scuffed-code/icu4c/source/i18n/ucolimp.h
Vladimir Weinstein 3aa279ce50 ICU-96 starting the 1.8 implementation
X-SVN-Rev: 3374
2001-01-04 00:45:41 +00:00

290 lines
12 KiB
C

/*
*******************************************************************************
*
* Copyright (C) 1998-2000, International Business Machines
* Corporation and others. All Rights Reserved.
*
*******************************************************************************
*
* Private implementation header for C collation
* file name: ucolimp.h
* encoding: US-ASCII
* tab size: 8 (not used)
* indentation:4
*
* created on: 2000dec11
* created by: Vladimir Weinstein
*/
#ifndef UCOL_IMP_H
#define UCOL_IMP_H
#include "unicode/ucol.h"
#include "ucmp32.h"
/* This is the size of the stack allocated buffer for sortkey generation and similar operations */
/* if it is too small, heap allocation will occur.*/
/* You can expect stack usage in following multiples */
/* getSortkey 6*UCOL_MAX_BUFFER */
/* strcoll 26 - 32 */
/* strcollInc 14 - 46 */
/* you can change this value if you need memory - it will affect the performance, though, since we're going to malloc */
#define UCOL_MAX_BUFFER 256
#define UCOL_NORMALIZATION_GROWTH 2
/* This writable buffer is used if we encounter Thai and need to reorder the string on the fly */
/* Sometimes we already have a writable buffer (like in case of normalized strings). */
/* you can change this value if you need memory - it will affect the performance, though, since we're going to malloc */
#define UCOL_WRITABLE_BUFFER_SIZE 256
/* This is the size of the buffer for expansion CE's */
/* In reality we should not have to deal with expm sequences longer then 16 */
/* you can change this value if you need memory */
/* WARNING THIS BUFFER DOES NOT HAVE MALLOC FALLBACK. If you make it too small, you'll get in trouble */
/* Reasonable small value is around 10, if you don't do Arabic or other funky collations that have long expansion sequence */
/* This is the longest expansion sequence we can handle without bombing out */
#define UCOL_EXPAND_CE_BUFFER_SIZE 64
struct collIterate {
UChar *string; /* Original string */
UChar *len; /* Original string length */
UChar *pos; /* This is position in the string */
uint32_t *toReturn; /* This is the CE from CEs buffer that should be returned */
uint32_t *CEpos; /* This is the position to which we have stored processed CEs */
uint32_t CEs[UCOL_EXPAND_CE_BUFFER_SIZE]; /* This is where we store CEs */
UBool isThai; /* Have we already encountered a Thai prevowel */
UBool isWritable; /* is the source buffer writable? */
UChar stackWritableBuffer[UCOL_WRITABLE_BUFFER_SIZE]; /* A writable buffer. */
UChar *writableBuffer;
};
struct incrementalContext {
UCharForwardIterator *source;
void *sourceContext;
UChar currentChar;
UChar lastChar;
UChar stackString[UCOL_MAX_BUFFER]; /* Original string */
UChar *stringP; /* This is position in the string */
UChar *len; /* Original string length */
UChar *capacity; /* This is capacity */
uint32_t *toReturn; /* This is the CE from CEs buffer that should be returned */
uint32_t *CEpos; /* This is the position to which we have stored processed CEs */
uint32_t CEs[UCOL_EXPAND_CE_BUFFER_SIZE]; /* This is where we store CEs */
UBool panic; /* can't handle it any more - we have to call the cavalry */
};
/* Fixup table a la Markus */
/* see http://www.ibm.com/software/developer/library/utf16.html for further explanation */
static uint8_t utf16fixup[32] = {
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0x20, 0xf8, 0xf8, 0xf8, 0xf8
};
/* from coleiterator */
#define UCOL_UNMAPPEDCHARVALUE 0x7fff0000
#define UCOL_LEVELTERMINATOR 1
/* need look up in .commit() */
#define UCOL_CHARINDEX 0x70000000
/* Expand index follows */
#define UCOL_EXPANDCHARINDEX 0x7E000000
/* contract indexes follows */
#define UCOL_CONTRACTCHARINDEX 0x7F000000
/* unmapped character values */
#define UCOL_UNMAPPED 0xFFFFFFFF
/* primary strength increment */
#define UCOL_PRIMARYORDERINCREMENT 0x00010000
/* secondary strength increment */
#define UCOL_SECONDARYORDERINCREMENT 0x00000100
/* tertiary strength increment */
#define UCOL_TERTIARYORDERINCREMENT 0x00000001
/* maximum ignorable char order value */
#define UCOL_MAXIGNORABLE 0x00010000
/* mask off anything but primary order */
#define UCOL_PRIMARYORDERMASK 0xffff0000
/* mask off anything but secondary order */
#define UCOL_SECONDARYORDERMASK 0x0000ff00
/* mask off anything but tertiary order */
#define UCOL_TERTIARYORDERMASK 0x000000ff
/* mask off secondary and tertiary order */
#define UCOL_SECONDARYRESETMASK 0x0000ffff
/* mask off ignorable char order */
#define UCOL_IGNORABLEMASK 0x0000ffff
/* use only the primary difference */
#define UCOL_PRIMARYDIFFERENCEONLY 0xffff0000
/* use only the primary and secondary difference */
#define UCOL_SECONDARYDIFFERENCEONLY 0xffffff00
/* primary order shift */
#define UCOL_PRIMARYORDERSHIFT 16
/* secondary order shift */
#define UCOL_SECONDARYORDERSHIFT 8
/* minimum sort key offset */
#define UCOL_SORTKEYOFFSET 2
/* Indicates the char is a contract char */
#define UCOL_CONTRACTCHAROVERFLOW 0x7FFFFFFF
/* starting value for collation elements */
#define UCOL_COLELEMENTSTART 0x02020202
/* testing mask for primary low element */
#define UCOL_PRIMARYLOWZEROMASK 0x00FF0000
/* reseting value for secondaries and tertiaries */
#define UCOL_RESETSECONDARYTERTIARY 0x00000202
/* reseting value for tertiaries */
#define UCOL_RESETTERTIARY 0x00000002
#define UCOL_IGNORABLE 0x02020202
#define UCOL_PRIMIGNORABLE 0x0202
#define UCOL_SECIGNORABLE 0x02
#define UCOL_TERIGNORABLE 0x02
/* get weights from a CE */
#define UCOL_PRIMARYORDER(order) (((order) & UCOL_PRIMARYORDERMASK)>> UCOL_PRIMARYORDERSHIFT)
#define UCOL_SECONDARYORDER(order) (((order) & UCOL_SECONDARYORDERMASK)>> UCOL_SECONDARYORDERSHIFT)
#define UCOL_TERTIARYORDER(order) ((order) & UCOL_TERTIARYORDERMASK)
/**
* Determine if a character is a Thai vowel (which sorts after
* its base consonant).
*/
#define UCOL_ISTHAIPREVOWEL(ch) ((uint32_t)(ch) - 0xe40) <= (0xe44 - 0xe40)
/**
* Determine if a character is a Thai base consonant
*/
#define UCOL_ISTHAIBASECONSONANT(ch) ((uint32_t)(ch) - 0xe01) <= (0xe2e - 0xe01)
/* initializes collIterate structure */
/* made as macro to speed up things */
#define init_collIterate(sourceString, sourceLen, s, isSourceWritable) { \
(s)->string = (s)->pos = (UChar *)(sourceString); \
(s)->len = (UChar *)(sourceString)+(sourceLen); \
(s)->CEpos = (s)->toReturn = (s)->CEs; \
(s)->isThai = TRUE; \
(s)->isWritable = (isSourceWritable); \
(s)->writableBuffer = (s)->stackWritableBuffer; \
}
/* a macro that gets a simple CE */
/* for more complicated CEs it resorts to getComplicatedCE (what else) */
#define UCOL_GETNEXTCE(order, coll, collationSource, status) { \
if (U_FAILURE((status)) || ((collationSource).pos>=(collationSource).len \
&& (collationSource).CEpos <= (collationSource).toReturn)) { \
(order) = UCOL_NULLORDER; \
} else if ((collationSource).CEpos > (collationSource).toReturn) { \
(order) = *((collationSource).toReturn++); \
} else {\
(collationSource).CEpos = (collationSource).toReturn = (collationSource).CEs; \
*((collationSource).CEpos) = ucmp32_get(((RuleBasedCollator *)(coll))->data->mapping, *((collationSource).pos)); \
if(*((collationSource).CEpos) < UCOL_EXPANDCHARINDEX && !(UCOL_ISTHAIPREVOWEL(*((collationSource).pos)))) { \
(collationSource).pos++; \
(order)=(*((collationSource).CEpos)); \
} else { \
(order) = getComplicatedCE((coll), &(collationSource), &(status)); \
} \
} \
}
int32_t getComplicatedCE(const UCollator *coll, collIterate *source, UErrorCode *status);
void incctx_cleanUpContext(incrementalContext *ctx);
UChar incctx_appendChar(incrementalContext *ctx, UChar c);
/* function used by C++ getCollationKey to prevent restarting the calculation */
U_CFUNC uint8_t *ucol_getSortKeyWithAllocation(const UCollator *coll,
const UChar *source,
int32_t sourceLength, int32_t *resultLen);
/* get some memory */
void *ucol_getABuffer(const UCollator *coll, uint32_t size);
/* worker function for generating sortkeys */
int32_t
ucol_calcSortKey(const UCollator *coll,
const UChar *source,
int32_t sourceLength,
uint8_t **result,
int32_t resultLength,
UBool allocatePrimary);
/**
* Makes a copy of the Collator's rule data. The format is
* that of .col files.
*
* @param length returns the length of the data, in bytes.
* @param status the error status
* @return memory, owned by the caller, of size 'length' bytes.
* @internal INTERNAL USE ONLY
*/
U_CAPI uint8_t *
ucol_cloneRuleData(UCollator *coll, int32_t *length, UErrorCode *status);
#define UCOL_SPECIAL_FLAG 0xF0000000
#define UCOL_TAG_SHIFT 24
#define UCOL_TAG_MASK 0x0F000000
#define INIT_EXP_TABLE_SIZE 1024
#define UCOL_NOT_FOUND 0xF0000000
#define UCOL_EXPANSION 0xF1000000
#define UCOL_CONTRACTION 0xF2000000
#define UCOL_THAI 0xF3000000
#define isSpecial(CE) ((((CE)&UCOL_SPECIAL_FLAG)>>28)==0xF)
#define getCETag(CE) (((CE)&UCOL_TAG_MASK)>>UCOL_TAG_SHIFT)
#define constructContractCE(CE) (UCOL_SPECIAL_FLAG | (CONTRACTION_TAG<<UCOL_TAG_SHIFT) | ((CE))&0xFFFFFF)
#define getContractOffset(CE) ((CE)&0xFFFFFF)
#define UCA_DATA_TYPE "dat"
#define UCA_DATA_NAME "UCATable"
typedef struct {
int32_t size;
/* all the offsets are in bytes */
/* to get the address add to the header address and cast properly */
uint32_t CEindex; /* uint16_t *CEindex; */
uint32_t CEvalues; /* int32_t *CEvalues; */
uint32_t mappingPosition; /* const uint8_t *mappingPosition; */
uint32_t expansion; /* uint32_t *expansion; */
uint32_t contractionIndex; /* UChar *contractionIndex; */
uint32_t contractionCEs; /* uint32_t *contractionCEs; */
uint32_t latinOneMapping; /* fast track to latin1 chars */
CompactIntArray *mapping;
int32_t CEcount;
UChar variableTopValue;
UVersionInfo version;
UColAttributeValue frenchCollation;
UColAttributeValue alternateHandling; /* attribute for handling variable elements*/
UColAttributeValue caseFirst; /* who goes first, lower case or uppercase */
UColAttributeValue caseLevel; /* do we have an extra case level */
UColAttributeValue normalizationMode; /* attribute for normalization */
UColAttributeValue strength; /* attribute for strength */
} UCATableHeader;
struct UCollatorNew {
const UCATableHeader *image;
CompactIntArray *mapping;
const uint32_t *latinOneMapping;
const uint32_t *expansion;
const UChar *contractionIndex;
const uint32_t *contractionCEs;
UChar variableTopValue;
UColAttributeValue frenchCollation;
UColAttributeValue alternateHandling; /* attribute for handling variable elements*/
UColAttributeValue caseFirst; /* who goes first, lower case or uppercase */
UColAttributeValue caseLevel; /* do we have an extra case level */
UColAttributeValue normalizationMode; /* attribute for normalization */
UColAttributeValue strength; /* attribute for strength */
UChar variableTopValueDefault;
UColAttributeValue frenchCollationDefault;
UColAttributeValue alternateHandlingDefault; /* attribute for handling variable elements*/
UColAttributeValue caseFirstDefault; /* who goes first, lower case or uppercase */
UColAttributeValue caseLevelDefault; /* do we have an extra case level */
UColAttributeValue normalizationModeDefault; /* attribute for normalization */
UColAttributeValue strengthDefault; /* attribute for strength */
};
#endif