scuffed-code/icu4c/source/common/uchar.c
2004-05-18 22:01:41 +00:00

2203 lines
73 KiB
C

/*
********************************************************************************
* Copyright (C) 1996-2004, International Business Machines
* Corporation and others. All Rights Reserved.
********************************************************************************
*
* File UCHAR.C
*
* Modification History:
*
* Date Name Description
* 04/02/97 aliu Creation.
* 4/15/99 Madhu Updated all the function definitions for C Implementation
* 5/20/99 Madhu Added the function u_getVersion()
* 8/19/1999 srl Upgraded scripts to Unicode3.0
* 11/11/1999 weiv added u_isalnum(), cleaned comments
* 01/11/2000 helena Renamed u_getVersion to u_getUnicodeVersion.
* 06/20/2000 helena OS/400 port changes; mostly typecast.
******************************************************************************
*/
#include "unicode/utypes.h"
#include "unicode/uchar.h"
#include "unicode/udata.h"
#include "unicode/uloc.h"
#include "unicode/uiter.h"
#include "unicode/uset.h"
#include "umutex.h"
#include "cmemory.h"
#include "ucln_cmn.h"
#include "utrie.h"
#include "ustr_imp.h"
#include "udataswp.h"
#include "uprops.h"
#include "uassert.h"
#define LENGTHOF(array) (int32_t)(sizeof(array)/sizeof((array)[0]))
/* dynamically loaded Unicode character properties -------------------------- */
/*
* loaded uprops.dat -
* for a description of the file format, see icu/source/tools/genprops/store.c
*/
static const char DATA_NAME[] = "uprops";
static const char DATA_TYPE[] = "icu";
static UDataMemory *propsData=NULL;
static UErrorCode dataErrorCode=U_ZERO_ERROR;
static uint8_t formatVersion[4]={ 0, 0, 0, 0 };
static UVersionInfo dataVersion={ 0, 0, 0, 0 };
static UTrie propsTrie={ 0 }, propsVectorsTrie={ 0 };
static const uint32_t *pData32=NULL, *props32Table=NULL, *exceptionsTable=NULL, *propsVectors=NULL;
static const UChar *ucharsTable=NULL;
static int32_t countPropsVectors=0, propsVectorsColumns=0;
static int8_t havePropsData=0; /* == 0 -> Data has not been loaded.
* < 0 -> Error occured attempting to load data.
* > 0 -> Data has been successfully loaded.
*/
/* index values loaded from uprops.dat */
static int32_t indexes[UPROPS_INDEX_COUNT];
/* if bit 15 is set, then the folding offset is in bits 14..0 of the 16-bit trie result */
static int32_t U_CALLCONV
getFoldingPropsOffset(uint32_t data) {
if(data&0x8000) {
return (int32_t)(data&0x7fff);
} else {
return 0;
}
}
static UBool U_CALLCONV
isAcceptable(void *context,
const char *type, const char *name,
const UDataInfo *pInfo) {
if(
pInfo->size>=20 &&
pInfo->isBigEndian==U_IS_BIG_ENDIAN &&
pInfo->charsetFamily==U_CHARSET_FAMILY &&
pInfo->dataFormat[0]==0x55 && /* dataFormat="UPro" */
pInfo->dataFormat[1]==0x50 &&
pInfo->dataFormat[2]==0x72 &&
pInfo->dataFormat[3]==0x6f &&
pInfo->formatVersion[0]==3 &&
pInfo->formatVersion[2]==UTRIE_SHIFT &&
pInfo->formatVersion[3]==UTRIE_INDEX_SHIFT
) {
uprv_memcpy(formatVersion, pInfo->formatVersion, 4);
uprv_memcpy(dataVersion, pInfo->dataVersion, 4);
return TRUE;
} else {
return FALSE;
}
}
UBool
uchar_cleanup()
{
if (propsData) {
udata_close(propsData);
propsData=NULL;
}
pData32=NULL;
props32Table=NULL;
exceptionsTable=NULL;
ucharsTable=NULL;
propsVectors=NULL;
countPropsVectors=0;
dataErrorCode=U_ZERO_ERROR;
havePropsData=0;
return TRUE;
}
U_CFUNC int8_t
uprv_loadPropsData(UErrorCode *errorCode) {
/* load Unicode character properties data from file if necessary */
/*
* This lazy intialization with double-checked locking (without mutex protection for
* haveNormData==0) is transiently unsafe under certain circumstances.
* Check the readme and use u_init() if necessary.
*/
if(havePropsData==0) {
UTrie trie={ 0 }, trie2={ 0 };
UDataMemory *data;
const uint32_t *p=NULL;
int32_t length;
/* open the data outside the mutex block */
data=udata_openChoice(NULL, DATA_TYPE, DATA_NAME, isAcceptable, NULL, errorCode);
dataErrorCode=*errorCode;
if(U_FAILURE(*errorCode)) {
return havePropsData=-1;
}
p=(const uint32_t *)udata_getMemory(data);
/* unserialize the trie; it is directly after the int32_t indexes[UPROPS_INDEX_COUNT] */
length=(int32_t)p[UPROPS_PROPS32_INDEX]*4;
length=utrie_unserialize(&trie, (const uint8_t *)(p+UPROPS_INDEX_COUNT), length-64, errorCode);
if(U_FAILURE(*errorCode)) {
dataErrorCode=*errorCode;
udata_close(data);
return havePropsData=-1;
}
trie.getFoldingOffset=getFoldingPropsOffset;
/* unserialize the properties vectors trie, if any */
if( p[UPROPS_ADDITIONAL_TRIE_INDEX]!=0 &&
p[UPROPS_ADDITIONAL_VECTORS_INDEX]!=0
) {
length=(int32_t)(p[UPROPS_ADDITIONAL_VECTORS_INDEX]-p[UPROPS_ADDITIONAL_TRIE_INDEX])*4;
length=utrie_unserialize(&trie2, (const uint8_t *)(p+p[UPROPS_ADDITIONAL_TRIE_INDEX]), length, errorCode);
if(U_FAILURE(*errorCode)) {
uprv_memset(&trie2, 0, sizeof(trie2));
} else {
trie2.getFoldingOffset=getFoldingPropsOffset;
}
}
/* in the mutex block, set the data for this process */
umtx_lock(NULL);
if(propsData==NULL) {
propsData=data;
data=NULL;
pData32=p;
p=NULL;
uprv_memcpy(&propsTrie, &trie, sizeof(trie));
uprv_memcpy(&propsVectorsTrie, &trie2, sizeof(trie2));
}
/* initialize some variables */
uprv_memcpy(indexes, pData32, sizeof(indexes));
props32Table=pData32+indexes[UPROPS_PROPS32_INDEX];
exceptionsTable=pData32+indexes[UPROPS_EXCEPTIONS_INDEX];
ucharsTable=(const UChar *)(pData32+indexes[UPROPS_EXCEPTIONS_TOP_INDEX]);
/* additional properties */
if(indexes[UPROPS_ADDITIONAL_VECTORS_INDEX]!=0) {
propsVectors=pData32+indexes[UPROPS_ADDITIONAL_VECTORS_INDEX];
countPropsVectors=indexes[UPROPS_RESERVED_INDEX]-indexes[UPROPS_ADDITIONAL_VECTORS_INDEX];
propsVectorsColumns=indexes[UPROPS_ADDITIONAL_VECTORS_COLUMNS_INDEX];
}
havePropsData=1;
umtx_unlock(NULL);
/* if a different thread set it first, then close the extra data */
if(data!=NULL) {
udata_close(data); /* NULL if it was set correctly */
}
}
return havePropsData;
}
static int8_t
loadPropsData(void) {
UErrorCode errorCode = U_ZERO_ERROR;
int8_t retVal = uprv_loadPropsData(&errorCode);
return retVal;
}
/* Unicode properties data swapping ----------------------------------------- */
U_CAPI int32_t U_EXPORT2
uprops_swap(const UDataSwapper *ds,
const void *inData, int32_t length, void *outData,
UErrorCode *pErrorCode) {
const UDataInfo *pInfo;
int32_t headerSize, i;
int32_t dataIndexes[UPROPS_INDEX_COUNT];
const int32_t *inData32;
/* udata_swapDataHeader checks the arguments */
headerSize=udata_swapDataHeader(ds, inData, length, outData, pErrorCode);
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return 0;
}
/* check data format and format version */
pInfo=(const UDataInfo *)((const char *)inData+4);
if(!(
pInfo->dataFormat[0]==0x55 && /* dataFormat="UPro" */
pInfo->dataFormat[1]==0x50 &&
pInfo->dataFormat[2]==0x72 &&
pInfo->dataFormat[3]==0x6f &&
pInfo->formatVersion[0]==3 &&
pInfo->formatVersion[2]==UTRIE_SHIFT &&
pInfo->formatVersion[3]==UTRIE_INDEX_SHIFT
)) {
udata_printError(ds, "uprops_swap(): data format %02x.%02x.%02x.%02x (format version %02x) is not a Unicode properties file\n",
pInfo->dataFormat[0], pInfo->dataFormat[1],
pInfo->dataFormat[2], pInfo->dataFormat[3],
pInfo->formatVersion[0]);
*pErrorCode=U_UNSUPPORTED_ERROR;
return 0;
}
/* the properties file must contain at least the indexes array */
if(length>=0 && (length-headerSize)<sizeof(dataIndexes)) {
udata_printError(ds, "uprops_swap(): too few bytes (%d after header) for a Unicode properties file\n",
length-headerSize);
*pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
return 0;
}
/* read the indexes */
inData32=(const int32_t *)((const char *)inData+headerSize);
for(i=0; i<UPROPS_INDEX_COUNT; ++i) {
dataIndexes[i]=udata_readInt32(ds, inData32[i]);
}
/*
* comments are copied from the data format description in genprops/store.c
* indexes[] constants are in uprops.h
*/
if(length>=0) {
int32_t *outData32;
if((length-headerSize)<(4*dataIndexes[UPROPS_RESERVED_INDEX])) {
udata_printError(ds, "uprops_swap(): too few bytes (%d after header) for a Unicode properties file\n",
length-headerSize);
*pErrorCode=U_INDEX_OUTOFBOUNDS_ERROR;
return 0;
}
outData32=(int32_t *)((char *)outData+headerSize);
/* copy everything for inaccessible data (padding) */
if(inData32!=outData32) {
uprv_memcpy(outData32, inData32, 4*dataIndexes[UPROPS_RESERVED_INDEX]);
}
/* swap the indexes[16] */
ds->swapArray32(ds, inData32, 4*UPROPS_INDEX_COUNT, outData32, pErrorCode);
/*
* swap the main properties UTrie
* PT serialized properties trie, see utrie.h (byte size: 4*(i0-16))
*/
utrie_swap(ds,
inData32+UPROPS_INDEX_COUNT,
4*(dataIndexes[UPROPS_PROPS32_INDEX]-UPROPS_INDEX_COUNT),
outData32+UPROPS_INDEX_COUNT,
pErrorCode);
/*
* swap the properties and exceptions words
* P const uint32_t props32[i1-i0];
* E const uint32_t exceptions[i2-i1];
*/
ds->swapArray32(ds,
inData32+dataIndexes[UPROPS_PROPS32_INDEX],
4*(dataIndexes[UPROPS_EXCEPTIONS_TOP_INDEX]-dataIndexes[UPROPS_PROPS32_INDEX]),
outData32+dataIndexes[UPROPS_PROPS32_INDEX],
pErrorCode);
/*
* swap the UChars
* U const UChar uchars[2*(i3-i2)];
*/
ds->swapArray16(ds,
inData32+dataIndexes[UPROPS_EXCEPTIONS_TOP_INDEX],
4*(dataIndexes[UPROPS_ADDITIONAL_TRIE_INDEX]-dataIndexes[UPROPS_EXCEPTIONS_TOP_INDEX]),
outData32+dataIndexes[UPROPS_EXCEPTIONS_TOP_INDEX],
pErrorCode);
/*
* swap the additional UTrie
* i3 additionalTrieIndex; -- 32-bit unit index to the additional trie for more properties
*/
utrie_swap(ds,
inData32+dataIndexes[UPROPS_ADDITIONAL_TRIE_INDEX],
4*(dataIndexes[UPROPS_ADDITIONAL_VECTORS_INDEX]-dataIndexes[UPROPS_ADDITIONAL_TRIE_INDEX]),
outData32+dataIndexes[UPROPS_ADDITIONAL_TRIE_INDEX],
pErrorCode);
/*
* swap the properties vectors
* PV const uint32_t propsVectors[(i6-i4)/i5][i5]==uint32_t propsVectors[i6-i4];
*/
ds->swapArray32(ds,
inData32+dataIndexes[UPROPS_ADDITIONAL_VECTORS_INDEX],
4*(dataIndexes[UPROPS_RESERVED_INDEX]-dataIndexes[UPROPS_ADDITIONAL_VECTORS_INDEX]),
outData32+dataIndexes[UPROPS_ADDITIONAL_VECTORS_INDEX],
pErrorCode);
}
/* i6 reservedItemIndex; -- 32-bit unit index to the top of the properties vectors table */
return headerSize+4*dataIndexes[UPROPS_RESERVED_INDEX];
}
/* constants and macros for access to the data ------------------------------ */
/* getting a uint32_t properties word from the data */
#define HAVE_DATA (havePropsData>0 || loadPropsData()>0)
#define VALIDATE(c) (((uint32_t)(c))<=0x10ffff && HAVE_DATA)
#define GET_PROPS_UNSAFE(c, result) \
UTRIE_GET16(&propsTrie, c, result); \
(result)=props32Table[(result)]
#define GET_PROPS(c, result) \
if(HAVE_DATA) { \
GET_PROPS_UNSAFE(c, result); \
} else { \
(result)=0; \
}
/* finding an exception value */
#define HAVE_EXCEPTION_VALUE(flags, index) ((flags)&(1UL<<(index)))
/* number of bits in an 8-bit integer value */
#define EXC_GROUP 8
static const uint8_t flagsOffset[256]={
0, 1, 1, 2, 1, 2, 2, 3, 1, 2, 2, 3, 2, 3, 3, 4,
1, 2, 2, 3, 2, 3, 3, 4, 2, 3, 3, 4, 3, 4, 4, 5,
1, 2, 2, 3, 2, 3, 3, 4, 2, 3, 3, 4, 3, 4, 4, 5,
2, 3, 3, 4, 3, 4, 4, 5, 3, 4, 4, 5, 4, 5, 5, 6,
1, 2, 2, 3, 2, 3, 3, 4, 2, 3, 3, 4, 3, 4, 4, 5,
2, 3, 3, 4, 3, 4, 4, 5, 3, 4, 4, 5, 4, 5, 5, 6,
2, 3, 3, 4, 3, 4, 4, 5, 3, 4, 4, 5, 4, 5, 5, 6,
3, 4, 4, 5, 4, 5, 5, 6, 4, 5, 5, 6, 5, 6, 6, 7,
1, 2, 2, 3, 2, 3, 3, 4, 2, 3, 3, 4, 3, 4, 4, 5,
2, 3, 3, 4, 3, 4, 4, 5, 3, 4, 4, 5, 4, 5, 5, 6,
2, 3, 3, 4, 3, 4, 4, 5, 3, 4, 4, 5, 4, 5, 5, 6,
3, 4, 4, 5, 4, 5, 5, 6, 4, 5, 5, 6, 5, 6, 6, 7,
2, 3, 3, 4, 3, 4, 4, 5, 3, 4, 4, 5, 4, 5, 5, 6,
3, 4, 4, 5, 4, 5, 5, 6, 4, 5, 5, 6, 5, 6, 6, 7,
3, 4, 4, 5, 4, 5, 5, 6, 4, 5, 5, 6, 5, 6, 6, 7,
4, 5, 5, 6, 5, 6, 6, 7, 5, 6, 6, 7, 6, 7, 7, 8
};
#define ADD_EXCEPTION_OFFSET(flags, index, offset) { \
if((index)>=EXC_GROUP) { \
(offset)+=flagsOffset[(flags)&((1<<EXC_GROUP)-1)]; \
(flags)>>=EXC_GROUP; \
(index)-=EXC_GROUP; \
} \
(offset)+=flagsOffset[(flags)&((1<<(index))-1)]; \
}
U_CFUNC UBool
uprv_haveProperties(UErrorCode *pErrorCode) {
if (havePropsData == 0) {
uprv_loadPropsData(pErrorCode);
}
return (havePropsData>0);
}
/* API functions ------------------------------------------------------------ */
/* Gets the Unicode character's general category.*/
U_CAPI int8_t U_EXPORT2
u_charType(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (int8_t)GET_CATEGORY(props);
}
/* Enumerate all code points with their general categories. */
struct _EnumTypeCallback {
UCharEnumTypeRange *enumRange;
const void *context;
};
static uint32_t U_CALLCONV
_enumTypeValue(const void *context, uint32_t value) {
/* access the general category from the 32-bit properties, and those from the 16-bit trie value */
return GET_CATEGORY(props32Table[value]);
}
static UBool U_CALLCONV
_enumTypeRange(const void *context, UChar32 start, UChar32 limit, uint32_t value) {
/* just cast the value to UCharCategory */
return ((struct _EnumTypeCallback *)context)->
enumRange(((struct _EnumTypeCallback *)context)->context,
start, limit, (UCharCategory)value);
}
U_CAPI void U_EXPORT2
u_enumCharTypes(UCharEnumTypeRange *enumRange, const void *context) {
struct _EnumTypeCallback callback;
if(enumRange==NULL || !HAVE_DATA) {
return;
}
callback.enumRange=enumRange;
callback.context=context;
utrie_enum(&propsTrie, _enumTypeValue, _enumTypeRange, &callback);
}
/* Checks if ch is a lower case letter.*/
U_CAPI UBool U_EXPORT2
u_islower(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(GET_CATEGORY(props)==U_LOWERCASE_LETTER);
}
/* Checks if ch is an upper case letter.*/
U_CAPI UBool U_EXPORT2
u_isupper(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(GET_CATEGORY(props)==U_UPPERCASE_LETTER);
}
/* Checks if ch is a title case letter; usually upper case letters.*/
U_CAPI UBool U_EXPORT2
u_istitle(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(GET_CATEGORY(props)==U_TITLECASE_LETTER);
}
/* Checks if ch is a decimal digit. */
U_CAPI UBool U_EXPORT2
u_isdigit(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(GET_CATEGORY(props)==U_DECIMAL_DIGIT_NUMBER);
}
U_CAPI UBool U_EXPORT2
u_isxdigit(UChar32 c) {
uint32_t props;
/* check ASCII and Fullwidth ASCII a-fA-F */
if(
(c<=0x66 && c>=0x41 && (c<=0x46 || c>=0x61)) ||
(c>=0xff21 && c<=0xff46 && (c<=0xff26 || c>=0xff41))
) {
return TRUE;
}
GET_PROPS(c, props);
return (UBool)(GET_CATEGORY(props)==U_DECIMAL_DIGIT_NUMBER);
}
/* Checks if the Unicode character is a letter.*/
U_CAPI UBool U_EXPORT2
u_isalpha(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&U_GC_L_MASK)!=0);
}
/* Checks if ch is a letter or a decimal digit */
U_CAPI UBool U_EXPORT2
u_isalnum(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&(U_GC_L_MASK|U_GC_ND_MASK))!=0);
}
/* Checks if ch is a unicode character with assigned character type.*/
U_CAPI UBool U_EXPORT2
u_isdefined(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(GET_CATEGORY(props)!=0);
}
/* Checks if the Unicode character is a base form character that can take a diacritic.*/
U_CAPI UBool U_EXPORT2
u_isbase(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&(U_GC_L_MASK|U_GC_N_MASK|U_GC_MC_MASK|U_GC_ME_MASK))!=0);
}
/* Checks if the Unicode character is a control character.*/
U_CAPI UBool U_EXPORT2
u_iscntrl(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&(U_GC_CC_MASK|U_GC_CF_MASK|U_GC_ZL_MASK|U_GC_ZP_MASK))!=0);
}
U_CAPI UBool U_EXPORT2
u_isISOControl(UChar32 c) {
return (uint32_t)c<=0x9f && (c<=0x1f || c>=0x7f);
}
/* Some control characters that are used as space. */
#define IS_THAT_CONTROL_SPACE(c) \
(c<=0x9f && ((c>=TAB && c<=CR) || (c>=0x1c && c <=0x1f) || c==NL))
/* Checks if the Unicode character is a space character.*/
U_CAPI UBool U_EXPORT2
u_isspace(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&U_GC_Z_MASK)!=0 || IS_THAT_CONTROL_SPACE(c));
}
U_CAPI UBool U_EXPORT2
u_isJavaSpaceChar(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&U_GC_Z_MASK)!=0);
}
/* Checks if the Unicode character is a whitespace character.*/
U_CAPI UBool U_EXPORT2
u_isWhitespace(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(
((CAT_MASK(props)&U_GC_Z_MASK)!=0 &&
c!=NBSP && c!=FIGURESP && c!=NNBSP) || /* exclude no-break spaces */
IS_THAT_CONTROL_SPACE(c)
);
}
U_CAPI UBool U_EXPORT2
u_isblank(UChar32 c) {
if((uint32_t)c<=0x9f) {
return c==9 || c==0x20; /* TAB or SPACE */
} else {
/* White_Space but not LS (Zl) or PS (Zp) */
return u_isUWhiteSpace(c) && ((c&0xfffffffe)!=0x2028);
}
}
/* Checks if the Unicode character is printable.*/
U_CAPI UBool U_EXPORT2
u_isprint(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
/* comparing ==0 returns FALSE for the categories mentioned */
return (UBool)((CAT_MASK(props)&U_GC_C_MASK)==0);
}
U_CAPI UBool U_EXPORT2
u_isgraph(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
/* comparing ==0 returns FALSE for the categories mentioned */
return (UBool)((CAT_MASK(props)&
(U_GC_CC_MASK|U_GC_CF_MASK|U_GC_CS_MASK|U_GC_CN_MASK|U_GC_Z_MASK))
==0);
}
U_CAPI UBool U_EXPORT2
u_ispunct(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&U_GC_P_MASK)!=0);
}
/* Checks if the Unicode character can start a Unicode identifier.*/
U_CAPI UBool U_EXPORT2
u_isIDStart(UChar32 c) {
/* same as u_isalpha() */
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&(U_GC_L_MASK|U_GC_NL_MASK))!=0);
}
/* Checks if the Unicode character can be a Unicode identifier part other than starting the
identifier.*/
U_CAPI UBool U_EXPORT2
u_isIDPart(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(
(CAT_MASK(props)&
(U_GC_ND_MASK|U_GC_NL_MASK|
U_GC_L_MASK|
U_GC_PC_MASK|U_GC_MC_MASK|U_GC_MN_MASK)
)!=0 ||
u_isIDIgnorable(c));
}
/*Checks if the Unicode character can be ignorable in a Java or Unicode identifier.*/
U_CAPI UBool U_EXPORT2
u_isIDIgnorable(UChar32 c) {
if(c<=0x9f) {
return u_isISOControl(c) && !IS_THAT_CONTROL_SPACE(c);
} else {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(GET_CATEGORY(props)==U_FORMAT_CHAR);
}
}
/*Checks if the Unicode character can start a Java identifier.*/
U_CAPI UBool U_EXPORT2
u_isJavaIDStart(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)((CAT_MASK(props)&(U_GC_L_MASK|U_GC_SC_MASK|U_GC_PC_MASK))!=0);
}
/*Checks if the Unicode character can be a Java identifier part other than starting the
* identifier.
*/
U_CAPI UBool U_EXPORT2
u_isJavaIDPart(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(
(CAT_MASK(props)&
(U_GC_ND_MASK|U_GC_NL_MASK|
U_GC_L_MASK|
U_GC_SC_MASK|U_GC_PC_MASK|
U_GC_MC_MASK|U_GC_MN_MASK)
)!=0 ||
u_isIDIgnorable(c));
}
/* Transforms the Unicode character to its lower case equivalent.*/
U_CAPI UChar32 U_EXPORT2
u_tolower(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(CAT_MASK(props)&(U_GC_LU_MASK|U_GC_LT_MASK)) {
return c+GET_SIGNED_VALUE(props);
}
} else {
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_LOWERCASE)) {
int i=EXC_LOWERCASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
return (UChar32)*pe;
}
}
return c; /* no mapping - return c itself */
}
/* Transforms the Unicode character to its upper case equivalent.*/
U_CAPI UChar32 U_EXPORT2
u_toupper(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(GET_CATEGORY(props)==U_LOWERCASE_LETTER) {
return c-GET_SIGNED_VALUE(props);
}
} else {
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_UPPERCASE)) {
int i=EXC_UPPERCASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
return (UChar32)*pe;
}
}
return c; /* no mapping - return c itself */
}
/* Transforms the Unicode character to its title case equivalent.*/
U_CAPI UChar32 U_EXPORT2
u_totitle(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(GET_CATEGORY(props)==U_LOWERCASE_LETTER) {
/* here, titlecase is same as uppercase */
return c-GET_SIGNED_VALUE(props);
}
} else {
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_TITLECASE)) {
int i=EXC_TITLECASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
return (UChar32)*pe;
} else if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_UPPERCASE)) {
/* here, titlecase is same as uppercase */
int i=EXC_UPPERCASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
return (UChar32)*pe;
}
}
return c; /* no mapping - return c itself */
}
U_CAPI int32_t U_EXPORT2
u_charDigitValue(UChar32 c) {
uint32_t props, numericType;
GET_PROPS(c, props);
numericType=GET_NUMERIC_TYPE(props);
if(numericType==1) {
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
return GET_SIGNED_VALUE(props);
} else {
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_NUMERIC_VALUE)) {
int i=EXC_NUMERIC_VALUE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
return (int32_t)*pe;
}
}
}
return -1;
}
U_CAPI double U_EXPORT2
u_getNumericValue(UChar32 c) {
uint32_t props, numericType;
GET_PROPS(c, props);
numericType=GET_NUMERIC_TYPE(props);
if(numericType==0 || numericType>=(int32_t)U_NT_COUNT) {
return U_NO_NUMERIC_VALUE;
} else {
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
return GET_SIGNED_VALUE(props);
} else {
const uint32_t *pe;
uint32_t firstExceptionValue;
double numValue;
uint32_t denominator;
pe=GET_EXCEPTIONS(props);
firstExceptionValue=*pe++;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_NUMERIC_VALUE)) {
uint32_t flags=firstExceptionValue;
int i=EXC_NUMERIC_VALUE;
const uint32_t *p=pe;
int32_t numerator;
ADD_EXCEPTION_OFFSET(flags, i, p);
numerator=(int32_t)*p;
/*
* There are special values for huge numbers that are powers of ten.
* genprops/store.c documents:
* if numericValue=0x7fffff00+x then numericValue=10^x
*/
if(numerator<0x7fffff00) {
numValue=(double)numerator;
} else {
numerator&=0xff;
/* 10^x without math.h */
numValue=1.;
while(numerator>=4) {
numValue*=10000.;
numerator-=4;
}
switch(numerator) {
case 3:
numValue*=1000.;
break;
case 2:
numValue*=100.;
break;
case 1:
numValue*=10.;
break;
case 0:
default:
break;
}
}
} else {
numValue=0.;
}
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_DENOMINATOR_VALUE)) {
uint32_t flags=firstExceptionValue;
int i=EXC_DENOMINATOR_VALUE;
const uint32_t *p=pe;
ADD_EXCEPTION_OFFSET(flags, i, p);
denominator=*p;
} else {
denominator=0;
}
switch(firstExceptionValue&((1UL<<EXC_NUMERIC_VALUE)|(1UL<<EXC_DENOMINATOR_VALUE))) {
case 1UL<<EXC_NUMERIC_VALUE:
return numValue;
case 1UL<<EXC_DENOMINATOR_VALUE:
return (double)1./(double)denominator;
case (1UL<<EXC_NUMERIC_VALUE)|(1UL<<EXC_DENOMINATOR_VALUE):
return numValue/(double)denominator;
case 0: /* none (should not occur with numericType>0) */
default:
return U_NO_NUMERIC_VALUE;
}
}
}
}
/* Gets the character's linguistic directionality.*/
U_CAPI UCharDirection U_EXPORT2
u_charDirection(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UCharDirection)GET_BIDI_CLASS(props);
}
U_CAPI UBool U_EXPORT2
u_isMirrored(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
return (UBool)(props&(1UL<<UPROPS_MIRROR_SHIFT) ? TRUE : FALSE);
}
U_CAPI UChar32 U_EXPORT2
u_charMirror(UChar32 c) {
uint32_t props;
GET_PROPS(c, props);
if((props&(1UL<<UPROPS_MIRROR_SHIFT))==0) {
/* not mirrored - the value is not a mirror offset */
return c;
} else if(!PROPS_VALUE_IS_EXCEPTION(props)) {
return c+GET_SIGNED_VALUE(props);
} else {
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_MIRROR_MAPPING)) {
int i=EXC_MIRROR_MAPPING;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
return (UChar32)*pe;
} else {
return c;
}
}
}
/* ICU 2.1: u_getCombiningClass() moved to unorm.cpp */
U_CAPI int32_t U_EXPORT2
u_digit(UChar32 ch, int8_t radix) {
int8_t value;
if((uint8_t)(radix-2)<=(36-2)) {
value=(int8_t)u_charDigitValue(ch);
if(value<0) {
/* ch is not a decimal digit, try latin letters */
if(ch>=0x61 && ch<=0x7A) {
value=(int8_t)(ch-0x57); /* ch - 'a' + 10 */
} else if(ch>=0x41 && ch<=0x5A) {
value=(int8_t)(ch-0x37); /* ch - 'A' + 10 */
} else if(ch>=0xFF41 && ch<=0xFF5A) {
value=(int8_t)(ch-0xFF37); /* fullwidth ASCII a-z */
} else if(ch>=0xFF21 && ch<=0xFF3A) {
value=(int8_t)(ch-0xFF17); /* fullwidth ASCII A-Z */
}
}
} else {
value=-1; /* invalid radix */
}
return (int8_t)((value<radix) ? value : -1);
}
U_CAPI UChar32 U_EXPORT2
u_forDigit(int32_t digit, int8_t radix) {
if((uint8_t)(radix-2)>(36-2) || (uint32_t)digit>=(uint32_t)radix) {
return 0;
} else if(digit<10) {
return (UChar32)(0x30+digit);
} else {
return (UChar32)((0x61-10)+digit);
}
}
/* miscellaneous, and support for uprops.c ---------------------------------- */
U_CAPI void U_EXPORT2
u_getUnicodeVersion(UVersionInfo versionArray) {
if(versionArray!=NULL) {
if(HAVE_DATA) {
uprv_memcpy(versionArray, dataVersion, U_MAX_VERSION_LENGTH);
} else {
uprv_memset(versionArray, 0, U_MAX_VERSION_LENGTH);
}
}
}
U_CFUNC uint32_t
u_getUnicodeProperties(UChar32 c, int32_t column) {
uint16_t vecIndex;
if(column==-1) {
uint32_t props;
GET_PROPS(c, props);
return props;
} else if( !HAVE_DATA || countPropsVectors==0 ||
(uint32_t)c>0x10ffff ||
column<0 || column>=propsVectorsColumns
) {
return 0;
} else {
UTRIE_GET16(&propsVectorsTrie, c, vecIndex);
return propsVectors[vecIndex+column];
}
}
U_CFUNC int32_t
uprv_getMaxValues(int32_t column) {
if(HAVE_DATA) {
switch(column) {
case 0:
return indexes[UPROPS_MAX_VALUES_INDEX];
case 2:
return indexes[UPROPS_MAX_VALUES_2_INDEX];
default:
return 0;
}
} else {
return 0;
}
}
static UBool U_CALLCONV
_enumPropertyStartsRange(const void *context, UChar32 start, UChar32 limit, uint32_t value) {
/* add the start code point to the USet */
uset_add((USet *)context, start);
return TRUE;
}
#define USET_ADD_CP_AND_NEXT(set, cp) uset_add(set, cp); uset_add(set, cp+1)
U_CAPI void U_EXPORT2
uchar_addPropertyStarts(USet *set, UErrorCode *pErrorCode) {
UChar32 c;
int32_t value, value2;
if(!HAVE_DATA) {
*pErrorCode=dataErrorCode;
return;
}
/* add the start code point of each same-value range of each trie */
utrie_enum(&propsTrie, NULL, _enumPropertyStartsRange, set);
utrie_enum(&propsVectorsTrie, NULL, _enumPropertyStartsRange, set);
/* add code points with hardcoded properties, plus the ones following them */
/* add for IS_THAT_CONTROL_SPACE() */
uset_add(set, TAB); /* range TAB..CR */
uset_add(set, CR+1);
uset_add(set, 0x1c);
uset_add(set, 0x1f+1);
USET_ADD_CP_AND_NEXT(set, NL);
/* add for u_isIDIgnorable() what was not added above */
uset_add(set, DEL); /* range DEL..NBSP-1, NBSP added below */
uset_add(set, HAIRSP);
uset_add(set, RLM+1);
uset_add(set, INHSWAP);
uset_add(set, NOMDIG+1);
USET_ADD_CP_AND_NEXT(set, ZWNBSP);
/* add no-break spaces for u_isWhitespace() what was not added above */
USET_ADD_CP_AND_NEXT(set, NBSP);
USET_ADD_CP_AND_NEXT(set, FIGURESP);
USET_ADD_CP_AND_NEXT(set, NNBSP);
/* add for u_charDigitValue() */
USET_ADD_CP_AND_NEXT(set, 0x3007);
USET_ADD_CP_AND_NEXT(set, 0x4e00);
USET_ADD_CP_AND_NEXT(set, 0x4e8c);
USET_ADD_CP_AND_NEXT(set, 0x4e09);
USET_ADD_CP_AND_NEXT(set, 0x56db);
USET_ADD_CP_AND_NEXT(set, 0x4e94);
USET_ADD_CP_AND_NEXT(set, 0x516d);
USET_ADD_CP_AND_NEXT(set, 0x4e03);
USET_ADD_CP_AND_NEXT(set, 0x516b);
USET_ADD_CP_AND_NEXT(set, 0x4e5d);
/* add for u_digit() */
uset_add(set, U_a);
uset_add(set, U_z+1);
uset_add(set, U_A);
uset_add(set, U_Z+1);
/* add for UCHAR_DEFAULT_IGNORABLE_CODE_POINT what was not added above */
uset_add(set, WJ); /* range WJ..NOMDIG */
uset_add(set, 0xfff0);
uset_add(set, 0xfffb+1);
uset_add(set, 0xe0000);
uset_add(set, 0xe0fff+1);
/* add for UCHAR_GRAPHEME_BASE and others */
USET_ADD_CP_AND_NEXT(set, CGJ);
/* add for UCHAR_JOINING_TYPE */
uset_add(set, ZWNJ); /* range ZWNJ..ZWJ */
uset_add(set, ZWJ+1);
/*
* Add Jamo type boundaries for UCHAR_HANGUL_SYLLABLE_TYPE.
* First, we add fixed boundaries for the blocks of Jamos.
* Then we check in loops to see where the current Unicode version
* actually stops assigning such Jamos. We start each loop
* at the end of the per-Jamo-block assignments in Unicode 4 or earlier.
* (These have not changed since Unicode 2.)
*/
uset_add(set, 0x1100);
value=U_HST_LEADING_JAMO;
for(c=0x115a; c<=0x115f; ++c) {
value2=u_getIntPropertyValue(c, UCHAR_HANGUL_SYLLABLE_TYPE);
if(value!=value2) {
value=value2;
uset_add(set, c);
}
}
uset_add(set, 0x1160);
value=U_HST_VOWEL_JAMO;
for(c=0x11a3; c<=0x11a7; ++c) {
value2=u_getIntPropertyValue(c, UCHAR_HANGUL_SYLLABLE_TYPE);
if(value!=value2) {
value=value2;
uset_add(set, c);
}
}
uset_add(set, 0x11a8);
value=U_HST_TRAILING_JAMO;
for(c=0x11fa; c<=0x11ff; ++c) {
value2=u_getIntPropertyValue(c, UCHAR_HANGUL_SYLLABLE_TYPE);
if(value!=value2) {
value=value2;
uset_add(set, c);
}
}
/*
* Omit code points with hardcoded specialcasing properties
* because we do not build property UnicodeSets for them right now.
*/
}
/* string casing ------------------------------------------------------------ */
/*
* These internal string case mapping functions are here instead of ustring.c
* because we need efficient access to the character properties.
*
* This section contains helper functions that check for conditions
* in the input text surrounding the current code point
* according to SpecialCasing.txt.
*
* Starting with ICU 2.1, the "surrounding text" is passed in as an instance of
* UCharIterator to allow the core case mapping functions to be used
* inside transliterators (using Replaceable instead of UnicodeString/UChar *)
* etc.
*
* Each helper function gets the index
* - after the current code point if it looks at following text
* - before the current code point if it looks at preceding text
*
* Unicode 3.2 UAX 21 "Case Mappings" defines the conditions as follows:
*
* Final_Sigma
* C is preceded by a sequence consisting of
* a cased letter and a case-ignorable sequence,
* and C is not followed by a sequence consisting of
* an ignorable sequence and then a cased letter.
*
* More_Above
* C is followed by one or more characters of combining class 230 (ABOVE)
* in the combining character sequence.
*
* After_Soft_Dotted
* The last preceding character with combining class of zero before C
* was Soft_Dotted,
* and there is no intervening combining character class 230 (ABOVE).
*
* Before_Dot
* C is followed by combining dot above (U+0307).
* Any sequence of characters with a combining class that is neither 0 nor 230
* may intervene between the current character and the combining dot above.
*
* The erratum from 2002-10-31 adds the condition
*
* After_I
* The last preceding base character was an uppercase I, and there is no
* intervening combining character class 230 (ABOVE).
*
* (See Jitterbug 2344 and the comments on After_I below.)
*
* Helper definitions in Unicode 3.2 UAX 21:
*
* D1. A character C is defined to be cased
* if it meets any of the following criteria:
*
* - The general category of C is Titlecase Letter (Lt)
* - In [CoreProps], C has one of the properties Uppercase, or Lowercase
* - Given D = NFD(C), then it is not the case that:
* D = UCD_lower(D) = UCD_upper(D) = UCD_title(D)
* (This third criterium does not add any characters to the list
* for Unicode 3.2. Ignored.)
*
* D2. A character C is defined to be case-ignorable
* if it meets either of the following criteria:
*
* - The general category of C is
* Nonspacing Mark (Mn), or Enclosing Mark (Me), or Format Control (Cf), or
* Letter Modifier (Lm), or Symbol Modifier (Sk)
* - C is one of the following characters
* U+0027 APOSTROPHE
* U+00AD SOFT HYPHEN (SHY)
* U+2019 RIGHT SINGLE QUOTATION MARK
* (the preferred character for apostrophe)
*
* D3. A case-ignorable sequence is a sequence of
* zero or more case-ignorable characters.
*/
#if UCONFIG_NO_NORMALIZATION
/* no normalization - no combining classes */
static U_INLINE uint8_t
u_getCombiningClass(UChar32 c) {
return 0;
}
#endif
enum {
LOC_ROOT,
LOC_TURKISH,
LOC_LITHUANIAN
};
static int32_t
getCaseLocale(const char *locale) {
char lang[32];
UErrorCode errorCode;
int32_t length;
errorCode=U_ZERO_ERROR;
length=uloc_getLanguage(locale, lang, sizeof(lang), &errorCode);
if(U_FAILURE(errorCode) || length!=2) {
return LOC_ROOT;
}
if( (lang[0]=='t' && lang[1]=='r') ||
(lang[0]=='a' && lang[1]=='z')
) {
return LOC_TURKISH;
} else if(lang[0]=='l' && lang[1]=='t') {
return LOC_LITHUANIAN;
} else {
return LOC_ROOT;
}
}
/* Is case-ignorable? */
static U_INLINE UBool
isCaseIgnorable(UChar32 c, uint32_t category) {
return (FLAG(category)&(_Mn|_Me|_Cf|_Lm|_Sk))!=0 ||
c==0x27 || c==0xad || c==0x2019;
}
/* Is this a "cased" character? */
static U_INLINE UBool
isCased(UChar32 c, uint32_t category) {
/* Lt+Uppercase+Lowercase = Lt+Lu+Ll+Other_Uppercase+Other_Lowercase */
return (FLAG(category)&(_Lt|_Lu|_Ll))!=0 ||
(u_getUnicodeProperties(c, 1)&(FLAG(UPROPS_UPPERCASE)|FLAG(UPROPS_LOWERCASE)))!=0;
}
/* Is Soft_Dotted? */
static U_INLINE UBool
isSoftDotted(UChar32 c) {
return (u_getUnicodeProperties(c, 1)&FLAG(UPROPS_SOFT_DOTTED))!=0;
}
/* Is followed by {case-ignorable}* cased ? */
static UBool
isFollowedByCasedLetter(UCharIterator *iter, int32_t index) {
/* This is volatile because AIX 5.1 Visual Age 5.0 in 32-bit mode can't
optimize this correctly. It couldn't optimize (1UL<<category)&0xE
*/
volatile uint32_t category;
uint32_t props;
int32_t c;
if(iter==NULL) {
return FALSE;
}
iter->move(iter, index, UITER_ZERO);
for(;;) {
c=uiter_next32(iter);
if(c<0) {
break;
}
GET_PROPS_UNSAFE(c, props);
category=GET_CATEGORY(props);
if(isCased(c, category)) {
return TRUE; /* followed by cased letter */
}
if(!isCaseIgnorable(c, category)) {
return FALSE; /* not ignorable */
}
}
return FALSE; /* not followed by cased letter */
}
/* Is preceded by cased {case-ignorable}* ? */
static UBool
isPrecededByCasedLetter(UCharIterator *iter, int32_t index) {
/* This is volatile because AIX 5.1 Visual Age 5.0 in 32-bit mode can't
optimize this correctly. It couldn't optimize (1UL<<category)&0xE
*/
volatile uint32_t category;
uint32_t props;
int32_t c;
if(iter==NULL) {
return FALSE;
}
iter->move(iter, index, UITER_ZERO);
for(;;) {
c=uiter_previous32(iter);
if(c<0) {
break;
}
GET_PROPS_UNSAFE(c, props);
category=GET_CATEGORY(props);
if(isCased(c, category)) {
return TRUE; /* preceded by cased letter */
}
if(!isCaseIgnorable(c, category)) {
return FALSE; /* not ignorable */
}
}
return FALSE; /* not followed by cased letter */
}
/* Is preceded by Soft_Dotted character with no intervening cc=230 ? */
static UBool
isPrecededBySoftDotted(UCharIterator *iter, int32_t index) {
int32_t c;
uint8_t cc;
if(iter==NULL) {
return FALSE;
}
iter->move(iter, index, UITER_ZERO);
for(;;) {
c=uiter_previous32(iter);
if(c<0) {
break;
}
if(isSoftDotted(c)) {
return TRUE; /* preceded by TYPE_i */
}
cc=u_getCombiningClass(c);
if(cc==0 || cc==230) {
return FALSE; /* preceded by different base character (not TYPE_i), or intervening cc==230 */
}
}
return FALSE; /* not preceded by TYPE_i */
}
/*
* See Jitterbug 2344:
* The condition After_I for Turkic-lowercasing of U+0307 combining dot above
* is checked in ICU 2.0, 2.1, 2.6 but was not in 2.2 & 2.4 because
* we made those releases compatible with Unicode 3.2 which had not fixed
* a related but in SpecialCasing.txt.
*
* From the Jitterbug 2344 text:
* ... this bug is listed as a Unicode erratum
* from 2002-10-31 at http://www.unicode.org/uni2errata/UnicodeErrata.html
* <quote>
* There are two errors in SpecialCasing.txt.
* 1. Missing semicolons on two lines. ... [irrelevant for ICU]
* 2. An incorrect context definition. Correct as follows:
* < 0307; ; 0307; 0307; tr After_Soft_Dotted; # COMBINING DOT ABOVE
* < 0307; ; 0307; 0307; az After_Soft_Dotted; # COMBINING DOT ABOVE
* ---
* > 0307; ; 0307; 0307; tr After_I; # COMBINING DOT ABOVE
* > 0307; ; 0307; 0307; az After_I; # COMBINING DOT ABOVE
* where the context After_I is defined as:
* The last preceding base character was an uppercase I, and there is no
* intervening combining character class 230 (ABOVE).
* </quote>
*
* Note that SpecialCasing.txt even in Unicode 3.2 described the condition as:
*
* # When lowercasing, remove dot_above in the sequence I + dot_above, which will turn into i.
* # This matches the behavior of the canonically equivalent I-dot_above
*
* See also the description in this place in older versions of uchar.c (revision 1.100).
*
* Markus W. Scherer 2003-feb-15
*/
/* Is preceded by base character 'I' with no intervening cc=230 ? */
static UBool
isPrecededBy_I(UCharIterator *iter, int32_t index) {
int32_t c;
uint8_t cc;
if(iter==NULL) {
return FALSE;
}
iter->move(iter, index, UITER_ZERO);
for(;;) {
c=uiter_previous32(iter);
if(c<0) {
break;
}
if(c==0x49) {
return TRUE; /* preceded by I */
}
cc=u_getCombiningClass(c);
if(cc==0 || cc==230) {
return FALSE; /* preceded by different base character (not I), or intervening cc==230 */
}
}
return FALSE; /* not preceded by I */
}
/* Is followed by one or more cc==230 ? */
static UBool
isFollowedByMoreAbove(UCharIterator *iter, int32_t index) {
int32_t c;
uint8_t cc;
if(iter==NULL) {
return FALSE;
}
iter->move(iter, index, UITER_ZERO);
for(;;) {
c=uiter_next32(iter);
if(c<0) {
break;
}
cc=u_getCombiningClass(c);
if(cc==230) {
return TRUE; /* at least one cc==230 following */
}
if(cc==0) {
return FALSE; /* next base character, no more cc==230 following */
}
}
return FALSE; /* no more cc==230 following */
}
/* Is followed by a dot above (without cc==230 in between) ? */
static UBool
isFollowedByDotAbove(UCharIterator *iter, int32_t index) {
int32_t c;
uint8_t cc;
if(iter==NULL) {
return FALSE;
}
iter->move(iter, index, UITER_ZERO);
for(;;) {
c=uiter_next32(iter);
if(c<0) {
break;
}
if(c==0x307) {
return TRUE;
}
cc=u_getCombiningClass(c);
if(cc==0 || cc==230) {
return FALSE; /* next base character or cc==230 in between */
}
}
return FALSE; /* no dot above following */
}
/* lowercasing -------------------------------------------------------------- */
/* internal, see ustr_imp.h */
U_CAPI int32_t U_EXPORT2
u_internalToLower(UChar32 c, UCharIterator *iter,
UChar *dest, int32_t destCapacity,
const char *locale) {
UChar buffer[8];
uint32_t props;
UChar32 result;
int32_t i, length;
result=c;
GET_PROPS(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(CAT_MASK(props)&(U_GC_LU_MASK|U_GC_LT_MASK)) {
result=c+GET_SIGNED_VALUE(props);
}
} else {
const UChar *u;
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe, specialCasing;
int32_t minLength;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_SPECIAL_CASING)) {
i=EXC_SPECIAL_CASING;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
specialCasing=*pe;
/* fill u and length with the case mapping result string */
if(specialCasing&0x80000000) {
/* use hardcoded conditions and mappings */
int32_t loc=getCaseLocale(locale),
srcIndex= iter!=NULL ? iter->getIndex(iter, UITER_CURRENT) : 0;
/*
* Test for conditional mappings first
* (otherwise the unconditional default mappings are always taken),
* then test for characters that have unconditional mappings in SpecialCasing.txt,
* then get the UnicodeData.txt mappings.
*/
if( loc==LOC_LITHUANIAN &&
/* base characters, find accents above */
(((c==0x49 || c==0x4a || c==0x12e) &&
isFollowedByMoreAbove(iter, srcIndex)) ||
/* precomposed with accent above, no need to find one */
(c==0xcc || c==0xcd || c==0x128))
) {
/*
# Lithuanian
# Lithuanian retains the dot in a lowercase i when followed by accents.
# Introduce an explicit dot above when lowercasing capital I's and J's
# whenever there are more accents above.
# (of the accents used in Lithuanian: grave, acute, tilde above, and ogonek)
0049; 0069 0307; 0049; 0049; lt More_Above; # LATIN CAPITAL LETTER I
004A; 006A 0307; 004A; 004A; lt More_Above; # LATIN CAPITAL LETTER J
012E; 012F 0307; 012E; 012E; lt More_Above; # LATIN CAPITAL LETTER I WITH OGONEK
00CC; 0069 0307 0300; 00CC; 00CC; lt; # LATIN CAPITAL LETTER I WITH GRAVE
00CD; 0069 0307 0301; 00CD; 00CD; lt; # LATIN CAPITAL LETTER I WITH ACUTE
0128; 0069 0307 0303; 0128; 0128; lt; # LATIN CAPITAL LETTER I WITH TILDE
*/
u=buffer;
buffer[1]=0x307;
switch(c) {
case 0x49: /* LATIN CAPITAL LETTER I */
buffer[0]=0x69;
length=2;
break;
case 0x4a: /* LATIN CAPITAL LETTER J */
buffer[0]=0x6a;
length=2;
break;
case 0x12e: /* LATIN CAPITAL LETTER I WITH OGONEK */
buffer[0]=0x12f;
length=2;
break;
case 0xcc: /* LATIN CAPITAL LETTER I WITH GRAVE */
buffer[0]=0x69;
buffer[2]=0x300;
length=3;
break;
case 0xcd: /* LATIN CAPITAL LETTER I WITH ACUTE */
buffer[0]=0x69;
buffer[2]=0x301;
length=3;
break;
case 0x128: /* LATIN CAPITAL LETTER I WITH TILDE */
buffer[0]=0x69;
buffer[2]=0x303;
length=3;
break;
default:
return 0; /* will not occur */
}
/* # Turkish and Azeri */
} else if(loc==LOC_TURKISH && c==0x130) {
/*
# I and i-dotless; I-dot and i are case pairs in Turkish and Azeri
# The following rules handle those cases.
0130; 0069; 0130; 0130; tr # LATIN CAPITAL LETTER I WITH DOT ABOVE
0130; 0069; 0130; 0130; az # LATIN CAPITAL LETTER I WITH DOT ABOVE
*/
result=0x69;
goto single;
} else if(loc==LOC_TURKISH && c==0x307 && isPrecededBy_I(iter, srcIndex-1)) {
/*
# When lowercasing, remove dot_above in the sequence I + dot_above, which will turn into i.
# This matches the behavior of the canonically equivalent I-dot_above
0307; ; 0307; 0307; tr After_I; # COMBINING DOT ABOVE
0307; ; 0307; 0307; az After_I; # COMBINING DOT ABOVE
*/
return 0; /* remove the dot (continue without output) */
} else if(loc==LOC_TURKISH && c==0x49 && !isFollowedByDotAbove(iter, srcIndex)) {
/*
# When lowercasing, unless an I is before a dot_above, it turns into a dotless i.
0049; 0131; 0049; 0049; tr Not_Before_Dot; # LATIN CAPITAL LETTER I
0049; 0131; 0049; 0049; az Not_Before_Dot; # LATIN CAPITAL LETTER I
*/
result=0x131;
goto single;
} else if(c==0x130) {
/*
# Preserve canonical equivalence for I with dot. Turkic is handled below.
0130; 0069 0307; 0130; 0130; # LATIN CAPITAL LETTER I WITH DOT ABOVE
*/
static const UChar iWithDot[2]={ 0x69, 0x307 };
u=iWithDot;
length=2;
} else if( c==0x3a3 &&
!isFollowedByCasedLetter(iter, srcIndex) &&
isPrecededByCasedLetter(iter, srcIndex-1)
) {
/* greek capital sigma maps depending on surrounding cased letters (see SpecialCasing.txt) */
/*
# Special case for final form of sigma
03A3; 03C2; 03A3; 03A3; Final_Sigma; # GREEK CAPITAL LETTER SIGMA
*/
result=0x3c2; /* greek small final sigma */
goto single;
} else {
/* no known conditional special case mapping, use a normal mapping */
pe=GET_EXCEPTIONS(props); /* restore the initial exception pointer */
firstExceptionValue=*pe;
goto notSpecial;
}
} else {
/* get the special case mapping string from the data file */
u=ucharsTable+(specialCasing&0xffff);
length=(int32_t)((*u++)&0x1f);
}
/* copy the result string */
minLength = (length < destCapacity) ? length : destCapacity;
i=0;
while(i<minLength) {
dest[i++]=*u++;
}
return length;
}
notSpecial:
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_LOWERCASE)) {
i=EXC_LOWERCASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
result=(UChar32)*pe;
}
}
single:
length=UTF_CHAR_LENGTH(result);
if(length<=destCapacity) {
/* write result to dest */
i=0;
UTF_APPEND_CHAR_UNSAFE(dest, i, result);
}
return (result==c) ? -length : length;
}
/*
* Lowercases [srcStart..srcLimit[ but takes
* context [0..srcLength[ into account.
*/
U_CFUNC int32_t
u_internalStrToLower(UChar *dest, int32_t destCapacity,
const UChar *src, int32_t srcLength,
int32_t srcStart, int32_t srcLimit,
const char *locale,
UErrorCode *pErrorCode) {
UCharIterator iter;
uint32_t props;
int32_t srcIndex, destIndex;
UChar32 c;
/* test early, once, if there is a data file */
if(!HAVE_DATA) {
*pErrorCode=U_FILE_ACCESS_ERROR;
return 0;
}
/* set up local variables */
uiter_setString(&iter, src, srcLength);
/* case mapping loop */
srcIndex=srcStart;
destIndex=0;
while(srcIndex<srcLimit) {
UTF_NEXT_CHAR(src, srcIndex, srcLimit, c);
GET_PROPS_UNSAFE(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(CAT_MASK(props)&(U_GC_LU_MASK|U_GC_LT_MASK)) {
c+=GET_SIGNED_VALUE(props);
}
/* handle 1:1 code point mappings from UnicodeData.txt */
if(c<=0xffff) {
if(destIndex<destCapacity) {
dest[destIndex++]=(UChar)c;
} else {
/* buffer overflow */
/* keep incrementing the destIndex for preflighting */
++destIndex;
}
} else {
if((destIndex+2)<=destCapacity) {
dest[destIndex++]=UTF16_LEAD(c);
dest[destIndex++]=UTF16_TRAIL(c);
} else {
/* buffer overflow */
/* write the first surrogate if possible */
if(destIndex<destCapacity) {
dest[destIndex]=UTF16_LEAD(c);
}
/* keep incrementing the destIndex for preflighting */
destIndex+=2;
}
}
} else {
/* handle all exceptions in u_internalToLower() */
int32_t length;
iter.move(&iter, srcIndex, UITER_ZERO);
if(destIndex<destCapacity) {
length=u_internalToLower(c, &iter, dest+destIndex, destCapacity-destIndex, locale);
} else {
length=u_internalToLower(c, &iter, NULL, 0, locale);
}
if(length<0) {
length=-length;
}
destIndex+=length;
}
}
if(destIndex>destCapacity) {
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
}
return destIndex;
}
/* uppercasing -------------------------------------------------------------- */
/* internal */
static int32_t
u_internalToUpperOrTitle(UChar32 c, UCharIterator *iter,
UChar *dest, int32_t destCapacity,
const char *locale,
UBool upperNotTitle) {
uint32_t props;
UChar32 result;
int32_t i, length;
result=c;
GET_PROPS(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(GET_CATEGORY(props)==U_LOWERCASE_LETTER) {
result=c-GET_SIGNED_VALUE(props);
}
} else {
const UChar *u;
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe, specialCasing;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_SPECIAL_CASING)) {
i=EXC_SPECIAL_CASING;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
specialCasing=*pe;
/* fill u and length with the case mapping result string */
if(specialCasing&0x80000000) {
/* use hardcoded conditions and mappings */
int32_t loc=getCaseLocale(locale),
srcIndex= iter!=NULL ? iter->getIndex(iter, UITER_CURRENT) : 0;
if(loc==LOC_TURKISH && c==0x69) {
/*
# Turkish and Azeri
# I and i-dotless; I-dot and i are case pairs in Turkish and Azeri
# The following rules handle those cases.
# When uppercasing, i turns into a dotted capital I
0069; 0069; 0130; 0130; tr; # LATIN SMALL LETTER I
0069; 0069; 0130; 0130; az; # LATIN SMALL LETTER I
*/
result=0x130;
goto single;
} else if(loc==LOC_LITHUANIAN && c==0x307 && isPrecededBySoftDotted(iter, srcIndex-1)) {
/*
# Lithuanian
# Lithuanian retains the dot in a lowercase i when followed by accents.
# Remove DOT ABOVE after "i" with upper or titlecase
0307; 0307; ; ; lt After_Soft_Dotted; # COMBINING DOT ABOVE
*/
return 0; /* remove the dot (continue without output) */
} else {
/* no known conditional special case mapping, use a normal mapping */
pe=GET_EXCEPTIONS(props); /* restore the initial exception pointer */
firstExceptionValue=*pe;
goto notSpecial;
}
} else {
/* get the special case mapping string from the data file */
u=ucharsTable+(specialCasing&0xffff);
length=(int32_t)*u++;
/* skip the lowercase result string */
u+=length&0x1f;
if(upperNotTitle) {
length=(length>>5)&0x1f;
} else {
/* skip the uppercase result strings too */
u+=(length>>5)&0x1f;
length=(length>>10)&0x1f;
}
}
/* copy the result string */
i=0;
while(i<length && i<destCapacity) {
dest[i++]=*u++;
}
return length;
}
notSpecial:
if(!upperNotTitle && HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_TITLECASE)) {
i=EXC_TITLECASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
result=(UChar32)*pe;
} else if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_UPPERCASE)) {
/* here, titlecase is same as uppercase */
i=EXC_UPPERCASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
result=(UChar32)*pe;
}
}
single:
length=UTF_CHAR_LENGTH(result);
if(length<=destCapacity) {
/* write result to dest */
i=0;
UTF_APPEND_CHAR_UNSAFE(dest, i, result);
}
return (result==c) ? -length : length;
}
/* internal, see ustr_imp.h */
U_CAPI int32_t U_EXPORT2
u_internalToUpper(UChar32 c, UCharIterator *iter,
UChar *dest, int32_t destCapacity,
const char *locale) {
return u_internalToUpperOrTitle(c, iter, dest, destCapacity, locale, TRUE);
}
U_CFUNC int32_t
u_internalStrToUpper(UChar *dest, int32_t destCapacity,
const UChar *src, int32_t srcLength,
const char *locale,
UErrorCode *pErrorCode) {
UCharIterator iter;
uint32_t props;
int32_t srcIndex, destIndex;
UChar32 c;
/* test early, once, if there is a data file */
if(!HAVE_DATA) {
*pErrorCode=U_FILE_ACCESS_ERROR;
return 0;
}
/* set up local variables */
uiter_setString(&iter, src, srcLength);
/* case mapping loop */
srcIndex=destIndex=0;
while(srcIndex<srcLength) {
UTF_NEXT_CHAR(src, srcIndex, srcLength, c);
GET_PROPS_UNSAFE(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(GET_CATEGORY(props)==U_LOWERCASE_LETTER) {
c-=GET_SIGNED_VALUE(props);
}
/* handle 1:1 code point mappings from UnicodeData.txt */
if(c<=0xffff) {
if(destIndex<destCapacity) {
dest[destIndex++]=(UChar)c;
} else {
/* buffer overflow */
/* keep incrementing the destIndex for preflighting */
++destIndex;
}
} else {
if((destIndex+2)<=destCapacity) {
dest[destIndex++]=UTF16_LEAD(c);
dest[destIndex++]=UTF16_TRAIL(c);
} else {
/* buffer overflow */
/* write the first surrogate if possible */
if(destIndex<destCapacity) {
dest[destIndex]=UTF16_LEAD(c);
}
/* keep incrementing the destIndex for preflighting */
destIndex+=2;
}
}
} else {
/* handle all exceptions in u_internalToUpper() */
int32_t length;
iter.move(&iter, srcIndex, UITER_ZERO);
if(destIndex<destCapacity) {
length=u_internalToUpperOrTitle(c, &iter, dest+destIndex, destCapacity-destIndex, locale, TRUE);
} else {
length=u_internalToUpperOrTitle(c, &iter, NULL, 0, locale, TRUE);
}
if(length<0) {
length=-length;
}
destIndex+=length;
}
}
if(destIndex>destCapacity) {
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
}
return destIndex;
}
/* titlecasing -------------------------------------------------------------- */
/* internal, see ustr_imp.h */
U_CAPI int32_t U_EXPORT2
u_internalToTitle(UChar32 c, UCharIterator *iter,
UChar *dest, int32_t destCapacity,
const char *locale) {
return u_internalToUpperOrTitle(c, iter, dest, destCapacity, locale, FALSE);
}
/* case folding ------------------------------------------------------------- */
/*
* Case folding is similar to lowercasing.
* The result may be a simple mapping, i.e., a single code point, or
* a full mapping, i.e., a string.
* If the case folding for a code point is the same as its simple (1:1) lowercase mapping,
* then only the lowercase mapping is stored.
*
* Some special cases are hardcoded because their conditions cannot be
* parsed and processed from CaseFolding.txt.
*
* Unicode 3.2 CaseFolding.txt specifies for its status field:
# C: common case folding, common mappings shared by both simple and full mappings.
# F: full case folding, mappings that cause strings to grow in length. Multiple characters are separated by spaces.
# S: simple case folding, mappings to single characters where different from F.
# T: special case for uppercase I and dotted uppercase I
# - For non-Turkic languages, this mapping is normally not used.
# - For Turkic languages (tr, az), this mapping can be used instead of the normal mapping for these characters.
#
# Usage:
# A. To do a simple case folding, use the mappings with status C + S.
# B. To do a full case folding, use the mappings with status C + F.
#
# The mappings with status T can be used or omitted depending on the desired case-folding
# behavior. (The default option is to exclude them.)
* Unicode 3.2 has 'T' mappings as follows:
0049; T; 0131; # LATIN CAPITAL LETTER I
0130; T; 0069; # LATIN CAPITAL LETTER I WITH DOT ABOVE
* while the default mappings for these code points are:
0049; C; 0069; # LATIN CAPITAL LETTER I
0130; F; 0069 0307; # LATIN CAPITAL LETTER I WITH DOT ABOVE
* U+0130 is otherwise lowercased to U+0069 (UnicodeData.txt).
*
* In case this code is used with CaseFolding.txt from an older version of Unicode
* where CaseFolding.txt contains mappings with a status of 'I' that
* have the opposite polarity ('I' mappings are included by default but excluded for Turkic),
* we must also hardcode the Unicode 3.2 mappings for the code points
* with 'I' mappings.
* Unicode 3.1.1 has 'I' mappings for U+0130 and U+0131.
* Unicode 3.2 has a 'T' mapping for U+0130, and lowercases U+0131 to itself (see UnicodeData.txt).
*/
/* return the simple case folding mapping for c */
U_CAPI UChar32 U_EXPORT2
u_foldCase(UChar32 c, uint32_t options) {
uint32_t props;
GET_PROPS(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(CAT_MASK(props)&(U_GC_LU_MASK|U_GC_LT_MASK)) {
return c+GET_SIGNED_VALUE(props);
}
} else {
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_CASE_FOLDING)) {
const uint32_t *oldPE=pe;
int i=EXC_CASE_FOLDING;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
props=*pe;
if(props!=0) {
/* return the simple mapping, if there is one */
const UChar *uchars=ucharsTable+(props&0xffff);
UChar32 simple;
i=0;
UTF_NEXT_CHAR_UNSAFE(uchars, i, simple);
if(simple!=0) {
return simple;
}
/* fall through to use the lowercase exception value if there is no simple mapping */
pe=oldPE;
} else {
/* special case folding mappings, hardcoded */
if((options&_FOLD_CASE_OPTIONS_MASK)==U_FOLD_CASE_DEFAULT) {
/* default mappings */
if(c==0x49) {
/* 0049; C; 0069; # LATIN CAPITAL LETTER I */
return 0x69;
} else if(c==0x130) {
/* no simple default mapping for U+0130, use UnicodeData.txt */
return 0x69;
}
} else {
/* Turkic mappings */
if(c==0x49) {
/* 0049; T; 0131; # LATIN CAPITAL LETTER I */
return 0x131;
} else if(c==0x130) {
/* 0130; T; 0069; # LATIN CAPITAL LETTER I WITH DOT ABOVE */
return 0x69;
}
}
/* return c itself because there is no special mapping for it */
return c;
}
}
/* not else! - allow to fall through from above */
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_LOWERCASE)) {
int i=EXC_LOWERCASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
return (UChar32)*pe;
}
}
return c; /* no mapping - return c itself */
}
/*
* Issue for canonical caseless match (UAX #21):
* Turkic casefolding (using "T" mappings in CaseFolding.txt) does not preserve
* canonical equivalence, unlike default-option casefolding.
* For example, I-grave and I + grave fold to strings that are not canonically
* equivalent.
* For more details, see the comment in unorm_compare() in unorm.cpp
* and the intermediate prototype changes for Jitterbug 2021.
* (For example, revision 1.104 of uchar.c and 1.4 of CaseFolding.txt.)
*
* This did not get fixed because it appears that it is not possible to fix
* it for uppercase and lowercase characters (I-grave vs. i-grave)
* together in a way that they still fold to common result strings.
*/
/* internal, see ustr_imp.h */
U_CAPI int32_t U_EXPORT2
u_internalFoldCase(UChar32 c,
UChar *dest, int32_t destCapacity,
uint32_t options) {
uint32_t props;
UChar32 result;
int32_t i, length;
result=c;
GET_PROPS_UNSAFE(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(CAT_MASK(props)&(U_GC_LU_MASK|U_GC_LT_MASK)) {
/* same as lowercase */
result=c+GET_SIGNED_VALUE(props);
}
} else {
const uint32_t *pe=GET_EXCEPTIONS(props);
uint32_t firstExceptionValue=*pe;
if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_CASE_FOLDING)) {
i=EXC_CASE_FOLDING;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
props=*pe;
if(props!=0) {
/* return the full mapping */
const UChar *uchars=ucharsTable+(props&0xffff)+2;
int32_t minLength;
length=props>>24;
minLength = (length < destCapacity) ? length : destCapacity;
/* copy the result string */
i=0;
while(i<minLength) {
dest[i++]=*(uchars++);
}
return length;
} else {
/* special case folding mappings, hardcoded */
if((options&_FOLD_CASE_OPTIONS_MASK)==U_FOLD_CASE_DEFAULT) {
/* default mappings */
if(c==0x49) {
/* 0049; C; 0069; # LATIN CAPITAL LETTER I */
result=0x69;
} else if(c==0x130) {
/* 0130; F; 0069 0307; # LATIN CAPITAL LETTER I WITH DOT ABOVE */
if(0<destCapacity) {
dest[0]=0x69;
}
if(1<destCapacity) {
dest[1]=0x307;
}
return 2;
}
} else {
/* Turkic mappings */
if(c==0x49) {
/* 0049; T; 0131; # LATIN CAPITAL LETTER I */
result=0x131;
} else if(c==0x130) {
/* 0130; T; 0069; # LATIN CAPITAL LETTER I WITH DOT ABOVE */
result=0x69;
}
}
/* return c itself because there is no special mapping for it */
/* goto single; */
}
} else if(HAVE_EXCEPTION_VALUE(firstExceptionValue, EXC_LOWERCASE)) {
i=EXC_LOWERCASE;
++pe;
ADD_EXCEPTION_OFFSET(firstExceptionValue, i, pe);
result=(UChar32)*pe;
}
}
/* single: */
length=UTF_CHAR_LENGTH(result);
if(length<=destCapacity) {
/* write result to dest */
i=0;
UTF_APPEND_CHAR_UNSAFE(dest, i, result);
}
return (result==c) ? -length : length;
}
/* case-fold the source string using the full mappings */
U_CFUNC int32_t
u_internalStrFoldCase(UChar *dest, int32_t destCapacity,
const UChar *src, int32_t srcLength,
uint32_t options,
UErrorCode *pErrorCode) {
uint32_t props;
int32_t srcIndex, destIndex;
UChar32 c;
/* test early, once, if there is a data file */
if(!HAVE_DATA) {
*pErrorCode=U_FILE_ACCESS_ERROR;
return 0;
}
/* case mapping loop */
srcIndex=destIndex=0;
while(srcIndex<srcLength) {
UTF_NEXT_CHAR(src, srcIndex, srcLength, c);
GET_PROPS_UNSAFE(c, props);
if(!PROPS_VALUE_IS_EXCEPTION(props)) {
if(CAT_MASK(props)&(U_GC_LU_MASK|U_GC_LT_MASK)) {
c+=GET_SIGNED_VALUE(props);
}
/* handle 1:1 code point mappings from UnicodeData.txt */
if(c<=0xffff) {
if(destIndex<destCapacity) {
dest[destIndex++]=(UChar)c;
} else {
/* buffer overflow */
/* keep incrementing the destIndex for preflighting */
++destIndex;
}
} else {
if((destIndex+2)<=destCapacity) {
dest[destIndex++]=UTF16_LEAD(c);
dest[destIndex++]=UTF16_TRAIL(c);
} else {
/* buffer overflow */
/* write the first surrogate if possible */
if(destIndex<destCapacity) {
dest[destIndex]=UTF16_LEAD(c);
}
/* keep incrementing the destIndex for preflighting */
destIndex+=2;
}
}
} else {
/* handle all exceptions in u_internalFoldCase() */
int32_t length;
if(destIndex<destCapacity) {
length=u_internalFoldCase(c, dest+destIndex, destCapacity-destIndex, options);
} else {
length=u_internalFoldCase(c, NULL, 0, options);
}
if(length<0) {
length=-length;
}
destIndex+=length;
}
}
if(destIndex>destCapacity) {
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
}
return destIndex;
}