scuffed-code/icu4c/source/i18n/coleitr.cpp

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/*
*******************************************************************************
* Copyright (C) 1996-2014, International Business Machines Corporation and
* others. All Rights Reserved.
*******************************************************************************
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*/
/*
* File coleitr.cpp
*
* Created by: Helena Shih
*
* Modification History:
*
* Date Name Description
*
* 6/23/97 helena Adding comments to make code more readable.
* 08/03/98 erm Synched with 1.2 version of CollationElementIterator.java
* 12/10/99 aliu Ported Thai collation support from Java.
* 01/25/01 swquek Modified to a C++ wrapper calling C APIs (ucoliter.h)
* 02/19/01 swquek Removed CollationElementIterator() since it is
* private constructor and no calls are made to it
* 2012-2014 markus Rewritten in C++ again.
*/
#include "unicode/utypes.h"
#if !UCONFIG_NO_COLLATION
#include "unicode/coleitr.h"
#include "unicode/tblcoll.h"
#include "unicode/ustring.h"
#include "cmemory.h"
#include "collation.h"
#include "collationdata.h"
#include "collationiterator.h"
#include "collationsets.h"
#include "collationtailoring.h"
#include "uassert.h"
#include "uhash.h"
#include "utf16collationiterator.h"
#include "uvectr32.h"
/* Constants --------------------------------------------------------------- */
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U_NAMESPACE_BEGIN
UOBJECT_DEFINE_RTTI_IMPLEMENTATION(CollationElementIterator)
/* CollationElementIterator public constructor/destructor ------------------ */
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CollationElementIterator::CollationElementIterator(
const CollationElementIterator& other)
: UObject(other), iter_(NULL), rbc_(NULL), otherHalf_(0), dir_(0), offsets_(NULL) {
*this = other;
}
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CollationElementIterator::~CollationElementIterator()
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{
delete iter_;
delete offsets_;
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}
/* CollationElementIterator public methods --------------------------------- */
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namespace {
uint32_t getFirstHalf(uint32_t p, uint32_t lower32) {
return (p & 0xffff0000) | ((lower32 >> 16) & 0xff00) | ((lower32 >> 8) & 0xff);
}
uint32_t getSecondHalf(uint32_t p, uint32_t lower32) {
return (p << 16) | ((lower32 >> 8) & 0xff00) | (lower32 & 0x3f);
}
UBool ceNeedsTwoParts(int64_t ce) {
return (ce & INT64_C(0xffff00ff003f)) != 0;
}
} // namespace
int32_t CollationElementIterator::getOffset() const
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{
if (dir_ < 0 && offsets_ != NULL && !offsets_->isEmpty()) {
// CollationIterator::previousCE() decrements the CEs length
// while it pops CEs from its internal buffer.
int32_t i = iter_->getCEsLength();
if (otherHalf_ != 0) {
// Return the trailing CE offset while we are in the middle of a 64-bit CE.
++i;
}
U_ASSERT(i < offsets_->size());
return offsets_->elementAti(i);
}
return iter_->getOffset();
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}
/**
* Get the ordering priority of the next character in the string.
* @return the next character's ordering. Returns NULLORDER if an error has
* occured or if the end of string has been reached
*/
int32_t CollationElementIterator::next(UErrorCode& status)
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{
if (U_FAILURE(status)) { return NULLORDER; }
if (dir_ > 1) {
// Continue forward iteration. Test this first.
if (otherHalf_ != 0) {
uint32_t oh = otherHalf_;
otherHalf_ = 0;
return oh;
}
} else if (dir_ == 1) {
// next() after setOffset()
dir_ = 2;
} else if (dir_ == 0) {
// The iter_ is already reset to the start of the text.
dir_ = 2;
} else /* dir_ < 0 */ {
// illegal change of direction
status = U_INVALID_STATE_ERROR;
return NULLORDER;
}
// No need to keep all CEs in the buffer when we iterate.
iter_->clearCEsIfNoneRemaining();
int64_t ce = iter_->nextCE(status);
if (ce == Collation::NO_CE) { return NULLORDER; }
// Turn the 64-bit CE into two old-style 32-bit CEs, without quaternary bits.
uint32_t p = (uint32_t)(ce >> 32);
uint32_t lower32 = (uint32_t)ce;
uint32_t firstHalf = getFirstHalf(p, lower32);
uint32_t secondHalf = getSecondHalf(p, lower32);
if (secondHalf != 0) {
otherHalf_ = secondHalf | 0xc0; // continuation CE
}
return firstHalf;
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}
UBool CollationElementIterator::operator!=(
const CollationElementIterator& other) const
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{
return !(*this == other);
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}
UBool CollationElementIterator::operator==(
const CollationElementIterator& that) const
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{
if (this == &that) {
return TRUE;
}
return
(rbc_ == that.rbc_ || *rbc_ == *that.rbc_) &&
otherHalf_ == that.otherHalf_ &&
normalizeDir() == that.normalizeDir() &&
string_ == that.string_ &&
*iter_ == *that.iter_;
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}
/**
* Get the ordering priority of the previous collation element in the string.
* @param status the error code status.
* @return the previous element's ordering. Returns NULLORDER if an error has
* occured or if the start of string has been reached.
*/
int32_t CollationElementIterator::previous(UErrorCode& status)
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{
if (U_FAILURE(status)) { return NULLORDER; }
if (dir_ < 0) {
// Continue backwards iteration. Test this first.
if (otherHalf_ != 0) {
uint32_t oh = otherHalf_;
otherHalf_ = 0;
return oh;
}
} else if (dir_ == 0) {
iter_->resetToOffset(string_.length());
dir_ = -1;
} else if (dir_ == 1) {
// previous() after setOffset()
dir_ = -1;
} else /* dir_ > 1 */ {
// illegal change of direction
status = U_INVALID_STATE_ERROR;
return NULLORDER;
}
if (offsets_ == NULL) {
offsets_ = new UVector32(status);
if (offsets_ == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
return NULLORDER;
}
}
// If we already have expansion CEs, then we also have offsets.
// Otherwise remember the trailing offset in case we need to
// write offsets for an artificial expansion.
int32_t limitOffset = iter_->getCEsLength() == 0 ? iter_->getOffset() : 0;
int64_t ce = iter_->previousCE(*offsets_, status);
if (ce == Collation::NO_CE) { return NULLORDER; }
// Turn the 64-bit CE into two old-style 32-bit CEs, without quaternary bits.
uint32_t p = (uint32_t)(ce >> 32);
uint32_t lower32 = (uint32_t)ce;
uint32_t firstHalf = getFirstHalf(p, lower32);
uint32_t secondHalf = getSecondHalf(p, lower32);
if (secondHalf != 0) {
if (offsets_->isEmpty()) {
// When we convert a single 64-bit CE into two 32-bit CEs,
// we need to make this artificial expansion behave like a normal expansion.
// See CollationIterator::previousCE().
offsets_->addElement(iter_->getOffset(), status);
offsets_->addElement(limitOffset, status);
}
otherHalf_ = firstHalf;
return secondHalf | 0xc0; // continuation CE
}
return firstHalf;
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}
/**
* Resets the cursor to the beginning of the string.
*/
void CollationElementIterator::reset()
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{
iter_ ->resetToOffset(0);
otherHalf_ = 0;
dir_ = 0;
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}
void CollationElementIterator::setOffset(int32_t newOffset,
UErrorCode& status)
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{
if (U_FAILURE(status)) { return; }
if (0 < newOffset && newOffset < string_.length()) {
int32_t offset = newOffset;
do {
UChar c = string_.charAt(offset);
if (!rbc_->isUnsafe(c) ||
(U16_IS_LEAD(c) && !rbc_->isUnsafe(string_.char32At(offset)))) {
break;
}
// Back up to before this unsafe character.
--offset;
} while (offset > 0);
if (offset < newOffset) {
// We might have backed up more than necessary.
// For example, contractions "ch" and "cu" make both 'h' and 'u' unsafe,
// but for text "chu" setOffset(2) should remain at 2
// although we initially back up to offset 0.
// Find the last safe offset no greater than newOffset by iterating forward.
int32_t lastSafeOffset = offset;
do {
iter_->resetToOffset(lastSafeOffset);
do {
iter_->nextCE(status);
if (U_FAILURE(status)) { return; }
} while ((offset = iter_->getOffset()) == lastSafeOffset);
if (offset <= newOffset) {
lastSafeOffset = offset;
}
} while (offset < newOffset);
newOffset = lastSafeOffset;
}
}
iter_->resetToOffset(newOffset);
otherHalf_ = 0;
dir_ = 1;
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}
/**
* Sets the source to the new source string.
*/
void CollationElementIterator::setText(const UnicodeString& source,
UErrorCode& status)
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{
if (U_FAILURE(status)) {
return;
}
string_ = source;
const UChar *s = string_.getBuffer();
CollationIterator *newIter;
UBool numeric = rbc_->settings->isNumeric();
if (rbc_->settings->dontCheckFCD()) {
newIter = new UTF16CollationIterator(rbc_->data, numeric, s, s, s + string_.length());
} else {
newIter = new FCDUTF16CollationIterator(rbc_->data, numeric, s, s, s + string_.length());
}
if (newIter == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
delete iter_;
iter_ = newIter;
otherHalf_ = 0;
dir_ = 0;
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}
// Sets the source to the new character iterator.
void CollationElementIterator::setText(CharacterIterator& source,
UErrorCode& status)
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{
if (U_FAILURE(status))
return;
source.getText(string_);
setText(string_, status);
}
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int32_t CollationElementIterator::strengthOrder(int32_t order) const
{
UColAttributeValue s = (UColAttributeValue)rbc_->settings->getStrength();
// Mask off the unwanted differences.
if (s == UCOL_PRIMARY) {
order &= 0xffff0000;
}
else if (s == UCOL_SECONDARY) {
order &= 0xffffff00;
}
return order;
}
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/* CollationElementIterator private constructors/destructors --------------- */
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/**
* This is the "real" constructor for this class; it constructs an iterator
* over the source text using the specified collator
*/
CollationElementIterator::CollationElementIterator(
const UnicodeString &source,
const RuleBasedCollator *coll,
UErrorCode &status)
: iter_(NULL), rbc_(coll), otherHalf_(0), dir_(0), offsets_(NULL) {
setText(source, status);
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}
/**
* This is the "real" constructor for this class; it constructs an iterator over
* the source text using the specified collator
*/
CollationElementIterator::CollationElementIterator(
const CharacterIterator &source,
const RuleBasedCollator *coll,
UErrorCode &status)
: iter_(NULL), rbc_(coll), otherHalf_(0), dir_(0), offsets_(NULL) {
// We only call source.getText() which should be const anyway.
setText(const_cast<CharacterIterator &>(source), status);
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}
/* CollationElementIterator private methods -------------------------------- */
const CollationElementIterator& CollationElementIterator::operator=(
const CollationElementIterator& other)
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{
if (this == &other) {
return *this;
}
CollationIterator *newIter;
const FCDUTF16CollationIterator *otherFCDIter =
dynamic_cast<const FCDUTF16CollationIterator *>(other.iter_);
if(otherFCDIter != NULL) {
newIter = new FCDUTF16CollationIterator(*otherFCDIter, string_.getBuffer());
} else {
const UTF16CollationIterator *otherIter =
dynamic_cast<const UTF16CollationIterator *>(other.iter_);
if(otherIter != NULL) {
newIter = new UTF16CollationIterator(*otherIter, string_.getBuffer());
} else {
newIter = NULL;
}
}
if(newIter != NULL) {
delete iter_;
iter_ = newIter;
rbc_ = other.rbc_;
otherHalf_ = other.otherHalf_;
dir_ = other.dir_;
string_ = other.string_;
}
if(other.dir_ < 0 && other.offsets_ != NULL && !other.offsets_->isEmpty()) {
UErrorCode errorCode = U_ZERO_ERROR;
if(offsets_ == NULL) {
offsets_ = new UVector32(other.offsets_->size(), errorCode);
}
if(offsets_ != NULL) {
offsets_->assign(*other.offsets_, errorCode);
}
}
return *this;
}
namespace {
class MaxExpSink : public ContractionsAndExpansions::CESink {
public:
MaxExpSink(UHashtable *h, UErrorCode &ec) : maxExpansions(h), errorCode(ec) {}
virtual ~MaxExpSink();
virtual void handleCE(int64_t /*ce*/) {}
virtual void handleExpansion(const int64_t ces[], int32_t length) {
if (length <= 1) {
// We do not need to add single CEs into the map.
return;
}
int32_t count = 0; // number of CE "halves"
for (int32_t i = 0; i < length; ++i) {
count += ceNeedsTwoParts(ces[i]) ? 2 : 1;
}
// last "half" of the last CE
int64_t ce = ces[length - 1];
uint32_t p = (uint32_t)(ce >> 32);
uint32_t lower32 = (uint32_t)ce;
uint32_t lastHalf = getSecondHalf(p, lower32);
if (lastHalf == 0) {
lastHalf = getFirstHalf(p, lower32);
U_ASSERT(lastHalf != 0);
} else {
lastHalf |= 0xc0; // old-style continuation CE
}
if (count > uhash_igeti(maxExpansions, (int32_t)lastHalf)) {
uhash_iputi(maxExpansions, (int32_t)lastHalf, count, &errorCode);
}
}
private:
UHashtable *maxExpansions;
UErrorCode &errorCode;
};
MaxExpSink::~MaxExpSink() {}
} // namespace
UHashtable *
CollationElementIterator::computeMaxExpansions(const CollationData *data, UErrorCode &errorCode) {
if (U_FAILURE(errorCode)) { return NULL; }
UHashtable *maxExpansions = uhash_open(uhash_hashLong, uhash_compareLong,
uhash_compareLong, &errorCode);
if (U_FAILURE(errorCode)) { return NULL; }
MaxExpSink sink(maxExpansions, errorCode);
ContractionsAndExpansions(NULL, NULL, &sink, TRUE).forData(data, errorCode);
if (U_FAILURE(errorCode)) {
uhash_close(maxExpansions);
return NULL;
}
return maxExpansions;
}
int32_t
CollationElementIterator::getMaxExpansion(int32_t order) const {
return getMaxExpansion(rbc_->tailoring->maxExpansions, order);
}
int32_t
CollationElementIterator::getMaxExpansion(const UHashtable *maxExpansions, int32_t order) {
if (order == 0) { return 1; }
int32_t max;
if(maxExpansions != NULL && (max = uhash_igeti(maxExpansions, order)) != 0) {
return max;
}
if ((order & 0xc0) == 0xc0) {
// old-style continuation CE
return 2;
} else {
return 1;
}
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}
U_NAMESPACE_END
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#endif /* #if !UCONFIG_NO_COLLATION */