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      1 /*
      2 *******************************************************************************
      3 *
      4 *   Copyright (C) 2002-2011, International Business Machines
      5 *   Corporation and others.  All Rights Reserved.
      6 *
      7 *******************************************************************************
      8 *   file name:  uset.cpp
      9 *   encoding:   US-ASCII
     10 *   tab size:   8 (not used)
     11 *   indentation:4
     12 *
     13 *   created on: 2002mar07
     14 *   created by: Markus W. Scherer
     15 *
     16 *   There are functions to efficiently serialize a USet into an array of uint16_t
     17 *   and functions to use such a serialized form efficiently without
     18 *   instantiating a new USet.
     19 */
     20 
     21 #include "unicode/utypes.h"
     22 #include "unicode/uobject.h"
     23 #include "unicode/uset.h"
     24 #include "unicode/uniset.h"
     25 #include "cmemory.h"
     26 #include "unicode/ustring.h"
     27 #include "unicode/parsepos.h"
     28 
     29 U_NAMESPACE_USE
     30 
     31 U_CAPI USet* U_EXPORT2
     32 uset_openEmpty() {
     33     return (USet*) new UnicodeSet();
     34 }
     35 
     36 U_CAPI USet* U_EXPORT2
     37 uset_open(UChar32 start, UChar32 end) {
     38     return (USet*) new UnicodeSet(start, end);
     39 }
     40 
     41 U_CAPI void U_EXPORT2
     42 uset_close(USet* set) {
     43     delete (UnicodeSet*) set;
     44 }
     45 
     46 U_CAPI USet * U_EXPORT2
     47 uset_clone(const USet *set) {
     48     return (USet*) (((UnicodeSet*) set)->UnicodeSet::clone());
     49 }
     50 
     51 U_CAPI UBool U_EXPORT2
     52 uset_isFrozen(const USet *set) {
     53     return ((UnicodeSet*) set)->UnicodeSet::isFrozen();
     54 }
     55 
     56 U_CAPI void U_EXPORT2
     57 uset_freeze(USet *set) {
     58     ((UnicodeSet*) set)->UnicodeSet::freeze();
     59 }
     60 
     61 U_CAPI USet * U_EXPORT2
     62 uset_cloneAsThawed(const USet *set) {
     63     return (USet*) (((UnicodeSet*) set)->UnicodeSet::cloneAsThawed());
     64 }
     65 
     66 U_CAPI void U_EXPORT2
     67 uset_set(USet* set,
     68      UChar32 start, UChar32 end) {
     69     ((UnicodeSet*) set)->UnicodeSet::set(start, end);
     70 }
     71 
     72 U_CAPI void U_EXPORT2
     73 uset_addAll(USet* set, const USet *additionalSet) {
     74     ((UnicodeSet*) set)->UnicodeSet::addAll(*((const UnicodeSet*)additionalSet));
     75 }
     76 
     77 U_CAPI void U_EXPORT2
     78 uset_add(USet* set, UChar32 c) {
     79     ((UnicodeSet*) set)->UnicodeSet::add(c);
     80 }
     81 
     82 U_CAPI void U_EXPORT2
     83 uset_addRange(USet* set, UChar32 start, UChar32 end) {
     84     ((UnicodeSet*) set)->UnicodeSet::add(start, end);
     85 }
     86 
     87 U_CAPI void U_EXPORT2
     88 uset_addString(USet* set, const UChar* str, int32_t strLen) {
     89     // UnicodeString handles -1 for strLen
     90     UnicodeString s(strLen<0, str, strLen);
     91     ((UnicodeSet*) set)->UnicodeSet::add(s);
     92 }
     93 
     94 U_CAPI void U_EXPORT2
     95 uset_addAllCodePoints(USet* set, const UChar *str, int32_t strLen) {
     96     // UnicodeString handles -1 for strLen
     97     UnicodeString s(str, strLen);
     98     ((UnicodeSet*) set)->UnicodeSet::addAll(s);
     99 }
    100 
    101 U_CAPI void U_EXPORT2
    102 uset_remove(USet* set, UChar32 c) {
    103     ((UnicodeSet*) set)->UnicodeSet::remove(c);
    104 }
    105 
    106 U_CAPI void U_EXPORT2
    107 uset_removeRange(USet* set, UChar32 start, UChar32 end) {
    108     ((UnicodeSet*) set)->UnicodeSet::remove(start, end);
    109 }
    110 
    111 U_CAPI void U_EXPORT2
    112 uset_removeString(USet* set, const UChar* str, int32_t strLen) {
    113     UnicodeString s(strLen==-1, str, strLen);
    114     ((UnicodeSet*) set)->UnicodeSet::remove(s);
    115 }
    116 
    117 U_CAPI void U_EXPORT2
    118 uset_removeAll(USet* set, const USet* remove) {
    119     ((UnicodeSet*) set)->UnicodeSet::removeAll(*(const UnicodeSet*)remove);
    120 }
    121 
    122 U_CAPI void U_EXPORT2
    123 uset_retain(USet* set, UChar32 start, UChar32 end) {
    124     ((UnicodeSet*) set)->UnicodeSet::retain(start, end);
    125 }
    126 
    127 U_CAPI void U_EXPORT2
    128 uset_retainAll(USet* set, const USet* retain) {
    129     ((UnicodeSet*) set)->UnicodeSet::retainAll(*(const UnicodeSet*)retain);
    130 }
    131 
    132 U_CAPI void U_EXPORT2
    133 uset_compact(USet* set) {
    134     ((UnicodeSet*) set)->UnicodeSet::compact();
    135 }
    136 
    137 U_CAPI void U_EXPORT2
    138 uset_complement(USet* set) {
    139     ((UnicodeSet*) set)->UnicodeSet::complement();
    140 }
    141 
    142 U_CAPI void U_EXPORT2
    143 uset_complementAll(USet* set, const USet* complement) {
    144     ((UnicodeSet*) set)->UnicodeSet::complementAll(*(const UnicodeSet*)complement);
    145 }
    146 
    147 U_CAPI void U_EXPORT2
    148 uset_clear(USet* set) {
    149     ((UnicodeSet*) set)->UnicodeSet::clear();
    150 }
    151 
    152 U_CAPI void U_EXPORT2
    153 uset_removeAllStrings(USet* set) {
    154     ((UnicodeSet*) set)->UnicodeSet::removeAllStrings();
    155 }
    156 
    157 U_CAPI UBool U_EXPORT2
    158 uset_isEmpty(const USet* set) {
    159     return ((const UnicodeSet*) set)->UnicodeSet::isEmpty();
    160 }
    161 
    162 U_CAPI UBool U_EXPORT2
    163 uset_contains(const USet* set, UChar32 c) {
    164     return ((const UnicodeSet*) set)->UnicodeSet::contains(c);
    165 }
    166 
    167 U_CAPI UBool U_EXPORT2
    168 uset_containsRange(const USet* set, UChar32 start, UChar32 end) {
    169     return ((const UnicodeSet*) set)->UnicodeSet::contains(start, end);
    170 }
    171 
    172 U_CAPI UBool U_EXPORT2
    173 uset_containsString(const USet* set, const UChar* str, int32_t strLen) {
    174     UnicodeString s(strLen==-1, str, strLen);
    175     return ((const UnicodeSet*) set)->UnicodeSet::contains(s);
    176 }
    177 
    178 U_CAPI UBool U_EXPORT2
    179 uset_containsAll(const USet* set1, const USet* set2) {
    180     return ((const UnicodeSet*) set1)->UnicodeSet::containsAll(* (const UnicodeSet*) set2);
    181 }
    182 
    183 U_CAPI UBool U_EXPORT2
    184 uset_containsAllCodePoints(const USet* set, const UChar *str, int32_t strLen) {
    185     // Create a string alias, since nothing is being added to the set.
    186     UnicodeString s(strLen==-1, str, strLen);
    187     return ((const UnicodeSet*) set)->UnicodeSet::containsAll(s);
    188 }
    189 
    190 U_CAPI UBool U_EXPORT2
    191 uset_containsNone(const USet* set1, const USet* set2) {
    192     return ((const UnicodeSet*) set1)->UnicodeSet::containsNone(* (const UnicodeSet*) set2);
    193 }
    194 
    195 U_CAPI UBool U_EXPORT2
    196 uset_containsSome(const USet* set1, const USet* set2) {
    197     return ((const UnicodeSet*) set1)->UnicodeSet::containsSome(* (const UnicodeSet*) set2);
    198 }
    199 
    200 U_CAPI int32_t U_EXPORT2
    201 uset_span(const USet *set, const UChar *s, int32_t length, USetSpanCondition spanCondition) {
    202     return ((UnicodeSet*) set)->UnicodeSet::span(s, length, spanCondition);
    203 }
    204 
    205 U_CAPI int32_t U_EXPORT2
    206 uset_spanBack(const USet *set, const UChar *s, int32_t length, USetSpanCondition spanCondition) {
    207     return ((UnicodeSet*) set)->UnicodeSet::spanBack(s, length, spanCondition);
    208 }
    209 
    210 U_CAPI int32_t U_EXPORT2
    211 uset_spanUTF8(const USet *set, const char *s, int32_t length, USetSpanCondition spanCondition) {
    212     return ((UnicodeSet*) set)->UnicodeSet::spanUTF8(s, length, spanCondition);
    213 }
    214 
    215 U_CAPI int32_t U_EXPORT2
    216 uset_spanBackUTF8(const USet *set, const char *s, int32_t length, USetSpanCondition spanCondition) {
    217     return ((UnicodeSet*) set)->UnicodeSet::spanBackUTF8(s, length, spanCondition);
    218 }
    219 
    220 U_CAPI UBool U_EXPORT2
    221 uset_equals(const USet* set1, const USet* set2) {
    222     return *(const UnicodeSet*)set1 == *(const UnicodeSet*)set2;
    223 }
    224 
    225 U_CAPI int32_t U_EXPORT2
    226 uset_indexOf(const USet* set, UChar32 c) {
    227     return ((UnicodeSet*) set)->UnicodeSet::indexOf(c);
    228 }
    229 
    230 U_CAPI UChar32 U_EXPORT2
    231 uset_charAt(const USet* set, int32_t index) {
    232     return ((UnicodeSet*) set)->UnicodeSet::charAt(index);
    233 }
    234 
    235 U_CAPI int32_t U_EXPORT2
    236 uset_size(const USet* set) {
    237     return ((const UnicodeSet*) set)->UnicodeSet::size();
    238 }
    239 
    240 U_NAMESPACE_BEGIN
    241 /**
    242  * This class only exists to provide access to the UnicodeSet private
    243  * USet support API.  Declaring a class a friend is more portable than
    244  * trying to declare extern "C" functions as friends.
    245  */
    246 class USetAccess /* not : public UObject because all methods are static */ {
    247 public:
    248     /* Try to have the compiler inline these*/
    249     inline static int32_t getStringCount(const UnicodeSet& set) {
    250         return set.getStringCount();
    251     }
    252     inline static const UnicodeString* getString(const UnicodeSet& set,
    253                                                  int32_t i) {
    254         return set.getString(i);
    255     }
    256 private:
    257     /* do not instantiate*/
    258     USetAccess();
    259 };
    260 U_NAMESPACE_END
    261 
    262 U_CAPI int32_t U_EXPORT2
    263 uset_getItemCount(const USet* uset) {
    264     const UnicodeSet& set = *(const UnicodeSet*)uset;
    265     return set.getRangeCount() + USetAccess::getStringCount(set);
    266 }
    267 
    268 U_CAPI int32_t U_EXPORT2
    269 uset_getItem(const USet* uset, int32_t itemIndex,
    270              UChar32* start, UChar32* end,
    271              UChar* str, int32_t strCapacity,
    272              UErrorCode* ec) {
    273     if (U_FAILURE(*ec)) return 0;
    274     const UnicodeSet& set = *(const UnicodeSet*)uset;
    275     int32_t rangeCount;
    276 
    277     if (itemIndex < 0) {
    278         *ec = U_ILLEGAL_ARGUMENT_ERROR;
    279         return -1;
    280     } else if (itemIndex < (rangeCount = set.getRangeCount())) {
    281         *start = set.getRangeStart(itemIndex);
    282         *end = set.getRangeEnd(itemIndex);
    283         return 0;
    284     } else {
    285         itemIndex -= rangeCount;
    286         if (itemIndex < USetAccess::getStringCount(set)) {
    287             const UnicodeString* s = USetAccess::getString(set, itemIndex);
    288             return s->extract(str, strCapacity, *ec);
    289         } else {
    290             *ec = U_INDEX_OUTOFBOUNDS_ERROR;
    291             return -1;
    292         }
    293     }
    294 }
    295 
    296 //U_CAPI int32_t U_EXPORT2
    297 //uset_getRangeCount(const USet* set) {
    298 //    return ((const UnicodeSet*) set)->getRangeCount();
    299 //}
    300 //
    301 //U_CAPI UBool U_EXPORT2
    302 //uset_getRange(const USet* set, int32_t rangeIndex,
    303 //              UChar32* pStart, UChar32* pEnd) {
    304 //    if ((uint32_t) rangeIndex >= (uint32_t) uset_getRangeCount(set)) {
    305 //        return FALSE;
    306 //    }
    307 //    const UnicodeSet* us = (const UnicodeSet*) set;
    308 //    *pStart = us->getRangeStart(rangeIndex);
    309 //    *pEnd = us->getRangeEnd(rangeIndex);
    310 //    return TRUE;
    311 //}
    312 
    313 /*
    314  * Serialize a USet into 16-bit units.
    315  * Store BMP code points as themselves with one 16-bit unit each.
    316  *
    317  * Important: the code points in the array are in ascending order,
    318  * therefore all BMP code points precede all supplementary code points.
    319  *
    320  * Store each supplementary code point in 2 16-bit units,
    321  * simply with higher-then-lower 16-bit halfs.
    322  *
    323  * Precede the entire list with the length.
    324  * If there are supplementary code points, then set bit 15 in the length
    325  * and add the bmpLength between it and the array.
    326  *
    327  * In other words:
    328  * - all BMP:            (length=bmpLength) BMP, .., BMP
    329  * - some supplementary: (length|0x8000) (bmpLength<length) BMP, .., BMP, supp-high, supp-low, ..
    330  */
    331 U_CAPI int32_t U_EXPORT2
    332 uset_serialize(const USet* set, uint16_t* dest, int32_t destCapacity, UErrorCode* ec) {
    333     if (ec==NULL || U_FAILURE(*ec)) {
    334         return 0;
    335     }
    336 
    337     return ((const UnicodeSet*) set)->UnicodeSet::serialize(dest, destCapacity,* ec);
    338 }
    339 
    340 U_CAPI UBool U_EXPORT2
    341 uset_getSerializedSet(USerializedSet* fillSet, const uint16_t* src, int32_t srcLength) {
    342     int32_t length;
    343 
    344     if(fillSet==NULL) {
    345         return FALSE;
    346     }
    347     if(src==NULL || srcLength<=0) {
    348         fillSet->length=fillSet->bmpLength=0;
    349         return FALSE;
    350     }
    351 
    352     length=*src++;
    353     if(length&0x8000) {
    354         /* there are supplementary values */
    355         length&=0x7fff;
    356         if(srcLength<(2+length)) {
    357             fillSet->length=fillSet->bmpLength=0;
    358             return FALSE;
    359         }
    360         fillSet->bmpLength=*src++;
    361     } else {
    362         /* only BMP values */
    363         if(srcLength<(1+length)) {
    364             fillSet->length=fillSet->bmpLength=0;
    365             return FALSE;
    366         }
    367         fillSet->bmpLength=length;
    368     }
    369     fillSet->array=src;
    370     fillSet->length=length;
    371     return TRUE;
    372 }
    373 
    374 U_CAPI void U_EXPORT2
    375 uset_setSerializedToOne(USerializedSet* fillSet, UChar32 c) {
    376     if(fillSet==NULL || (uint32_t)c>0x10ffff) {
    377         return;
    378     }
    379 
    380     fillSet->array=fillSet->staticArray;
    381     if(c<0xffff) {
    382         fillSet->bmpLength=fillSet->length=2;
    383         fillSet->staticArray[0]=(uint16_t)c;
    384         fillSet->staticArray[1]=(uint16_t)c+1;
    385     } else if(c==0xffff) {
    386         fillSet->bmpLength=1;
    387         fillSet->length=3;
    388         fillSet->staticArray[0]=0xffff;
    389         fillSet->staticArray[1]=1;
    390         fillSet->staticArray[2]=0;
    391     } else if(c<0x10ffff) {
    392         fillSet->bmpLength=0;
    393         fillSet->length=4;
    394         fillSet->staticArray[0]=(uint16_t)(c>>16);
    395         fillSet->staticArray[1]=(uint16_t)c;
    396         ++c;
    397         fillSet->staticArray[2]=(uint16_t)(c>>16);
    398         fillSet->staticArray[3]=(uint16_t)c;
    399     } else /* c==0x10ffff */ {
    400         fillSet->bmpLength=0;
    401         fillSet->length=2;
    402         fillSet->staticArray[0]=0x10;
    403         fillSet->staticArray[1]=0xffff;
    404     }
    405 }
    406 
    407 U_CAPI UBool U_EXPORT2
    408 uset_serializedContains(const USerializedSet* set, UChar32 c) {
    409     const uint16_t* array;
    410 
    411     if(set==NULL || (uint32_t)c>0x10ffff) {
    412         return FALSE;
    413     }
    414 
    415     array=set->array;
    416     if(c<=0xffff) {
    417         /* find c in the BMP part */
    418         int32_t lo = 0;
    419         int32_t hi = set->bmpLength-1;
    420         if (c < array[0]) {
    421             hi = 0;
    422         } else if (c < array[hi]) {
    423             for(;;) {
    424                 int32_t i = (lo + hi) >> 1;
    425                 if (i == lo) {
    426                     break;  // Done!
    427                 } else if (c < array[i]) {
    428                     hi = i;
    429                 } else {
    430                     lo = i;
    431                 }
    432             }
    433         } else {
    434             hi += 1;
    435         }
    436         return (UBool)(hi&1);
    437     } else {
    438         /* find c in the supplementary part */
    439         uint16_t high=(uint16_t)(c>>16), low=(uint16_t)c;
    440         int32_t base = set->bmpLength;
    441         int32_t lo = 0;
    442         int32_t hi = set->length - 2 - base;
    443         if (high < array[base] || (high==array[base] && low<array[base+1])) {
    444             hi = 0;
    445         } else if (high < array[base+hi] || (high==array[base+hi] && low<array[base+hi+1])) {
    446             for (;;) {
    447                 int32_t i = ((lo + hi) >> 1) & ~1;  // Guarantee even result
    448                 int32_t iabs = i + base;
    449                 if (i == lo) {
    450                     break;  // Done!
    451                 } else if (high < array[iabs] || (high==array[iabs] && low<array[iabs+1])) {
    452                     hi = i;
    453                 } else {
    454                     lo = i;
    455                 }
    456             }
    457         } else {
    458             hi += 2;
    459         }
    460         /* count pairs of 16-bit units even per BMP and check if the number of pairs is odd */
    461         return (UBool)(((hi+(base<<1))&2)!=0);
    462     }
    463 }
    464 
    465 U_CAPI int32_t U_EXPORT2
    466 uset_getSerializedRangeCount(const USerializedSet* set) {
    467     if(set==NULL) {
    468         return 0;
    469     }
    470 
    471     return (set->bmpLength+(set->length-set->bmpLength)/2+1)/2;
    472 }
    473 
    474 U_CAPI UBool U_EXPORT2
    475 uset_getSerializedRange(const USerializedSet* set, int32_t rangeIndex,
    476                         UChar32* pStart, UChar32* pEnd) {
    477     const uint16_t* array;
    478     int32_t bmpLength, length;
    479 
    480     if(set==NULL || rangeIndex<0 || pStart==NULL || pEnd==NULL) {
    481         return FALSE;
    482     }
    483 
    484     array=set->array;
    485     length=set->length;
    486     bmpLength=set->bmpLength;
    487 
    488     rangeIndex*=2; /* address start/limit pairs */
    489     if(rangeIndex<bmpLength) {
    490         *pStart=array[rangeIndex++];
    491         if(rangeIndex<bmpLength) {
    492             *pEnd=array[rangeIndex]-1;
    493         } else if(rangeIndex<length) {
    494             *pEnd=((((int32_t)array[rangeIndex])<<16)|array[rangeIndex+1])-1;
    495         } else {
    496             *pEnd=0x10ffff;
    497         }
    498         return TRUE;
    499     } else {
    500         rangeIndex-=bmpLength;
    501         rangeIndex*=2; /* address pairs of pairs of units */
    502         length-=bmpLength;
    503         if(rangeIndex<length) {
    504             array+=bmpLength;
    505             *pStart=(((int32_t)array[rangeIndex])<<16)|array[rangeIndex+1];
    506             rangeIndex+=2;
    507             if(rangeIndex<length) {
    508                 *pEnd=((((int32_t)array[rangeIndex])<<16)|array[rangeIndex+1])-1;
    509             } else {
    510                 *pEnd=0x10ffff;
    511             }
    512             return TRUE;
    513         } else {
    514             return FALSE;
    515         }
    516     }
    517 }
    518 
    519 // TODO The old, internal uset.c had an efficient uset_containsOne function.
    520 // Returned the one and only code point, or else -1 or something.
    521 // Consider adding such a function to both C and C++ UnicodeSet/uset.
    522 // See tools/gennorm/store.c for usage, now usetContainsOne there.
    523 
    524 // TODO Investigate incorporating this code into UnicodeSet to improve
    525 // efficiency.
    526 // ---
    527 // #define USET_GROW_DELTA 20
    528 //
    529 // static int32_t
    530 // findChar(const UChar32* array, int32_t length, UChar32 c) {
    531 //     int32_t i;
    532 //
    533 //     /* check the last range limit first for more efficient appending */
    534 //     if(length>0) {
    535 //         if(c>=array[length-1]) {
    536 //             return length;
    537 //         }
    538 //
    539 //         /* do not check the last range limit again in the loop below */
    540 //         --length;
    541 //     }
    542 //
    543 //     for(i=0; i<length && c>=array[i]; ++i) {}
    544 //     return i;
    545 // }
    546 //
    547 // static UBool
    548 // addRemove(USet* set, UChar32 c, int32_t doRemove) {
    549 //     int32_t i, length, more;
    550 //
    551 //     if(set==NULL || (uint32_t)c>0x10ffff) {
    552 //         return FALSE;
    553 //     }
    554 //
    555 //     length=set->length;
    556 //     i=findChar(set->array, length, c);
    557 //     if((i&1)^doRemove) {
    558 //         /* c is already in the set */
    559 //         return TRUE;
    560 //     }
    561 //
    562 //     /* how many more array items do we need? */
    563 //     if(i<length && (c+1)==set->array[i]) {
    564 //         /* c is just before the following range, extend that in-place by one */
    565 //         set->array[i]=c;
    566 //         if(i>0) {
    567 //             --i;
    568 //             if(c==set->array[i]) {
    569 //                 /* the previous range collapsed, remove it */
    570 //                 set->length=length-=2;
    571 //                 if(i<length) {
    572 //                     uprv_memmove(set->array+i, set->array+i+2, (length-i)*4);
    573 //                 }
    574 //             }
    575 //         }
    576 //         return TRUE;
    577 //     } else if(i>0 && c==set->array[i-1]) {
    578 //         /* c is just after the previous range, extend that in-place by one */
    579 //         if(++c<=0x10ffff) {
    580 //             set->array[i-1]=c;
    581 //             if(i<length && c==set->array[i]) {
    582 //                 /* the following range collapsed, remove it */
    583 //                 --i;
    584 //                 set->length=length-=2;
    585 //                 if(i<length) {
    586 //                     uprv_memmove(set->array+i, set->array+i+2, (length-i)*4);
    587 //                 }
    588 //             }
    589 //         } else {
    590 //             /* extend the previous range (had limit 0x10ffff) to the end of Unicode */
    591 //             set->length=i-1;
    592 //         }
    593 //         return TRUE;
    594 //     } else if(i==length && c==0x10ffff) {
    595 //         /* insert one range limit c */
    596 //         more=1;
    597 //     } else {
    598 //         /* insert two range limits c, c+1 */
    599 //         more=2;
    600 //     }
    601 //
    602 //     /* insert <more> range limits */
    603 //     if(length+more>set->capacity) {
    604 //         /* reallocate */
    605 //         int32_t newCapacity=set->capacity+set->capacity/2+USET_GROW_DELTA;
    606 //         UChar32* newArray=(UChar32* )uprv_malloc(newCapacity*4);
    607 //         if(newArray==NULL) {
    608 //             return FALSE;
    609 //         }
    610 //         set->capacity=newCapacity;
    611 //         uprv_memcpy(newArray, set->array, length*4);
    612 //
    613 //         if(set->array!=set->staticBuffer) {
    614 //             uprv_free(set->array);
    615 //         }
    616 //         set->array=newArray;
    617 //     }
    618 //
    619 //     if(i<length) {
    620 //         uprv_memmove(set->array+i+more, set->array+i, (length-i)*4);
    621 //     }
    622 //     set->array[i]=c;
    623 //     if(more==2) {
    624 //         set->array[i+1]=c+1;
    625 //     }
    626 //     set->length+=more;
    627 //
    628 //     return TRUE;
    629 // }
    630 //
    631 // U_CAPI UBool U_EXPORT2
    632 // uset_add(USet* set, UChar32 c) {
    633 //     return addRemove(set, c, 0);
    634 // }
    635 //
    636 // U_CAPI void U_EXPORT2
    637 // uset_remove(USet* set, UChar32 c) {
    638 //     addRemove(set, c, 1);
    639 // }
    640