/*
*******************************************************************************
*
* Copyright (C) 1998-2010, International Business Machines
* Corporation and others. All Rights Reserved.
*
*******************************************************************************
*
* Private implementation header for C collation
* file name: ucol_imp.h
* encoding: US-ASCII
* tab size: 8 (not used)
* indentation:4
*
* created on: 2000dec11
* created by: Vladimir Weinstein
*
* Modification history
* Date Name Comments
* 02/16/2001 synwee Added UCOL_GETPREVCE for the use in ucoleitr
* 02/27/2001 synwee Added getMaxExpansion data structure in UCollator
* 03/02/2001 synwee Added UCOL_IMPLICIT_CE
* 03/12/2001 synwee Added pointer start to collIterate.
*/
#ifndef UCOL_IMP_H
#define UCOL_IMP_H
#include "unicode/utypes.h"
#define UCA_DATA_TYPE "icu"
#define UCA_DATA_NAME "ucadata"
#define INVC_DATA_TYPE "icu"
#define INVC_DATA_NAME "invuca"
/**
* Convenience string denoting the Collation data tree
* @internal ICU 3.0
*/
#define U_ICUDATA_COLL U_ICUDATA_NAME U_TREE_SEPARATOR_STRING "coll"
#if !UCONFIG_NO_COLLATION
#ifdef XP_CPLUSPLUS
#include "unicode/normalizer2.h"
#include "unicode/unistr.h"
#endif
#include "unicode/ucol.h"
#include "utrie.h"
#include "cmemory.h"
/* This is the internal header file which contains important declarations for
* the collation framework.
* Ready to use collators are stored as binary images. Both UCA and tailorings
* share the same binary format. Individual files (currently only UCA) have a
* udata header in front of the image and should be opened using udata_open.
* Tailoring images are currently stored inside resource bundles and are intialized
* through ucol_open API.
*
* The following describes the formats for collation binaries
* (UCA & tailorings) and for the inverse UCA table.
* Substructures are described in the collation design document at
* http://source.icu-project.org/repos/icu/icuhtml/trunk/design/collation/ICU_collation_design.htm
*
* -------------------------------------------------------------
*
* Here is the format of binary collation image.
*
* Physical order of structures:
* - header (UCATableHeader)
* - options (UColOptionSet)
* - expansions (CE[])
* - contractions (UChar[contractionSize] + CE[contractionSize])
* - serialized UTrie with mappings of code points to CEs
* - max expansion tables (CE[endExpansionCECount] + uint8_t[endExpansionCECount])
* - two bit sets for backward processing in strcoll (identical prefixes)
* and for backward CE iteration (each set is uint8_t[UCOL_UNSAFECP_TABLE_SIZE])
* - UCA constants (UCAConstants)
* - UCA contractions (UChar[contractionUCACombosSize][contractionUCACombosWidth])
*
* UCATableHeader fields:
*
* int32_t size; - image size in bytes
*
* Offsets to interesting data. All offsets are in bytes.
* to get the address add to the header address and cast properly.
* Some offsets are zero if the corresponding structures are empty.
*
* Tailoring binaries that only set options and contain no mappings etc.
* will have all offsets 0 except for the options and expansion offsets,
* which give the position and length of the options array.
*
* uint32_t options; - offset to default collator options (UColOptionSet *),
* a set of 32-bit values. See declaration of UColOptionSet for more details
*
* uint32_t UCAConsts; - only used (!=0) in UCA image - structure which holds values for indirect positioning and implicit ranges
* See declaration of UCAConstants structure. This is a set of unsigned 32-bit values used to store
* important constant values that are defined in the UCA and used for building and runtime.
*
* uint32_t contractionUCACombos; - only used (!=0) in UCA image - list of UCA contractions. This is a zero terminated array of UChar[contractionUCACombosWidth],
* containing contractions from the UCA. These are needed in the build process to copy UCA contractions
* in case the base contraction symbol is tailored.
*
* uint32_t magic; - must contain UCOL_HEADER_MAGIC (formatVersion 2.3)
*
* uint32_t mappingPosition; - offset to UTrie (const uint8_t *mappingPosition). This is a serialized UTrie and should be treated as such.
* Used as a primary lookup table for collation elements.
*
* uint32_t expansion; - offset to expansion table (uint32_t *expansion). This is an array of expansion CEs. Never 0.
*
* uint32_t contractionIndex; - offset to contraction table (UChar *contractionIndex). Used to look up contraction sequences. Contents
* are aligned with the contents of contractionCEs table. 0 if no contractions.
*
* uint32_t contractionCEs; - offset to resulting contraction CEs (uint32_t *contractionCEs). When a contraction is resolved in the
* in the contractionIndex table, the resulting index is used to look up corresponding CE in this table.
* 0 if no contractions.
* uint32_t contractionSize; - size of contraction table in elements (both Index and CEs).
*
* Tables described below are used for Boyer-Moore searching algorithm - they define the size of longest expansion
* and last CEs in expansions.
* uint32_t endExpansionCE; - offset to array of last collation element in expansion (uint32_t *).
* Never 0.
* uint32_t expansionCESize; - array of maximum expansion sizes (uint8_t *)
* int32_t endExpansionCECount; - size of endExpansionCE. See UCOL_GETMAXEXPANSION
* for the usage model
*
* These two offsets point to byte tables that are used in the backup heuristics.
* uint32_t unsafeCP; - hash table of unsafe code points (uint8_t *). See ucol_unsafeCP function.
* uint32_t contrEndCP; - hash table of final code points in contractions (uint8_t *). See ucol_contractionEndCP.
*
* int32_t contractionUCACombosSize; - number of UChar[contractionUCACombosWidth] in contractionUCACombos
* (formatVersion 2.3)
* UBool jamoSpecial; - Jamo special indicator (uint8_t). If TRUE, Jamos are special, so we cannot use simple Hangul decomposition.
* UBool isBigEndian; - endianness of this collation binary (formatVersion 2.3)
* uint8_t charSetFamily; - charset family of this collation binary (formatVersion 2.3)
* uint8_t contractionUCACombosWidth; - number of UChars per UCA contraction in contractionUCACombos (formatVersion 2.3)
*
* Various version fields
* UVersionInfo version; - version 4 uint8_t
* UVersionInfo UCAVersion; - version 4 uint8_t
* UVersionInfo UCDVersion; - version 4 uint8_t
* UVersionInfo formatVersion; - version of the format of the collation binary
* same formatVersion as in ucadata.icu's UDataInfo header
* (formatVersion 2.3)
*
* uint32_t offset to the reordering code to lead CE byte remapping table
* uint32_t offset to the lead CE byte to reordering code mapping table
*
* uint8_t reserved[76]; - currently unused
*
* -------------------------------------------------------------
*
* Inverse UCA is used for constructing collators from rules. It is always an individual file
* and always has a UDataInfo header.
* here is the structure:
*
* uint32_t byteSize; - size of inverse UCA image in bytes
* uint32_t tableSize; - length of inverse table (number of uint32_t[3] rows)
* uint32_t contsSize; - size of continuation table (number of UChars in table)
*
* uint32_t table; - offset to inverse table (uint32_t *)
* Inverse table contains of rows of 3 uint32_t values. First two values are CE and a possible continuation
* the third value is either a code unit (if there is only one code unit for element) or an index to continuation
* (number of code units combined with an index).
* table. If more than one codepoint have the same CE, continuation table contains code units separated by FFFF and final
* code unit sequence for a CE is terminated by FFFE.
* uint32_t conts; - offset to continuation table (uint16_t *). Contains code units that transform to a same CE.
*
* UVersionInfo UCAVersion; - version of the UCA, read from file 4 uint8_t
* uint8_t padding[8]; - padding 8 uint8_t
* Header is followed by the table and continuation table.
*/
/* let us know whether reserved fields are reset to zero or junked */
#define UCOL_HEADER_MAGIC 0x20030618
/* UDataInfo for UCA mapping table */
/* dataFormat="UCol" */
#define UCA_DATA_FORMAT_0 ((uint8_t)0x55)
#define UCA_DATA_FORMAT_1 ((uint8_t)0x43)
#define UCA_DATA_FORMAT_2 ((uint8_t)0x6f)
#define UCA_DATA_FORMAT_3 ((uint8_t)0x6c)
#define UCA_FORMAT_VERSION_0 ((uint8_t)3)
#define UCA_FORMAT_VERSION_1 ((uint8_t)0)
#define UCA_FORMAT_VERSION_2 ((uint8_t)0)
#define UCA_FORMAT_VERSION_3 ((uint8_t)0)
/* UDataInfo for inverse UCA table */
/* dataFormat="InvC" */
#define INVUCA_DATA_FORMAT_0 ((uint8_t)0x49)
#define INVUCA_DATA_FORMAT_1 ((uint8_t)0x6E)
#define INVUCA_DATA_FORMAT_2 ((uint8_t)0x76)
#define INVUCA_DATA_FORMAT_3 ((uint8_t)0x43)
#define INVUCA_FORMAT_VERSION_0 ((uint8_t)2)
#define INVUCA_FORMAT_VERSION_1 ((uint8_t)1)
#define INVUCA_FORMAT_VERSION_2 ((uint8_t)0)
#define INVUCA_FORMAT_VERSION_3 ((uint8_t)0)
/* This is the size of the stack allocated buffer for sortkey generation and similar operations */
/* if it is too small, heap allocation will occur.*/
/* you can change this value if you need memory - it will affect the performance, though, since we're going to malloc */
#define UCOL_MAX_BUFFER 128
#define UCOL_PRIMARY_MAX_BUFFER 8*UCOL_MAX_BUFFER
#define UCOL_SECONDARY_MAX_BUFFER UCOL_MAX_BUFFER
#define UCOL_TERTIARY_MAX_BUFFER UCOL_MAX_BUFFER
#define UCOL_CASE_MAX_BUFFER UCOL_MAX_BUFFER/4
#define UCOL_QUAD_MAX_BUFFER 2*UCOL_MAX_BUFFER
#define UCOL_NORMALIZATION_GROWTH 2
#define UCOL_NORMALIZATION_MAX_BUFFER UCOL_MAX_BUFFER*UCOL_NORMALIZATION_GROWTH
/* This writable buffer is used if we encounter Thai and need to reorder the string on the fly */
/* Sometimes we already have a writable buffer (like in case of normalized strings). */
/*
you can change this value to any value >= 4 if you need memory -
it will affect the performance, though, since we're going to malloc.
Note 3 is the minimum value for Thai collation and 4 is the
minimum number for special Jamo
*/
#define UCOL_WRITABLE_BUFFER_SIZE 256
/* This is the size of the buffer for expansion CE's */
/* In reality we should not have to deal with expm sequences longer then 16 */
/* you can change this value if you need memory */
/* WARNING THIS BUFFER DOES HAVE MALLOC FALLBACK. If you make it too small, you'll get into performance trouble */
/* Reasonable small value is around 10, if you don't do Arabic or other funky collations that have long expansion sequence */
/* This is the longest expansion sequence we can handle without bombing out */
#define UCOL_EXPAND_CE_BUFFER_SIZE 64
/* This is the size to increase the buffer for expansion CE's */
#define UCOL_EXPAND_CE_BUFFER_EXTEND_SIZE 64
/* Unsafe UChar hash table table size. */
/* size is 32 bytes for 1 bit for each latin 1 char + some power of two for */
/* hashing the rest of the chars. Size in bytes */
#define UCOL_UNSAFECP_TABLE_SIZE 1056
/* mask value down to "some power of two"-1 */
/* number of bits, not num of bytes. */
#define UCOL_UNSAFECP_TABLE_MASK 0x1fff
/* flags bits for collIterate.flags */
/* */
/* NORM - set for incremental normalize of source string */
#define UCOL_ITER_NORM 1
#define UCOL_ITER_HASLEN 2
/* UCOL_ITER_INNORMBUF - set if the "pos" is in */
/* the writable side buffer, handling */
/* incrementally normalized characters. */
#define UCOL_ITER_INNORMBUF 4
/* UCOL_ITER_ALLOCATED - set if this iterator has */
/* malloced storage to expand a buffer. */
#define UCOL_ITER_ALLOCATED 8
/* UCOL_HIRAGANA_Q - note if the codepoint was hiragana */
#define UCOL_HIRAGANA_Q 16
/* UCOL_WAS_HIRAGANA - set to TRUE if there was a Hiragana */
/* otherwise set to false */
#define UCOL_WAS_HIRAGANA 32
/* UCOL_USE_ITERATOR - set this if collIterate uses a */
/* character iterator instead of simply accessing string */
/* by index */
#define UCOL_USE_ITERATOR 64
#define UCOL_FORCE_HAN_IMPLICIT 128
#define NFC_ZERO_CC_BLOCK_LIMIT_ 0x300
#ifdef XP_CPLUSPLUS
U_NAMESPACE_BEGIN
typedef struct collIterate : public UMemory {
const UChar *string; /* Original string */
/* UChar *start; Pointer to the start of the source string. Either points to string
or to writableBuffer */
const UChar *endp; /* string end ptr. Is undefined for null terminated strings */
const UChar *pos; /* This is position in the string. Can be to original or writable buf */
uint32_t *toReturn; /* This is the CE from CEs buffer that should be returned */
uint32_t *CEpos; /* This is the position to which we have stored processed CEs */
int32_t *offsetReturn; /* This is the offset to return, if non-NULL */
int32_t *offsetStore; /* This is the pointer for storing offsets */
int32_t offsetRepeatCount; /* Repeat stored offset if non-zero */
int32_t offsetRepeatValue; /* offset value to repeat */
UnicodeString writableBuffer;
const UChar *fcdPosition; /* Position in the original string to continue FCD check from. */
const UCollator *coll;
const Normalizer2 *nfd;
uint8_t flags;
uint8_t origFlags;
uint32_t *extendCEs; /* This is use if CEs is not big enough */
int32_t extendCEsSize; /* Holds the size of the dynamic CEs buffer */
uint32_t CEs[UCOL_EXPAND_CE_BUFFER_SIZE]; /* This is where we store CEs */
int32_t *offsetBuffer; /* A dynamic buffer to hold offsets */
int32_t offsetBufferSize; /* The size of the offset buffer */
UCharIterator *iterator;
/*int32_t iteratorIndex;*/
// The offsetBuffer should probably be a UVector32, but helper functions
// are an improvement over duplicated code.
void appendOffset(int32_t offset, UErrorCode &errorCode);
} collIterate;
U_NAMESPACE_END
#else
typedef struct collIterate collIterate;
#endif
#define paddedsize(something) ((something)+((((something)%4)!=0)?(4-(something)%4):0))
#define headersize (paddedsize(sizeof(UCATableHeader))+paddedsize(sizeof(UColOptionSet)))
/*
struct used internally in getSpecial*CE.
data similar to collIterate.
*/
struct collIterateState {
const UChar *pos; /* This is position in the string. Can be to original or writable buf */
const UChar *returnPos;
const UChar *fcdPosition; /* Position in the original string to continue FCD check from. */
const UChar *bufferaddress; /* address of the normalization buffer */
int32_t buffersize;
uint8_t flags;
uint8_t origFlags;
uint32_t iteratorIndex;
int32_t iteratorMove;
};
U_CAPI void U_EXPORT2
uprv_init_collIterate(const UCollator *collator,
const UChar *sourceString, int32_t sourceLen,
U_NAMESPACE_QUALIFIER collIterate *s, UErrorCode *status);
/* Internal functions for C test code. */
U_CAPI U_NAMESPACE_QUALIFIER collIterate * U_EXPORT2
uprv_new_collIterate(UErrorCode *status);
U_CAPI void U_EXPORT2
uprv_delete_collIterate(U_NAMESPACE_QUALIFIER collIterate *s);
/* @return s->pos == s->endp */
U_CAPI UBool U_EXPORT2
uprv_collIterateAtEnd(U_NAMESPACE_QUALIFIER collIterate *s);
#ifdef XP_CPLUSPLUS
U_NAMESPACE_BEGIN
struct UCollationPCE;
typedef struct UCollationPCE UCollationPCE;
U_NAMESPACE_END
struct UCollationElements : public U_NAMESPACE_QUALIFIER UMemory
{
/**
* Struct wrapper for source data
*/
U_NAMESPACE_QUALIFIER collIterate iteratordata_;
/**
* Indicates if this data has been reset.
*/
UBool reset_;
/**
* Indicates if the data should be deleted.
*/
UBool isWritable;
/**
* Data for getNextProcessed, getPreviousProcessed.
*/
U_NAMESPACE_QUALIFIER UCollationPCE *pce;
};
#else
/*opaque type*/
struct UCollationElements;
#endif
U_CAPI void U_EXPORT2
uprv_init_pce(const struct UCollationElements *elems);
#define UCOL_LEVELTERMINATOR 1
/* mask off anything but primary order */
#define UCOL_PRIMARYORDERMASK 0xffff0000
/* mask off anything but secondary order */
#define UCOL_SECONDARYORDERMASK 0x0000ff00
/* mask off anything but tertiary order */
#define UCOL_TERTIARYORDERMASK 0x000000ff
/* primary order shift */
#define UCOL_PRIMARYORDERSHIFT 16
/* secondary order shift */
#define UCOL_SECONDARYORDERSHIFT 8
#define UCOL_BYTE_SIZE_MASK 0xFF
#define UCOL_CASE_BYTE_START 0x80
#define UCOL_CASE_SHIFT_START 7
#define UCOL_IGNORABLE 0
/* get weights from a CE */
#define UCOL_PRIMARYORDER(order) (((order) & UCOL_PRIMARYORDERMASK)>> UCOL_PRIMARYORDERSHIFT)
#define UCOL_SECONDARYORDER(order) (((order) & UCOL_SECONDARYORDERMASK)>> UCOL_SECONDARYORDERSHIFT)
#define UCOL_TERTIARYORDER(order) ((order) & UCOL_TERTIARYORDERMASK)
/**
* Determine if a character is a Thai vowel (which sorts after
* its base consonant).
*/
#define UCOL_ISTHAIPREVOWEL(ch) ((((uint32_t)(ch) - 0xe40) <= (0xe44 - 0xe40)) || \
(((uint32_t)(ch) - 0xec0) <= (0xec4 - 0xec0)))
/**
* Determine if a character is a Thai base consonant
*/
#define UCOL_ISTHAIBASECONSONANT(ch) ((uint32_t)(ch) - 0xe01) <= (0xe2e - 0xe01)
#define UCOL_ISJAMO(ch) ((((uint32_t)(ch) - 0x1100) <= (0x1112 - 0x1100)) || \
(((uint32_t)(ch) - 0x1161) <= (0x1175 - 0x1161)) || \
(((uint32_t)(ch) - 0x11A8) <= (0x11C2 - 0x11A8)))
/* Han character ranges */
#define UCOL_FIRST_HAN 0x4E00
#define UCOL_LAST_HAN 0x9FFF
#define UCOL_FIRST_HAN_A 0x3400
#define UCOL_LAST_HAN_A 0x4DBF
#define UCOL_FIRST_HAN_COMPAT 0xFAE0
#define UCOL_LAST_HAN_COMPAT 0xFA2F
/* Han extension B is in plane 2 */
#define UCOL_FIRST_HAN_B 0x20000
#define UCOL_LAST_HAN_B 0x2A6DF
/* Hangul range */
#define UCOL_FIRST_HANGUL 0xAC00
#define UCOL_LAST_HANGUL 0xD7AF
/* Jamo ranges */
#define UCOL_FIRST_L_JAMO 0x1100
#define UCOL_FIRST_V_JAMO 0x1161
#define UCOL_FIRST_T_JAMO 0x11A8
#define UCOL_LAST_T_JAMO 0x11F9
#if 0
/* initializes collIterate structure */
/* made as macro to speed up things */
#define init_collIterate(collator, sourceString, sourceLen, s) { \
(s)->start = (s)->string = (s)->pos = (UChar *)(sourceString); \
(s)->endp = (sourceLen) == -1 ? NULL :(UChar *)(sourceString)+(sourceLen); \
(s)->CEpos = (s)->toReturn = (s)->CEs; \
(s)->isThai = TRUE; \
(s)->writableBuffer = (s)->stackWritableBuffer; \
(s)->writableBufSize = UCOL_WRITABLE_BUFFER_SIZE; \
(s)->coll = (collator); \
(s)->fcdPosition = 0; \
(s)->flags = 0; \
if(((collator)->normalizationMode == UCOL_ON)) (s)->flags |= UCOL_ITER_NORM; \
}
#endif
/*
* Macro to get the maximum size of an expansion ending with the argument ce.
* Used in the Boyer Moore algorithm.
* Note for tailoring, the UCA maxexpansion table has been merged.
* Hence we only have to search the tailored collator only.
* @param coll const UCollator pointer
* @param order last collation element of the expansion sequence
* @param result size of the longest expansion with argument collation element
* as the last element
*/
#define UCOL_GETMAXEXPANSION(coll, order, result) { \
const uint32_t *start; \
const uint32_t *limit; \
const uint32_t *mid; \
start = (coll)->endExpansionCE; \
limit = (coll)->lastEndExpansionCE; \
while (start < limit - 1) { \
mid = start + ((limit - start) >> 1); \
if ((order) <= *mid) { \
limit = mid; \
} \
else { \
start = mid; \
} \
} \
if (*start == order) { \
result = *((coll)->expansionCESize + (start - (coll)->endExpansionCE)); \
} \
else if (*limit == order) { \
result = *(coll->expansionCESize + (limit - coll->endExpansionCE)); \
} \
else if ((order & 0xFFFF) == 0x00C0) { \
result = 2; \
} \
else { \
result = 1; \
} \
}
U_CFUNC
uint32_t ucol_prv_getSpecialCE(const UCollator *coll, UChar ch, uint32_t CE,
U_NAMESPACE_QUALIFIER collIterate *source, UErrorCode *status);
U_CFUNC
uint32_t ucol_prv_getSpecialPrevCE(const UCollator *coll, UChar ch, uint32_t CE,
U_NAMESPACE_QUALIFIER collIterate *source, UErrorCode *status);
U_CAPI uint32_t U_EXPORT2 ucol_getNextCE(const UCollator *coll,
U_NAMESPACE_QUALIFIER collIterate *collationSource, UErrorCode *status);
U_CFUNC uint32_t U_EXPORT2 ucol_getPrevCE(const UCollator *coll,
U_NAMESPACE_QUALIFIER collIterate *collationSource,
UErrorCode *status);
/* function used by C++ getCollationKey to prevent restarting the calculation */
U_CFUNC int32_t
ucol_getSortKeyWithAllocation(const UCollator *coll,
const UChar *source, int32_t sourceLength,
uint8_t **pResult,
UErrorCode *pErrorCode);
/* get some memory */
void *ucol_getABuffer(const UCollator *coll, uint32_t size);
/* worker function for generating sortkeys */
U_CFUNC
int32_t U_CALLCONV
ucol_calcSortKey(const UCollator *coll,
const UChar *source,
int32_t sourceLength,
uint8_t **result,
uint32_t resultLength,
UBool allocatePrimary,
UErrorCode *status);
U_CFUNC
int32_t U_CALLCONV
ucol_calcSortKeySimpleTertiary(const UCollator *coll,
const UChar *source,
int32_t sourceLength,
uint8_t **result,
uint32_t resultLength,
UBool allocatePrimary,
UErrorCode *status);
U_CFUNC
int32_t
ucol_getSortKeySize(const UCollator *coll, U_NAMESPACE_QUALIFIER collIterate *s,
int32_t currentSize, UColAttributeValue strength,
int32_t len);
/**
* Makes a copy of the Collator's rule data. The format is
* that of .col files.
*
* @param length returns the length of the data, in bytes.
* @param status the error status
* @return memory, owned by the caller, of size 'length' bytes.
* @internal INTERNAL USE ONLY
*/
U_CFUNC uint8_t* U_EXPORT2
ucol_cloneRuleData(const UCollator *coll, int32_t *length, UErrorCode *status);
/**
* Used to set requested and valid locales on a collator returned by the collator
* service.
*/
U_CFUNC void U_EXPORT2
ucol_setReqValidLocales(UCollator *coll, char *requestedLocaleToAdopt, char *validLocaleToAdopt, char *actualLocaleToAdopt);
#define UCOL_SPECIAL_FLAG 0xF0000000
#define UCOL_TAG_SHIFT 24
#define UCOL_TAG_MASK 0x0F000000
#define INIT_EXP_TABLE_SIZE 1024
#define UCOL_NOT_FOUND 0xF0000000
#define UCOL_EXPANSION 0xF1000000
#define UCOL_CONTRACTION 0xF2000000
#define UCOL_THAI 0xF3000000
#define UCOL_UNMARKED 0x03
#define UCOL_NEW_TERTIARYORDERMASK 0x0000003f
/* Bit mask for primary collation strength. */
#define UCOL_PRIMARYMASK 0xFFFF0000
/* Bit mask for secondary collation strength. */
#define UCOL_SECONDARYMASK 0x0000FF00
/* Bit mask for tertiary collation strength. */
#define UCOL_TERTIARYMASK 0x000000FF
/**
* Internal.
* This indicates the last element in a UCollationElements has been consumed.
* Compare with the UCOL_NULLORDER, UCOL_NULLORDER is returned if error occurs.
*/
#define UCOL_NO_MORE_CES 0x00010101
#define UCOL_NO_MORE_CES_PRIMARY 0x00010000
#define UCOL_NO_MORE_CES_SECONDARY 0x00000100
#define UCOL_NO_MORE_CES_TERTIARY 0x00000001
#define isSpecial(CE) ((((CE)&UCOL_SPECIAL_FLAG)>>28)==0xF)
#define UCOL_UPPER_CASE 0x80
#define UCOL_MIXED_CASE 0x40
#define UCOL_LOWER_CASE 0x00
#define UCOL_CONTINUATION_MARKER 0xC0
#define UCOL_REMOVE_CONTINUATION 0xFFFFFF3F
#define isContinuation(CE) (((CE) & UCOL_CONTINUATION_MARKER) == UCOL_CONTINUATION_MARKER)
#define isFlagged(CE) (((CE) & 0x80) == 0x80)
#define isLongPrimary(CE) (((CE) & 0xC0) == 0xC0)
#define getCETag(CE) (((CE)&UCOL_TAG_MASK)>>UCOL_TAG_SHIFT)
#define isContraction(CE) (isSpecial((CE)) && (getCETag((CE)) == CONTRACTION_TAG))
#define isPrefix(CE) (isSpecial((CE)) && (getCETag((CE)) == SPEC_PROC_TAG))
#define constructContractCE(tag, CE) (UCOL_SPECIAL_FLAG | ((tag)<<UCOL_TAG_SHIFT) | ((CE)&0xFFFFFF))
#define constructSpecProcCE(CE) (UCOL_SPECIAL_FLAG | (SPEC_PROC_TAG<<UCOL_TAG_SHIFT) | ((CE)&0xFFFFFF))
#define getContractOffset(CE) ((CE)&0xFFFFFF)
#define getExpansionOffset(CE) (((CE)&0x00FFFFF0)>>4)
#define getExpansionCount(CE) ((CE)&0xF)
#define isCEIgnorable(CE) (((CE) & 0xFFFFFFBF) == 0)
/* StringSearch internal use */
#define inNormBuf(coleiter) ((coleiter)->iteratordata_.flags & UCOL_ITER_INNORMBUF)
#define isFCDPointerNull(coleiter) ((coleiter)->iteratordata_.fcdPosition == NULL)
#define hasExpansion(coleiter) ((coleiter)->iteratordata_.CEpos != (coleiter)->iteratordata_.CEs)
#define getExpansionPrefix(coleiter) ((coleiter)->iteratordata_.toReturn - (coleiter)->iteratordata_.CEs)
#define setExpansionPrefix(coleiter, offset) ((coleiter)->iteratordata_.CEs + offset)
#define getExpansionSuffix(coleiter) ((coleiter)->iteratordata_.CEpos - (coleiter)->iteratordata_.toReturn)
#define setExpansionSuffix(coleiter, offset) ((coleiter)->iteratordata_.toReturn = (coleiter)->iteratordata_.CEpos - leftoverces)
/* This is an enum that lists magic special byte values from the fractional UCA.
* See also http://site.icu-project.org/design/collation/bytes */
/* TODO: all the #defines that refer to special byte values from the UCA should be changed to point here */
enum {
UCOL_BYTE_ZERO = 0x00,
UCOL_BYTE_LEVEL_SEPARATOR = 0x01,
UCOL_BYTE_SORTKEY_GLUE = 0x02,
UCOL_BYTE_SHIFT_PREFIX = 0x03,
UCOL_BYTE_UNSHIFTED_MIN = UCOL_BYTE_SHIFT_PREFIX,
UCOL_BYTE_FIRST_TAILORED = 0x04,
UCOL_BYTE_COMMON = 0x05,
UCOL_BYTE_FIRST_UCA = UCOL_BYTE_COMMON,
/* TODO: Make the following values dynamic since they change with almost every UCA version. */
UCOL_CODAN_PLACEHOLDER = 0x12,
UCOL_BYTE_FIRST_NON_LATIN_PRIMARY = 0x5B,
UCOL_BYTE_UNSHIFTED_MAX = 0xFF
};
#if 0
#define UCOL_RESET_TOP_VALUE 0x9F000303
#define UCOL_FIRST_PRIMARY_IGNORABLE 0x00008705
#define UCOL_LAST_PRIMARY_IGNORABLE 0x0000DD05
#define UCOL_LAST_PRIMARY_IGNORABLE_CONT 0x000051C0
#define UCOL_FIRST_SECONDARY_IGNORABLE 0x00000000
#define UCOL_LAST_SECONDARY_IGNORABLE 0x00000500
#define UCOL_FIRST_TERTIARY_IGNORABLE 0x00000000
#define UCOL_LAST_TERTIARY_IGNORABLE 0x00000000
#define UCOL_FIRST_VARIABLE 0x05070505
#define UCOL_LAST_VARIABLE 0x179B0505
#define UCOL_FIRST_NON_VARIABLE 0x1A200505
#define UCOL_LAST_NON_VARIABLE 0x7B41058F
#define UCOL_NEXT_TOP_VALUE 0xE8960303
#define UCOL_NEXT_FIRST_PRIMARY_IGNORABLE 0x00008905
#define UCOL_NEXT_LAST_PRIMARY_IGNORABLE 0x03000303
#define UCOL_NEXT_FIRST_SECONDARY_IGNORABLE 0x00008705
#define UCOL_NEXT_LAST_SECONDARY_IGNORABLE 0x00000500
#define UCOL_NEXT_FIRST_TERTIARY_IGNORABLE 0x00000000
#define UCOL_NEXT_LAST_TERTIARY_IGNORABLE 0x00000000
#define UCOL_NEXT_FIRST_VARIABLE 0x05090505
#define UCOL_NEXT_LAST_VARIABLE 0x1A200505
#define PRIMARY_IMPLICIT_MIN 0xE8000000
#define PRIMARY_IMPLICIT_MAX 0xF0000000
#endif
/* These constants can be changed - sortkey size is affected by them */
#define UCOL_PROPORTION2 0.5
#define UCOL_PROPORTION3 0.667
/* These values come from the UCA */
#define UCOL_COMMON_BOT2 UCOL_BYTE_COMMON
#define UCOL_COMMON_TOP2 0x86u
#define UCOL_TOTAL2 (UCOL_COMMON_TOP2-UCOL_COMMON_BOT2-1)
#define UCOL_FLAG_BIT_MASK_CASE_SW_OFF 0x80
#define UCOL_FLAG_BIT_MASK_CASE_SW_ON 0x40
#define UCOL_COMMON_TOP3_CASE_SW_OFF 0x85
#define UCOL_COMMON_TOP3_CASE_SW_LOWER 0x45
#define UCOL_COMMON_TOP3_CASE_SW_UPPER 0xC5
/* These values come from the UCA */
#define UCOL_COMMON_BOT3 0x05
#define UCOL_COMMON_BOTTOM3_CASE_SW_UPPER 0x86;
#define UCOL_COMMON_BOTTOM3_CASE_SW_LOWER UCOL_COMMON_BOT3;
#define UCOL_TOP_COUNT2 (UCOL_PROPORTION2*UCOL_TOTAL2)
#define UCOL_BOT_COUNT2 (UCOL_TOTAL2-UCOL_TOP_COUNT2)
#define UCOL_COMMON2 UCOL_COMMON_BOT2
#define UCOL_COMMON3_UPPERFIRST 0xC5
#define UCOL_COMMON3_NORMAL UCOL_COMMON_BOT3
#define UCOL_COMMON4 0xFF
/* constants for case level/case first handling */
/* used to instantiate UCollators fields in ucol_updateInternalState */
#define UCOL_CASE_SWITCH 0xC0
#define UCOL_NO_CASE_SWITCH 0x00
#define UCOL_REMOVE_CASE 0x3F
#define UCOL_KEEP_CASE 0xFF
#define UCOL_CASE_BIT_MASK 0xC0
#define UCOL_TERT_CASE_MASK 0xFF
#define UCOL_ENDOFLATINONERANGE 0xFF
#define UCOL_LATINONETABLELEN (UCOL_ENDOFLATINONERANGE+50)
#define UCOL_BAIL_OUT_CE 0xFF000000
typedef enum {
NOT_FOUND_TAG = 0,
EXPANSION_TAG = 1, /* This code point results in an expansion */
CONTRACTION_TAG = 2, /* Start of a contraction */
THAI_TAG = 3, /* Thai character - do the reordering */
CHARSET_TAG = 4, /* Charset processing, not yet implemented */
SURROGATE_TAG = 5, /* Lead surrogate that is tailored and doesn't start a contraction */
HANGUL_SYLLABLE_TAG = 6, /* AC00-D7AF*/
LEAD_SURROGATE_TAG = 7, /* D800-DBFF*/
TRAIL_SURROGATE_TAG = 8, /* DC00-DFFF*/
CJK_IMPLICIT_TAG = 9, /* 0x3400-0x4DB5, 0x4E00-0x9FA5, 0xF900-0xFA2D*/
IMPLICIT_TAG = 10,
SPEC_PROC_TAG = 11,
/* ICU 2.1 */
LONG_PRIMARY_TAG = 12, /* This is a three byte primary with starting secondaries and tertiaries */
/* It fits in a single 32 bit CE and is used instead of expansion to save */
/* space without affecting the performance (hopefully) */
DIGIT_TAG = 13, /* COllate Digits As Numbers (CODAN) implementation */
CE_TAGS_COUNT
} UColCETags;
/*
*****************************************************************************************
* set to zero
* NON_CHARACTER FDD0 - FDEF, FFFE, FFFF, 1FFFE, 1FFFF, 2FFFE, 2FFFF,...e.g. **FFFE, **FFFF
******************************************************************************************
*/
typedef struct {
uint32_t variableTopValue;
/*UColAttributeValue*/ int32_t frenchCollation;
/*UColAttributeValue*/ int32_t alternateHandling; /* attribute for handling variable elements*/
/*UColAttributeValue*/ int32_t caseFirst; /* who goes first, lower case or uppercase */
/*UColAttributeValue*/ int32_t caseLevel; /* do we have an extra case level */
/*UColAttributeValue*/ int32_t normalizationMode; /* attribute for normalization */
/*UColAttributeValue*/ int32_t strength; /* attribute for strength */
/*UColAttributeValue*/ int32_t hiraganaQ; /* attribute for special Hiragana */
/*UColAttributeValue*/ int32_t numericCollation; /* attribute for numeric collation */
uint32_t reserved[15]; /* for future use */
} UColOptionSet;
typedef struct {
uint32_t UCA_FIRST_TERTIARY_IGNORABLE[2]; /*0x00000000*/
uint32_t UCA_LAST_TERTIARY_IGNORABLE[2]; /*0x00000000*/
uint32_t UCA_FIRST_PRIMARY_IGNORABLE[2]; /*0x00008705*/
uint32_t UCA_FIRST_SECONDARY_IGNORABLE[2]; /*0x00000000*/
uint32_t UCA_LAST_SECONDARY_IGNORABLE[2]; /*0x00000500*/
uint32_t UCA_LAST_PRIMARY_IGNORABLE[2]; /*0x0000DD05*/
uint32_t UCA_FIRST_VARIABLE[2]; /*0x05070505*/
uint32_t UCA_LAST_VARIABLE[2]; /*0x13CF0505*/
uint32_t UCA_FIRST_NON_VARIABLE[2]; /*0x16200505*/
uint32_t UCA_LAST_NON_VARIABLE[2]; /*0x767C0505*/
uint32_t UCA_RESET_TOP_VALUE[2]; /*0x9F000303*/
uint32_t UCA_FIRST_IMPLICIT[2];
uint32_t UCA_LAST_IMPLICIT[2];
uint32_t UCA_FIRST_TRAILING[2];
uint32_t UCA_LAST_TRAILING[2];
#if 0
uint32_t UCA_NEXT_TOP_VALUE[2]; /*0xE8960303*/
uint32_t UCA_NEXT_FIRST_PRIMARY_IGNORABLE; /*0x00008905*/
uint32_t UCA_NEXT_LAST_PRIMARY_IGNORABLE; /*0x03000303*/
uint32_t UCA_NEXT_FIRST_SECONDARY_IGNORABLE; /*0x00008705*/
uint32_t UCA_NEXT_LAST_SECONDARY_IGNORABLE; /*0x00000500*/
uint32_t UCA_NEXT_FIRST_TERTIARY_IGNORABLE; /*0x00000000*/
uint32_t UCA_NEXT_LAST_TERTIARY_IGNORABLE; /*0x00000000*/
uint32_t UCA_NEXT_FIRST_VARIABLE; /*0x05090505*/
uint32_t UCA_NEXT_LAST_VARIABLE; /*0x16200505*/
#endif
uint32_t UCA_PRIMARY_TOP_MIN;
uint32_t UCA_PRIMARY_IMPLICIT_MIN; /*0xE8000000*/
uint32_t UCA_PRIMARY_IMPLICIT_MAX; /*0xF0000000*/
uint32_t UCA_PRIMARY_TRAILING_MIN; /*0xE8000000*/
uint32_t UCA_PRIMARY_TRAILING_MAX; /*0xF0000000*/
uint32_t UCA_PRIMARY_SPECIAL_MIN; /*0xE8000000*/
uint32_t UCA_PRIMARY_SPECIAL_MAX; /*0xF0000000*/
} UCAConstants;
typedef struct {
int32_t size;
/* all the offsets are in bytes */
/* to get the address add to the header address and cast properly */
uint32_t options; /* these are the default options for the collator */
uint32_t UCAConsts; /* structure which holds values for indirect positioning and implicit ranges */
uint32_t contractionUCACombos; /* this one is needed only for UCA, to copy the appropriate contractions */
uint32_t magic; /* magic number - lets us know whether reserved data is reset or junked */
uint32_t mappingPosition; /* const uint8_t *mappingPosition; */
uint32_t expansion; /* uint32_t *expansion; */
uint32_t contractionIndex; /* UChar *contractionIndex; */
uint32_t contractionCEs; /* uint32_t *contractionCEs; */
uint32_t contractionSize; /* needed for various closures */
/*int32_t latinOneMapping;*/ /* this is now handled in the trie itself *//* fast track to latin1 chars */
uint32_t endExpansionCE; /* array of last collation element in
expansion */
uint32_t expansionCESize; /* array of maximum expansion size
corresponding to the expansion
collation elements with last element
in endExpansionCE*/
int32_t endExpansionCECount; /* size of endExpansionCE */
uint32_t unsafeCP; /* hash table of unsafe code points */
uint32_t contrEndCP; /* hash table of final code points */
/* in contractions. */
int32_t contractionUCACombosSize; /* number of UCA contraction items. */
/*Length is contractionUCACombosSize*contractionUCACombosWidth*sizeof(UChar) */
UBool jamoSpecial; /* is jamoSpecial */
UBool isBigEndian; /* is this data big endian? from the UDataInfo header*/
uint8_t charSetFamily; /* what is the charset family of this data from the UDataInfo header*/
uint8_t contractionUCACombosWidth; /* width of UCA combos field */
UVersionInfo version;
UVersionInfo UCAVersion; /* version of the UCA, read from file */
UVersionInfo UCDVersion; /* UCD version, obtained by u_getUnicodeVersion */
UVersionInfo formatVersion; /* format version from the UDataInfo header */
uint32_t scriptToLeadByte; /* offset to script to lead collation byte mapping data */
uint32_t leadByteToScript; /* offset to lead collation byte to script mapping data */
uint8_t reserved[76]; /* for future use */
} UCATableHeader;
#define U_UNKNOWN_STATE 0
#define U_COLLATOR_STATE 0x01
#define U_STATE_LIMIT 0x02
/* This is the first structure in a state */
/* it should be machine independent */
typedef struct {
/* this structure is supposed to be readable on all the platforms.*/
/* first 2 fields hold the size of the structure in a platform independent way */
uint8_t sizeLo;
uint8_t sizeHi;
/* identifying the writing platform */
uint8_t isBigEndian;
/* see U_CHARSET_FAMILY values in utypes.h */
uint8_t charsetFamily;
/* version of ICU this state structure comes from */
uint8_t icuVersion[4];
/* What is the data following this state */
uint8_t type;
/* more stuff to come, keep it on 16 byte boundary */
uint8_t reserved[7];
} UStateStruct;
/* This structure follows UStatusStruct */
/* and contains data specific for the collators */
/* Endianess needs to be decided before accessing this structure */
/* However, it's size IS endianess independent */
typedef struct {
/* size of this structure */
uint8_t sizeLo;
uint8_t sizeHi;
/* This state is followed by the frozen tailoring */
uint8_t containsTailoring;
/* This state is followed by the frozen UCA */
uint8_t containsUCA;
/* Version info - the same one */
uint8_t versionInfo[4];
/* for charset CEs */
uint8_t charsetName[32];
/* this is the resolved locale name*/
uint8_t locale[32];
/* Attributes. Open ended */
/* all the following will be moved to uint32_t because of portability */
/* variable top value */
uint32_t variableTopValue;
/* attribute for handling variable elements*/
uint32_t /*UColAttributeValue*/ alternateHandling;
/* how to handle secondary weights */
uint32_t /*UColAttributeValue*/ frenchCollation;
/* who goes first, lower case or uppercase */
uint32_t /*UColAttributeValue*/ caseFirst;
/* do we have an extra case level */
uint32_t /*UColAttributeValue*/ caseLevel;
/* attribute for normalization */
uint32_t /*UColAttributeValue*/ normalizationMode;
/* attribute for strength */
uint32_t /*UColAttributeValue*/ strength;
/* to be immediately 16 byte aligned */
uint8_t reserved[12];
} UColStateStruct;
#define UCOL_INV_SIZEMASK 0xFFF00000
#define UCOL_INV_OFFSETMASK 0x000FFFFF
#define UCOL_INV_SHIFTVALUE 20
U_CDECL_BEGIN
typedef struct {
uint32_t byteSize;
uint32_t tableSize;
uint32_t contsSize;
uint32_t table;
uint32_t conts;
UVersionInfo UCAVersion; /* version of the UCA, read from file */
uint8_t padding[8];
} InverseUCATableHeader;
typedef int32_t U_CALLCONV
SortKeyGenerator(const UCollator *coll,
const UChar *source,
int32_t sourceLength,
uint8_t **result,
uint32_t resultLength,
UBool allocatePrimary,
UErrorCode *status);
typedef void U_CALLCONV
ResourceCleaner(UCollator *coll);
struct UCollator {
UColOptionSet *options;
SortKeyGenerator *sortKeyGen;
uint32_t *latinOneCEs;
char* actualLocale;
char* validLocale;
char* requestedLocale;
const UChar *rules;
const UChar *ucaRules;
const UCollator *UCA;
const UCATableHeader *image;
UTrie mapping;
const uint32_t *latinOneMapping;
const uint32_t *expansion;
const UChar *contractionIndex;
const uint32_t *contractionCEs;
const uint32_t *endExpansionCE; /* array of last ces in an expansion ce.
corresponds to expansionCESize */
const uint32_t *lastEndExpansionCE;/* pointer to the last element in endExpansionCE */
const uint8_t *expansionCESize; /* array of the maximum size of a
expansion ce with the last ce
corresponding to endExpansionCE,
terminated with a null */
const uint8_t *unsafeCP; /* unsafe code points hashtable */
const uint8_t *contrEndCP; /* Contraction ending chars hash table */
UChar minUnsafeCP; /* Smallest unsafe Code Point. */
UChar minContrEndCP; /* Smallest code point at end of a contraction */
int32_t rulesLength;
int32_t latinOneTableLen;
uint32_t variableTopValue;
UColAttributeValue frenchCollation;
UColAttributeValue alternateHandling; /* attribute for handling variable elements*/
UColAttributeValue caseFirst; /* who goes first, lower case or uppercase */
UColAttributeValue caseLevel; /* do we have an extra case level */
UColAttributeValue normalizationMode; /* attribute for normalization */
UColAttributeValue strength; /* attribute for strength */
UColAttributeValue hiraganaQ; /* attribute for Hiragana */
UColAttributeValue numericCollation;
UBool variableTopValueisDefault;
UBool frenchCollationisDefault;
UBool alternateHandlingisDefault; /* attribute for handling variable elements*/
UBool caseFirstisDefault; /* who goes first, lower case or uppercase */
UBool caseLevelisDefault; /* do we have an extra case level */
UBool normalizationModeisDefault; /* attribute for normalization */
UBool strengthisDefault; /* attribute for strength */
UBool hiraganaQisDefault; /* attribute for Hiragana */
UBool numericCollationisDefault;
UBool hasRealData; /* some collators have only options, like French, no rules */
/* to speed up things, we use the UCA image, but we don't want it */
/* to run around */
UBool freeOnClose;
UBool freeOptionsOnClose;
UBool freeRulesOnClose;
UBool freeImageOnClose;
UBool latinOneUse;
UBool latinOneRegenTable;
UBool latinOneFailed;
int8_t tertiaryAddition; /* when switching case, we need to add or subtract different values */
uint8_t caseSwitch;
uint8_t tertiaryCommon;
uint8_t tertiaryMask;
uint8_t tertiaryTop; /* Upper range when compressing */
uint8_t tertiaryBottom; /* Upper range when compressing */
uint8_t tertiaryTopCount;
uint8_t tertiaryBottomCount;
UVersionInfo dataVersion; /* Data info of UCA table */
int32_t* reorderCodes;
int32_t reorderCodesLength;
uint8_t* leadBytePermutationTable;
};
U_CDECL_END
/* various internal functions */
/* do not close UCA returned by ucol_initUCA! */
U_CFUNC
UCollator* ucol_initUCA(UErrorCode *status);
U_CFUNC
UCollator* ucol_initCollator(const UCATableHeader *image, UCollator *fillIn, const UCollator *UCA, UErrorCode *status);
U_CFUNC
void ucol_setOptionsFromHeader(UCollator* result, UColOptionSet * opts, UErrorCode *status);
U_CFUNC
UCollator* ucol_open_internal(const char* loc, UErrorCode* status);
#if 0
U_CFUNC
void ucol_putOptionsToHeader(UCollator* result, UColOptionSet * opts, UErrorCode *status);
#endif
U_CFUNC
void ucol_updateInternalState(UCollator *coll, UErrorCode *status);
U_CFUNC uint32_t U_EXPORT2 ucol_getFirstCE(const UCollator *coll, UChar u, UErrorCode *status);
U_CAPI UBool U_EXPORT2 ucol_isTailored(const UCollator *coll, const UChar u, UErrorCode *status);
U_CAPI const InverseUCATableHeader* U_EXPORT2 ucol_initInverseUCA(UErrorCode *status);
U_CAPI void U_EXPORT2
uprv_uca_initImplicitConstants(UErrorCode *status);
U_CAPI uint32_t U_EXPORT2
uprv_uca_getImplicitFromRaw(UChar32 cp);
/*U_CFUNC uint32_t U_EXPORT2
uprv_uca_getImplicitPrimary(UChar32 cp);*/
U_CAPI UChar32 U_EXPORT2
uprv_uca_getRawFromImplicit(uint32_t implicit);
U_CAPI UChar32 U_EXPORT2
uprv_uca_getRawFromCodePoint(UChar32 i);
U_CAPI UChar32 U_EXPORT2
uprv_uca_getCodePointFromRaw(UChar32 i);
typedef const UChar* GetCollationRulesFunction(void* context, const char* locale, const char* type, int32_t* pLength, UErrorCode* status);
U_CAPI UCollator* U_EXPORT2
ucol_openRulesForImport( const UChar *rules,
int32_t rulesLength,
UColAttributeValue normalizationMode,
UCollationStrength strength,
UParseError *parseError,
GetCollationRulesFunction importFunc,
void* context,
UErrorCode *status);
U_CAPI void U_EXPORT2 ucol_buildPermutationTable(UCollator *coll, UErrorCode *status);
#ifdef XP_CPLUSPLUS
/*
* Test whether a character is potentially "unsafe" for use as a collation
* starting point. Unsafe chars are those with combining class != 0 plus
* those that are the 2nd thru nth character in a contraction sequence.
*
* Function is in header file because it's used in both collation and string search,
* and needs to be inline for performance.
*/
static inline UBool ucol_unsafeCP(UChar c, const UCollator *coll) {
int32_t hash;
uint8_t htbyte;
if (c < coll->minUnsafeCP) {
return FALSE;
}
hash = c;
if (hash >= UCOL_UNSAFECP_TABLE_SIZE*8) {
if(UTF_IS_SURROGATE(c)) {
/* Lead or trail surrogate */
/* These are always considered unsafe. */
return TRUE;
}
hash = (hash & UCOL_UNSAFECP_TABLE_MASK) + 256;
}
htbyte = coll->unsafeCP[hash>>3];
return ((htbyte >> (hash & 7)) & 1);
}
#endif /* XP_CPLUSPLUS */
/* The offsetBuffer in collIterate might need to be freed to avoid memory leaks. */
void ucol_freeOffsetBuffer(U_NAMESPACE_QUALIFIER collIterate *s);
#endif /* #if !UCONFIG_NO_COLLATION */
#endif