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/*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
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* Copyright ( C ) 2001 - 2007 , International Business Machines
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* Corporation and others . All Rights Reserved .
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* file name : ucaelems . cpp
* encoding : US - ASCII
* tab size : 8 ( not used )
* indentation : 4
*
* created 02 / 22 / 2001
* created by : Vladimir Weinstein
*
* This program reads the Franctional UCA table and generates
* internal format for UCA table as well as inverse UCA table .
* It then writes binary files containing the data : ucadata . dat
* & invuca . dat
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*
* date name comments
* 03 / 02 / 2001 synwee added setMaxExpansion
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* 03 / 07 / 2001 synwee merged UCA ' s maxexpansion and tailoring ' s
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*/
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# include "unicode/utypes.h"
# if !UCONFIG_NO_COLLATION
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# include "unicode/uchar.h"
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# include "unicode/unistr.h"
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# include "unicode/ucoleitr.h"
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# include "unicode/normlzr.h"
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# include "ucol_elm.h"
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# include "ucol_tok.h"
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# include "unormimp.h"
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# include "unicode/caniter.h"
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# include "cmemory.h"
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static uint32_t uprv_uca_processContraction ( CntTable * contractions , UCAElements * element , uint32_t existingCE , UErrorCode * status ) ;
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U_CDECL_BEGIN
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static int32_t U_CALLCONV
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prefixLookupHash ( const UHashTok e ) {
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UCAElements * element = ( UCAElements * ) e . pointer ;
UChar buf [ 256 ] ;
UHashTok key ;
key . pointer = buf ;
uprv_memcpy ( buf , element - > cPoints , element - > cSize * sizeof ( UChar ) ) ;
buf [ element - > cSize ] = 0 ;
//key.pointer = element->cPoints;
//element->cPoints[element->cSize] = 0;
return uhash_hashUChars ( key ) ;
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}
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static int8_t U_CALLCONV
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prefixLookupComp ( const UHashTok e1 , const UHashTok e2 ) {
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UCAElements * element1 = ( UCAElements * ) e1 . pointer ;
UCAElements * element2 = ( UCAElements * ) e2 . pointer ;
UChar buf1 [ 256 ] ;
UHashTok key1 ;
key1 . pointer = buf1 ;
uprv_memcpy ( buf1 , element1 - > cPoints , element1 - > cSize * sizeof ( UChar ) ) ;
buf1 [ element1 - > cSize ] = 0 ;
UChar buf2 [ 256 ] ;
UHashTok key2 ;
key2 . pointer = buf2 ;
uprv_memcpy ( buf2 , element2 - > cPoints , element2 - > cSize * sizeof ( UChar ) ) ;
buf2 [ element2 - > cSize ] = 0 ;
return uhash_compareUChars ( key1 , key2 ) ;
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}
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U_CDECL_END
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static int32_t uprv_uca_addExpansion ( ExpansionTable * expansions , uint32_t value , UErrorCode * status ) {
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if ( U_FAILURE ( * status ) ) {
return 0 ;
}
if ( expansions - > CEs = = NULL ) {
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expansions - > CEs = ( uint32_t * ) uprv_malloc ( INIT_EXP_TABLE_SIZE * sizeof ( uint32_t ) ) ;
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/* test for NULL */
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if ( expansions - > CEs = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return 0 ;
}
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expansions - > size = INIT_EXP_TABLE_SIZE ;
expansions - > position = 0 ;
}
if ( expansions - > position = = expansions - > size ) {
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uint32_t * newData = ( uint32_t * ) uprv_realloc ( expansions - > CEs , 2 * expansions - > size * sizeof ( uint32_t ) ) ;
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if ( newData = = NULL ) {
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# ifdef UCOL_DEBUG
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fprintf ( stderr , " out of memory for expansions \n " ) ;
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# endif
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* status = U_MEMORY_ALLOCATION_ERROR ;
return - 1 ;
}
expansions - > CEs = newData ;
expansions - > size * = 2 ;
}
expansions - > CEs [ expansions - > position ] = value ;
return ( expansions - > position + + ) ;
}
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U_CAPI tempUCATable * U_EXPORT2
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uprv_uca_initTempTable ( UCATableHeader * image , UColOptionSet * opts , const UCollator * UCA , UColCETags initTag , UColCETags supplementaryInitTag , UErrorCode * status ) {
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MaxJamoExpansionTable * maxjet ;
MaxExpansionTable * maxet ;
tempUCATable * t = ( tempUCATable * ) uprv_malloc ( sizeof ( tempUCATable ) ) ;
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/* test for NULL */
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if ( t = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memset ( t , 0 , sizeof ( tempUCATable ) ) ;
maxet = ( MaxExpansionTable * ) uprv_malloc ( sizeof ( MaxExpansionTable ) ) ;
if ( maxet = = NULL ) {
goto allocation_failure ;
}
uprv_memset ( maxet , 0 , sizeof ( MaxExpansionTable ) ) ;
t - > maxExpansions = maxet ;
maxjet = ( MaxJamoExpansionTable * ) uprv_malloc ( sizeof ( MaxJamoExpansionTable ) ) ;
if ( maxjet = = NULL ) {
goto allocation_failure ;
}
uprv_memset ( maxjet , 0 , sizeof ( MaxJamoExpansionTable ) ) ;
t - > maxJamoExpansions = maxjet ;
t - > image = image ;
t - > options = opts ;
t - > UCA = UCA ;
t - > expansions = ( ExpansionTable * ) uprv_malloc ( sizeof ( ExpansionTable ) ) ;
/* test for NULL */
if ( t - > expansions = = NULL ) {
goto allocation_failure ;
}
uprv_memset ( t - > expansions , 0 , sizeof ( ExpansionTable ) ) ;
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t - > mapping = utrie_open ( NULL , NULL , UCOL_ELM_TRIE_CAPACITY ,
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UCOL_SPECIAL_FLAG | ( initTag < < 24 ) ,
UCOL_SPECIAL_FLAG | ( supplementaryInitTag < < 24 ) ,
TRUE ) ; // Do your own mallocs for the structure, array and have linear Latin 1
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if ( t - > mapping = = NULL ) {
goto allocation_failure ;
}
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t - > prefixLookup = uhash_open ( prefixLookupHash , prefixLookupComp , NULL , status ) ;
uhash_setValueDeleter ( t - > prefixLookup , uhash_freeBlock ) ;
t - > contractions = uprv_cnttab_open ( t - > mapping , status ) ;
/* copy UCA's maxexpansion and merge as we go along */
if ( UCA ! = NULL ) {
/* adding an extra initial value for easier manipulation */
maxet - > size = ( UCA - > lastEndExpansionCE - UCA - > endExpansionCE )
+ 2 ;
maxet - > position = maxet - > size - 1 ;
maxet - > endExpansionCE =
( uint32_t * ) uprv_malloc ( sizeof ( uint32_t ) * maxet - > size ) ;
/* test for NULL */
if ( maxet - > endExpansionCE = = NULL ) {
goto allocation_failure ;
}
maxet - > expansionCESize =
( uint8_t * ) uprv_malloc ( sizeof ( uint8_t ) * maxet - > size ) ;
/* test for NULL */
if ( maxet - > expansionCESize = = NULL ) {
goto allocation_failure ;
}
/* initialized value */
* ( maxet - > endExpansionCE ) = 0 ;
* ( maxet - > expansionCESize ) = 0 ;
uprv_memcpy ( maxet - > endExpansionCE + 1 , UCA - > endExpansionCE ,
sizeof ( uint32_t ) * ( maxet - > size - 1 ) ) ;
uprv_memcpy ( maxet - > expansionCESize + 1 , UCA - > expansionCESize ,
sizeof ( uint8_t ) * ( maxet - > size - 1 ) ) ;
}
else {
maxet - > size = 0 ;
}
maxjet - > endExpansionCE = NULL ;
maxjet - > isV = NULL ;
maxjet - > size = 0 ;
maxjet - > position = 0 ;
maxjet - > maxLSize = 1 ;
maxjet - > maxVSize = 1 ;
maxjet - > maxTSize = 1 ;
t - > unsafeCP = ( uint8_t * ) uprv_malloc ( UCOL_UNSAFECP_TABLE_SIZE ) ;
/* test for NULL */
if ( t - > unsafeCP = = NULL ) {
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goto allocation_failure ;
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}
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t - > contrEndCP = ( uint8_t * ) uprv_malloc ( UCOL_UNSAFECP_TABLE_SIZE ) ;
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/* test for NULL */
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if ( t - > contrEndCP = = NULL ) {
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goto allocation_failure ;
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}
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uprv_memset ( t - > unsafeCP , 0 , UCOL_UNSAFECP_TABLE_SIZE ) ;
uprv_memset ( t - > contrEndCP , 0 , UCOL_UNSAFECP_TABLE_SIZE ) ;
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t - > cmLookup = NULL ;
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return t ;
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allocation_failure :
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uprv_uca_closeTempTable ( t ) ;
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
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}
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U_CAPI tempUCATable * U_EXPORT2
uprv_uca_cloneTempTable ( tempUCATable * t , UErrorCode * status ) {
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if ( U_FAILURE ( * status ) ) {
return NULL ;
}
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tempUCATable * r = ( tempUCATable * ) uprv_malloc ( sizeof ( tempUCATable ) ) ;
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/* test for NULL */
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if ( r = = NULL ) {
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* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
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uprv_memset ( r , 0 , sizeof ( tempUCATable ) ) ;
/* mapping */
if ( t - > mapping ! = NULL ) {
/*r->mapping = ucmpe32_clone(t->mapping, status);*/
r - > mapping = utrie_clone ( NULL , t - > mapping , NULL , 0 ) ;
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}
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// a hashing clone function would be very nice. We have none currently...
// However, we should be good, as closing should not produce any prefixed elements.
r - > prefixLookup = NULL ; // prefixes are not used in closing
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/* expansions */
if ( t - > expansions ! = NULL ) {
r - > expansions = ( ExpansionTable * ) uprv_malloc ( sizeof ( ExpansionTable ) ) ;
/* test for NULL */
if ( r - > expansions = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
r - > expansions - > position = t - > expansions - > position ;
r - > expansions - > size = t - > expansions - > size ;
if ( t - > expansions - > CEs ! = NULL ) {
r - > expansions - > CEs = ( uint32_t * ) uprv_malloc ( sizeof ( uint32_t ) * t - > expansions - > size ) ;
/* test for NULL */
if ( r - > expansions - > CEs = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memcpy ( r - > expansions - > CEs , t - > expansions - > CEs , sizeof ( uint32_t ) * t - > expansions - > position ) ;
} else {
r - > expansions - > CEs = NULL ;
}
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}
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if ( t - > contractions ! = NULL ) {
r - > contractions = uprv_cnttab_clone ( t - > contractions , status ) ;
r - > contractions - > mapping = r - > mapping ;
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}
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if ( t - > maxExpansions ! = NULL ) {
r - > maxExpansions = ( MaxExpansionTable * ) uprv_malloc ( sizeof ( MaxExpansionTable ) ) ;
/* test for NULL */
if ( r - > maxExpansions = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
r - > maxExpansions - > size = t - > maxExpansions - > size ;
r - > maxExpansions - > position = t - > maxExpansions - > position ;
if ( t - > maxExpansions - > endExpansionCE ! = NULL ) {
r - > maxExpansions - > endExpansionCE = ( uint32_t * ) uprv_malloc ( sizeof ( uint32_t ) * t - > maxExpansions - > size ) ;
uprv_memset ( r - > maxExpansions - > endExpansionCE , 0xDB , sizeof ( uint32_t ) * t - > maxExpansions - > size ) ;
/* test for NULL */
if ( r - > maxExpansions - > endExpansionCE = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memcpy ( r - > maxExpansions - > endExpansionCE , t - > maxExpansions - > endExpansionCE , t - > maxExpansions - > position * sizeof ( uint32_t ) ) ;
} else {
r - > maxExpansions - > endExpansionCE = NULL ;
}
if ( t - > maxExpansions - > expansionCESize ! = NULL ) {
r - > maxExpansions - > expansionCESize = ( uint8_t * ) uprv_malloc ( sizeof ( uint8_t ) * t - > maxExpansions - > size ) ;
uprv_memset ( r - > maxExpansions - > expansionCESize , 0xDB , sizeof ( uint8_t ) * t - > maxExpansions - > size ) ;
/* test for NULL */
if ( r - > maxExpansions - > expansionCESize = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memcpy ( r - > maxExpansions - > expansionCESize , t - > maxExpansions - > expansionCESize , t - > maxExpansions - > position * sizeof ( uint8_t ) ) ;
} else {
r - > maxExpansions - > expansionCESize = NULL ;
}
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}
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if ( t - > maxJamoExpansions ! = NULL ) {
r - > maxJamoExpansions = ( MaxJamoExpansionTable * ) uprv_malloc ( sizeof ( MaxJamoExpansionTable ) ) ;
/* test for NULL */
if ( r - > maxJamoExpansions = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
r - > maxJamoExpansions - > size = t - > maxJamoExpansions - > size ;
r - > maxJamoExpansions - > position = t - > maxJamoExpansions - > position ;
r - > maxJamoExpansions - > maxLSize = t - > maxJamoExpansions - > maxLSize ;
r - > maxJamoExpansions - > maxVSize = t - > maxJamoExpansions - > maxVSize ;
r - > maxJamoExpansions - > maxTSize = t - > maxJamoExpansions - > maxTSize ;
if ( t - > maxJamoExpansions - > size ! = 0 ) {
r - > maxJamoExpansions - > endExpansionCE = ( uint32_t * ) uprv_malloc ( sizeof ( uint32_t ) * t - > maxJamoExpansions - > size ) ;
/* test for NULL */
if ( r - > maxJamoExpansions - > endExpansionCE = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memcpy ( r - > maxJamoExpansions - > endExpansionCE , t - > maxJamoExpansions - > endExpansionCE , t - > maxJamoExpansions - > position * sizeof ( uint32_t ) ) ;
r - > maxJamoExpansions - > isV = ( UBool * ) uprv_malloc ( sizeof ( UBool ) * t - > maxJamoExpansions - > size ) ;
/* test for NULL */
if ( r - > maxJamoExpansions - > isV = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memcpy ( r - > maxJamoExpansions - > isV , t - > maxJamoExpansions - > isV , t - > maxJamoExpansions - > position * sizeof ( UBool ) ) ;
} else {
r - > maxJamoExpansions - > endExpansionCE = NULL ;
r - > maxJamoExpansions - > isV = NULL ;
}
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}
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if ( t - > unsafeCP ! = NULL ) {
r - > unsafeCP = ( uint8_t * ) uprv_malloc ( UCOL_UNSAFECP_TABLE_SIZE ) ;
/* test for NULL */
if ( r - > unsafeCP = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memcpy ( r - > unsafeCP , t - > unsafeCP , UCOL_UNSAFECP_TABLE_SIZE ) ;
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}
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if ( t - > contrEndCP ! = NULL ) {
r - > contrEndCP = ( uint8_t * ) uprv_malloc ( UCOL_UNSAFECP_TABLE_SIZE ) ;
/* test for NULL */
if ( r - > contrEndCP = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
uprv_memcpy ( r - > contrEndCP , t - > contrEndCP , UCOL_UNSAFECP_TABLE_SIZE ) ;
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}
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r - > UCA = t - > UCA ;
r - > image = t - > image ;
r - > options = t - > options ;
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return r ;
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}
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U_CAPI void U_EXPORT2
uprv_uca_closeTempTable ( tempUCATable * t ) {
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if ( t ! = NULL ) {
if ( t - > expansions ! = NULL ) {
uprv_free ( t - > expansions - > CEs ) ;
uprv_free ( t - > expansions ) ;
}
if ( t - > contractions ! = NULL ) {
uprv_cnttab_close ( t - > contractions ) ;
}
if ( t - > mapping ! = NULL ) {
utrie_close ( t - > mapping ) ;
}
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if ( t - > prefixLookup ! = NULL ) {
uhash_close ( t - > prefixLookup ) ;
}
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if ( t - > maxExpansions ! = NULL ) {
uprv_free ( t - > maxExpansions - > endExpansionCE ) ;
uprv_free ( t - > maxExpansions - > expansionCESize ) ;
uprv_free ( t - > maxExpansions ) ;
}
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if ( t - > maxJamoExpansions - > size > 0 ) {
uprv_free ( t - > maxJamoExpansions - > endExpansionCE ) ;
uprv_free ( t - > maxJamoExpansions - > isV ) ;
}
uprv_free ( t - > maxJamoExpansions ) ;
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uprv_free ( t - > unsafeCP ) ;
uprv_free ( t - > contrEndCP ) ;
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if ( t - > cmLookup ! = NULL ) {
uprv_free ( t - > cmLookup - > cPoints ) ;
uprv_free ( t - > cmLookup ) ;
}
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uprv_free ( t ) ;
}
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}
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/**
* Looks for the maximum length of all expansion sequences ending with the same
* collation element . The size required for maxexpansion and maxsize is
* returned if the arrays are too small .
* @ param endexpansion the last expansion collation element to be added
* @ param expansionsize size of the expansion
* @ param maxexpansion data structure to store the maximum expansion data .
* @ param status error status
* @ returns size of the maxexpansion and maxsize used .
*/
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static int uprv_uca_setMaxExpansion ( uint32_t endexpansion ,
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uint8_t expansionsize ,
MaxExpansionTable * maxexpansion ,
UErrorCode * status )
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{
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if ( maxexpansion - > size = = 0 ) {
/* we'll always make the first element 0, for easier manipulation */
maxexpansion - > endExpansionCE =
( uint32_t * ) uprv_malloc ( INIT_EXP_TABLE_SIZE * sizeof ( int32_t ) ) ;
/* test for NULL */
if ( maxexpansion - > endExpansionCE = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return 0 ;
}
* ( maxexpansion - > endExpansionCE ) = 0 ;
maxexpansion - > expansionCESize =
( uint8_t * ) uprv_malloc ( INIT_EXP_TABLE_SIZE * sizeof ( uint8_t ) ) ;
/* test for NULL */ ;
if ( maxexpansion - > expansionCESize = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return 0 ;
}
* ( maxexpansion - > expansionCESize ) = 0 ;
maxexpansion - > size = INIT_EXP_TABLE_SIZE ;
maxexpansion - > position = 0 ;
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}
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if ( maxexpansion - > position + 1 = = maxexpansion - > size ) {
uint32_t * neweece = ( uint32_t * ) uprv_realloc ( maxexpansion - > endExpansionCE ,
2 * maxexpansion - > size * sizeof ( uint32_t ) ) ;
uint8_t * neweces = ( uint8_t * ) uprv_realloc ( maxexpansion - > expansionCESize ,
2 * maxexpansion - > size * sizeof ( uint8_t ) ) ;
if ( neweece = = NULL | | neweces = = NULL ) {
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# ifdef UCOL_DEBUG
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fprintf ( stderr , " out of memory for maxExpansions \n " ) ;
# endif
* status = U_MEMORY_ALLOCATION_ERROR ;
return - 1 ;
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}
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maxexpansion - > endExpansionCE = neweece ;
maxexpansion - > expansionCESize = neweces ;
maxexpansion - > size * = 2 ;
}
uint32_t * pendexpansionce = maxexpansion - > endExpansionCE ;
uint8_t * pexpansionsize = maxexpansion - > expansionCESize ;
int pos = maxexpansion - > position ;
uint32_t * start = pendexpansionce ;
uint32_t * limit = pendexpansionce + pos ;
/* using binary search to determine if last expansion element is
already in the array */
uint32_t * mid ;
int result = - 1 ;
while ( start < limit - 1 ) {
mid = start + ( ( limit - start ) > > 1 ) ;
if ( endexpansion < = * mid ) {
limit = mid ;
}
else {
start = mid ;
}
}
if ( * start = = endexpansion ) {
result = start - pendexpansionce ;
}
else
if ( * limit = = endexpansion ) {
result = limit - pendexpansionce ;
}
if ( result > - 1 ) {
/* found the ce in expansion, we'll just modify the size if it is
smaller */
uint8_t * currentsize = pexpansionsize + result ;
if ( * currentsize < expansionsize ) {
* currentsize = expansionsize ;
}
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}
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else {
/* we'll need to squeeze the value into the array.
initial implementation . */
/* shifting the subarray down by 1 */
int shiftsize = ( pendexpansionce + pos ) - start ;
uint32_t * shiftpos = start + 1 ;
uint8_t * sizeshiftpos = pexpansionsize + ( shiftpos - pendexpansionce ) ;
/* okay need to rearrange the array into sorted order */
if ( shiftsize = = 0 /*|| *(pendexpansionce + pos) < endexpansion*/ ) { /* the commented part is actually both redundant and dangerous */
* ( pendexpansionce + pos + 1 ) = endexpansion ;
* ( pexpansionsize + pos + 1 ) = expansionsize ;
}
else {
uprv_memmove ( shiftpos + 1 , shiftpos , shiftsize * sizeof ( int32_t ) ) ;
uprv_memmove ( sizeshiftpos + 1 , sizeshiftpos ,
shiftsize * sizeof ( uint8_t ) ) ;
* shiftpos = endexpansion ;
* sizeshiftpos = expansionsize ;
}
maxexpansion - > position + + ;
# ifdef UCOL_DEBUG
int temp ;
UBool found = FALSE ;
for ( temp = 0 ; temp < maxexpansion - > position ; temp + + ) {
if ( pendexpansionce [ temp ] > = pendexpansionce [ temp + 1 ] ) {
fprintf ( stderr , " expansions %d \n " , temp ) ;
}
if ( pendexpansionce [ temp ] = = endexpansion ) {
found = TRUE ;
if ( pexpansionsize [ temp ] < expansionsize ) {
fprintf ( stderr , " expansions size %d \n " , temp ) ;
}
}
}
if ( pendexpansionce [ temp ] = = endexpansion ) {
found = TRUE ;
if ( pexpansionsize [ temp ] < expansionsize ) {
fprintf ( stderr , " expansions size %d \n " , temp ) ;
}
}
if ( ! found )
fprintf ( stderr , " expansion not found %d \n " , temp ) ;
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# endif
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}
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return maxexpansion - > position ;
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}
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/**
* Sets the maximum length of all jamo expansion sequences ending with the same
* collation element . The size required for maxexpansion and maxsize is
* returned if the arrays are too small .
* @ param ch the jamo codepoint
* @ param endexpansion the last expansion collation element to be added
* @ param expansionsize size of the expansion
* @ param maxexpansion data structure to store the maximum expansion data .
* @ param status error status
* @ returns size of the maxexpansion and maxsize used .
*/
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static int uprv_uca_setMaxJamoExpansion ( UChar ch ,
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uint32_t endexpansion ,
uint8_t expansionsize ,
MaxJamoExpansionTable * maxexpansion ,
UErrorCode * status )
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{
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UBool isV = TRUE ;
if ( ( ( uint32_t ) ch - 0x1100 ) < = ( 0x1112 - 0x1100 ) ) {
/* determines L for Jamo, doesn't need to store this since it is never
at the end of a expansion */
if ( maxexpansion - > maxLSize < expansionsize ) {
maxexpansion - > maxLSize = expansionsize ;
}
return maxexpansion - > position ;
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}
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if ( ( ( uint32_t ) ch - 0x1161 ) < = ( 0x1175 - 0x1161 ) ) {
/* determines V for Jamo */
if ( maxexpansion - > maxVSize < expansionsize ) {
maxexpansion - > maxVSize = expansionsize ;
}
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}
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if ( ( ( uint32_t ) ch - 0x11A8 ) < = ( 0x11C2 - 0x11A8 ) ) {
isV = FALSE ;
/* determines T for Jamo */
if ( maxexpansion - > maxTSize < expansionsize ) {
maxexpansion - > maxTSize = expansionsize ;
}
}
if ( maxexpansion - > size = = 0 ) {
/* we'll always make the first element 0, for easier manipulation */
maxexpansion - > endExpansionCE =
( uint32_t * ) uprv_malloc ( INIT_EXP_TABLE_SIZE * sizeof ( uint32_t ) ) ;
/* test for NULL */ ;
if ( maxexpansion - > endExpansionCE = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return 0 ;
}
* ( maxexpansion - > endExpansionCE ) = 0 ;
maxexpansion - > isV =
( UBool * ) uprv_malloc ( INIT_EXP_TABLE_SIZE * sizeof ( UBool ) ) ;
/* test for NULL */ ;
if ( maxexpansion - > isV = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
uprv_free ( maxexpansion - > endExpansionCE ) ;
maxexpansion - > endExpansionCE = NULL ;
return 0 ;
}
* ( maxexpansion - > isV ) = 0 ;
maxexpansion - > size = INIT_EXP_TABLE_SIZE ;
maxexpansion - > position = 0 ;
}
if ( maxexpansion - > position + 1 = = maxexpansion - > size ) {
maxexpansion - > size * = 2 ;
maxexpansion - > endExpansionCE = ( uint32_t * ) uprv_realloc ( maxexpansion - > endExpansionCE ,
maxexpansion - > size * sizeof ( uint32_t ) ) ;
if ( maxexpansion - > endExpansionCE = = NULL ) {
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# ifdef UCOL_DEBUG
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fprintf ( stderr , " out of memory for maxExpansions \n " ) ;
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# endif
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* status = U_MEMORY_ALLOCATION_ERROR ;
return 0 ;
}
maxexpansion - > isV = ( UBool * ) uprv_realloc ( maxexpansion - > isV ,
maxexpansion - > size * sizeof ( UBool ) ) ;
if ( maxexpansion - > isV = = NULL ) {
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# ifdef UCOL_DEBUG
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fprintf ( stderr , " out of memory for maxExpansions \n " ) ;
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# endif
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* status = U_MEMORY_ALLOCATION_ERROR ;
uprv_free ( maxexpansion - > endExpansionCE ) ;
maxexpansion - > endExpansionCE = NULL ;
return 0 ;
}
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}
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uint32_t * pendexpansionce = maxexpansion - > endExpansionCE ;
int pos = maxexpansion - > position ;
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while ( pos > 0 ) {
pos - - ;
if ( * ( pendexpansionce + pos ) = = endexpansion ) {
return maxexpansion - > position ;
}
}
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* ( pendexpansionce + maxexpansion - > position ) = endexpansion ;
* ( maxexpansion - > isV + maxexpansion - > position ) = isV ;
maxexpansion - > position + + ;
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return maxexpansion - > position ;
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}
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static void ContrEndCPSet ( uint8_t * table , UChar c ) {
uint32_t hash ;
uint8_t * htByte ;
hash = c ;
if ( hash > = UCOL_UNSAFECP_TABLE_SIZE * 8 ) {
hash = ( hash & UCOL_UNSAFECP_TABLE_MASK ) + 256 ;
}
htByte = & table [ hash > > 3 ] ;
* htByte | = ( 1 < < ( hash & 7 ) ) ;
}
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static void unsafeCPSet ( uint8_t * table , UChar c ) {
uint32_t hash ;
uint8_t * htByte ;
hash = c ;
if ( hash > = UCOL_UNSAFECP_TABLE_SIZE * 8 ) {
if ( hash > = 0xd800 & & hash < = 0xf8ff ) {
/* Part of a surrogate, or in private use area. */
/* These don't go in the table */
return ;
}
hash = ( hash & UCOL_UNSAFECP_TABLE_MASK ) + 256 ;
}
htByte = & table [ hash > > 3 ] ;
* htByte | = ( 1 < < ( hash & 7 ) ) ;
}
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static void
uprv_uca_createCMTable ( tempUCATable * t , int32_t noOfCM , UErrorCode * status ) {
t - > cmLookup = ( CombinClassTable * ) uprv_malloc ( sizeof ( CombinClassTable ) ) ;
if ( t - > cmLookup = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return ;
}
t - > cmLookup - > cPoints = ( UChar * ) uprv_malloc ( noOfCM * sizeof ( UChar ) ) ;
if ( t - > cmLookup - > cPoints = = NULL ) {
uprv_free ( t - > cmLookup ) ;
t - > cmLookup = NULL ;
* status = U_MEMORY_ALLOCATION_ERROR ;
return ;
}
t - > cmLookup - > size = noOfCM ;
uprv_memset ( t - > cmLookup - > index , 0 , sizeof ( t - > cmLookup - > index ) ) ;
return ;
}
static void
uprv_uca_copyCMTable ( tempUCATable * t , UChar * cm , uint16_t * index ) {
int32_t count = 0 ;
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for ( int32_t i = 0 ; i < 256 ; + + i ) {
if ( index [ i ] > 0 ) {
// cPoints is ordered by combining class value.
uprv_memcpy ( t - > cmLookup - > cPoints + count , cm + ( i < < 8 ) , index [ i ] * sizeof ( UChar ) ) ;
count + = index [ i ] ;
}
t - > cmLookup - > index [ i ] = count ;
}
return ;
}
/* 1. to the UnsafeCP hash table, add all chars with combining class != 0 */
/* 2. build combining marks table for all chars with combining class != 0 */
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static void uprv_uca_unsafeCPAddCCNZ ( tempUCATable * t , UErrorCode * status ) {
UChar c ;
uint16_t fcd ; // Hi byte is lead combining class.
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// lo byte is trailing combing class.
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const uint16_t * fcdTrieData ;
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UBool buildCMTable = ( t - > cmLookup = = NULL ) ; // flag for building combining class table
UChar * cm = NULL ;
uint16_t index [ 256 ] ;
int32_t count = 0 ;
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fcdTrieData = unorm_getFCDTrie ( status ) ;
if ( U_FAILURE ( * status ) ) {
return ;
}
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if ( buildCMTable ) {
if ( cm = = NULL ) {
cm = ( UChar * ) uprv_malloc ( sizeof ( UChar ) * UCOL_MAX_CM_TAB ) ;
if ( cm = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return ;
}
}
uprv_memset ( index , 0 , sizeof ( index ) ) ;
}
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for ( c = 0 ; c < 0xffff ; c + + ) {
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fcd = unorm_getFCD16 ( fcdTrieData , c ) ;
if ( fcd > = 0x100 | | // if the leading combining class(c) > 0 ||
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( UTF_IS_LEAD ( c ) & & fcd ! = 0 ) ) { // c is a leading surrogate with some FCD data
if ( buildCMTable ) {
uint32_t cClass = fcd & 0xff ;
uint32_t temp = ( cClass < < 8 ) + index [ cClass ] ;
cm [ ( cClass < < 8 ) + index [ cClass ] ] = c ; //
index [ cClass ] + + ;
count + + ;
}
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unsafeCPSet ( t - > unsafeCP , c ) ;
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}
}
// copy to cm table
if ( buildCMTable ) {
uprv_uca_createCMTable ( t , count , status ) ;
if ( U_FAILURE ( * status ) ) {
if ( cm ! = NULL ) {
uprv_free ( cm ) ;
}
return ;
}
uprv_uca_copyCMTable ( t , cm , index ) ;
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}
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if ( t - > prefixLookup ! = NULL ) {
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int32_t i = - 1 ;
const UHashElement * e = NULL ;
UCAElements * element = NULL ;
UChar NFCbuf [ 256 ] ;
uint32_t NFCbufLen = 0 ;
while ( ( e = uhash_nextElement ( t - > prefixLookup , & i ) ) ! = NULL ) {
element = ( UCAElements * ) e - > value . pointer ;
// codepoints here are in the NFD form. We need to add the
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// first code point of the NFC form to unsafe, because
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// strcoll needs to backup over them.
NFCbufLen = unorm_normalize ( element - > cPoints , element - > cSize , UNORM_NFC , 0 ,
NFCbuf , 256 , status ) ;
unsafeCPSet ( t - > unsafeCP , NFCbuf [ 0 ] ) ;
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}
}
if ( cm ! = NULL ) {
uprv_free ( cm ) ;
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}
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}
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static uint32_t uprv_uca_addPrefix ( tempUCATable * t , uint32_t CE ,
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UCAElements * element , UErrorCode * status )
{
// currently the longest prefix we're supporting in Japanese is two characters
// long. Although this table could quite easily mimic complete contraction stuff
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// there is no good reason to make a general solution, as it would require some
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// error prone messing.
2001-09-27 23:18:14 +00:00
CntTable * contractions = t - > contractions ;
UChar32 cp ;
uint32_t cpsize = 0 ;
UChar * oldCP = element - > cPoints ;
uint32_t oldCPSize = element - > cSize ;
2001-10-02 01:26:13 +00:00
2001-09-27 23:18:14 +00:00
contractions - > currentTag = SPEC_PROC_TAG ;
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// here, we will normalize & add prefix to the table.
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uint32_t j = 0 ;
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# ifdef UCOL_DEBUG
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for ( j = 0 ; j < element - > cSize ; j + + ) {
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fprintf ( stdout , " CP: %04X " , element - > cPoints [ j ] ) ;
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}
fprintf ( stdout , " El: %08X Pref: " , CE ) ;
for ( j = 0 ; j < element - > prefixSize ; j + + ) {
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fprintf ( stdout , " %04X " , element - > prefix [ j ] ) ;
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}
fprintf ( stdout , " %08X " , element - > mapCE ) ;
2001-10-16 22:36:02 +00:00
# endif
2001-10-13 16:20:01 +00:00
2001-10-12 19:46:10 +00:00
for ( j = 1 ; j < element - > prefixSize ; j + + ) { /* First add NFD prefix chars to unsafe CP hash table */
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// Unless it is a trail surrogate, which is handled algoritmically and
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// shouldn't take up space in the table.
if ( ! ( UTF_IS_TRAIL ( element - > prefix [ j ] ) ) ) {
unsafeCPSet ( t - > unsafeCP , element - > prefix [ j ] ) ;
}
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}
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2001-10-13 16:20:01 +00:00
UChar tempPrefix = 0 ;
for ( j = 0 ; j < /*nfcSize*/ element - > prefixSize / 2 ; j + + ) { // prefixes are going to be looked up backwards
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// therefore, we will promptly reverse the prefix buffer...
tempPrefix = * ( /*nfcBuffer*/ element - > prefix + element - > prefixSize - j - 1 ) ;
* ( /*nfcBuffer*/ element - > prefix + element - > prefixSize - j - 1 ) = element - > prefix [ j ] ;
element - > prefix [ j ] = tempPrefix ;
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}
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# ifdef UCOL_DEBUG
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fprintf ( stdout , " Reversed: " ) ;
for ( j = 0 ; j < element - > prefixSize ; j + + ) {
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fprintf ( stdout , " %04X " , element - > prefix [ j ] ) ;
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}
fprintf ( stdout , " %08X \n " , element - > mapCE ) ;
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# endif
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// the first codepoint is also unsafe, as it forms a 'contraction' with the prefix
if ( ! ( UTF_IS_TRAIL ( element - > cPoints [ 0 ] ) ) ) {
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unsafeCPSet ( t - > unsafeCP , element - > cPoints [ 0 ] ) ;
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}
// Maybe we need this... To handle prefixes completely in the forward direction...
//if(element->cSize == 1) {
// if(!(UTF_IS_TRAIL(element->cPoints[0]))) {
// ContrEndCPSet(t->contrEndCP, element->cPoints[0]);
// }
//}
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element - > cPoints = element - > prefix ;
element - > cSize = element - > prefixSize ;
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// Add the last char of the contraction to the contraction-end hash table.
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// unless it is a trail surrogate, which is handled algorithmically and
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// shouldn't be in the table
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if ( ! ( UTF_IS_TRAIL ( element - > cPoints [ element - > cSize - 1 ] ) ) ) {
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ContrEndCPSet ( t - > contrEndCP , element - > cPoints [ element - > cSize - 1 ] ) ;
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}
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// First we need to check if contractions starts with a surrogate
UTF_NEXT_CHAR ( element - > cPoints , cpsize , element - > cSize , cp ) ;
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// If there are any Jamos in the contraction, we should turn on special
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// processing for Jamos
if ( UCOL_ISJAMO ( element - > prefix [ 0 ] ) ) {
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t - > image - > jamoSpecial = TRUE ;
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}
/* then we need to deal with it */
/* we could aready have something in table - or we might not */
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if ( ! isPrefix ( CE ) ) {
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/* if it wasn't contraction, we wouldn't end up here*/
int32_t firstContractionOffset = 0 ;
firstContractionOffset = uprv_cnttab_addContraction ( contractions , UPRV_CNTTAB_NEWELEMENT , 0 , CE , status ) ;
uint32_t newCE = uprv_uca_processContraction ( contractions , element , UCOL_NOT_FOUND , status ) ;
2006-10-06 18:08:06 +00:00
uprv_cnttab_addContraction ( contractions , firstContractionOffset , * element - > prefix , newCE , status ) ;
uprv_cnttab_addContraction ( contractions , firstContractionOffset , 0xFFFF , CE , status ) ;
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CE = constructContractCE ( SPEC_PROC_TAG , firstContractionOffset ) ;
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} else { /* we are adding to existing contraction */
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/* there were already some elements in the table, so we need to add a new contraction */
/* Two things can happen here: either the codepoint is already in the table, or it is not */
int32_t position = uprv_cnttab_findCP ( contractions , CE , * element - > prefix , status ) ;
if ( position > 0 ) { /* if it is we just continue down the chain */
uint32_t eCE = uprv_cnttab_getCE ( contractions , CE , position , status ) ;
uint32_t newCE = uprv_uca_processContraction ( contractions , element , eCE , status ) ;
uprv_cnttab_setContraction ( contractions , CE , position , * ( element - > prefix ) , newCE , status ) ;
} else { /* if it isn't, we will have to create a new sequence */
uprv_uca_processContraction ( contractions , element , UCOL_NOT_FOUND , status ) ;
uprv_cnttab_insertContraction ( contractions , CE , * ( element - > prefix ) , element - > mapCE , status ) ;
}
2001-09-27 23:18:14 +00:00
}
element - > cPoints = oldCP ;
element - > cSize = oldCPSize ;
return CE ;
}
2001-03-03 03:35:17 +00:00
2001-08-10 20:30:44 +00:00
// Note regarding surrogate handling: We are interested only in the single
// or leading surrogates in a contraction. If a surrogate is somewhere else
// in the contraction, it is going to be handled as a pair of code units,
// as it doesn't affect the performance AND handling surrogates specially
// would complicate code way too much.
2004-01-15 22:12:26 +00:00
static uint32_t uprv_uca_addContraction ( tempUCATable * t , uint32_t CE ,
2006-09-04 16:53:17 +00:00
UCAElements * element , UErrorCode * status )
{
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CntTable * contractions = t - > contractions ;
UChar32 cp ;
uint32_t cpsize = 0 ;
2001-09-27 23:18:14 +00:00
contractions - > currentTag = CONTRACTION_TAG ;
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// First we need to check if contractions starts with a surrogate
UTF_NEXT_CHAR ( element - > cPoints , cpsize , element - > cSize , cp ) ;
if ( cpsize < element - > cSize ) { // This is a real contraction, if there are other characters after the first
2006-09-04 16:53:17 +00:00
uint32_t j = 0 ;
for ( j = 1 ; j < element - > cSize ; j + + ) { /* First add contraction chars to unsafe CP hash table */
// Unless it is a trail surrogate, which is handled algoritmically and
// shouldn't take up space in the table.
if ( ! ( UTF_IS_TRAIL ( element - > cPoints [ j ] ) ) ) {
unsafeCPSet ( t - > unsafeCP , element - > cPoints [ j ] ) ;
}
}
// Add the last char of the contraction to the contraction-end hash table.
// unless it is a trail surrogate, which is handled algorithmically and
// shouldn't be in the table
if ( ! ( UTF_IS_TRAIL ( element - > cPoints [ element - > cSize - 1 ] ) ) ) {
ContrEndCPSet ( t - > contrEndCP , element - > cPoints [ element - > cSize - 1 ] ) ;
2001-09-18 18:37:57 +00:00
}
2006-09-04 16:53:17 +00:00
// If there are any Jamos in the contraction, we should turn on special
// processing for Jamos
if ( UCOL_ISJAMO ( element - > cPoints [ 0 ] ) ) {
t - > image - > jamoSpecial = TRUE ;
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}
2006-09-04 16:53:17 +00:00
/* then we need to deal with it */
/* we could aready have something in table - or we might not */
element - > cPoints + = cpsize ;
element - > cSize - = cpsize ;
if ( ! isContraction ( CE ) ) {
/* if it wasn't contraction, we wouldn't end up here*/
int32_t firstContractionOffset = 0 ;
firstContractionOffset = uprv_cnttab_addContraction ( contractions , UPRV_CNTTAB_NEWELEMENT , 0 , CE , status ) ;
uint32_t newCE = uprv_uca_processContraction ( contractions , element , UCOL_NOT_FOUND , status ) ;
2006-10-06 18:08:06 +00:00
uprv_cnttab_addContraction ( contractions , firstContractionOffset , * element - > cPoints , newCE , status ) ;
uprv_cnttab_addContraction ( contractions , firstContractionOffset , 0xFFFF , CE , status ) ;
2006-09-04 16:53:17 +00:00
CE = constructContractCE ( CONTRACTION_TAG , firstContractionOffset ) ;
} else { /* we are adding to existing contraction */
/* there were already some elements in the table, so we need to add a new contraction */
/* Two things can happen here: either the codepoint is already in the table, or it is not */
int32_t position = uprv_cnttab_findCP ( contractions , CE , * element - > cPoints , status ) ;
if ( position > 0 ) { /* if it is we just continue down the chain */
uint32_t eCE = uprv_cnttab_getCE ( contractions , CE , position , status ) ;
uint32_t newCE = uprv_uca_processContraction ( contractions , element , eCE , status ) ;
uprv_cnttab_setContraction ( contractions , CE , position , * ( element - > cPoints ) , newCE , status ) ;
} else { /* if it isn't, we will have to create a new sequence */
uint32_t newCE = uprv_uca_processContraction ( contractions , element , UCOL_NOT_FOUND , status ) ;
uprv_cnttab_insertContraction ( contractions , CE , * ( element - > cPoints ) , newCE , status ) ;
}
}
element - > cPoints - = cpsize ;
element - > cSize + = cpsize ;
/*ucmpe32_set(t->mapping, cp, CE);*/
utrie_set32 ( t - > mapping , cp , CE ) ;
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} else if ( ! isContraction ( CE ) ) { /* this is just a surrogate, and there is no contraction */
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/*ucmpe32_set(t->mapping, cp, element->mapCE);*/
utrie_set32 ( t - > mapping , cp , element - > mapCE ) ;
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} else { /* fill out the first stage of the contraction with the surrogate CE */
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uprv_cnttab_changeContraction ( contractions , CE , 0 , element - > mapCE , status ) ;
uprv_cnttab_changeContraction ( contractions , CE , 0xFFFF , element - > mapCE , status ) ;
2001-08-10 20:30:44 +00:00
}
return CE ;
}
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2001-08-10 20:30:44 +00:00
2001-10-02 01:26:13 +00:00
static uint32_t uprv_uca_processContraction ( CntTable * contractions , UCAElements * element , uint32_t existingCE , UErrorCode * status ) {
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int32_t firstContractionOffset = 0 ;
2006-09-04 16:53:17 +00:00
// uint32_t contractionElement = UCOL_NOT_FOUND;
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if ( U_FAILURE ( * status ) ) {
return UCOL_NOT_FOUND ;
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}
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/* end of recursion */
if ( element - > cSize = = 1 ) {
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if ( isCntTableElement ( existingCE ) & & ( ( UColCETags ) getCETag ( existingCE ) = = contractions - > currentTag ) ) {
uprv_cnttab_changeContraction ( contractions , existingCE , 0 , element - > mapCE , status ) ;
uprv_cnttab_changeContraction ( contractions , existingCE , 0xFFFF , element - > mapCE , status ) ;
return existingCE ;
} else {
return element - > mapCE ; /*can't do just that. existingCe might be a contraction, meaning that we need to do another step */
}
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}
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2001-08-10 20:30:44 +00:00
/* this recursion currently feeds on the only element we have... We will have to copy it in order to accomodate */
/* for both backward and forward cycles */
/* we encountered either an empty space or a non-contraction element */
/* this means we are constructing a new contraction sequence */
element - > cPoints + + ;
element - > cSize - - ;
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if ( ! isCntTableElement ( existingCE ) ) {
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/* if it wasn't contraction, we wouldn't end up here*/
firstContractionOffset = uprv_cnttab_addContraction ( contractions , UPRV_CNTTAB_NEWELEMENT , 0 , existingCE , status ) ;
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uint32_t newCE = uprv_uca_processContraction ( contractions , element , UCOL_NOT_FOUND , status ) ;
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uprv_cnttab_addContraction ( contractions , firstContractionOffset , * element - > cPoints , newCE , status ) ;
uprv_cnttab_addContraction ( contractions , firstContractionOffset , 0xFFFF , existingCE , status ) ;
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existingCE = constructContractCE ( contractions - > currentTag , firstContractionOffset ) ;
} else { /* we are adding to existing contraction */
/* there were already some elements in the table, so we need to add a new contraction */
/* Two things can happen here: either the codepoint is already in the table, or it is not */
int32_t position = uprv_cnttab_findCP ( contractions , existingCE , * element - > cPoints , status ) ;
if ( position > 0 ) { /* if it is we just continue down the chain */
uint32_t eCE = uprv_cnttab_getCE ( contractions , existingCE , position , status ) ;
uint32_t newCE = uprv_uca_processContraction ( contractions , element , eCE , status ) ;
uprv_cnttab_setContraction ( contractions , existingCE , position , * ( element - > cPoints ) , newCE , status ) ;
} else { /* if it isn't, we will have to create a new sequence */
uint32_t newCE = uprv_uca_processContraction ( contractions , element , UCOL_NOT_FOUND , status ) ;
uprv_cnttab_insertContraction ( contractions , existingCE , * ( element - > cPoints ) , newCE , status ) ;
}
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}
element - > cPoints - - ;
element - > cSize + + ;
return existingCE ;
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}
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2001-10-12 23:15:25 +00:00
static uint32_t uprv_uca_finalizeAddition ( tempUCATable * t , UCAElements * element , UErrorCode * status ) {
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uint32_t CE = UCOL_NOT_FOUND ;
// This should add a completely ignorable element to the
// unsafe table, so that backward iteration will skip
// over it when treating contractions.
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uint32_t i = 0 ;
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if ( element - > mapCE = = 0 ) {
for ( i = 0 ; i < element - > cSize ; i + + ) {
if ( ! UTF_IS_TRAIL ( element - > cPoints [ i ] ) ) {
unsafeCPSet ( t - > unsafeCP , element - > cPoints [ i ] ) ;
}
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}
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}
if ( element - > cSize > 1 ) { /* we're adding a contraction */
uint32_t i = 0 ;
UChar32 cp ;
UTF_NEXT_CHAR ( element - > cPoints , i , element - > cSize , cp ) ;
/*CE = ucmpe32_get(t->mapping, cp);*/
CE = utrie_get32 ( t - > mapping , cp , NULL ) ;
CE = uprv_uca_addContraction ( t , CE , element , status ) ;
} else { /* easy case, */
/*CE = ucmpe32_get(t->mapping, element->cPoints[0]);*/
CE = utrie_get32 ( t - > mapping , element - > cPoints [ 0 ] , NULL ) ;
if ( CE ! = UCOL_NOT_FOUND ) {
if ( isCntTableElement ( CE ) /*isContraction(CE)*/ ) { /* adding a non contraction element (thai, expansion, single) to already existing contraction */
if ( ! isPrefix ( element - > mapCE ) ) { // we cannot reenter prefix elements - as we are going to create a dead loop
// Only expansions and regular CEs can go here... Contractions will never happen in this place
uprv_cnttab_setContraction ( t - > contractions , CE , 0 , 0 , element - > mapCE , status ) ;
/* This loop has to change the CE at the end of contraction REDO!*/
uprv_cnttab_changeLastCE ( t - > contractions , CE , element - > mapCE , status ) ;
}
} else {
/*ucmpe32_set(t->mapping, element->cPoints[0], element->mapCE);*/
utrie_set32 ( t - > mapping , element - > cPoints [ 0 ] , element - > mapCE ) ;
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# ifdef UCOL_DEBUG
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fprintf ( stderr , " Warning - trying to overwrite existing data %08X for cp %04X with %08X \n " , CE , element - > cPoints [ 0 ] , element - > CEs [ 0 ] ) ;
//*status = U_ILLEGAL_ARGUMENT_ERROR;
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# endif
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}
} else {
/*ucmpe32_set(t->mapping, element->cPoints[0], element->mapCE);*/
utrie_set32 ( t - > mapping , element - > cPoints [ 0 ] , element - > mapCE ) ;
}
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}
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return CE ;
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}
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/* This adds a read element, while testing for existence */
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U_CAPI uint32_t U_EXPORT2
uprv_uca_addAnElement ( tempUCATable * t , UCAElements * element , UErrorCode * status ) {
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U_NAMESPACE_USE
ExpansionTable * expansions = t - > expansions ;
uint32_t i = 1 ;
uint32_t expansion = 0 ;
uint32_t CE ;
if ( U_FAILURE ( * status ) ) {
return 0xFFFF ;
}
element - > mapCE = 0 ; // clear mapCE so that we can catch expansions
if ( element - > noOfCEs = = 1 ) {
element - > mapCE = element - > CEs [ 0 ] ;
} else {
/* ICU 2.1 long primaries */
/* unfortunately, it looks like we have to look for a long primary here */
/* since in canonical closure we are going to hit some long primaries from */
/* the first phase, and they will come back as continuations/expansions */
/* destroying the effect of the previous opitimization */
/* A long primary is a three byte primary with starting secondaries and tertiaries */
/* It can appear in long runs of only primary differences (like east Asian tailorings) */
/* also, it should not be an expansion, as expansions would break with this */
// This part came in from ucol_bld.cpp
//if(tok->expansion == 0
//&& noOfBytes[0] == 3 && noOfBytes[1] == 1 && noOfBytes[2] == 1
//&& CEparts[1] == (UCOL_BYTE_COMMON << 24) && CEparts[2] == (UCOL_BYTE_COMMON << 24)) {
/* we will construct a special CE that will go unchanged to the table */
if ( element - > noOfCEs = = 2 // a two CE expansion
& & isContinuation ( element - > CEs [ 1 ] ) // which is a continuation
& & ( element - > CEs [ 1 ] & ( ~ ( 0xFF < < 24 | UCOL_CONTINUATION_MARKER ) ) ) = = 0 // that has only primaries in continuation,
& & ( ( ( element - > CEs [ 0 ] > > 8 ) & 0xFF ) = = UCOL_BYTE_COMMON ) // a common secondary
& & ( ( element - > CEs [ 0 ] & 0xFF ) = = UCOL_BYTE_COMMON ) // and a common tertiary
) {
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# ifdef UCOL_DEBUG
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fprintf ( stdout , " Long primary %04X \n " , element - > cPoints [ 0 ] ) ;
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# endif
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element - > mapCE = UCOL_SPECIAL_FLAG | ( LONG_PRIMARY_TAG < < 24 ) // a long primary special
| ( ( element - > CEs [ 0 ] > > 8 ) & 0xFFFF00 ) // first and second byte of primary
| ( ( element - > CEs [ 1 ] > > 24 ) & 0xFF ) ; // third byte of primary
} else {
expansion = ( uint32_t ) ( UCOL_SPECIAL_FLAG | ( EXPANSION_TAG < < UCOL_TAG_SHIFT )
| ( ( uprv_uca_addExpansion ( expansions , element - > CEs [ 0 ] , status ) + ( headersize > > 2 ) ) < < 4 )
& 0xFFFFF0 ) ;
for ( i = 1 ; i < element - > noOfCEs ; i + + ) {
uprv_uca_addExpansion ( expansions , element - > CEs [ i ] , status ) ;
}
if ( element - > noOfCEs < = 0xF ) {
expansion | = element - > noOfCEs ;
} else {
uprv_uca_addExpansion ( expansions , 0 , status ) ;
}
element - > mapCE = expansion ;
uprv_uca_setMaxExpansion ( element - > CEs [ element - > noOfCEs - 1 ] ,
( uint8_t ) element - > noOfCEs ,
t - > maxExpansions ,
status ) ;
if ( UCOL_ISJAMO ( element - > cPoints [ 0 ] ) ) {
t - > image - > jamoSpecial = TRUE ;
uprv_uca_setMaxJamoExpansion ( element - > cPoints [ 0 ] ,
element - > CEs [ element - > noOfCEs - 1 ] ,
( uint8_t ) element - > noOfCEs ,
t - > maxJamoExpansions ,
status ) ;
if ( U_FAILURE ( * status ) ) {
return 0 ;
}
}
}
}
// We treat digits differently - they are "uber special" and should be
// processed differently if numeric collation is on.
UChar32 uniChar = 0 ;
//printElement(element);
if ( ( element - > cSize = = 2 ) & & U16_IS_LEAD ( element - > cPoints [ 0 ] ) ) {
uniChar = U16_GET_SUPPLEMENTARY ( element - > cPoints [ 0 ] , element - > cPoints [ 1 ] ) ;
} else if ( element - > cSize = = 1 ) {
uniChar = element - > cPoints [ 0 ] ;
}
// Here, we either have one normal CE OR mapCE is set. Therefore, we stuff only
// one element to the expansion buffer. When we encounter a digit and we don't
// do numeric collation, we will just pick the CE we have and break out of case
// (see ucol.cpp ucol_prv_getSpecialCE && ucol_prv_getSpecialPrevCE). If we picked
// a special, further processing will occur. If it's a simple CE, we'll return due
// to how the loop is constructed.
if ( uniChar ! = 0 & & u_isdigit ( uniChar ) ) {
expansion = ( uint32_t ) ( UCOL_SPECIAL_FLAG | ( DIGIT_TAG < < UCOL_TAG_SHIFT ) | 1 ) ; // prepare the element
if ( element - > mapCE ) { // if there is an expansion, we'll pick it here
expansion | = ( ( uprv_uca_addExpansion ( expansions , element - > mapCE , status ) + ( headersize > > 2 ) ) < < 4 ) ;
} else {
expansion | = ( ( uprv_uca_addExpansion ( expansions , element - > CEs [ 0 ] , status ) + ( headersize > > 2 ) ) < < 4 ) ;
}
element - > mapCE = expansion ;
// Need to go back to the beginning of the digit string if in the middle!
if ( uniChar < = 0xFFFF ) { // supplementaries are always unsafe. API takes UChars
unsafeCPSet ( t - > unsafeCP , ( UChar ) uniChar ) ;
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}
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}
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2006-09-04 16:53:17 +00:00
// here we want to add the prefix structure.
// I will try to process it as a reverse contraction, if possible.
// prefix buffer is already reversed.
2001-10-12 21:03:36 +00:00
2006-09-04 16:53:17 +00:00
if ( element - > prefixSize ! = 0 ) {
// We keep the seen prefix starter elements in a hashtable
// we need it to be able to distinguish between the simple
// codepoints and prefix starters. Also, we need to use it
// for canonical closure.
2001-10-12 21:03:36 +00:00
2006-09-04 16:53:17 +00:00
UCAElements * composed = ( UCAElements * ) uprv_malloc ( sizeof ( UCAElements ) ) ;
2002-07-02 15:10:30 +00:00
/* test for NULL */
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if ( composed = = NULL ) {
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* status = U_MEMORY_ALLOCATION_ERROR ;
return 0 ;
}
2006-09-04 16:53:17 +00:00
uprv_memcpy ( composed , element , sizeof ( UCAElements ) ) ;
composed - > cPoints = composed - > uchars ;
composed - > prefix = composed - > prefixChars ;
composed - > prefixSize = unorm_normalize ( element - > prefix , element - > prefixSize , UNORM_NFC , 0 , composed - > prefix , 128 , status ) ;
if ( t - > prefixLookup ! = NULL ) {
UCAElements * uCE = ( UCAElements * ) uhash_get ( t - > prefixLookup , element ) ;
if ( uCE ! = NULL ) { // there is already a set of code points here
element - > mapCE = uprv_uca_addPrefix ( t , uCE - > mapCE , element , status ) ;
} else { // no code points, so this spot is clean
element - > mapCE = uprv_uca_addPrefix ( t , UCOL_NOT_FOUND , element , status ) ;
uCE = ( UCAElements * ) uprv_malloc ( sizeof ( UCAElements ) ) ;
/* test for NULL */
if ( uCE = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return 0 ;
}
uprv_memcpy ( uCE , element , sizeof ( UCAElements ) ) ;
uCE - > cPoints = uCE - > uchars ;
uhash_put ( t - > prefixLookup , uCE , uCE , status ) ;
}
if ( composed - > prefixSize ! = element - > prefixSize | | uprv_memcmp ( composed - > prefix , element - > prefix , element - > prefixSize ) ) {
// do it!
composed - > mapCE = uprv_uca_addPrefix ( t , element - > mapCE , composed , status ) ;
}
}
uprv_free ( composed ) ;
}
// We need to use the canonical iterator here
// the way we do it is to generate the canonically equivalent strings
// for the contraction and then add the sequences that pass FCD check
if ( element - > cSize > 1 & & ! ( element - > cSize = = 2 & & UTF16_IS_LEAD ( element - > cPoints [ 0 ] ) & & UTF16_IS_TRAIL ( element - > cPoints [ 1 ] ) ) ) { // this is a contraction, we should check whether a composed form should also be included
UnicodeString source ( element - > cPoints , element - > cSize ) ;
CanonicalIterator it ( source , * status ) ;
source = it . next ( ) ;
while ( ! source . isBogus ( ) ) {
if ( Normalizer : : quickCheck ( source , UNORM_FCD , * status ) ! = UNORM_NO ) {
element - > cSize = source . extract ( element - > cPoints , 128 , * status ) ;
uprv_uca_finalizeAddition ( t , element , status ) ;
}
source = it . next ( ) ;
}
CE = element - > mapCE ;
} else {
CE = uprv_uca_finalizeAddition ( t , element , status ) ;
}
return CE ;
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}
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/*void uprv_uca_getMaxExpansionJamo(CompactEIntArray *mapping, */
2004-01-15 22:12:26 +00:00
static void uprv_uca_getMaxExpansionJamo ( UNewTrie * mapping ,
2006-09-04 16:53:17 +00:00
MaxExpansionTable * maxexpansion ,
MaxJamoExpansionTable * maxjamoexpansion ,
UBool jamospecial ,
UErrorCode * status )
2001-03-03 04:06:43 +00:00
{
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const uint32_t VBASE = 0x1161 ;
const uint32_t TBASE = 0x11A8 ;
const uint32_t VCOUNT = 21 ;
const uint32_t TCOUNT = 28 ;
uint32_t v = VBASE + VCOUNT - 1 ;
uint32_t t = TBASE + TCOUNT - 1 ;
uint32_t ce ;
while ( v > = VBASE ) {
/*ce = ucmpe32_get(mapping, v);*/
ce = utrie_get32 ( mapping , v , NULL ) ;
if ( ce < UCOL_SPECIAL_FLAG ) {
uprv_uca_setMaxExpansion ( ce , 2 , maxexpansion , status ) ;
}
v - - ;
}
while ( t > = TBASE )
{
/*ce = ucmpe32_get(mapping, t);*/
ce = utrie_get32 ( mapping , t , NULL ) ;
if ( ce < UCOL_SPECIAL_FLAG ) {
uprv_uca_setMaxExpansion ( ce , 3 , maxexpansion , status ) ;
}
t - - ;
}
/* According to the docs, 99% of the time, the Jamo will not be special */
if ( jamospecial ) {
/* gets the max expansion in all unicode characters */
int count = maxjamoexpansion - > position ;
uint8_t maxTSize = ( uint8_t ) ( maxjamoexpansion - > maxLSize +
maxjamoexpansion - > maxVSize +
maxjamoexpansion - > maxTSize ) ;
uint8_t maxVSize = ( uint8_t ) ( maxjamoexpansion - > maxLSize +
maxjamoexpansion - > maxVSize ) ;
while ( count > 0 ) {
count - - ;
if ( * ( maxjamoexpansion - > isV + count ) = = TRUE ) {
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uprv_uca_setMaxExpansion (
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* ( maxjamoexpansion - > endExpansionCE + count ) ,
maxVSize , maxexpansion , status ) ;
}
else {
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uprv_uca_setMaxExpansion (
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* ( maxjamoexpansion - > endExpansionCE + count ) ,
maxTSize , maxexpansion , status ) ;
}
}
}
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}
2001-03-03 03:35:17 +00:00
2002-02-19 23:17:20 +00:00
U_CDECL_BEGIN
static inline uint32_t U_CALLCONV
getFoldedValue ( UNewTrie * trie , UChar32 start , int32_t offset )
{
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uint32_t value ;
uint32_t tag ;
UChar32 limit ;
UBool inBlockZero ;
limit = start + 0x400 ;
while ( start < limit ) {
value = utrie_get32 ( trie , start , & inBlockZero ) ;
tag = getCETag ( value ) ;
if ( inBlockZero = = TRUE ) {
start + = UTRIE_DATA_BLOCK_LENGTH ;
} else if ( ! ( isSpecial ( value ) & & ( tag = = IMPLICIT_TAG | | tag = = NOT_FOUND_TAG ) ) ) {
/* These are values that are starting in either UCA (IMPLICIT_TAG) or in the
* tailorings ( NOT_FOUND_TAG ) . Presence of these tags means that there is
* nothing in this position and that it should be skipped .
*/
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# ifdef UCOL_DEBUG
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static int32_t count = 1 ;
fprintf ( stdout , " %i, Folded %08X, value %08X \n " , count + + , start , value ) ;
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# endif
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return ( uint32_t ) ( UCOL_SPECIAL_FLAG | ( SURROGATE_TAG < < 24 ) | offset ) ;
} else {
+ + start ;
}
}
return 0 ;
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}
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U_CDECL_END
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# ifdef UCOL_DEBUG
// This is a debug function to print the contents of a trie.
// It is used in conjuction with the code around utrie_unserialize call
void enumRange ( const void * context , UChar32 start , UChar32 limit , uint32_t value ) {
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if ( start < 0x10000 ) {
fprintf ( stdout , " %08X, %08X, %08X \n " , start , limit , value ) ;
} else {
fprintf ( stdout , " %08X=%04X %04X, %08X=%04X %04X, %08X \n " , start , UTF16_LEAD ( start ) , UTF16_TRAIL ( start ) , limit , UTF16_LEAD ( limit ) , UTF16_TRAIL ( limit ) , value ) ;
}
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}
int32_t
myGetFoldingOffset ( uint32_t data ) {
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if ( data > UCOL_NOT_FOUND & & getCETag ( data ) = = SURROGATE_TAG ) {
return ( data & 0xFFFFFF ) ;
} else {
return 0 ;
}
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}
# endif
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U_CAPI UCATableHeader * U_EXPORT2
uprv_uca_assembleTable ( tempUCATable * t , UErrorCode * status ) {
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/*CompactEIntArray *mapping = t->mapping;*/
UNewTrie * mapping = t - > mapping ;
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ExpansionTable * expansions = t - > expansions ;
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CntTable * contractions = t - > contractions ;
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MaxExpansionTable * maxexpansion = t - > maxExpansions ;
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if ( U_FAILURE ( * status ) ) {
return NULL ;
}
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uint32_t beforeContractions = ( uint32_t ) ( ( headersize + paddedsize ( expansions - > position * sizeof ( uint32_t ) ) ) / sizeof ( UChar ) ) ;
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int32_t contractionsSize = 0 ;
2001-03-08 21:01:34 +00:00
contractionsSize = uprv_cnttab_constructTable ( contractions , beforeContractions , status ) ;
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2001-12-19 07:00:45 +00:00
/* the following operation depends on the trie data. Therefore, we have to do it before */
/* the trie is compacted */
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/* sets jamo expansions */
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uprv_uca_getMaxExpansionJamo ( mapping , maxexpansion , t - > maxJamoExpansions ,
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t - > image - > jamoSpecial , status ) ;
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2001-12-19 07:00:45 +00:00
/*ucmpe32_compact(mapping);*/
/*UMemoryStream *ms = uprv_mstrm_openNew(8192);*/
/*int32_t mappingSize = ucmpe32_flattenMem(mapping, ms);*/
/*const uint8_t *flattened = uprv_mstrm_getBuffer(ms, &mappingSize);*/
// After setting the jamo expansions, compact the trie and get the needed size
int32_t mappingSize = utrie_serialize ( mapping , NULL , 0 , getFoldedValue /*getFoldedValue*/ , FALSE , status ) ;
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uint32_t tableOffset = 0 ;
uint8_t * dataStart ;
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/* TODO: LATIN1 array is now in the utrie - it should be removed from the calculation */
2001-08-28 18:53:23 +00:00
uint32_t toAllocate = ( uint32_t ) ( headersize +
2006-09-04 16:53:17 +00:00
paddedsize ( expansions - > position * sizeof ( uint32_t ) ) +
paddedsize ( mappingSize ) +
paddedsize ( contractionsSize * ( sizeof ( UChar ) + sizeof ( uint32_t ) ) ) +
//paddedsize(0x100*sizeof(uint32_t)) /* Latin1 is now included in the trie */
/* maxexpansion array */
+ paddedsize ( maxexpansion - > position * sizeof ( uint32_t ) ) +
/* maxexpansion size array */
paddedsize ( maxexpansion - > position * sizeof ( uint8_t ) ) +
paddedsize ( UCOL_UNSAFECP_TABLE_SIZE ) + /* Unsafe chars */
paddedsize ( UCOL_UNSAFECP_TABLE_SIZE ) ) ; /* Contraction Ending chars */
2001-05-10 22:12:53 +00:00
2001-02-26 10:28:56 +00:00
2002-02-28 01:42:40 +00:00
dataStart = ( uint8_t * ) uprv_malloc ( toAllocate ) ;
2002-07-02 15:10:30 +00:00
/* test for NULL */
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if ( dataStart = = NULL ) {
* status = U_MEMORY_ALLOCATION_ERROR ;
return NULL ;
}
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UCATableHeader * myData = ( UCATableHeader * ) dataStart ;
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// Please, do reset all the fields!
uprv_memset ( dataStart , 0 , toAllocate ) ;
// Make sure we know this is reset
myData - > magic = UCOL_HEADER_MAGIC ;
myData - > isBigEndian = U_IS_BIG_ENDIAN ;
myData - > charSetFamily = U_CHARSET_FAMILY ;
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myData - > formatVersion [ 0 ] = UCA_FORMAT_VERSION_0 ;
myData - > formatVersion [ 1 ] = UCA_FORMAT_VERSION_1 ;
myData - > formatVersion [ 2 ] = UCA_FORMAT_VERSION_2 ;
myData - > formatVersion [ 3 ] = UCA_FORMAT_VERSION_3 ;
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myData - > jamoSpecial = t - > image - > jamoSpecial ;
// Don't copy stuff from UCA header!
//uprv_memcpy(myData, t->image, sizeof(UCATableHeader));
2001-03-08 21:01:34 +00:00
myData - > contractionSize = contractionsSize ;
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2001-08-28 18:53:23 +00:00
tableOffset + = ( uint32_t ) ( paddedsize ( sizeof ( UCATableHeader ) ) ) ;
2001-02-26 10:28:56 +00:00
2001-03-30 00:23:46 +00:00
myData - > options = tableOffset ;
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uprv_memcpy ( dataStart + tableOffset , t - > options , sizeof ( UColOptionSet ) ) ;
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tableOffset + = ( uint32_t ) ( paddedsize ( sizeof ( UColOptionSet ) ) ) ;
2001-03-30 00:23:46 +00:00
2001-02-26 10:28:56 +00:00
/* copy expansions */
/*myData->expansion = (uint32_t *)dataStart+tableOffset;*/
myData - > expansion = tableOffset ;
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uprv_memcpy ( dataStart + tableOffset , expansions - > CEs , expansions - > position * sizeof ( uint32_t ) ) ;
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tableOffset + = ( uint32_t ) ( paddedsize ( expansions - > position * sizeof ( uint32_t ) ) ) ;
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/* contractions block */
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if ( contractionsSize ! = 0 ) {
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/* copy contraction index */
/*myData->contractionIndex = (UChar *)(dataStart+tableOffset);*/
myData - > contractionIndex = tableOffset ;
uprv_memcpy ( dataStart + tableOffset , contractions - > codePoints , contractionsSize * sizeof ( UChar ) ) ;
tableOffset + = ( uint32_t ) ( paddedsize ( contractionsSize * sizeof ( UChar ) ) ) ;
/* copy contraction collation elements */
/*myData->contractionCEs = (uint32_t *)(dataStart+tableOffset);*/
myData - > contractionCEs = tableOffset ;
uprv_memcpy ( dataStart + tableOffset , contractions - > CEs , contractionsSize * sizeof ( uint32_t ) ) ;
tableOffset + = ( uint32_t ) ( paddedsize ( contractionsSize * sizeof ( uint32_t ) ) ) ;
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} else {
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myData - > contractionIndex = 0 ;
myData - > contractionCEs = 0 ;
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}
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/* copy mapping table */
/*myData->mappingPosition = dataStart+tableOffset;*/
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/*myData->mappingPosition = tableOffset;*/
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/*uprv_memcpy(dataStart+tableOffset, flattened, mappingSize);*/
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myData - > mappingPosition = tableOffset ;
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utrie_serialize ( mapping , dataStart + tableOffset , toAllocate - tableOffset , getFoldedValue , FALSE , status ) ;
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# ifdef UCOL_DEBUG
// This is debug code to dump the contents of the trie. It needs two functions defined above
{
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UTrie UCAt = { 0 } ;
uint32_t trieWord ;
utrie_unserialize ( & UCAt , dataStart + tableOffset , 9999999 , status ) ;
UCAt . getFoldingOffset = myGetFoldingOffset ;
if ( U_SUCCESS ( * status ) ) {
utrie_enum ( & UCAt , NULL , enumRange , NULL ) ;
}
trieWord = UTRIE_GET32_FROM_LEAD ( UCAt , 0xDC01 )
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}
# endif
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tableOffset + = paddedsize ( mappingSize ) ;
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2001-12-28 20:58:58 +00:00
int32_t i = 0 ;
2001-02-26 10:28:56 +00:00
2001-03-02 01:14:03 +00:00
/* copy max expansion table */
myData - > endExpansionCE = tableOffset ;
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myData - > endExpansionCECount = maxexpansion - > position - 1 ;
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/* not copying the first element which is a dummy */
uprv_memcpy ( dataStart + tableOffset , maxexpansion - > endExpansionCE + 1 ,
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( maxexpansion - > position - 1 ) * sizeof ( uint32_t ) ) ;
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tableOffset + = ( uint32_t ) ( paddedsize ( ( maxexpansion - > position ) * sizeof ( uint32_t ) ) ) ;
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myData - > expansionCESize = tableOffset ;
uprv_memcpy ( dataStart + tableOffset , maxexpansion - > expansionCESize + 1 ,
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( maxexpansion - > position - 1 ) * sizeof ( uint8_t ) ) ;
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tableOffset + = ( uint32_t ) ( paddedsize ( ( maxexpansion - > position ) * sizeof ( uint8_t ) ) ) ;
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2001-03-03 03:35:17 +00:00
/* Unsafe chars table. Finish it off, then copy it. */
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uprv_uca_unsafeCPAddCCNZ ( t , status ) ;
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if ( t - > UCA ! = 0 ) { /* Or in unsafebits from UCA, making a combined table. */
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for ( i = 0 ; i < UCOL_UNSAFECP_TABLE_SIZE ; i + + ) {
t - > unsafeCP [ i ] | = t - > UCA - > unsafeCP [ i ] ;
}
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}
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myData - > unsafeCP = tableOffset ;
uprv_memcpy ( dataStart + tableOffset , t - > unsafeCP , UCOL_UNSAFECP_TABLE_SIZE ) ;
tableOffset + = paddedsize ( UCOL_UNSAFECP_TABLE_SIZE ) ;
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/* Finish building Contraction Ending chars hash table and then copy it out. */
if ( t - > UCA ! = 0 ) { /* Or in unsafebits from UCA, making a combined table. */
for ( i = 0 ; i < UCOL_UNSAFECP_TABLE_SIZE ; i + + ) {
t - > contrEndCP [ i ] | = t - > UCA - > contrEndCP [ i ] ;
}
}
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myData - > contrEndCP = tableOffset ;
uprv_memcpy ( dataStart + tableOffset , t - > contrEndCP , UCOL_UNSAFECP_TABLE_SIZE ) ;
tableOffset + = paddedsize ( UCOL_UNSAFECP_TABLE_SIZE ) ;
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if ( tableOffset ! = toAllocate ) {
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# ifdef UCOL_DEBUG
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fprintf ( stderr , " calculation screwup!!! Expected to write %i but wrote %i instead!!! \n " , toAllocate , tableOffset ) ;
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# endif
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* status = U_INTERNAL_PROGRAM_ERROR ;
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uprv_free ( dataStart ) ;
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return 0 ;
}
myData - > size = tableOffset ;
/* This should happen upon ressurection */
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/*const uint8_t *mapPosition = (uint8_t*)myData+myData->mappingPosition;*/
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/*uprv_mstrm_close(ms);*/
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return myData ;
}
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struct enumStruct {
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tempUCATable * t ;
UCollator * tempColl ;
UCollationElements * colEl ;
int32_t noOfClosures ;
UErrorCode * status ;
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} ;
U_CDECL_BEGIN
static UBool U_CALLCONV
_enumCategoryRangeClosureCategory ( const void * context , UChar32 start , UChar32 limit , UCharCategory type ) {
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if ( type ! = U_UNASSIGNED & & type ! = U_PRIVATE_USE_CHAR ) { // if the range is assigned - we might ommit more categories later
UErrorCode * status = ( ( enumStruct * ) context ) - > status ;
tempUCATable * t = ( ( enumStruct * ) context ) - > t ;
UCollator * tempColl = ( ( enumStruct * ) context ) - > tempColl ;
UCollationElements * colEl = ( ( enumStruct * ) context ) - > colEl ;
UCAElements el ;
UChar decomp [ 256 ] = { 0 } ;
int32_t noOfDec = 0 ;
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UChar32 u32 = 0 ;
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UChar comp [ 2 ] ;
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uint32_t len = 0 ;
for ( u32 = start ; u32 < limit ; u32 + + ) {
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noOfDec = unorm_getDecomposition ( u32 , FALSE , decomp , 256 ) ;
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//if((noOfDec = unorm_normalize(comp, len, UNORM_NFD, 0, decomp, 256, status)) > 1
//|| (noOfDec == 1 && *decomp != (UChar)u32))
if ( noOfDec > 0 ) // if we're positive, that means there is no decomposition
{
len = 0 ;
UTF_APPEND_CHAR_UNSAFE ( comp , len , u32 ) ;
if ( ucol_strcoll ( tempColl , comp , len , decomp , noOfDec ) ! = UCOL_EQUAL ) {
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# ifdef UCOL_DEBUG
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fprintf ( stderr , " Closure: %08X -> " , u32 ) ;
uint32_t i = 0 ;
for ( i = 0 ; i < noOfDec ; i + + ) {
fprintf ( stderr , " %04X " , decomp [ i ] ) ;
}
fprintf ( stderr , " \n " ) ;
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# endif
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( ( enumStruct * ) context ) - > noOfClosures + + ;
el . cPoints = decomp ;
el . cSize = noOfDec ;
el . noOfCEs = 0 ;
el . prefix = el . prefixChars ;
el . prefixSize = 0 ;
UCAElements * prefix = ( UCAElements * ) uhash_get ( t - > prefixLookup , & el ) ;
el . cPoints = comp ;
el . cSize = len ;
el . prefix = el . prefixChars ;
el . prefixSize = 0 ;
if ( prefix = = NULL ) {
2006-09-04 16:53:17 +00:00
el . noOfCEs = 0 ;
2007-11-06 02:28:36 +00:00
ucol_setText ( colEl , decomp , noOfDec , status ) ;
while ( ( el . CEs [ el . noOfCEs ] = ucol_next ( colEl , status ) ) ! = ( uint32_t ) UCOL_NULLORDER ) {
el . noOfCEs + + ;
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}
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} else {
el . noOfCEs = 1 ;
el . CEs [ 0 ] = prefix - > mapCE ;
// This character uses a prefix. We have to add it
// to the unsafe table, as it decomposed form is already
// in. In Japanese, this happens for \u309e & \u30fe
// Since unsafeCPSet is static in ucol_elm, we are going
// to wrap it up in the uprv_uca_unsafeCPAddCCNZ function
}
uprv_uca_addAnElement ( t , & el , status ) ;
}
2002-06-13 18:31:34 +00:00
}
}
}
2006-09-04 16:53:17 +00:00
return TRUE ;
2002-06-13 18:31:34 +00:00
}
U_CDECL_END
2007-11-30 04:29:20 +00:00
static void
uprv_uca_setMapCE ( tempUCATable * t , UCAElements * element , UErrorCode * status ) {
uint32_t expansion = 0 ;
int32_t j ;
ExpansionTable * expansions = t - > expansions ;
if ( element - > noOfCEs = = 2 // a two CE expansion
& & isContinuation ( element - > CEs [ 1 ] ) // which is a continuation
& & ( element - > CEs [ 1 ] & ( ~ ( 0xFF < < 24 | UCOL_CONTINUATION_MARKER ) ) ) = = 0 // that has only primaries in continuation,
& & ( ( ( element - > CEs [ 0 ] > > 8 ) & 0xFF ) = = UCOL_BYTE_COMMON ) // a common secondary
& & ( ( element - > CEs [ 0 ] & 0xFF ) = = UCOL_BYTE_COMMON ) // and a common tertiary
) {
element - > mapCE = UCOL_SPECIAL_FLAG | ( LONG_PRIMARY_TAG < < 24 ) // a long primary special
| ( ( element - > CEs [ 0 ] > > 8 ) & 0xFFFF00 ) // first and second byte of primary
| ( ( element - > CEs [ 1 ] > > 24 ) & 0xFF ) ; // third byte of primary
} else {
expansion = ( uint32_t ) ( UCOL_SPECIAL_FLAG | ( EXPANSION_TAG < < UCOL_TAG_SHIFT )
| ( ( uprv_uca_addExpansion ( expansions , element - > CEs [ 0 ] , status ) + ( headersize > > 2 ) ) < < 4 )
& 0xFFFFF0 ) ;
for ( j = 1 ; j < ( int32_t ) element - > noOfCEs ; j + + ) {
uprv_uca_addExpansion ( expansions , element - > CEs [ j ] , status ) ;
}
if ( element - > noOfCEs < = 0xF ) {
expansion | = element - > noOfCEs ;
} else {
uprv_uca_addExpansion ( expansions , 0 , status ) ;
}
element - > mapCE = expansion ;
uprv_uca_setMaxExpansion ( element - > CEs [ element - > noOfCEs - 1 ] ,
( uint8_t ) element - > noOfCEs ,
t - > maxExpansions ,
status ) ;
}
}
static void
uprv_uca_addFCD4AccentedContractions ( tempUCATable * t ,
UCollationElements * colEl ,
UChar * data ,
int32_t len ,
UCAElements * el ,
UErrorCode * status ) {
UChar decomp [ 256 ] , comp [ 256 ] ;
int32_t decLen , compLen ;
decLen = unorm_normalize ( data , len , UNORM_NFD , 0 , decomp , 256 , status ) ;
compLen = unorm_normalize ( data , len , UNORM_NFC , 0 , comp , 256 , status ) ;
decomp [ decLen ] = comp [ compLen ] = 0 ;
el - > cPoints = decomp ;
el - > cSize = decLen ;
el - > noOfCEs = 0 ;
el - > prefixSize = 0 ;
el - > prefix = el - > prefixChars ;
UCAElements * prefix = ( UCAElements * ) uhash_get ( t - > prefixLookup , el ) ;
el - > cPoints = comp ;
el - > cSize = compLen ;
el - > prefix = el - > prefixChars ;
el - > prefixSize = 0 ;
if ( prefix = = NULL ) {
el - > noOfCEs = 0 ;
ucol_setText ( colEl , decomp , decLen , status ) ;
while ( ( el - > CEs [ el - > noOfCEs ] = ucol_next ( colEl , status ) ) ! = ( uint32_t ) UCOL_NULLORDER ) {
el - > noOfCEs + + ;
}
uprv_uca_setMapCE ( t , el , status ) ;
uprv_uca_addAnElement ( t , el , status ) ;
}
}
static void
uprv_uca_addMultiCMContractions ( tempUCATable * t ,
UCollationElements * colEl ,
tempTailorContext * c ,
UCAElements * el ,
UErrorCode * status ) {
CombinClassTable * cmLookup = t - > cmLookup ;
UChar newDecomp [ 256 ] ;
int32_t maxComp , newDecLen ;
const uint16_t * fcdTrieData = unorm_getFCDTrie ( status ) ;
int16_t curClass = ( unorm_getFCD16 ( fcdTrieData , c - > tailoringCM ) & 0xff ) ;
CompData * precomp = c - > precomp ;
int32_t compLen = c - > compLen ;
UChar * comp = c - > comp ;
maxComp = c - > precompLen ;
for ( int32_t j = 0 ; j < maxComp ; j + + ) {
int32_t count = 0 ;
int32_t newClass = 0 ;
do {
if ( count = = 0 ) { // Decompose the saved precomposed char.
UChar temp [ 2 ] ;
temp [ 0 ] = precomp [ j ] . cp ;
temp [ 1 ] = 0 ;
newDecLen = unorm_normalize ( temp , 1 , UNORM_NFD , 0 ,
newDecomp , sizeof ( newDecomp ) / sizeof ( UChar ) , status ) ;
newDecomp [ newDecLen + + ] = cmLookup - > cPoints [ c - > cmPos ] ;
}
else { // swap 2 combining marks when they are equal.
uprv_memcpy ( newDecomp , c - > decomp , sizeof ( UChar ) * ( c - > decompLen ) ) ;
newDecLen = c - > decompLen ;
newDecomp [ newDecLen + + ] = precomp [ j ] . cClass ;
}
newDecomp [ newDecLen ] = 0 ;
compLen = unorm_normalize ( newDecomp , newDecLen , UNORM_NFC , 0 ,
comp , 256 , status ) ;
if ( compLen = = 1 ) {
comp [ compLen + + ] = newDecomp [ newDecLen + + ] = c - > tailoringCM ;
comp [ compLen ] = newDecomp [ newDecLen ] = 0 ;
el - > cPoints = newDecomp ;
el - > cSize = newDecLen ;
UCAElements * prefix = ( UCAElements * ) uhash_get ( t - > prefixLookup , el ) ;
el - > cPoints = c - > comp ;
el - > cSize = compLen ;
el - > prefix = el - > prefixChars ;
el - > prefixSize = 0 ;
if ( prefix = = NULL ) {
el - > noOfCEs = 0 ;
ucol_setText ( colEl , newDecomp , newDecLen , status ) ;
while ( ( el - > CEs [ el - > noOfCEs ] = ucol_next ( colEl , status ) ) ! = ( uint32_t ) UCOL_NULLORDER ) {
el - > noOfCEs + + ;
}
uprv_uca_setMapCE ( t , el , status ) ;
uprv_uca_finalizeAddition ( t , el , status ) ;
// Save the current precomposed char and its class to find any
// other combining mark combinations.
precomp [ c - > precompLen ] . cp = comp [ 0 ] ;
precomp [ c - > precompLen ] . cClass = curClass ;
c - > precompLen + + ;
}
}
} while ( + + count < 2 & & ( precomp [ j ] . cClass = = curClass ) ) ;
}
}
static void
uprv_uca_addTailCanonicalClosures ( tempUCATable * t ,
UCollationElements * colEl ,
UChar baseCh ,
UChar cMark ,
UCAElements * el ,
UErrorCode * status ) {
CombinClassTable * cmLookup = t - > cmLookup ;
const uint16_t * fcdTrieData = unorm_getFCDTrie ( status ) ;
int16_t maxIndex = ( unorm_getFCD16 ( fcdTrieData , cMark ) & 0xff ) ;
UCAElements element ;
uint16_t * index ;
UChar decomp [ 256 ] ;
UChar comp [ 256 ] ;
CompData precomp [ 256 ] ; // precomposed array
int32_t precompLen = 0 ; // count for precomp
int32_t i , len , decompLen , curClass , replacedPos ;
tempTailorContext c ;
if ( cmLookup = = NULL ) {
return ;
}
index = cmLookup - > index ;
int32_t cClass = ( unorm_getFCD16 ( fcdTrieData , cMark ) & 0xff ) ;
maxIndex = ( int32_t ) index [ ( unorm_getFCD16 ( fcdTrieData , cMark ) & 0xff ) - 1 ] ;
c . comp = comp ;
c . decomp = decomp ;
c . precomp = precomp ;
c . tailoringCM = cMark ;
if ( cClass > 0 ) {
maxIndex = ( int32_t ) index [ cClass - 1 ] ;
}
else {
maxIndex = 0 ;
}
decomp [ 0 ] = baseCh ;
for ( i = 0 ; i < maxIndex ; i + + ) {
decomp [ 1 ] = cmLookup - > cPoints [ i ] ;
decomp [ 2 ] = 0 ;
decompLen = 2 ;
len = unorm_normalize ( decomp , decompLen , UNORM_NFC , 0 , comp , 256 , status ) ;
if ( len = = 1 ) {
// Save the current precomposed char and its class to find any
// other combining mark combinations.
precomp [ precompLen ] . cp = comp [ 0 ] ;
curClass = precomp [ precompLen ] . cClass =
index [ unorm_getFCD16 ( fcdTrieData , decomp [ 1 ] ) & 0xff ] ;
precompLen + + ;
replacedPos = 0 ;
for ( decompLen = 0 ; decompLen < ( int32_t ) el - > cSize ; decompLen + + ) {
decomp [ decompLen ] = el - > cPoints [ decompLen ] ;
if ( decomp [ decompLen ] = = cMark ) {
replacedPos = decompLen ; // record the position for later use
}
}
if ( replacedPos ! = 0 ) {
decomp [ replacedPos ] = cmLookup - > cPoints [ i ] ;
}
decomp [ decompLen ] = 0 ;
len = unorm_normalize ( decomp , decompLen , UNORM_NFC , 0 , comp , 256 , status ) ;
comp [ len + + ] = decomp [ decompLen + + ] = cMark ;
comp [ len ] = decomp [ decompLen ] = 0 ;
element . cPoints = decomp ;
element . cSize = decompLen ;
element . noOfCEs = 0 ;
element . prefix = el - > prefixChars ;
element . prefixSize = 0 ;
UCAElements * prefix = ( UCAElements * ) uhash_get ( t - > prefixLookup , & element ) ;
element . cPoints = comp ;
element . cSize = len ;
element . prefix = el - > prefixChars ;
element . prefixSize = 0 ;
if ( prefix = = NULL ) {
element . noOfCEs = 0 ;
ucol_setText ( colEl , decomp , decompLen , status ) ;
while ( ( element . CEs [ element . noOfCEs ] = ucol_next ( colEl , status ) ) ! = ( uint32_t ) UCOL_NULLORDER ) {
element . noOfCEs + + ;
}
uprv_uca_setMapCE ( t , & element , status ) ;
uprv_uca_finalizeAddition ( t , & element , status ) ;
}
// This is a fix for tailoring contractions with accented
// character at the end of contraction string.
if ( ( len > 2 ) & &
( unorm_getFCD16 ( fcdTrieData , comp [ len - 2 ] ) & 0xff00 ) = = 0 ) {
uprv_uca_addFCD4AccentedContractions ( t , colEl , comp , len , & element , status ) ;
}
if ( precompLen > 1 ) {
c . compLen = len ;
c . decompLen = decompLen ;
c . precompLen = precompLen ;
c . cmPos = i ;
uprv_uca_addMultiCMContractions ( t , colEl , & c , & element , status ) ;
precompLen = c . precompLen ;
}
}
}
}
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U_CAPI int32_t U_EXPORT2
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uprv_uca_canonicalClosure ( tempUCATable * t ,
UColTokenParser * src ,
UErrorCode * status )
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{
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enumStruct context ;
context . noOfClosures = 0 ;
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UCAElements el ;
UColToken * tok ;
UColToken * expt = NULL ;
uint32_t i = 0 , j = 0 ;
UChar baseChar , firstCM ;
const uint16_t * fcdTrieData = unorm_getFCDTrie ( status ) ;
if ( ! U_SUCCESS ( * status ) ) {
return 0 ;
}
2002-06-13 18:31:34 +00:00
2007-11-30 04:29:20 +00:00
UCollator * tempColl = NULL ;
tempUCATable * tempTable = uprv_uca_cloneTempTable ( t , status ) ;
2002-06-13 18:31:34 +00:00
2007-11-30 04:29:20 +00:00
UCATableHeader * tempData = uprv_uca_assembleTable ( tempTable , status ) ;
tempColl = ucol_initCollator ( tempData , 0 , t - > UCA , status ) ;
if ( tempTable - > cmLookup ! = NULL ) {
t - > cmLookup = tempTable - > cmLookup ; // copy over to t
tempTable - > cmLookup = NULL ;
}
uprv_uca_closeTempTable ( tempTable ) ;
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2007-11-30 04:29:20 +00:00
if ( U_SUCCESS ( * status ) ) {
tempColl - > rb = NULL ;
tempColl - > elements = NULL ;
tempColl - > validLocale = NULL ;
tempColl - > requestedLocale = NULL ;
tempColl - > hasRealData = TRUE ;
tempColl - > freeImageOnClose = TRUE ;
} else if ( tempData ! = 0 ) {
uprv_free ( tempData ) ;
}
/* produce canonical closure */
UCollationElements * colEl = ucol_openElements ( tempColl , NULL , 0 , status ) ;
context . t = t ;
context . tempColl = tempColl ;
context . colEl = colEl ;
context . status = status ;
u_enumCharTypes ( _enumCategoryRangeClosureCategory , & context ) ;
if ( ( src = = NULL ) | | ! src - > buildCCTabFlag ) {
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ucol_closeElements ( colEl ) ;
ucol_close ( tempColl ) ;
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return context . noOfClosures ; // no extra contraction needed to add
}
for ( i = 0 ; i < src - > resultLen ; i + + ) {
baseChar = firstCM = ( UChar ) 0 ;
tok = src - > lh [ i ] . first ;
while ( tok ! = NULL & & U_SUCCESS ( * status ) ) {
el . prefix = el . prefixChars ;
el . cPoints = el . uchars ;
if ( tok - > prefix ! = 0 ) {
el . prefixSize = tok - > prefix > > 24 ;
uprv_memcpy ( el . prefix , src - > source + ( tok - > prefix & 0x00FFFFFF ) , el . prefixSize * sizeof ( UChar ) ) ;
el . cSize = ( tok - > source > > 24 ) - ( tok - > prefix > > 24 ) ;
uprv_memcpy ( el . uchars , ( tok - > source & 0x00FFFFFF ) + ( tok - > prefix > > 24 ) + src - > source , el . cSize * sizeof ( UChar ) ) ;
} else {
el . prefixSize = 0 ;
* el . prefix = 0 ;
el . cSize = ( tok - > source > > 24 ) ;
uprv_memcpy ( el . uchars , ( tok - > source & 0x00FFFFFF ) + src - > source , el . cSize * sizeof ( UChar ) ) ;
}
if ( src - > UCA ! = NULL ) {
for ( j = 0 ; j < el . cSize ; j + + ) {
int16_t fcd = unorm_getFCD16 ( fcdTrieData , el . cPoints [ j ] ) ;
if ( ( fcd & 0xff ) = = 0 ) {
baseChar = el . cPoints [ j ] ; // last base character
firstCM = 0 ; // reset combining mark value
}
else {
if ( ( baseChar ! = 0 ) & & ( firstCM = = 0 ) ) {
firstCM = el . cPoints [ j ] ; // first combining mark
}
}
}
}
if ( ( baseChar ! = ( UChar ) 0 ) & & ( firstCM ! = ( UChar ) 0 ) ) {
// find all the canonical rules
uprv_uca_addTailCanonicalClosures ( t , colEl , baseChar , firstCM , & el , status ) ;
}
tok = tok - > next ;
}
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}
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ucol_closeElements ( colEl ) ;
ucol_close ( tempColl ) ;
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return context . noOfClosures ;
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}
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# endif /* #if !UCONFIG_NO_COLLATION */