scuffed-code/icu4c/source/i18n/collationdata.h

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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
*******************************************************************************
* Copyright (C) 2010-2015, International Business Machines
* Corporation and others. All Rights Reserved.
*******************************************************************************
* collationdata.h
*
* created on: 2010oct27
* created by: Markus W. Scherer
*/
#ifndef __COLLATIONDATA_H__
#define __COLLATIONDATA_H__
#include "unicode/utypes.h"
#if !UCONFIG_NO_COLLATION
#include "unicode/ucol.h"
#include "unicode/uniset.h"
#include "collation.h"
#include "normalizer2impl.h"
#include "utrie2.h"
struct UDataMemory;
U_NAMESPACE_BEGIN
class UVector32;
/**
* Collation data container.
* Immutable data created by a CollationDataBuilder, or loaded from a file,
* or deserialized from API-provided binary data.
*
* Includes data for the collation base (root/default), aliased if this is not the base.
*/
struct U_I18N_API CollationData : public UMemory {
// Note: The ucadata.icu loader could discover the reserved ranges by setting an array
// parallel with the ranges, and resetting ranges that are indexed.
// The reordering builder code could clone the resulting template array.
enum {
REORDER_RESERVED_BEFORE_LATIN = UCOL_REORDER_CODE_FIRST + 14,
REORDER_RESERVED_AFTER_LATIN
};
enum {
MAX_NUM_SPECIAL_REORDER_CODES = 8,
/** C++ only, data reader check scriptStartsLength. */
MAX_NUM_SCRIPT_RANGES = 256
};
CollationData(const Normalizer2Impl &nfc)
: trie(NULL),
ce32s(NULL), ces(NULL), contexts(NULL), base(NULL),
jamoCE32s(NULL),
nfcImpl(nfc),
numericPrimary(0x12000000),
ce32sLength(0), cesLength(0), contextsLength(0),
compressibleBytes(NULL),
unsafeBackwardSet(NULL),
fastLatinTable(NULL), fastLatinTableLength(0),
numScripts(0), scriptsIndex(NULL), scriptStarts(NULL), scriptStartsLength(0),
rootElements(NULL), rootElementsLength(0) {}
uint32_t getCE32(UChar32 c) const {
return UTRIE2_GET32(trie, c);
}
uint32_t getCE32FromSupplementary(UChar32 c) const {
return UTRIE2_GET32_FROM_SUPP(trie, c);
}
UBool isDigit(UChar32 c) const {
return c < 0x660 ? c <= 0x39 && 0x30 <= c :
Collation::hasCE32Tag(getCE32(c), Collation::DIGIT_TAG);
}
UBool isUnsafeBackward(UChar32 c, UBool numeric) const {
return unsafeBackwardSet->contains(c) || (numeric && isDigit(c));
}
UBool isCompressibleLeadByte(uint32_t b) const {
return compressibleBytes[b];
}
inline UBool isCompressiblePrimary(uint32_t p) const {
return isCompressibleLeadByte(p >> 24);
}
/**
* Returns the CE32 from two contexts words.
* Access to the defaultCE32 for contraction and prefix matching.
*/
static uint32_t readCE32(const UChar *p) {
return ((uint32_t)p[0] << 16) | p[1];
}
/**
* Returns the CE32 for an indirect special CE32 (e.g., with DIGIT_TAG).
* Requires that ce32 is special.
*/
uint32_t getIndirectCE32(uint32_t ce32) const;
/**
* Returns the CE32 for an indirect special CE32 (e.g., with DIGIT_TAG),
* if ce32 is special.
*/
uint32_t getFinalCE32(uint32_t ce32) const;
/**
* Computes a CE from c's ce32 which has the OFFSET_TAG.
*/
int64_t getCEFromOffsetCE32(UChar32 c, uint32_t ce32) const {
int64_t dataCE = ces[Collation::indexFromCE32(ce32)];
return Collation::makeCE(Collation::getThreeBytePrimaryForOffsetData(c, dataCE));
}
/**
* Returns the single CE that c maps to.
* Sets U_UNSUPPORTED_ERROR if c does not map to a single CE.
*/
int64_t getSingleCE(UChar32 c, UErrorCode &errorCode) const;
/**
* Returns the FCD16 value for code point c. c must be >= 0.
*/
uint16_t getFCD16(UChar32 c) const {
return nfcImpl.getFCD16(c);
}
/**
* Returns the first primary for the script's reordering group.
* @return the primary with only the first primary lead byte of the group
* (not necessarily an actual root collator primary weight),
* or 0 if the script is unknown
*/
uint32_t getFirstPrimaryForGroup(int32_t script) const;
/**
* Returns the last primary for the script's reordering group.
* @return the last primary of the group
* (not an actual root collator primary weight),
* or 0 if the script is unknown
*/
uint32_t getLastPrimaryForGroup(int32_t script) const;
/**
* Finds the reordering group which contains the primary weight.
* @return the first script of the group, or -1 if the weight is beyond the last group
*/
int32_t getGroupForPrimary(uint32_t p) const;
int32_t getEquivalentScripts(int32_t script,
int32_t dest[], int32_t capacity, UErrorCode &errorCode) const;
/**
* Writes the permutation of primary-weight ranges
* for the given reordering of scripts and groups.
* The caller checks for illegal arguments and
* takes care of [DEFAULT] and memory allocation.
*
* Each list element will be a (limit, offset) pair as described
* for the CollationSettings::reorderRanges.
* The list will be empty if no ranges are reordered.
*/
void makeReorderRanges(const int32_t *reorder, int32_t length,
UVector32 &ranges, UErrorCode &errorCode) const;
/** @see jamoCE32s */
static const int32_t JAMO_CE32S_LENGTH = 19 + 21 + 27;
/** Main lookup trie. */
const UTrie2 *trie;
/**
* Array of CE32 values.
* At index 0 there must be CE32(U+0000)
* to support U+0000's special-tag for NUL-termination handling.
*/
const uint32_t *ce32s;
/** Array of CE values for expansions and OFFSET_TAG. */
const int64_t *ces;
/** Array of prefix and contraction-suffix matching data. */
const UChar *contexts;
/** Base collation data, or NULL if this data itself is a base. */
const CollationData *base;
/**
* Simple array of JAMO_CE32S_LENGTH=19+21+27 CE32s, one per canonical Jamo L/V/T.
* They are normally simple CE32s, rarely expansions.
* For fast handling of HANGUL_TAG.
*/
const uint32_t *jamoCE32s;
const Normalizer2Impl &nfcImpl;
/** The single-byte primary weight (xx000000) for numeric collation. */
uint32_t numericPrimary;
int32_t ce32sLength;
int32_t cesLength;
int32_t contextsLength;
/** 256 flags for which primary-weight lead bytes are compressible. */
const UBool *compressibleBytes;
/**
* Set of code points that are unsafe for starting string comparison after an identical prefix,
* or in backwards CE iteration.
*/
const UnicodeSet *unsafeBackwardSet;
/**
* Fast Latin table for common-Latin-text string comparisons.
* Data structure see class CollationFastLatin.
*/
const uint16_t *fastLatinTable;
int32_t fastLatinTableLength;
/**
* Data for scripts and reordering groups.
* Uses include building a reordering permutation table and
* providing script boundaries to AlphabeticIndex.
*/
int32_t numScripts;
/**
* The length of scriptsIndex is numScripts+16.
* It maps from a UScriptCode or a special reorder code to an entry in scriptStarts.
* 16 special reorder codes (not all used) are mapped starting at numScripts.
* Up to MAX_NUM_SPECIAL_REORDER_CODES are codes for special groups like space/punct/digit.
* There are special codes at the end for reorder-reserved primary ranges.
*
* Multiple scripts may share a range and index, for example Hira & Kana.
*/
const uint16_t *scriptsIndex;
/**
* Start primary weight (top 16 bits only) for a group/script/reserved range
* indexed by scriptsIndex.
* The first range (separators & terminators) and the last range (trailing weights)
* are not reorderable, and no scriptsIndex entry points to them.
*/
const uint16_t *scriptStarts;
int32_t scriptStartsLength;
/**
* Collation elements in the root collator.
* Used by the CollationRootElements class. The data structure is described there.
* NULL in a tailoring.
*/
const uint32_t *rootElements;
int32_t rootElementsLength;
private:
int32_t getScriptIndex(int32_t script) const;
void makeReorderRanges(const int32_t *reorder, int32_t length,
UBool latinMustMove,
UVector32 &ranges, UErrorCode &errorCode) const;
int32_t addLowScriptRange(uint8_t table[], int32_t index, int32_t lowStart) const;
int32_t addHighScriptRange(uint8_t table[], int32_t index, int32_t highLimit) const;
};
U_NAMESPACE_END
#endif // !UCONFIG_NO_COLLATION
#endif // __COLLATIONDATA_H__