet& UnicodeSet::removeAllStrings() { + strings->removeAllElements(); + return *this; +} + + +/** + * Makes a set from a multicharacter string. Thus "ch" => {"ch"} + * <br><b>Warning: you cannot add an empty string ("") to a UnicodeSet.</b> + * @param the source string + * @return a newly created set containing the given string + */ +UnicodeSet* U_EXPORT2 UnicodeSet::createFrom(const UnicodeString& s) { + UnicodeSet *set = new UnicodeSet(); + if (set != NULL) { // Check for memory allocation error. + set->add(s); + } + return set; +} + + +/** + * Makes a set from each of the characters in the string. Thus "ch" => {"c", "h"} + * @param the source string + * @return a newly created set containing the given characters + */ +UnicodeSet* U_EXPORT2 UnicodeSet::createFromAll(const UnicodeString& s) { + UnicodeSet *set = new UnicodeSet(); + if (set != NULL) { // Check for memory allocation error. + set->addAll(s); + } + return set; +} + +/** + * Retain only the elements in this set that are contained in the + * specified range. If <code>end > start</code> then an empty range is + * retained, leaving the set empty. + * + * @param start first character, inclusive, of range to be retained + * to this set. + * @param end last character, inclusive, of range to be retained + * to this set. + */ +UnicodeSet& UnicodeSet::retain(UChar32 start, UChar32 end) { + if (pinCodePoint(start) <= pinCodePoint(end)) { + UChar32 range[3] = { start, end+1, UNICODESET_HIGH }; + retain(range, 2, 0); + } else { + clear(); + } + return *this; +} + +UnicodeSet& UnicodeSet::retain(UChar32 c) { + return retain(c, c); +} + +/** + * Removes the specified range from this set if it is present. + * The set will not contain the specified range once the call + * returns. If <code>end > start</code> then an empty range is + * removed, leaving the set unchanged. + * + * @param start first character, inclusive, of range to be removed + * from this set. + * @param end last character, inclusive, of range to be removed + * from this set. + */ +UnicodeSet& UnicodeSet::remove(UChar32 start, UChar32 end) { + if (pinCodePoint(start) <= pinCodePoint(end)) { + UChar32 range[3] = { start, end+1, UNICODESET_HIGH }; + retain(range, 2, 2); + } + return *this; +} + +/** + * Removes the specified character from this set if it is present. + * The set will not contain the specified range once the call + * returns. + */ +UnicodeSet& UnicodeSet::remove(UChar32 c) { + return remove(c, c); +} + +/** + * Removes the specified string from this set if it is present. + * The set will not contain the specified character once the call + * returns. + * @param the source string + * @return the modified set, for chaining + */ +UnicodeSet& UnicodeSet::remove(const UnicodeString& s) { + if (s.length() == 0 || isFrozen() || isBogus()) return *this; + int32_t cp = getSingleCP(s); + if (cp < 0) { + strings->removeElement((void*) &s); + releasePattern(); + } else { + remove((UChar32)cp, (UChar32)cp); + } + return *this; +} + +/** + * Complements the specified range in this set. Any character in + * the range will be removed if it is in this set, or will be + * added if it is not in this set. If <code>end > start</code> + * then an empty range is xor'ed, leaving the set unchanged. + * + * @param start first character, inclusive, of range to be removed + * from this set. + * @param end last character, inclusive, of range to be removed + * from this set. + */ +UnicodeSet& UnicodeSet::complement(UChar32 start, UChar32 end) { + if (isFrozen() || isBogus()) { + return *this; + } + if (pinCodePoint(start) <= pinCodePoint(end)) { + UChar32 range[3] = { start, end+1, UNICODESET_HIGH }; + exclusiveOr(range, 2, 0); + } + releasePattern(); + return *this; +} + +UnicodeSet& UnicodeSet::complement(UChar32 c) { + return complement(c, c); +} + +/** + * This is equivalent to + * <code>complement(MIN_VALUE, MAX_VALUE)</code>. + */ +UnicodeSet& UnicodeSet::complement(void) { + if (isFrozen() || isBogus()) { + return *this; + } + UErrorCode status = U_ZERO_ERROR; + if (list[0] == UNICODESET_LOW) { + ensureBufferCapacity(len-1, status); + if (U_FAILURE(status)) { + return *this; + } + uprv_memcpy(buffer, list + 1, (size_t)(len-1)*sizeof(UChar32)); + --len; + } else { + ensureBufferCapacity(len+1, status); + if (U_FAILURE(status)) { + return *this; + } + uprv_memcpy(buffer + 1, list, (size_t)len*sizeof(UChar32)); + buffer[0] = UNICODESET_LOW; + ++len; + } + swapBuffers(); + releasePattern(); + return *this; +} + +/** + * Complement the specified string in this set. + * The set will not contain the specified string once the call + * returns. + * <br><b>Warning: you cannot add an empty string ("") to a UnicodeSet.</b> + * @param s the string to complement + * @return this object, for chaining + */ +UnicodeSet& UnicodeSet::complement(const UnicodeString& s) { + if (s.length() == 0 || isFrozen() || isBogus()) return *this; + int32_t cp = getSingleCP(s); + if (cp < 0) { + if (strings->contains((void*) &s)) { + strings->removeElement((void*) &s); + } else { + _add(s); + } + releasePattern(); + } else { + complement((UChar32)cp, (UChar32)cp); + } + return *this; +} + +/** + * Adds all of the elements in the specified set to this set if + * they're not already present. This operation effectively + * modifies this set so that its value is the <i>union</i> of the two + * sets. The behavior of this operation is unspecified if the specified + * collection is modified while the operation is in progress. + * + * @param c set whose elements are to be added to this set. + * @see #add(char, char) + */ +UnicodeSet& UnicodeSet::addAll(const UnicodeSet& c) { + if ( c.len>0 && c.list!=NULL ) { + add(c.list, c.len, 0); + } + + // Add strings in order + if ( c.strings!=NULL ) { + for (int32_t i=0; i<c.strings->size(); ++i) { + const UnicodeString* s = (const UnicodeString*)c.strings->elementAt(i); + if (!strings->contains((void*) s)) { + _add(*s); + } + } + } + return *this; +} + +/** + * Retains only the elements in this set that are contained in the + * specified set. In other words, removes from this set all of + * its elements that are not contained in the specified set. This + * operation effectively modifies this set so that its value is + * the <i>intersection</i> of the two sets. + * + * @param c set that defines which elements this set will retain. + */ +UnicodeSet& UnicodeSet::retainAll(const UnicodeSet& c) { + if (isFrozen() || isBogus()) { + return *this; + } + retain(c.list, c.len, 0); + strings->retainAll(*c.strings); + return *this; +} + +/** + * Removes from this set all of its elements that are contained in the + * specified set. This operation effectively modifies this + * set so that its value is the <i>asymmetric set difference</i> of + * the two sets. + * + * @param c set that defines which elements will be removed from + * this set. + */ +UnicodeSet& UnicodeSet::removeAll(const UnicodeSet& c) { + if (isFrozen() || isBogus()) { + return *this; + } + retain(c.list, c.len, 2); + strings->removeAll(*c.strings); + return *this; +} + +/** + * Complements in this set all elements contained in the specified + * set. Any character in the other set will be removed if it is + * in this set, or will be added if it is not in this set. + * + * @param c set that defines which elements will be xor'ed from + * this set. + */ +UnicodeSet& UnicodeSet::complementAll(const UnicodeSet& c) { + if (isFrozen() || isBogus()) { + return *this; + } + exclusiveOr(c.list, c.len, 0); + + for (int32_t i=0; i<c.strings->size(); ++i) { + void* e = c.strings->elementAt(i); + if (!strings->removeElement(e)) { + _add(*(const UnicodeString*)e); + } + } + return *this; +} + +/** + * Removes all of the elements from this set. This set will be + * empty after this call returns. + */ +UnicodeSet& UnicodeSet::clear(void) { + if (isFrozen()) { + return *this; + } + if (list != NULL) { + list[0] = UNICODESET_HIGH; + } + len = 1; + releasePattern(); + if (strings != NULL) { + strings->removeAllElements(); + } + if (list != NULL && strings != NULL) { + // Remove bogus + fFlags = 0; + } + return *this; +} + +/** + * Iteration method that returns the number of ranges contained in + * this set. + * @see #getRangeStart + * @see #getRangeEnd + */ +int32_t UnicodeSet::getRangeCount() const { + return len/2; +} + +/** + * Iteration method that returns the first character in the + * specified range of this set. + * @see #getRangeCount + * @see #getRangeEnd + */ +UChar32 UnicodeSet::getRangeStart(int32_t index) const { + return list[index*2]; +} + +/** + * Iteration method that returns the last character in the + * specified range of this set. + * @see #getRangeStart + * @see #getRangeEnd + */ +UChar32 UnicodeSet::getRangeEnd(int32_t index) const { + return list[index*2 + 1] - 1; +} + +int32_t UnicodeSet::getStringCount() const { + return strings->size(); +} + +const UnicodeString* UnicodeSet::getString(int32_t index) const { + return (const UnicodeString*) strings->elementAt(index); +} + +/** + * Reallocate this objects internal structures to take up the least + * possible space, without changing this object's value. + */ +UnicodeSet& UnicodeSet::compact() { + if (isFrozen() || isBogus()) { + return *this; + } + // Delete buffer first to defragment memory less. + if (buffer != NULL) { + uprv_free(buffer); + buffer = NULL; + } + if (len < capacity) { + // Make the capacity equal to len or 1. + // We don't want to realloc of 0 size. + int32_t newCapacity = len + (len == 0); + UChar32* temp = (UChar32*) uprv_realloc(list, sizeof(UChar32) * newCapacity); + if (temp) { + list = temp; + capacity = newCapacity; + } + // else what the heck happened?! We allocated less memory! + // Oh well. We'll keep our original array. + } + return *this; +} + +#ifdef DEBUG_SERIALIZE +#include <stdio.h> +#endif + +/** + * Deserialize constructor. + */ +UnicodeSet::UnicodeSet(const uint16_t data[], int32_t dataLen, ESerialization serialization, UErrorCode &ec) + : len(1), capacity(1+START_EXTRA), list(0), bmpSet(0), buffer(0), + bufferCapacity(0), patLen(0), pat(NULL), strings(NULL), stringSpan(NULL), + fFlags(0) { + + if(U_FAILURE(ec)) { + setToBogus(); + return; + } + + if( (serialization != kSerialized) + || (data==NULL) + || (dataLen < 1)) { + ec = U_ILLEGAL_ARGUMENT_ERROR; + setToBogus(); + return; + } + + allocateStrings(ec); + if (U_FAILURE(ec)) { + setToBogus(); + return; + } + + // bmp? + int32_t headerSize = ((data[0]&0x8000)) ?2:1; + int32_t bmpLength = (headerSize==1)?data[0]:data[1]; + + len = (((data[0]&0x7FFF)-bmpLength)/2)+bmpLength; +#ifdef DEBUG_SERIALIZE + printf("dataLen %d headerSize %d bmpLen %d len %d. data[0]=%X/%X/%X/%X\n", dataLen,headerSize,bmpLength,len, data[0],data[1],data[2],data[3]); +#endif + capacity = len+1; + list = (UChar32*) uprv_malloc(sizeof(UChar32) * capacity); + if(!list || U_FAILURE(ec)) { + setToBogus(); + return; + } + // copy bmp + int32_t i; + for(i = 0; i< bmpLength;i++) { + list[i] = data[i+headerSize]; +#ifdef DEBUG_SERIALIZE + printf("<<16@%d[%d] %X\n", i+headerSize, i, list[i]); +#endif + } + // copy smp + for(i=bmpLength;i<len;i++) { + list[i] = ((UChar32)data[headerSize+bmpLength+(i-bmpLength)*2+0] << 16) + + ((UChar32)data[headerSize+bmpLength+(i-bmpLength)*2+1]); +#ifdef DEBUG_SERIALIZE + printf("<<32@%d+[%d] %lX\n", headerSize+bmpLength+i, i, list[i]); +#endif + } + // terminator + list[len++]=UNICODESET_HIGH; +} + + +int32_t UnicodeSet::serialize(uint16_t *dest, int32_t destCapacity, UErrorCode& ec) const { + int32_t bmpLength, length, destLength; + + if (U_FAILURE(ec)) { + return 0; + } + + if (destCapacity<0 || (destCapacity>0 && dest==NULL)) { + ec=U_ILLEGAL_ARGUMENT_ERROR; + return 0; + } + + /* count necessary 16-bit units */ + length=this->len-1; // Subtract 1 to ignore final UNICODESET_HIGH + // assert(length>=0); + if (length==0) { + /* empty set */ + if (destCapacity>0) { + *dest=0; + } else { + ec=U_BUFFER_OVERFLOW_ERROR; + } + return 1; + } + /* now length>0 */ + + if (this->list[length-1]<=0xffff) { + /* all BMP */ + bmpLength=length; + } else if (this->list[0]>=0x10000) { + /* all supplementary */ + bmpLength=0; + length*=2; + } else { + /* some BMP, some supplementary */ + for (bmpLength=0; bmpLength<length && this->list[bmpLength]<=0xffff; ++bmpLength) {} + length=bmpLength+2*(length-bmpLength); + } +#ifdef DEBUG_SERIALIZE + printf(">> bmpLength%d length%d len%d\n", bmpLength, length, len); +#endif + /* length: number of 16-bit array units */ + if (length>0x7fff) { + /* there are only 15 bits for the length in the first serialized word */ + ec=U_INDEX_OUTOFBOUNDS_ERROR; + return 0; + } + + /* + * total serialized length: + * number of 16-bit array units (length) + + * 1 length unit (always) + + * 1 bmpLength unit (if there are supplementary values) + */ + destLength=length+((length>bmpLength)?2:1); + if (destLength<=destCapacity) { + const UChar32 *p; + int32_t i; + +#ifdef DEBUG_SERIALIZE + printf("writeHdr\n"); +#endif + *dest=(uint16_t)length; + if (length>bmpLength) { + *dest|=0x8000; + *++dest=(uint16_t)bmpLength; + } + ++dest; + + /* write the BMP part of the array */ + p=this->list; + for (i=0; i<bmpLength; ++i) { +#ifdef DEBUG_SERIALIZE + printf("writebmp: %x\n", (int)*p); +#endif + *dest++=(uint16_t)*p++; + } + + /* write the supplementary part of the array */ + for (; i<length; i+=2) { +#ifdef DEBUG_SERIALIZE + printf("write32: %x\n", (int)*p); +#endif + *dest++=(uint16_t)(*p>>16); + *dest++=(uint16_t)*p++; + } + } else { + ec=U_BUFFER_OVERFLOW_ERROR; + } + return destLength; +} + +//---------------------------------------------------------------- +// Implementation: Utility methods +//---------------------------------------------------------------- + +/** + * Allocate our strings vector and return TRUE if successful. + */ +UBool UnicodeSet::allocateStrings(UErrorCode &status) { + if (U_FAILURE(status)) { + return FALSE; + } + strings = new UVector(uprv_deleteUObject, + uhash_compareUnicodeString, 1, status); + if (strings == NULL) { // Check for memory allocation error. + status = U_MEMORY_ALLOCATION_ERROR; + return FALSE; + } + if (U_FAILURE(status)) { + delete strings; + strings = NULL; + return FALSE; + } + return TRUE; +} + +void UnicodeSet::ensureCapacity(int32_t newLen, UErrorCode& ec) { + if (newLen <= capacity) + return; + UChar32* temp = (UChar32*) uprv_realloc(list, sizeof(UChar32) * (newLen + GROW_EXTRA)); + if (temp == NULL) { + ec = U_MEMORY_ALLOCATION_ERROR; + setToBogus(); + return; + } + list = temp; + capacity = newLen + GROW_EXTRA; + // else we keep the original contents on the memory failure. +} + +void UnicodeSet::ensureBufferCapacity(int32_t newLen, UErrorCode& ec) { + if (buffer != NULL && newLen <= bufferCapacity) + return; + UChar32* temp = (UChar32*) uprv_realloc(buffer, sizeof(UChar32) * (newLen + GROW_EXTRA)); + if (temp == NULL) { + ec = U_MEMORY_ALLOCATION_ERROR; + setToBogus(); + return; + } + buffer = temp; + bufferCapacity = newLen + GROW_EXTRA; + // else we keep the original contents on the memory failure. +} + +/** + * Swap list and buffer. + */ +void UnicodeSet::swapBuffers(void) { + // swap list and buffer + UChar32* temp = list; + list = buffer; + buffer = temp; + + int32_t c = capacity; + capacity = bufferCapacity; + bufferCapacity = c; +} + +void UnicodeSet::setToBogus() { + clear(); // Remove everything in the set. + fFlags = kIsBogus; +} + +//---------------------------------------------------------------- +// Implementation: Fundamental operators +//---------------------------------------------------------------- + +static inline UChar32 max(UChar32 a, UChar32 b) { + return (a > b) ? a : b; +} + +// polarity = 0, 3 is normal: x xor y +// polarity = 1, 2: x xor ~y == x === y + +void UnicodeSet::exclusiveOr(const UChar32* other, int32_t otherLen, int8_t polarity) { + if (isFrozen() || isBogus()) { + return; + } + UErrorCode status = U_ZERO_ERROR; + ensureBufferCapacity(len + otherLen, status); + if (U_FAILURE(status)) { + return; + } + + int32_t i = 0, j = 0, k = 0; + UChar32 a = list[i++]; + UChar32 b; + if (polarity == 1 || polarity == 2) { + b = UNICODESET_LOW; + if (other[j] == UNICODESET_LOW) { // skip base if already LOW + ++j; + b = other[j]; + } + } else { + b = other[j++]; + } + // simplest of all the routines + // sort the values, discarding identicals! + for (;;) { + if (a < b) { + buffer[k++] = a; + a = list[i++]; + } else if (b < a) { + buffer[k++] = b; + b = other[j++]; + } else if (a != UNICODESET_HIGH) { // at this point, a == b + // discard both values! + a = list[i++]; + b = other[j++]; + } else { // DONE! + buffer[k++] = UNICODESET_HIGH; + len = k; + break; + } + } + swapBuffers(); + releasePattern(); +} + +// polarity = 0 is normal: x union y +// polarity = 2: x union ~y +// polarity = 1: ~x union y +// polarity = 3: ~x union ~y + +void UnicodeSet::add(const UChar32* other, int32_t otherLen, int8_t polarity) { + if (isFrozen() || isBogus() || other==NULL) { + return; + } + UErrorCode status = U_ZERO_ERROR; + ensureBufferCapacity(len + otherLen, status); + if (U_FAILURE(status)) { + return; + } + + int32_t i = 0, j = 0, k = 0; + UChar32 a = list[i++]; + UChar32 b = other[j++]; + // change from xor is that we have to check overlapping pairs + // polarity bit 1 means a is second, bit 2 means b is. + for (;;) { + switch (polarity) { + case 0: // both first; take lower if unequal + if (a < b) { // take a + // Back up over overlapping ranges in buffer[] + if (k > 0 && a <= buffer[k-1]) { + // Pick latter end value in buffer[] vs. list[] + a = max(list[i], buffer[--k]); + } else { + // No overlap + buffer[k++] = a; + a = list[i]; + } + i++; // Common if/else code factored out + polarity ^= 1; + } else if (b < a) { // take b + if (k > 0 && b <= buffer[k-1]) { + b = max(other[j], buffer[--k]); + } else { + buffer[k++] = b; + b = other[j]; + } + j++; + polarity ^= 2; + } else { // a == b, take a, drop b + if (a == UNICODESET_HIGH) goto loop_end; + // This is symmetrical; it doesn't matter if + // we backtrack with a or b. - liu + if (k > 0 && a <= buffer[k-1]) { + a = max(list[i], buffer[--k]); + } else { + // No overlap + buffer[k++] = a; + a = list[i]; + } + i++; + polarity ^= 1; + b = other[j++]; + polarity ^= 2; + } + break; + case 3: // both second; take higher if unequal, and drop other + if (b <= a) { // take a + if (a == UNICODESET_HIGH) goto loop_end; + buffer[k++] = a; + } else { // take b + if (b == UNICODESET_HIGH) goto loop_end; + buffer[k++] = b; + } + a = list[i++]; + polarity ^= 1; // factored common code + b = other[j++]; + polarity ^= 2; + break; + case 1: // a second, b first; if b < a, overlap + if (a < b) { // no overlap, take a + buffer[k++] = a; a = list[i++]; polarity ^= 1; + } else if (b < a) { // OVERLAP, drop b + b = other[j++]; + polarity ^= 2; + } else { // a == b, drop both! + if (a == UNICODESET_HIGH) goto loop_end; + a = list[i++]; + polarity ^= 1; + b = other[j++]; + polarity ^= 2; + } + break; + case 2: // a first, b second; if a < b, overlap + if (b < a) { // no overlap, take b + buffer[k++] = b; + b = other[j++]; + polarity ^= 2; + } else if (a < b) { // OVERLAP, drop a + a = list[i++]; + polarity ^= 1; + } else { // a == b, drop both! + if (a == UNICODESET_HIGH) goto loop_end; + a = list[i++]; + polarity ^= 1; + b = other[j++]; + polarity ^= 2; + } + break; + } + } + loop_end: + buffer[k++] = UNICODESET_HIGH; // terminate + len = k; + swapBuffers(); + releasePattern(); +} + +// polarity = 0 is normal: x intersect y +// polarity = 2: x intersect ~y == set-minus +// polarity = 1: ~x intersect y +// polarity = 3: ~x intersect ~y + +void UnicodeSet::retain(const UChar32* other, int32_t otherLen, int8_t polarity) { + if (isFrozen() || isBogus()) { + return; + } + UErrorCode status = U_ZERO_ERROR; + ensureBufferCapacity(len + otherLen, status); + if (U_FAILURE(status)) { + return; + } + + int32_t i = 0, j = 0, k = 0; + UChar32 a = list[i++]; + UChar32 b = other[j++]; + // change from xor is that we have to check overlapping pairs + // polarity bit 1 means a is second, bit 2 means b is. + for (;;) { + switch (polarity) { + case 0: // both first; drop the smaller + if (a < b) { // drop a + a = list[i++]; + polarity ^= 1; + } else if (b < a) { // drop b + b = other[j++]; + polarity ^= 2; + } else { // a == b, take one, drop other + if (a == UNICODESET_HIGH) goto loop_end; + buffer[k++] = a; + a = list[i++]; + polarity ^= 1; + b = other[j++]; + polarity ^= 2; + } + break; + case 3: // both second; take lower if unequal + if (a < b) { // take a + buffer[k++] = a; + a = list[i++]; + polarity ^= 1; + } else if (b < a) { // take b + buffer[k++] = b; + b = other[j++]; + polarity ^= 2; + } else { // a == b, take one, drop other + if (a == UNICODESET_HIGH) goto loop_end; + buffer[k++] = a; + a = list[i++]; + polarity ^= 1; + b = other[j++]; + polarity ^= 2; + } + break; + case 1: // a second, b first; + if (a < b) { // NO OVERLAP, drop a + a = list[i++]; + polarity ^= 1; + } else if (b < a) { // OVERLAP, take b + buffer[k++] = b; + b = other[j++]; + polarity ^= 2; + } else { // a == b, drop both! + if (a == UNICODESET_HIGH) goto loop_end; + a = list[i++]; + polarity ^= 1; + b = other[j++]; + polarity ^= 2; + } + break; + case 2: // a first, b second; if a < b, overlap + if (b < a) { // no overlap, drop b + b = other[j++]; + polarity ^= 2; + } else if (a < b) { // OVERLAP, take a + buffer[k++] = a; + a = list[i++]; + polarity ^= 1; + } else { // a == b, drop both! + if (a == UNICODESET_HIGH) goto loop_end; + a = list[i++]; + polarity ^= 1; + b = other[j++]; + polarity ^= 2; + } + break; + } + } + loop_end: + buffer[k++] = UNICODESET_HIGH; // terminate + len = k; + swapBuffers(); + releasePattern(); +} + +/** + * Append the <code>toPattern()</code> representation of a + * string to the given <code>StringBuffer</code>. + */ +void UnicodeSet::_appendToPat(UnicodeString& buf, const UnicodeString& s, UBool +escapeUnprintable) { + UChar32 cp; + for (int32_t i = 0; i < s.length(); i += U16_LENGTH(cp)) { + _appendToPat(buf, cp = s.char32At(i), escapeUnprintable); + } +} + +/** + * Append the <code>toPattern()</code> representation of a + * character to the given <code>StringBuffer</code>. + */ +void UnicodeSet::_appendToPat(UnicodeString& buf, UChar32 c, UBool +escapeUnprintable) { + if (escapeUnprintable && ICU_Utility::isUnprintable(c)) { + // Use hex escape notation (\uxxxx or \Uxxxxxxxx) for anything + // unprintable + if (ICU_Utility::escapeUnprintable(buf, c)) { + return; + } + } + // Okay to let ':' pass through + switch (c) { + case SET_OPEN: + case SET_CLOSE: + case HYPHEN: + case COMPLEMENT: + case INTERSECTION: + case BACKSLASH: + case OPEN_BRACE: + case CLOSE_BRACE: + case COLON: + case SymbolTable::SYMBOL_REF: + buf.append(BACKSLASH); + break; + default: + // Escape whitespace + if (PatternProps::isWhiteSpace(c)) { + buf.append(BACKSLASH); + } + break; + } + buf.append(c); +} + +/** + * Append a string representation of this set to result. This will be + * a cleaned version of the string passed to applyPattern(), if there + * is one. Otherwise it will be generated. + */ +UnicodeString& UnicodeSet::_toPattern(UnicodeString& result, + UBool escapeUnprintable) const +{ + if (pat != NULL) { + int32_t i; + int32_t backslashCount = 0; + for (i=0; i<patLen; ) { + UChar32 c; + U16_NEXT(pat, i, patLen, c); + if (escapeUnprintable && ICU_Utility::isUnprintable(c)) { + // If the unprintable character is preceded by an odd + // number of backslashes, then it has been escaped. + // Before unescaping it, we delete the final + // backslash. + if ((backslashCount % 2) == 1) { + result.truncate(result.length() - 1); + } + ICU_Utility::escapeUnprintable(result, c); + backslashCount = 0; + } else { + result.append(c); + if (c == BACKSLASH) { + ++backslashCount; + } else { + backslashCount = 0; + } + } + } + return result; + } + + return _generatePattern(result, escapeUnprintable); +} + +/** + * Returns a string representation of this set. If the result of + * calling this function is passed to a UnicodeSet constructor, it + * will produce another set that is equal to this one. + */ +UnicodeString& UnicodeSet::toPattern(UnicodeString& result, + UBool escapeUnprintable) const +{ + result.truncate(0); + return _toPattern(result, escapeUnprintable); +} + +/** + * Generate and append a string representation of this set to result. + * This does not use this.pat, the cleaned up copy of the string + * passed to applyPattern(). + */ +UnicodeString& UnicodeSet::_generatePattern(UnicodeString& result, + UBool escapeUnprintable) const +{ + result.append(SET_OPEN); + +// // Check against the predefined categories. We implicitly build +// // up ALL category sets the first time toPattern() is called. +// for (int8_t cat=0; cat<Unicode::GENERAL_TYPES_COUNT; ++cat) { +// if (*this == getCategorySet(cat)) { +// result.append(COLON); +// result.append(CATEGORY_NAMES, cat*2, 2); +// return result.append(CATEGORY_CLOSE); +// } +// } + + int32_t count = getRangeCount(); + + // If the set contains at least 2 intervals and includes both + // MIN_VALUE and MAX_VALUE, then the inverse representation will + // be more economical. + if (count > 1 && + getRangeStart(0) == MIN_VALUE && + getRangeEnd(count-1) == MAX_VALUE) { + + // Emit the inverse + result.append(COMPLEMENT); + + for (int32_t i = 1; i < count; ++i) { + UChar32 start = getRangeEnd(i-1)+1; + UChar32 end = getRangeStart(i)-1; + _appendToPat(result, start, escapeUnprintable); + if (start != end) { + if ((start+1) != end) { + result.append(HYPHEN); + } + _appendToPat(result, end, escapeUnprintable); + } + } + } + + // Default; emit the ranges as pairs + else { + for (int32_t i = 0; i < count; ++i) { + UChar32 start = getRangeStart(i); + UChar32 end = getRangeEnd(i); + _appendToPat(result, start, escapeUnprintable); + if (start != end) { + if ((start+1) != end) { + result.append(HYPHEN); + } + _appendToPat(result, end, escapeUnprintable); + } + } + } + + for (int32_t i = 0; i<strings->size(); ++i) { + result.append(OPEN_BRACE); + _appendToPat(result, + *(const UnicodeString*) strings->elementAt(i), + escapeUnprintable); + result.append(CLOSE_BRACE); + } + return result.append(SET_CLOSE); +} + +/** +* Release existing cached pattern +*/ +void UnicodeSet::releasePattern() { + if (pat) { + uprv_free(pat); + pat = NULL; + patLen = 0; + } +} + +/** +* Set the new pattern to cache. +*/ +void UnicodeSet::setPattern(const UnicodeString& newPat) { + releasePattern(); + int32_t newPatLen = newPat.length(); + pat = (UChar *)uprv_malloc((newPatLen + 1) * sizeof(UChar)); + if (pat) { + patLen = newPatLen; + newPat.extractBetween(0, patLen, pat); + pat[patLen] = 0; + } + // else we don't care if malloc failed. This was just a nice cache. + // We can regenerate an equivalent pattern later when requested. +} + +UnicodeFunctor *UnicodeSet::freeze() { + if(!isFrozen() && !isBogus()) { + // Do most of what compact() does before freezing because + // compact() will not work when the set is frozen. + // Small modification: Don't shrink if the savings would be tiny (<=GROW_EXTRA). + + // Delete buffer first to defragment memory less. + if (buffer != NULL) { + uprv_free(buffer); + buffer = NULL; + } + if (capacity > (len + GROW_EXTRA)) { + // Make the capacity equal to len or 1. + // We don't want to realloc of 0 size. + capacity = len + (len == 0); + list = (UChar32*) uprv_realloc(list, sizeof(UChar32) * capacity); + if (list == NULL) { // Check for memory allocation error. + setToBogus(); + return this; + } + } + + // Optimize contains() and span() and similar functions. + if (!strings->isEmpty()) { + stringSpan = new UnicodeSetStringSpan(*this, *strings, UnicodeSetStringSpan::ALL); + if (stringSpan != NULL && !stringSpan->needsStringSpanUTF16()) { + // All strings are irrelevant for span() etc. because + // all of each string's code points are contained in this set. + // Do not check needsStringSpanUTF8() because UTF-8 has at most as + // many relevant strings as UTF-16. + // (Thus needsStringSpanUTF8() implies needsStringSpanUTF16().) + delete stringSpan; + stringSpan = NULL; + } + } + if (stringSpan == NULL) { + // No span-relevant strings: Optimize for code point spans. + bmpSet=new BMPSet(list, len); + if (bmpSet == NULL) { // Check for memory allocation error. + setToBogus(); + } + } + } + return this; +} + +int32_t UnicodeSet::span(const UChar *s, int32_t length, USetSpanCondition spanCondition) const { + if(length>0 && bmpSet!=NULL) { + return (int32_t)(bmpSet->span(s, s+length, spanCondition)-s); + } + if(length<0) { + length=u_strlen(s); + } + if(length==0) { + return 0; + } + if(stringSpan!=NULL) { + return stringSpan->span(s, length, spanCondition); + } else if(!strings->isEmpty()) { + uint32_t which= spanCondition==USET_SPAN_NOT_CONTAINED ? + UnicodeSetStringSpan::FWD_UTF16_NOT_CONTAINED : + UnicodeSetStringSpan::FWD_UTF16_CONTAINED; + UnicodeSetStringSpan strSpan(*this, *strings, which); + if(strSpan.needsStringSpanUTF16()) { + return strSpan.span(s, length, spanCondition); + } + } + + if(spanCondition!=USET_SPAN_NOT_CONTAINED) { + spanCondition=USET_SPAN_CONTAINED; // Pin to 0/1 values. + } + + UChar32 c; + int32_t start=0, prev=0; + do { + U16_NEXT(s, start, length, c); + if(spanCondition!=contains(c)) { + break; + } + } while((prev=start)<length); + return prev; +} + +int32_t UnicodeSet::spanBack(const UChar *s, int32_t length, USetSpanCondition spanCondition) const { + if(length>0 && bmpSet!=NULL) { + return (int32_t)(bmpSet->spanBack(s, s+length, spanCondition)-s); + } + if(length<0) { + length=u_strlen(s); + } + if(length==0) { + return 0; + } + if(stringSpan!=NULL) { + return stringSpan->spanBack(s, length, spanCondition); + } else if(!strings->isEmpty()) { + uint32_t which= spanCondition==USET_SPAN_NOT_CONTAINED ? + UnicodeSetStringSpan::BACK_UTF16_NOT_CONTAINED : + UnicodeSetStringSpan::BACK_UTF16_CONTAINED; + UnicodeSetStringSpan strSpan(*this, *strings, which); + if(strSpan.needsStringSpanUTF16()) { + return strSpan.spanBack(s, length, spanCondition); + } + } + + if(spanCondition!=USET_SPAN_NOT_CONTAINED) { + spanCondition=USET_SPAN_CONTAINED; // Pin to 0/1 values. + } + + UChar32 c; + int32_t prev=length; + do { + U16_PREV(s, 0, length, c); + if(spanCondition!=contains(c)) { + break; + } + } while((prev=length)>0); + return prev; +} + +int32_t UnicodeSet::spanUTF8(const char *s, int32_t length, USetSpanCondition spanCondition) const { + if(length>0 && bmpSet!=NULL) { + const uint8_t *s0=(const uint8_t *)s; + return (int32_t)(bmpSet->spanUTF8(s0, length, spanCondition)-s0); + } + if(length<0) { + length=(int32_t)uprv_strlen(s); + } + if(length==0) { + return 0; + } + if(stringSpan!=NULL) { + return stringSpan->spanUTF8((const uint8_t *)s, length, spanCondition); + } else if(!strings->isEmpty()) { + uint32_t which= spanCondition==USET_SPAN_NOT_CONTAINED ? + UnicodeSetStringSpan::FWD_UTF8_NOT_CONTAINED : + UnicodeSetStringSpan::FWD_UTF8_CONTAINED; + UnicodeSetStringSpan strSpan(*this, *strings, which); + if(strSpan.needsStringSpanUTF8()) { + return strSpan.spanUTF8((const uint8_t *)s, length, spanCondition); + } + } + + if(spanCondition!=USET_SPAN_NOT_CONTAINED) { + spanCondition=USET_SPAN_CONTAINED; // Pin to 0/1 values. + } + + UChar32 c; + int32_t start=0, prev=0; + do { + U8_NEXT_OR_FFFD(s, start, length, c); + if(spanCondition!=contains(c)) { + break; + } + } while((prev=start)<length); + return prev; +} + +int32_t UnicodeSet::spanBackUTF8(const char *s, int32_t length, USetSpanCondition spanCondition) const { + if(length>0 && bmpSet!=NULL) { + const uint8_t *s0=(const uint8_t *)s; + return bmpSet->spanBackUTF8(s0, length, spanCondition); + } + if(length<0) { + length=(int32_t)uprv_strlen(s); + } + if(length==0) { + return 0; + } + if(stringSpan!=NULL) { + return stringSpan->spanBackUTF8((const uint8_t *)s, length, spanCondition); + } else if(!strings->isEmpty()) { + uint32_t which= spanCondition==USET_SPAN_NOT_CONTAINED ? + UnicodeSetStringSpan::BACK_UTF8_NOT_CONTAINED : + UnicodeSetStringSpan::BACK_UTF8_CONTAINED; + UnicodeSetStringSpan strSpan(*this, *strings, which); + if(strSpan.needsStringSpanUTF8()) { + return strSpan.spanBackUTF8((const uint8_t *)s, length, spanCondition); + } + } + + if(spanCondition!=USET_SPAN_NOT_CONTAINED) { + spanCondition=USET_SPAN_CONTAINED; // Pin to 0/1 values. + } + + UChar32 c; + int32_t prev=length; + do { + U8_PREV_OR_FFFD(s, 0, length, c); + if(spanCondition!=contains(c)) { + break; + } + } while((prev=length)>0); + return prev; +} + +U_NAMESPACE_END |