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|
// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
*******************************************************************************
* Copyright (C) 2009-2014, International Business Machines Corporation and
* others. All Rights Reserved.
*******************************************************************************
*/
#include "unicode/utypes.h"
#if !UCONFIG_NO_COLLATION
#include "unicode/alphaindex.h"
#include "unicode/coll.h"
#include "unicode/localpointer.h"
#include "unicode/normalizer2.h"
#include "unicode/tblcoll.h"
#include "unicode/uchar.h"
#include "unicode/ulocdata.h"
#include "unicode/uniset.h"
#include "unicode/uobject.h"
#include "unicode/usetiter.h"
#include "unicode/utf16.h"
#include "cmemory.h"
#include "cstring.h"
#include "uassert.h"
#include "uvector.h"
#include "uvectr64.h"
//#include <string>
//#include <iostream>
U_NAMESPACE_BEGIN
namespace {
/**
* Prefix string for Chinese index buckets.
* See http://unicode.org/repos/cldr/trunk/specs/ldml/tr35-collation.html#Collation_Indexes
*/
const char16_t BASE[1] = { 0xFDD0 };
const int32_t BASE_LENGTH = 1;
UBool isOneLabelBetterThanOther(const Normalizer2 &nfkdNormalizer,
const UnicodeString &one, const UnicodeString &other);
} // namespace
static int32_t U_CALLCONV
collatorComparator(const void *context, const void *left, const void *right);
static int32_t U_CALLCONV
recordCompareFn(const void *context, const void *left, const void *right);
// UVector<Record *> support function, delete a Record.
static void U_CALLCONV
alphaIndex_deleteRecord(void *obj) {
delete static_cast<AlphabeticIndex::Record *>(obj);
}
namespace {
UnicodeString *ownedString(const UnicodeString &s, LocalPointer<UnicodeString> &owned,
UErrorCode &errorCode) {
if (U_FAILURE(errorCode)) { return nullptr; }
if (owned.isValid()) {
return owned.orphan();
}
UnicodeString *p = new UnicodeString(s);
if (p == nullptr) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
}
return p;
}
inline UnicodeString *getString(const UVector &list, int32_t i) {
return static_cast<UnicodeString *>(list[i]);
}
inline AlphabeticIndex::Bucket *getBucket(const UVector &list, int32_t i) {
return static_cast<AlphabeticIndex::Bucket *>(list[i]);
}
inline AlphabeticIndex::Record *getRecord(const UVector &list, int32_t i) {
return static_cast<AlphabeticIndex::Record *>(list[i]);
}
/**
* Like Java Collections.binarySearch(List, String, Comparator).
*
* @return the index>=0 where the item was found,
* or the index<0 for inserting the string at ~index in sorted order
*/
int32_t binarySearch(const UVector &list, const UnicodeString &s, const Collator &coll) {
if (list.size() == 0) { return ~0; }
int32_t start = 0;
int32_t limit = list.size();
for (;;) {
int32_t i = (start + limit) / 2;
const UnicodeString *si = static_cast<UnicodeString *>(list.elementAt(i));
UErrorCode errorCode = U_ZERO_ERROR;
UCollationResult cmp = coll.compare(s, *si, errorCode);
if (cmp == UCOL_EQUAL) {
return i;
} else if (cmp < 0) {
if (i == start) {
return ~start; // insert s before *si
}
limit = i;
} else {
if (i == start) {
return ~(start + 1); // insert s after *si
}
start = i;
}
}
}
} // namespace
// The BucketList is not in the anonymous namespace because only Clang
// seems to support its use in other classes from there.
// However, we also don't need U_I18N_API because it is not used from outside the i18n library.
class BucketList : public UObject {
public:
BucketList(UVector *bucketList, UVector *publicBucketList)
: bucketList_(bucketList), immutableVisibleList_(publicBucketList) {
int32_t displayIndex = 0;
for (int32_t i = 0; i < publicBucketList->size(); ++i) {
getBucket(*publicBucketList, i)->displayIndex_ = displayIndex++;
}
}
// The virtual destructor must not be inline.
// See ticket #8454 for details.
virtual ~BucketList();
int32_t getBucketCount() const {
return immutableVisibleList_->size();
}
int32_t getBucketIndex(const UnicodeString &name, const Collator &collatorPrimaryOnly,
UErrorCode &errorCode) {
// binary search
int32_t start = 0;
int32_t limit = bucketList_->size();
while ((start + 1) < limit) {
int32_t i = (start + limit) / 2;
const AlphabeticIndex::Bucket *bucket = getBucket(*bucketList_, i);
UCollationResult nameVsBucket =
collatorPrimaryOnly.compare(name, bucket->lowerBoundary_, errorCode);
if (nameVsBucket < 0) {
limit = i;
} else {
start = i;
}
}
const AlphabeticIndex::Bucket *bucket = getBucket(*bucketList_, start);
if (bucket->displayBucket_ != nullptr) {
bucket = bucket->displayBucket_;
}
return bucket->displayIndex_;
}
/** All of the buckets, visible and invisible. */
UVector *bucketList_;
/** Just the visible buckets. */
UVector *immutableVisibleList_;
};
BucketList::~BucketList() {
delete bucketList_;
if (immutableVisibleList_ != bucketList_) {
delete immutableVisibleList_;
}
}
AlphabeticIndex::ImmutableIndex::~ImmutableIndex() {
delete buckets_;
delete collatorPrimaryOnly_;
}
int32_t
AlphabeticIndex::ImmutableIndex::getBucketCount() const {
return buckets_->getBucketCount();
}
int32_t
AlphabeticIndex::ImmutableIndex::getBucketIndex(
const UnicodeString &name, UErrorCode &errorCode) const {
return buckets_->getBucketIndex(name, *collatorPrimaryOnly_, errorCode);
}
const AlphabeticIndex::Bucket *
AlphabeticIndex::ImmutableIndex::getBucket(int32_t index) const {
if (0 <= index && index < buckets_->getBucketCount()) {
return icu::getBucket(*buckets_->immutableVisibleList_, index);
} else {
return nullptr;
}
}
AlphabeticIndex::AlphabeticIndex(const Locale &locale, UErrorCode &status)
: inputList_(nullptr),
labelsIterIndex_(-1), itemsIterIndex_(0), currentBucket_(nullptr),
maxLabelCount_(99),
initialLabels_(nullptr), firstCharsInScripts_(nullptr),
collator_(nullptr), collatorPrimaryOnly_(nullptr),
buckets_(nullptr) {
init(&locale, status);
}
AlphabeticIndex::AlphabeticIndex(RuleBasedCollator *collator, UErrorCode &status)
: inputList_(nullptr),
labelsIterIndex_(-1), itemsIterIndex_(0), currentBucket_(nullptr),
maxLabelCount_(99),
initialLabels_(nullptr), firstCharsInScripts_(nullptr),
collator_(collator), collatorPrimaryOnly_(nullptr),
buckets_(nullptr) {
init(nullptr, status);
}
AlphabeticIndex::~AlphabeticIndex() {
delete collator_;
delete collatorPrimaryOnly_;
delete firstCharsInScripts_;
delete buckets_;
delete inputList_;
delete initialLabels_;
}
AlphabeticIndex &AlphabeticIndex::addLabels(const UnicodeSet &additions, UErrorCode &status) {
if (U_FAILURE(status)) {
return *this;
}
initialLabels_->addAll(additions);
clearBuckets();
return *this;
}
AlphabeticIndex &AlphabeticIndex::addLabels(const Locale &locale, UErrorCode &status) {
addIndexExemplars(locale, status);
clearBuckets();
return *this;
}
AlphabeticIndex::ImmutableIndex *AlphabeticIndex::buildImmutableIndex(UErrorCode &errorCode) {
if (U_FAILURE(errorCode)) { return nullptr; }
// In C++, the ImmutableIndex must own its copy of the BucketList,
// even if it contains no records, for proper memory management.
// We could clone the buckets_ if they are not nullptr,
// but that would be worth it only if this method is called multiple times,
// or called after using the old-style bucket iterator API.
LocalPointer<BucketList> immutableBucketList(createBucketList(errorCode));
LocalPointer<RuleBasedCollator> coll(collatorPrimaryOnly_->clone());
if (immutableBucketList.isNull() || coll.isNull()) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
return nullptr;
}
ImmutableIndex *immIndex = new ImmutableIndex(immutableBucketList.getAlias(), coll.getAlias());
if (immIndex == nullptr) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
return nullptr;
}
// The ImmutableIndex adopted its parameter objects.
immutableBucketList.orphan();
coll.orphan();
return immIndex;
}
int32_t AlphabeticIndex::getBucketCount(UErrorCode &status) {
initBuckets(status);
if (U_FAILURE(status)) {
return 0;
}
return buckets_->getBucketCount();
}
int32_t AlphabeticIndex::getRecordCount(UErrorCode &status) {
if (U_FAILURE(status) || inputList_ == nullptr) {
return 0;
}
return inputList_->size();
}
void AlphabeticIndex::initLabels(UVector &indexCharacters, UErrorCode &errorCode) const {
U_ASSERT(indexCharacters.hasDeleter());
const Normalizer2 *nfkdNormalizer = Normalizer2::getNFKDInstance(errorCode);
if (U_FAILURE(errorCode)) { return; }
const UnicodeString &firstScriptBoundary = *getString(*firstCharsInScripts_, 0);
const UnicodeString &overflowBoundary =
*getString(*firstCharsInScripts_, firstCharsInScripts_->size() - 1);
// We make a sorted array of elements.
// Some of the input may be redundant.
// That is, we might have c, ch, d, where "ch" sorts just like "c", "h".
// We filter out those cases.
UnicodeSetIterator iter(*initialLabels_);
while (U_SUCCESS(errorCode) && iter.next()) {
const UnicodeString *item = &iter.getString();
LocalPointer<UnicodeString> ownedItem;
UBool checkDistinct;
int32_t itemLength = item->length();
if (!item->hasMoreChar32Than(0, itemLength, 1)) {
checkDistinct = false;
} else if(item->charAt(itemLength - 1) == 0x2a && // '*'
item->charAt(itemLength - 2) != 0x2a) {
// Use a label if it is marked with one trailing star,
// even if the label string sorts the same when all contractions are suppressed.
ownedItem.adoptInstead(new UnicodeString(*item, 0, itemLength - 1));
item = ownedItem.getAlias();
if (item == nullptr) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
return;
}
checkDistinct = false;
} else {
checkDistinct = true;
}
if (collatorPrimaryOnly_->compare(*item, firstScriptBoundary, errorCode) < 0) {
// Ignore a primary-ignorable or non-alphabetic index character.
} else if (collatorPrimaryOnly_->compare(*item, overflowBoundary, errorCode) >= 0) {
// Ignore an index character that will land in the overflow bucket.
} else if (checkDistinct &&
collatorPrimaryOnly_->compare(*item, separated(*item), errorCode) == 0) {
// Ignore a multi-code point index character that does not sort distinctly
// from the sequence of its separate characters.
} else {
int32_t insertionPoint = binarySearch(indexCharacters, *item, *collatorPrimaryOnly_);
if (insertionPoint < 0) {
indexCharacters.insertElementAt(
ownedString(*item, ownedItem, errorCode), ~insertionPoint, errorCode);
} else {
const UnicodeString &itemAlreadyIn = *getString(indexCharacters, insertionPoint);
if (isOneLabelBetterThanOther(*nfkdNormalizer, *item, itemAlreadyIn)) {
indexCharacters.setElementAt(
ownedString(*item, ownedItem, errorCode), insertionPoint);
}
}
}
}
if (U_FAILURE(errorCode)) { return; }
// if the result is still too large, cut down to maxLabelCount_ elements, by removing every nth element
int32_t size = indexCharacters.size() - 1;
if (size > maxLabelCount_) {
int32_t count = 0;
int32_t old = -1;
for (int32_t i = 0; i < indexCharacters.size();) {
++count;
int32_t bump = count * maxLabelCount_ / size;
if (bump == old) {
indexCharacters.removeElementAt(i);
} else {
old = bump;
++i;
}
}
}
}
namespace {
const UnicodeString &fixLabel(const UnicodeString ¤t, UnicodeString &temp) {
if (!current.startsWith(BASE, BASE_LENGTH)) {
return current;
}
char16_t rest = current.charAt(BASE_LENGTH);
if (0x2800 < rest && rest <= 0x28FF) { // stroke count
int32_t count = rest-0x2800;
temp.setTo((char16_t)(0x30 + count % 10));
if (count >= 10) {
count /= 10;
temp.insert(0, (char16_t)(0x30 + count % 10));
if (count >= 10) {
count /= 10;
temp.insert(0, (char16_t)(0x30 + count));
}
}
return temp.append((char16_t)0x5283);
}
return temp.setTo(current, BASE_LENGTH);
}
UBool hasMultiplePrimaryWeights(
const RuleBasedCollator &coll, uint32_t variableTop,
const UnicodeString &s, UVector64 &ces, UErrorCode &errorCode) {
ces.removeAllElements();
coll.internalGetCEs(s, ces, errorCode);
if (U_FAILURE(errorCode)) { return false; }
UBool seenPrimary = false;
for (int32_t i = 0; i < ces.size(); ++i) {
int64_t ce = ces.elementAti(i);
uint32_t p = (uint32_t)(ce >> 32);
if (p > variableTop) {
// not primary ignorable
if (seenPrimary) {
return true;
}
seenPrimary = true;
}
}
return false;
}
} // namespace
BucketList *AlphabeticIndex::createBucketList(UErrorCode &errorCode) const {
// Initialize indexCharacters.
UVector indexCharacters(errorCode);
indexCharacters.setDeleter(uprv_deleteUObject);
initLabels(indexCharacters, errorCode);
if (U_FAILURE(errorCode)) { return nullptr; }
// Variables for hasMultiplePrimaryWeights().
UVector64 ces(errorCode);
uint32_t variableTop;
if (collatorPrimaryOnly_->getAttribute(UCOL_ALTERNATE_HANDLING, errorCode) == UCOL_SHIFTED) {
variableTop = collatorPrimaryOnly_->getVariableTop(errorCode);
} else {
variableTop = 0;
}
UBool hasInvisibleBuckets = false;
// Helper arrays for Chinese Pinyin collation.
Bucket *asciiBuckets[26] = {
nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr,
nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr
};
Bucket *pinyinBuckets[26] = {
nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr,
nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr, nullptr
};
UBool hasPinyin = false;
LocalPointer<UVector> bucketList(new UVector(errorCode), errorCode);
if (U_FAILURE(errorCode)) {
return nullptr;
}
bucketList->setDeleter(uprv_deleteUObject);
// underflow bucket
LocalPointer<Bucket> bucket(new Bucket(getUnderflowLabel(), emptyString_, U_ALPHAINDEX_UNDERFLOW), errorCode);
if (U_FAILURE(errorCode)) {
return nullptr;
}
bucketList->adoptElement(bucket.orphan(), errorCode);
if (U_FAILURE(errorCode)) { return nullptr; }
UnicodeString temp;
// fix up the list, adding underflow, additions, overflow
// Insert inflow labels as needed.
int32_t scriptIndex = -1;
const UnicodeString *scriptUpperBoundary = &emptyString_;
for (int32_t i = 0; i < indexCharacters.size(); ++i) {
UnicodeString ¤t = *getString(indexCharacters, i);
if (collatorPrimaryOnly_->compare(current, *scriptUpperBoundary, errorCode) >= 0) {
// We crossed the script boundary into a new script.
const UnicodeString &inflowBoundary = *scriptUpperBoundary;
UBool skippedScript = false;
for (;;) {
scriptUpperBoundary = getString(*firstCharsInScripts_, ++scriptIndex);
if (collatorPrimaryOnly_->compare(current, *scriptUpperBoundary, errorCode) < 0) {
break;
}
skippedScript = true;
}
if (skippedScript && bucketList->size() > 1) {
// We are skipping one or more scripts,
// and we are not just getting out of the underflow label.
bucket.adoptInsteadAndCheckErrorCode(
new Bucket(getInflowLabel(), inflowBoundary, U_ALPHAINDEX_INFLOW), errorCode);
bucketList->adoptElement(bucket.orphan(), errorCode);
if (U_FAILURE(errorCode)) { return nullptr; }
}
}
// Add a bucket with the current label.
bucket.adoptInsteadAndCheckErrorCode(
new Bucket(fixLabel(current, temp), current, U_ALPHAINDEX_NORMAL), errorCode);
bucketList->adoptElement(bucket.orphan(), errorCode);
if (U_FAILURE(errorCode)) { return nullptr; }
// Remember ASCII and Pinyin buckets for Pinyin redirects.
char16_t c;
if (current.length() == 1 && 0x41 <= (c = current.charAt(0)) && c <= 0x5A) { // A-Z
asciiBuckets[c - 0x41] = (Bucket *)bucketList->lastElement();
} else if (current.length() == BASE_LENGTH + 1 && current.startsWith(BASE, BASE_LENGTH) &&
0x41 <= (c = current.charAt(BASE_LENGTH)) && c <= 0x5A) {
pinyinBuckets[c - 0x41] = (Bucket *)bucketList->lastElement();
hasPinyin = true;
}
// Check for multiple primary weights.
if (!current.startsWith(BASE, BASE_LENGTH) &&
hasMultiplePrimaryWeights(*collatorPrimaryOnly_, variableTop, current,
ces, errorCode) &&
current.charAt(current.length() - 1) != 0xFFFF /* !current.endsWith("\uffff") */) {
// "AE-ligature" or "Sch" etc.
for (int32_t j = bucketList->size() - 2;; --j) {
Bucket *singleBucket = getBucket(*bucketList, j);
if (singleBucket->labelType_ != U_ALPHAINDEX_NORMAL) {
// There is no single-character bucket since the last
// underflow or inflow label.
break;
}
if (singleBucket->displayBucket_ == nullptr &&
!hasMultiplePrimaryWeights(*collatorPrimaryOnly_, variableTop,
singleBucket->lowerBoundary_,
ces, errorCode)) {
// Add an invisible bucket that redirects strings greater than the expansion
// to the previous single-character bucket.
// For example, after ... Q R S Sch we add Sch\uFFFF->S
// and after ... Q R S Sch Sch\uFFFF St we add St\uFFFF->S.
bucket.adoptInsteadAndCheckErrorCode(new Bucket(emptyString_,
UnicodeString(current).append((char16_t)0xFFFF),
U_ALPHAINDEX_NORMAL),
errorCode);
if (U_FAILURE(errorCode)) {
return nullptr;
}
bucket->displayBucket_ = singleBucket;
bucketList->adoptElement(bucket.orphan(), errorCode);
if (U_FAILURE(errorCode)) { return nullptr; }
hasInvisibleBuckets = true;
break;
}
}
}
}
if (U_FAILURE(errorCode)) { return nullptr; }
if (bucketList->size() == 1) {
// No real labels, show only the underflow label.
BucketList *bl = new BucketList(bucketList.getAlias(), bucketList.getAlias());
if (bl == nullptr) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
return nullptr;
}
bucketList.orphan();
return bl;
}
// overflow bucket
bucket.adoptInsteadAndCheckErrorCode(
new Bucket(getOverflowLabel(), *scriptUpperBoundary, U_ALPHAINDEX_OVERFLOW), errorCode);
bucketList->adoptElement(bucket.orphan(), errorCode); // final
if (U_FAILURE(errorCode)) { return nullptr; }
if (hasPinyin) {
// Redirect Pinyin buckets.
Bucket *asciiBucket = nullptr;
for (int32_t i = 0; i < 26; ++i) {
if (asciiBuckets[i] != nullptr) {
asciiBucket = asciiBuckets[i];
}
if (pinyinBuckets[i] != nullptr && asciiBucket != nullptr) {
pinyinBuckets[i]->displayBucket_ = asciiBucket;
hasInvisibleBuckets = true;
}
}
}
if (U_FAILURE(errorCode)) { return nullptr; }
if (!hasInvisibleBuckets) {
BucketList *bl = new BucketList(bucketList.getAlias(), bucketList.getAlias());
if (bl == nullptr) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
return nullptr;
}
bucketList.orphan();
return bl;
}
// Merge inflow buckets that are visually adjacent.
// Iterate backwards: Merge inflow into overflow rather than the other way around.
int32_t i = bucketList->size() - 1;
Bucket *nextBucket = getBucket(*bucketList, i);
while (--i > 0) {
Bucket *bucket = getBucket(*bucketList, i);
if (bucket->displayBucket_ != nullptr) {
continue; // skip invisible buckets
}
if (bucket->labelType_ == U_ALPHAINDEX_INFLOW) {
if (nextBucket->labelType_ != U_ALPHAINDEX_NORMAL) {
bucket->displayBucket_ = nextBucket;
continue;
}
}
nextBucket = bucket;
}
LocalPointer<UVector> publicBucketList(new UVector(errorCode), errorCode);
if (U_FAILURE(errorCode)) {
return nullptr;
}
// Do not call publicBucketList->setDeleter():
// This vector shares its objects with the bucketList.
for (int32_t j = 0; j < bucketList->size(); ++j) {
Bucket *bucket = getBucket(*bucketList, j);
if (bucket->displayBucket_ == nullptr) {
publicBucketList->addElement(bucket, errorCode);
}
}
if (U_FAILURE(errorCode)) { return nullptr; }
BucketList *bl = new BucketList(bucketList.getAlias(), publicBucketList.getAlias());
if (bl == nullptr) {
errorCode = U_MEMORY_ALLOCATION_ERROR;
return nullptr;
}
bucketList.orphan();
publicBucketList.orphan();
return bl;
}
/**
* Creates an index, and buckets and sorts the list of records into the index.
*/
void AlphabeticIndex::initBuckets(UErrorCode &errorCode) {
if (U_FAILURE(errorCode) || buckets_ != nullptr) {
return;
}
buckets_ = createBucketList(errorCode);
if (U_FAILURE(errorCode) || inputList_ == nullptr || inputList_->isEmpty()) {
return;
}
// Sort the records by name.
// Stable sort preserves input order of collation duplicates.
inputList_->sortWithUComparator(recordCompareFn, collator_, errorCode);
// Now, we traverse all of the input, which is now sorted.
// If the item doesn't go in the current bucket, we find the next bucket that contains it.
// This makes the process order n*log(n), since we just sort the list and then do a linear process.
// However, if the user adds an item at a time and then gets the buckets, this isn't efficient, so
// we need to improve it for that case.
Bucket *currentBucket = getBucket(*buckets_->bucketList_, 0);
int32_t bucketIndex = 1;
Bucket *nextBucket;
const UnicodeString *upperBoundary;
if (bucketIndex < buckets_->bucketList_->size()) {
nextBucket = getBucket(*buckets_->bucketList_, bucketIndex++);
upperBoundary = &nextBucket->lowerBoundary_;
} else {
nextBucket = nullptr;
upperBoundary = nullptr;
}
for (int32_t i = 0; i < inputList_->size(); ++i) {
Record *r = getRecord(*inputList_, i);
// if the current bucket isn't the right one, find the one that is
// We have a special flag for the last bucket so that we don't look any further
while (upperBoundary != nullptr &&
collatorPrimaryOnly_->compare(r->name_, *upperBoundary, errorCode) >= 0) {
currentBucket = nextBucket;
// now reset the boundary that we compare against
if (bucketIndex < buckets_->bucketList_->size()) {
nextBucket = getBucket(*buckets_->bucketList_, bucketIndex++);
upperBoundary = &nextBucket->lowerBoundary_;
} else {
upperBoundary = nullptr;
}
}
// now put the record into the bucket.
Bucket *bucket = currentBucket;
if (bucket->displayBucket_ != nullptr) {
bucket = bucket->displayBucket_;
}
if (bucket->records_ == nullptr) {
LocalPointer<UVector> records(new UVector(errorCode), errorCode);
if (U_FAILURE(errorCode)) {
return;
}
bucket->records_ = records.orphan();
}
bucket->records_->addElement(r, errorCode);
}
}
void AlphabeticIndex::clearBuckets() {
if (buckets_ != nullptr) {
delete buckets_;
buckets_ = nullptr;
internalResetBucketIterator();
}
}
void AlphabeticIndex::internalResetBucketIterator() {
labelsIterIndex_ = -1;
currentBucket_ = nullptr;
}
void AlphabeticIndex::addIndexExemplars(const Locale &locale, UErrorCode &status) {
LocalULocaleDataPointer uld(ulocdata_open(locale.getName(), &status));
if (U_FAILURE(status)) {
return;
}
UnicodeSet exemplars;
ulocdata_getExemplarSet(uld.getAlias(), exemplars.toUSet(), 0, ULOCDATA_ES_INDEX, &status);
if (U_SUCCESS(status)) {
initialLabels_->addAll(exemplars);
return;
}
status = U_ZERO_ERROR; // Clear out U_MISSING_RESOURCE_ERROR
// The locale data did not include explicit Index characters.
// Synthesize a set of them from the locale's standard exemplar characters.
ulocdata_getExemplarSet(uld.getAlias(), exemplars.toUSet(), 0, ULOCDATA_ES_STANDARD, &status);
if (U_FAILURE(status)) {
return;
}
// question: should we add auxiliary exemplars?
if (exemplars.containsSome(0x61, 0x7A) /* a-z */ || exemplars.isEmpty()) {
exemplars.add(0x61, 0x7A);
}
if (exemplars.containsSome(0xAC00, 0xD7A3)) { // Hangul syllables
// cut down to small list
exemplars.remove(0xAC00, 0xD7A3).
add(0xAC00).add(0xB098).add(0xB2E4).add(0xB77C).
add(0xB9C8).add(0xBC14).add(0xC0AC).add(0xC544).
add(0xC790).add(0xCC28).add(0xCE74).add(0xD0C0).
add(0xD30C).add(0xD558);
}
if (exemplars.containsSome(0x1200, 0x137F)) { // Ethiopic block
// cut down to small list
// make use of the fact that Ethiopic is allocated in 8's, where
// the base is 0 mod 8.
UnicodeSet ethiopic(UnicodeString(u"[ሀለሐመሠረሰሸቀቈቐቘበቨተቸኀኈነኘአከኰኸዀወዐዘዠየደዸጀገጐጘጠጨጰጸፀፈፐፘ]"), status);
ethiopic.retainAll(exemplars);
exemplars.remove(u'ሀ', 0x137F).addAll(ethiopic);
}
// Upper-case any that aren't already so.
// (We only do this for synthesized index characters.)
UnicodeSetIterator it(exemplars);
UnicodeString upperC;
while (it.next()) {
const UnicodeString &exemplarC = it.getString();
upperC = exemplarC;
upperC.toUpper(locale);
initialLabels_->add(upperC);
}
}
UBool AlphabeticIndex::addChineseIndexCharacters(UErrorCode &errorCode) {
UnicodeSet contractions;
collatorPrimaryOnly_->internalAddContractions(BASE[0], contractions, errorCode);
if (U_FAILURE(errorCode) || contractions.isEmpty()) { return false; }
initialLabels_->addAll(contractions);
UnicodeSetIterator iter(contractions);
while (iter.next()) {
const UnicodeString &s = iter.getString();
U_ASSERT (s.startsWith(BASE, BASE_LENGTH));
char16_t c = s.charAt(s.length() - 1);
if (0x41 <= c && c <= 0x5A) { // A-Z
// There are Pinyin labels, add ASCII A-Z labels as well.
initialLabels_->add(0x41, 0x5A); // A-Z
break;
}
}
return true;
}
/*
* Return the string with interspersed CGJs. Input must have more than 2 codepoints.
*/
static const char16_t CGJ = 0x034F;
UnicodeString AlphabeticIndex::separated(const UnicodeString &item) {
UnicodeString result;
if (item.length() == 0) {
return result;
}
int32_t i = 0;
for (;;) {
UChar32 cp = item.char32At(i);
result.append(cp);
i = item.moveIndex32(i, 1);
if (i >= item.length()) {
break;
}
result.append(CGJ);
}
return result;
}
bool AlphabeticIndex::operator==(const AlphabeticIndex& /* other */) const {
return false;
}
bool AlphabeticIndex::operator!=(const AlphabeticIndex& /* other */) const {
return false;
}
const RuleBasedCollator &AlphabeticIndex::getCollator() const {
return *collator_;
}
const UnicodeString &AlphabeticIndex::getInflowLabel() const {
return inflowLabel_;
}
const UnicodeString &AlphabeticIndex::getOverflowLabel() const {
return overflowLabel_;
}
const UnicodeString &AlphabeticIndex::getUnderflowLabel() const {
return underflowLabel_;
}
AlphabeticIndex &AlphabeticIndex::setInflowLabel(const UnicodeString &label, UErrorCode &/*status*/) {
inflowLabel_ = label;
clearBuckets();
return *this;
}
AlphabeticIndex &AlphabeticIndex::setOverflowLabel(const UnicodeString &label, UErrorCode &/*status*/) {
overflowLabel_ = label;
clearBuckets();
return *this;
}
AlphabeticIndex &AlphabeticIndex::setUnderflowLabel(const UnicodeString &label, UErrorCode &/*status*/) {
underflowLabel_ = label;
clearBuckets();
return *this;
}
int32_t AlphabeticIndex::getMaxLabelCount() const {
return maxLabelCount_;
}
AlphabeticIndex &AlphabeticIndex::setMaxLabelCount(int32_t maxLabelCount, UErrorCode &status) {
if (U_FAILURE(status)) {
return *this;
}
if (maxLabelCount <= 0) {
status = U_ILLEGAL_ARGUMENT_ERROR;
return *this;
}
maxLabelCount_ = maxLabelCount;
clearBuckets();
return *this;
}
//
// init() - Common code for constructors.
//
void AlphabeticIndex::init(const Locale *locale, UErrorCode &status) {
if (U_FAILURE(status)) { return; }
if (locale == nullptr && collator_ == nullptr) {
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
initialLabels_ = new UnicodeSet();
if (initialLabels_ == nullptr) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
inflowLabel_.setTo((char16_t)0x2026); // Ellipsis
overflowLabel_ = inflowLabel_;
underflowLabel_ = inflowLabel_;
if (collator_ == nullptr) {
Collator *coll = Collator::createInstance(*locale, status);
if (U_FAILURE(status)) {
delete coll;
return;
}
if (coll == nullptr) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
collator_ = dynamic_cast<RuleBasedCollator *>(coll);
if (collator_ == nullptr) {
delete coll;
status = U_UNSUPPORTED_ERROR;
return;
}
}
collatorPrimaryOnly_ = collator_->clone();
if (collatorPrimaryOnly_ == nullptr) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
collatorPrimaryOnly_->setAttribute(UCOL_STRENGTH, UCOL_PRIMARY, status);
firstCharsInScripts_ = firstStringsInScript(status);
if (U_FAILURE(status)) { return; }
firstCharsInScripts_->sortWithUComparator(collatorComparator, collatorPrimaryOnly_, status);
// Guard against a degenerate collator where
// some script boundary strings are primary ignorable.
for (;;) {
if (U_FAILURE(status)) { return; }
if (firstCharsInScripts_->isEmpty()) {
// AlphabeticIndex requires some non-ignorable script boundary strings.
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
if (collatorPrimaryOnly_->compare(
*static_cast<UnicodeString *>(firstCharsInScripts_->elementAt(0)),
emptyString_, status) == UCOL_EQUAL) {
firstCharsInScripts_->removeElementAt(0);
} else {
break;
}
}
// Chinese index characters, which are specific to each of the several Chinese tailorings,
// take precedence over the single locale data exemplar set per language.
if (!addChineseIndexCharacters(status) && locale != nullptr) {
addIndexExemplars(*locale, status);
}
}
//
// Comparison function for UVector<UnicodeString *> sorting with a collator.
//
static int32_t U_CALLCONV
collatorComparator(const void *context, const void *left, const void *right) {
const UElement *leftElement = static_cast<const UElement *>(left);
const UElement *rightElement = static_cast<const UElement *>(right);
const UnicodeString *leftString = static_cast<const UnicodeString *>(leftElement->pointer);
const UnicodeString *rightString = static_cast<const UnicodeString *>(rightElement->pointer);
if (leftString == rightString) {
// Catches case where both are nullptr
return 0;
}
if (leftString == nullptr) {
return 1;
}
if (rightString == nullptr) {
return -1;
}
const Collator *col = static_cast<const Collator *>(context);
UErrorCode errorCode = U_ZERO_ERROR;
return col->compare(*leftString, *rightString, errorCode);
}
//
// Comparison function for UVector<Record *> sorting with a collator.
//
static int32_t U_CALLCONV
recordCompareFn(const void *context, const void *left, const void *right) {
const UElement *leftElement = static_cast<const UElement *>(left);
const UElement *rightElement = static_cast<const UElement *>(right);
const AlphabeticIndex::Record *leftRec = static_cast<const AlphabeticIndex::Record *>(leftElement->pointer);
const AlphabeticIndex::Record *rightRec = static_cast<const AlphabeticIndex::Record *>(rightElement->pointer);
const Collator *col = static_cast<const Collator *>(context);
UErrorCode errorCode = U_ZERO_ERROR;
return col->compare(leftRec->name_, rightRec->name_, errorCode);
}
UVector *AlphabeticIndex::firstStringsInScript(UErrorCode &status) {
if (U_FAILURE(status)) {
return nullptr;
}
LocalPointer<UVector> dest(new UVector(status), status);
if (U_FAILURE(status)) {
return nullptr;
}
dest->setDeleter(uprv_deleteUObject);
// Fetch the script-first-primary contractions which are defined in the root collator.
// They all start with U+FDD1.
UnicodeSet set;
collatorPrimaryOnly_->internalAddContractions(0xFDD1, set, status);
if (U_FAILURE(status)) {
return nullptr;
}
if (set.isEmpty()) {
status = U_UNSUPPORTED_ERROR;
return nullptr;
}
UnicodeSetIterator iter(set);
while (iter.next()) {
const UnicodeString &boundary = iter.getString();
uint32_t gcMask = U_GET_GC_MASK(boundary.char32At(1));
if ((gcMask & (U_GC_L_MASK | U_GC_CN_MASK)) == 0) {
// Ignore boundaries for the special reordering groups.
// Take only those for "real scripts" (where the sample character is a Letter,
// and the one for unassigned implicit weights (Cn).
continue;
}
LocalPointer<UnicodeString> s(new UnicodeString(boundary), status);
dest->adoptElement(s.orphan(), status);
if (U_FAILURE(status)) {
return nullptr;
}
}
return dest.orphan();
}
namespace {
/**
* Returns true if one index character string is "better" than the other.
* Shorter NFKD is better, and otherwise NFKD-binary-less-than is
* better, and otherwise binary-less-than is better.
*/
UBool isOneLabelBetterThanOther(const Normalizer2 &nfkdNormalizer,
const UnicodeString &one, const UnicodeString &other) {
// This is called with primary-equal strings, but never with one.equals(other).
UErrorCode status = U_ZERO_ERROR;
UnicodeString n1 = nfkdNormalizer.normalize(one, status);
UnicodeString n2 = nfkdNormalizer.normalize(other, status);
if (U_FAILURE(status)) { return false; }
int32_t result = n1.countChar32() - n2.countChar32();
if (result != 0) {
return result < 0;
}
result = n1.compareCodePointOrder(n2);
if (result != 0) {
return result < 0;
}
return one.compareCodePointOrder(other) < 0;
}
} // namespace
//
// Constructor & Destructor for AlphabeticIndex::Record
//
// Records are internal only, instances are not directly surfaced in the public API.
// This class is mostly struct-like, with all public fields.
AlphabeticIndex::Record::Record(const UnicodeString &name, const void *data)
: name_(name), data_(data) {}
AlphabeticIndex::Record::~Record() {
}
AlphabeticIndex & AlphabeticIndex::addRecord(const UnicodeString &name, const void *data, UErrorCode &status) {
if (U_FAILURE(status)) {
return *this;
}
if (inputList_ == nullptr) {
LocalPointer<UVector> inputList(new UVector(status), status);
if (U_FAILURE(status)) {
return *this;
}
inputList_ = inputList.orphan();
inputList_->setDeleter(alphaIndex_deleteRecord);
}
LocalPointer<Record> r(new Record(name, data), status);
inputList_->adoptElement(r.orphan(), status);
if (U_FAILURE(status)) {
return *this;
}
clearBuckets();
//std::string ss;
//std::string ss2;
//std::cout << "added record: name = \"" << r->name_.toUTF8String(ss) << "\"" <<
// " sortingName = \"" << r->sortingName_.toUTF8String(ss2) << "\"" << std::endl;
return *this;
}
AlphabeticIndex &AlphabeticIndex::clearRecords(UErrorCode &status) {
if (U_SUCCESS(status) && inputList_ != nullptr && !inputList_->isEmpty()) {
inputList_->removeAllElements();
clearBuckets();
}
return *this;
}
int32_t AlphabeticIndex::getBucketIndex(const UnicodeString &name, UErrorCode &status) {
initBuckets(status);
if (U_FAILURE(status)) {
return 0;
}
return buckets_->getBucketIndex(name, *collatorPrimaryOnly_, status);
}
int32_t AlphabeticIndex::getBucketIndex() const {
return labelsIterIndex_;
}
UBool AlphabeticIndex::nextBucket(UErrorCode &status) {
if (U_FAILURE(status)) {
return false;
}
if (buckets_ == nullptr && currentBucket_ != nullptr) {
status = U_ENUM_OUT_OF_SYNC_ERROR;
return false;
}
initBuckets(status);
if (U_FAILURE(status)) {
return false;
}
++labelsIterIndex_;
if (labelsIterIndex_ >= buckets_->getBucketCount()) {
labelsIterIndex_ = buckets_->getBucketCount();
return false;
}
currentBucket_ = getBucket(*buckets_->immutableVisibleList_, labelsIterIndex_);
resetRecordIterator();
return true;
}
const UnicodeString &AlphabeticIndex::getBucketLabel() const {
if (currentBucket_ != nullptr) {
return currentBucket_->label_;
} else {
return emptyString_;
}
}
UAlphabeticIndexLabelType AlphabeticIndex::getBucketLabelType() const {
if (currentBucket_ != nullptr) {
return currentBucket_->labelType_;
} else {
return U_ALPHAINDEX_NORMAL;
}
}
int32_t AlphabeticIndex::getBucketRecordCount() const {
if (currentBucket_ != nullptr && currentBucket_->records_ != nullptr) {
return currentBucket_->records_->size();
} else {
return 0;
}
}
AlphabeticIndex &AlphabeticIndex::resetBucketIterator(UErrorCode &status) {
if (U_FAILURE(status)) {
return *this;
}
internalResetBucketIterator();
return *this;
}
UBool AlphabeticIndex::nextRecord(UErrorCode &status) {
if (U_FAILURE(status)) {
return false;
}
if (currentBucket_ == nullptr) {
// We are trying to iterate over the items in a bucket, but there is no
// current bucket from the enumeration of buckets.
status = U_INVALID_STATE_ERROR;
return false;
}
if (buckets_ == nullptr) {
status = U_ENUM_OUT_OF_SYNC_ERROR;
return false;
}
if (currentBucket_->records_ == nullptr) {
return false;
}
++itemsIterIndex_;
if (itemsIterIndex_ >= currentBucket_->records_->size()) {
itemsIterIndex_ = currentBucket_->records_->size();
return false;
}
return true;
}
const UnicodeString &AlphabeticIndex::getRecordName() const {
const UnicodeString *retStr = &emptyString_;
if (currentBucket_ != nullptr && currentBucket_->records_ != nullptr &&
itemsIterIndex_ >= 0 &&
itemsIterIndex_ < currentBucket_->records_->size()) {
Record *item = static_cast<Record *>(currentBucket_->records_->elementAt(itemsIterIndex_));
retStr = &item->name_;
}
return *retStr;
}
const void *AlphabeticIndex::getRecordData() const {
const void *retPtr = nullptr;
if (currentBucket_ != nullptr && currentBucket_->records_ != nullptr &&
itemsIterIndex_ >= 0 &&
itemsIterIndex_ < currentBucket_->records_->size()) {
Record *item = static_cast<Record *>(currentBucket_->records_->elementAt(itemsIterIndex_));
retPtr = item->data_;
}
return retPtr;
}
AlphabeticIndex & AlphabeticIndex::resetRecordIterator() {
itemsIterIndex_ = -1;
return *this;
}
AlphabeticIndex::Bucket::Bucket(const UnicodeString &label,
const UnicodeString &lowerBoundary,
UAlphabeticIndexLabelType type)
: label_(label), lowerBoundary_(lowerBoundary), labelType_(type),
displayBucket_(nullptr), displayIndex_(-1),
records_(nullptr) {
}
AlphabeticIndex::Bucket::~Bucket() {
delete records_;
}
U_NAMESPACE_END
#endif // !UCONFIG_NO_COLLATION
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