2ba25d4bf8
Added Makefile Removed Linux compiler warnings. Removed memory leak from line 637 from strsrch.cpp X-SVN-Rev: 5043
768 lines
25 KiB
C++
768 lines
25 KiB
C++
/*
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**********************************************************************
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* Copyright (C) 1999-2000 IBM and others. All rights reserved.
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**********************************************************************
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* Date Name Description
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* 03/22/2000 helena Creation.
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**********************************************************************
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*/
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#include <memory.h>
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#include "unicode/coleitr.h"
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#include "unicode/schriter.h"
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#include "strsrch.h"
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/**
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* <code>StringSearch</code> is a <code>SearchIterator</code> that provides
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* language-sensitive text searching based on the comparison rules defined
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* in a {@link RuleBasedCollator} object.
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* Instances of <code>StringSearch</code> function as iterators
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* maintain a current position and scan over text returning the index of
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* characters where the pattern occurs and the length of each match.
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* <p>
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* <code>StringSearch</code> uses a version of the fast Boyer-Moore search
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* algorithm that has been adapted to work with the large character set of
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* Unicode. See "Efficient Text Searching in Java", to be published in
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* <i>Java Report</i> in February, 1999, for further information on the algorithm.
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* <p>
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* Consult the <code>SearchIterator</code> documentation for information on
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* and examples of how to use instances of this class to implement text
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* searching. <code>SearchIterator</code> provides all of the necessary
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* API; this class only provides constructors and internal implementation
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* methods.
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*
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* @see SearchIterator
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* @see RuleBasedCollator
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*
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* @author Laura Werner
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* @version 1.0
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*/
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char StringSearch::fgClassID = 0; // Value is irrelevant // class id
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/* to be removed */
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void StringSearch::dumpTables() {
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int i;
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for (i = 0; i < 256; i++) {
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if (shiftTable[i] != minLen) {
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// debug("shift[" + Integer.toString(i,16) + "] = " + shiftTable[i]);
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}
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}
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for (i = 0; i < 256; i++) {
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if (backShiftTable[i] != minLen) {
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// debug("backShift[" + Integer.toString(i,16) + "] = " + backShiftTable[i]);
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}
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}
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}
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StringSearch::StringSearch(const UnicodeString& pat,
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CharacterIterator* target,
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RuleBasedCollator* coll,
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BreakIterator* breaker,
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UErrorCode& status) :
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SearchIterator(target, breaker),
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strength(coll->getStrength()),
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valueList(NULL),
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valueListLen(0),
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pattern(pat),
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normLen(0), // num. of collation elements in pattern.
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minLen(0), // Min of composed, decomposed versions
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maxLen(0), // Max
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it(NULL)
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{
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if (U_FAILURE(status)) return;
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collator = (RuleBasedCollator*)(coll->clone());
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iter = collator->createCollationElementIterator(*target);
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it = collator->createCollationElementIterator(pat);
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initialize(status); // Initialize the Boyer-Moore tables
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}
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/**
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* Construct a <code>StringSearch</code> object using a specific collator.
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* <p>
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* @param pattern The text for which this object will search.
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*
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* @param target The text in which to search for the pattern.
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*
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* @param collator A <code>RuleBasedCollator</code> object which defines the
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* language-sensitive comparison rules used to determine
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* whether text in the pattern and target matches.
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*/
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StringSearch::StringSearch(const UnicodeString& pat,
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CharacterIterator* target,
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RuleBasedCollator* collator,
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UErrorCode& status) :
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SearchIterator(),
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strength(collator->getStrength()),
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valueList(NULL),
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valueListLen(0),
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pattern(pat),
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normLen(0), // num. of collation elements in pattern.
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minLen(0), // Min of composed, decomposed versions
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maxLen(0), // Max
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it(NULL)
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{
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if (U_FAILURE(status)) return;
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this->adoptTarget(target);
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this->collator = (RuleBasedCollator*)(collator->clone());
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this->iter = collator->createCollationElementIterator(*target);
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this->it = collator->createCollationElementIterator(pat);
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initialize(status);
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}
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/**
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* Construct a <code>StringSearch</code> object using the collator and
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* character boundary detection rules for a given locale
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* <p>
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* @param pattern The text for which this object will search.
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*
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* @param target The text in which to search for the pattern.
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*
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* @param loc The locale whose collation and break-detection rules
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* should be used.
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*
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* @exception ClassCastException thrown if the collator for the specified
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* locale is not a RuleBasedCollator.
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*/
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StringSearch::StringSearch(const StringSearch& that) :
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SearchIterator(that),
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iter(NULL),
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collator(that.collator),
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strength(that.strength),
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valueList(NULL),
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valueListLen(that.valueListLen),
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normLen(that.normLen), // num. of collation elements in pattern.
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minLen(that.minLen), // Min of composed, decomposed versions
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maxLen(that.maxLen),
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it(NULL)
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{
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valueList = new int32_t[valueListLen];
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memcpy(valueList, that.valueList, valueListLen*sizeof(int32_t));
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iter = that.collator->createCollationElementIterator(that.getTarget());
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it = that.collator->createCollationElementIterator(that.pattern);
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}
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StringSearch::StringSearch(const UnicodeString& pat,
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CharacterIterator* target,
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const Locale& loc,
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UErrorCode& status) :
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SearchIterator(),
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valueList(NULL),
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valueListLen(0),
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pattern(pat),
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normLen(0), // num. of collation elements in pattern.
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minLen(0), // Min of composed, decomposed versions
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maxLen(0) // Max
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{
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if (U_FAILURE(status)) return;
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this->adoptTarget(target);
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collator = (RuleBasedCollator*)Collator::createInstance(loc, status);
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iter = collator->createCollationElementIterator(*target);
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it = collator->createCollationElementIterator(pat);
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strength = collator->getStrength();
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initialize(status);
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}
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UBool
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StringSearch::operator==(const SearchIterator& that) const
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{
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if (that.getDynamicClassID() != getDynamicClassID())
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return FALSE;
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if (!SearchIterator::operator==(that))
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return FALSE;
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const StringSearch& that2 = (const StringSearch&)that;
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if (*that2.iter != *iter) return FALSE;
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else if (*that2.collator != *collator) return FALSE;
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else if (that2.strength != strength) return FALSE;
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else if (that2.valueListLen != valueListLen) return FALSE;
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else if (memcmp(that2.valueList, valueList, valueListLen*sizeof(int32_t)) != 0) return FALSE;
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else if (that2.pattern != pattern) return FALSE;
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else if (that2.normLen != normLen) return FALSE;
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else if (that2.minLen != minLen) return FALSE;
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else if (that2.maxLen != maxLen) return FALSE;
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else return TRUE;
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}
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SearchIterator*
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StringSearch::clone(void) const
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{
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return new StringSearch(*this);
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}
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/**
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* Construct a <code>StringSearch</code> object using the collator for the default
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* locale
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* <p>
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* @param pattern The text for which this object will search.
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*
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* @param target The text in which to search for the pattern.
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*
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* @param collator A <code>RuleBasedCollator</code> object which defines the
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* language-sensitive comparison rules used to determine
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* whether text in the pattern and target matches.
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*/
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StringSearch::StringSearch(const UnicodeString& pat,
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const UnicodeString& newText,
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UErrorCode& status) :
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SearchIterator(),
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valueList(NULL),
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valueListLen(0),
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pattern(pat),
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normLen(0), // num. of collation elements in pattern.
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minLen(0), // Min of composed, decomposed versions
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maxLen(0) // Max
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{
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StringCharacterIterator *s = new StringCharacterIterator(newText);
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collator = (RuleBasedCollator*)Collator::createInstance(Locale::getDefault(), status);
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strength = collator->getStrength();
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iter = collator->createCollationElementIterator(newText);
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it = collator->createCollationElementIterator(pat);
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this->adoptTarget(s);
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initialize(status);
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}
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StringSearch::~StringSearch(void)
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{
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if (valueList != NULL) {
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delete [] valueList;
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valueList = 0;
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}
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if (iter != NULL) {
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delete iter;
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iter = 0;
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}
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if (collator != NULL) {
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delete collator;
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collator = 0;
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}
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if (it != NULL) {
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delete it;
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it = 0;
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}
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}
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//-------------------------------------------------------------------
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// Getters and Setters
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//-------------------------------------------------------------------
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/**
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* Sets this object's strength property. The strength determines the
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* minimum level of difference considered significant during a
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* search. Generally, {@link Collator#TERTIARY} and
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* {@link Collator#IDENTICAL} indicate that all differences are
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* considered significant, {@link Collator#SECONDARY} indicates
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* that upper/lower case distinctions should be ignored, and
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* {@link Collator#PRIMARY} indicates that both case and accents
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* should be ignored. However, the exact meanings of these constants
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* are determined by individual Collator objects.
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* <p>
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* @see Collator#PRIMARY
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* @see Collator#SECONDARY
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* @see Collator#TERTIARY
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* @see Collator#IDENTICAL
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*/
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void StringSearch::setStrength(Collator::ECollationStrength newStrength, UErrorCode& status) {
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if (U_FAILURE(status))
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{
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return;
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}
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strength = newStrength;
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// Due to a bug (?) in CollationElementIterator, we must set the
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// collator's strength as well, since the iterator is going to
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// mask out the portions of the collation element that are not
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// relevant for the collator's current strength setting
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// Note that this makes it impossible to share a Collator among
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// multiple StringSearch objects if you adjust Strength settings.
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collator->setStrength(strength);
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initialize(status);
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}
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/**
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* Returns this object's strength property, which indicates what level
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* of differences are considered significant during a search.
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* <p>
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* @see #setStrength
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*/
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Collator::ECollationStrength StringSearch::getStrength() const
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{
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return strength;
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}
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/**
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* Set the collator to be used for this string search. Also changes
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* the search strength to match that of the new collator.
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* <p>
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* This method causes internal data such as Boyer-Moore shift tables
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* to be recalculated, but the iterator's position is unchanged.
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* <p>
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* @see #getCollator
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*/
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void StringSearch::setCollator(const RuleBasedCollator *coll, UErrorCode& status)
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{
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delete iter;
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delete collator;
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collator = (RuleBasedCollator*)coll->clone();
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strength = collator->getStrength();
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// Also need to recompute the pattern and get a new target iterator
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iter = collator->createCollationElementIterator(getTarget());
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initialize(status);
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}
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/**
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* Return the RuleBasedCollator being used for this string search.
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*/
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const RuleBasedCollator& StringSearch::getCollator(void) const
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{
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return *collator;
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}
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/**
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* Set the pattern for which to search.
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* This method causes internal data such as Boyer-Moore shift tables
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* to be recalculated, but the iterator's position is unchanged.
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*/
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void StringSearch::setPattern(const UnicodeString& pat, UErrorCode& status)
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{
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pattern = pat;
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initialize(status);
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}
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/**
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* Returns the pattern for which this object is searching.
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*/
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const UnicodeString& StringSearch::getPattern() const
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{
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return pattern;
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}
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/**
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* Set the target text which should be searched and resets the
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* iterator's position to point before the start of the new text.
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* This method is useful if you want to re-use an iterator to
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* search for the same pattern within a different body of text.
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*/
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void StringSearch::adoptTarget(CharacterIterator* target)
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{
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UErrorCode status = U_ZERO_ERROR;
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SearchIterator::adoptTarget(target);
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// fix me: Skipped the error code
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// Since we're caching a CollationElementIterator, recreate it
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iter->setText(*target, status);
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}
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void StringSearch::setTarget(const UnicodeString& newText)
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{
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UErrorCode status = U_ZERO_ERROR;
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SearchIterator::setTarget(newText);
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// Since we're caching a CollationElementIterator, recreate it
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iter->setText(newText, status);
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}
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void StringSearch::reset(void)
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{
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SearchIterator::reset();
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iter->reset();
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}//-------------------------------------------------------------------
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// Privates
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//-------------------------------------------------------------------
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/**
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* Search forward for matching text, starting at a given location.
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* Clients should not call this method directly; instead they should call
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* {@link SearchIterator#next}.
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* <p>
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* If a match is found, this method returns the index at which the match
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* starts and calls {@link SearchIterator#setMatchLength}
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* with the number of characters in the target
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* text that make up the match. If no match is found, the method returns
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* <code>DONE</code> and does not call <tt>setMatchLength</tt>.
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* <p>
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* @param start The index in the target text at which the search starts.
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*
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* @return The index at which the matched text in the target starts, or DONE
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* if no match was found.
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* <p>
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* @see SearchIterator#next
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* @see SearchIterator#DONE
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*/
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int32_t StringSearch::handleNext(int32_t start, UErrorCode& status)
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{
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if (U_FAILURE(status))
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{
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return SearchIterator::DONE;
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}
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const CharacterIterator& target = getTarget();
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int mask = getMask(strength);
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#if 0
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int done = CollationElementIterator::NULLORDER & mask;
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if (DEBUG) {
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debug("-------------------------handleNext-----------------------------------");
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debug("");
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debug("strength=" + strength + ", mask=" + Integer.toString(mask,16)
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+ ", done=" + Integer.toString(done,16));
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debug("decomp=" + collator.getDecomposition());
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debug("target.begin=" + getTarget().getBeginIndex());
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debug("target.end=" + getTarget().getEndIndex());
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debug("start = " + start);
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}
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#endif
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int32_t index = start + minLen;
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int32_t matchEnd = 0;
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while (index <= target.endIndex())
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{
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int32_t patIndex = normLen;
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int32_t tval = 0, pval = 0;
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UBool getP = TRUE;
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iter->setOffset(index, status);
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matchEnd = index;
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//if (DEBUG) debug(" outer loop: patIndex=" + patIndex + ", index=" + index);
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while ((patIndex > 0 || getP == false) && iter->getOffset() > start)
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{
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#if 0
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if (DEBUG) {
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debug(" inner loop: patIndex=" + patIndex + " iter=" + iter.getOffset());
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debug(" getP=" + getP);
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}
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#endif
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// Get the previous character in both the pattern and the target
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tval = iter->previous(status) & mask;
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if (U_FAILURE(status))
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{
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return SearchIterator::DONE;
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}
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if (getP) pval = valueList[--patIndex];
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getP = TRUE;
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// (DEBUG) debug(" pval=" + Integer.toString(pval,16) + ", tval=" + Integer.toString(tval,16));
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if (tval == 0) { // skip tval, use same pval
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// (DEBUG) debug(" tval is ignorable");
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getP = FALSE;
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}
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else if (pval != tval) { // Mismatch, skip ahead
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// (DEBUG) debug(" mismatch: skippping " + getShift(tval, patIndex));
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index += getShift(tval, patIndex);
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break;
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}
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else if (patIndex == 0) {
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// The values matched, and we're at the beginning of the pattern,
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// which means we matched the whole thing.
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start = iter->getOffset();
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setMatchLength(matchEnd - start);
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// if (DEBUG) debug("Found match at index "+ start );
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return start;
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}
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}
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#if 0
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if (DEBUG) debug(" end of inner loop: patIndex=" + patIndex + " iter=" + iter.getOffset());
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if (DEBUG) debug(" getP=" + getP);
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#endif
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if (iter->getOffset() <= start) {
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// We hit the beginning of the text being searched, which is
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// possible if it contains lots of ignorable characters.
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// Advance one character and try again.
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// if (DEBUG) debug("hit beginning of target; advance by one");
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index++;
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}
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}
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// if (DEBUG) debug("Fell off end of outer loop; returning DONE");
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return SearchIterator::DONE;
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}
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/**
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* Search backward for matching text ,starting at a given location.
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* Clients should not call this method directly; instead they should call
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* <code>SearchIterator.previous()</code>, which this method overrides.
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* <p>
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* If a match is found, this method returns the index at which the match
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* starts and calls {@link SearchIterator#setMatchLength}
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* with the number of characters in the target
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* text that make up the match. If no match is found, the method returns
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* <code>DONE</code> and does not call <tt>setMatchLength</tt>.
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* <p>
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* @param start The index in the target text at which the search starts.
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*
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* @return The index at which the matched text in the target starts, or DONE
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* if no match was found.
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* <p>
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* @see SearchIterator#previous
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* @see SearchIterator#DONE
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*/
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int32_t StringSearch::handlePrev(int32_t start, UErrorCode& status)
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{
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if (U_FAILURE(status))
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{
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return SearchIterator::DONE;
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}
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int patLen = normLen;
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int index = start - minLen;
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int mask = getMask(strength);
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int done = CollationElementIterator::NULLORDER & mask;
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#if 0
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if (DEBUG) {
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debug("-------------------------handlePrev-----------------------------------");
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debug("");
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debug("strength=" + strength + ", mask=" + Integer.toString(mask,16)
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+ ", done=" + Integer.toString(done,16));
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debug("decomp=" + collator.getDecomposition());
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debug("target.begin=" + getTarget().getBeginIndex());
|
|
debug("target.end=" + getTarget().getEndIndex());
|
|
}
|
|
#endif
|
|
|
|
while (index >= 0) {
|
|
int patIndex = 0;
|
|
int tval = 0, pval = 0;
|
|
UBool getP = TRUE;
|
|
|
|
iter->setOffset(index, status);
|
|
if (U_FAILURE(status))
|
|
{
|
|
return SearchIterator::DONE;
|
|
}
|
|
|
|
|
|
// if (DEBUG) debug(" outer loop: patIndex=" + patIndex + ", index=" + index);
|
|
|
|
while ((patIndex < patLen || !getP) && iter->getOffset() < start)
|
|
{
|
|
/* if (DEBUG) {
|
|
debug(" inner loop: patIndex=" + patIndex + " iter=" + iter.getOffset());
|
|
}
|
|
*/
|
|
tval = iter->next(status) & mask;
|
|
if (U_FAILURE(status))
|
|
{
|
|
return SearchIterator::DONE;
|
|
}
|
|
if (getP) pval = valueList[patIndex++];
|
|
getP = TRUE;
|
|
|
|
//if (DEBUG) debug(" pval=" + Integer.toString(pval,16) + ", tval=" + Integer.toString(tval,16));
|
|
|
|
if (tval == done) {
|
|
// if (DEBUG) debug(" end of target; no match");
|
|
return DONE;
|
|
}
|
|
else if (tval == 0) {
|
|
// if (DEBUG) debug(" tval is ignorable");
|
|
getP = false;
|
|
}
|
|
else if (pval != tval) {
|
|
// We didn't match this pattern. Skip ahead
|
|
// if (DEBUG) debug(" mismatch: skippping " + getBackShift(tval, patIndex));
|
|
|
|
int shift = getBackShift(tval, patIndex);
|
|
index -= shift;
|
|
break;
|
|
}
|
|
else if (patIndex == patLen) {
|
|
// The elements matched and we're at the end of the pattern,
|
|
// which means we matched the whole thing.
|
|
setMatchLength(iter->getOffset() - index);
|
|
return index;
|
|
}
|
|
}
|
|
if (iter->getOffset() >= start) {
|
|
// We hit the end of the text being searched, which is
|
|
// possible if it contains lots of ignorable characters.
|
|
// Back up one character and try again.
|
|
// if (DEBUG) debug("hit end of target; back by one");
|
|
index--;
|
|
}
|
|
}
|
|
return SearchIterator::DONE;
|
|
}
|
|
|
|
/**
|
|
* Return a bitmask that will select only the portions of a collation
|
|
* element that are significant at the given strength level.
|
|
*/
|
|
int32_t StringSearch::getMask(Collator::ECollationStrength strength)
|
|
{
|
|
switch (strength) {
|
|
case Collator::PRIMARY:
|
|
return 0xFFFF0000;
|
|
case Collator::SECONDARY:
|
|
return 0xFFFFFF00;
|
|
default:
|
|
return 0xFFFFFFFF;
|
|
}
|
|
}
|
|
|
|
|
|
void StringSearch::initialize(UErrorCode& status) {
|
|
/*
|
|
if (DEBUG) {
|
|
debug("-------------------------initialize-----------------------------------");
|
|
debug("pattern=" + pattern);
|
|
}
|
|
*/
|
|
it->setText(pattern, status);
|
|
if (U_FAILURE(status)) {
|
|
delete it;
|
|
return;
|
|
}
|
|
|
|
int mask = getMask(strength);
|
|
|
|
// See how many non-ignorable collation keys are in the text
|
|
normLen = 0;
|
|
int32_t elem;
|
|
while ((elem = it->next(status)) != CollationElementIterator::NULLORDER)
|
|
{
|
|
if (U_FAILURE(status)) {
|
|
return;
|
|
}
|
|
if ((elem & mask) != 0) {
|
|
normLen++;
|
|
}
|
|
}
|
|
|
|
if (valueList != NULL) {
|
|
delete [] valueList;
|
|
}
|
|
|
|
// Save them all
|
|
valueList = new int32_t[normLen];
|
|
int expandLen = 0;
|
|
it->reset();
|
|
|
|
int32_t i;
|
|
for (i = 0; i < normLen; i++)
|
|
{
|
|
elem = it->next(status);
|
|
if (U_FAILURE(status)) {
|
|
return;
|
|
}
|
|
|
|
if ((elem & mask) != 0) {
|
|
valueList[i] = elem & mask;
|
|
|
|
}
|
|
// Keep track of whether there are any expanding-character
|
|
// sequences that can result in one of the characters that's in
|
|
// the pattern. If there are, we have to reduce the shift
|
|
// distances calculated below to account for it.
|
|
expandLen += it->getMaxExpansion(elem) - 1;
|
|
}
|
|
|
|
//
|
|
// We need to remember the size of the composed and decomposed
|
|
// versions of the string. Standard Boyer-Moore shift calculations
|
|
// can be wrong by an amount up to that difference, since a small
|
|
// small number of characters in the pattern can map to a larger
|
|
// number in the text being searched, or vice-versa.
|
|
//
|
|
int uniLen = pattern.length();
|
|
maxLen = uprv_max(normLen, uniLen);
|
|
minLen = uprv_min(normLen, uniLen) - expandLen;
|
|
|
|
|
|
/*
|
|
if (DEBUG) debug("normLen=" + normLen + ", expandLen=" + expandLen
|
|
+ ", maxLen=" + maxLen + ", minLen=" + minLen);
|
|
*/
|
|
// Now initialize the shift tables
|
|
//
|
|
// NOTE: This is the most conservative way to build them. If we had a way
|
|
// of knowing that there were no expanding/contracting chars in the rules,
|
|
// we could get rid of the "- 1" in the shiftTable calculations.
|
|
// But all of the default collators have at least one expansion or
|
|
// contraction, so it probably doesn't matter anyway.
|
|
//
|
|
for (i = 0; i < 256; i++) {
|
|
shiftTable[i] = backShiftTable[i] = minLen;
|
|
}
|
|
|
|
for (i = 0; i < normLen-1; i++) {
|
|
shiftTable[hash(valueList[i])] = uprv_max(minLen - i - 1, 1);
|
|
}
|
|
shiftTable[hash(valueList[normLen-1])] = 1;
|
|
|
|
for (i = normLen - 1; i > 0; i--) {
|
|
backShiftTable[hash(valueList[i])] = i;
|
|
}
|
|
backShiftTable[hash(valueList[0])] = 1;
|
|
|
|
/* dumpTables(); */
|
|
}
|
|
|
|
/**
|
|
* Method used by StringSearch to determine how far to the right to
|
|
* shift the pattern during a Boyer-Moore search.
|
|
*
|
|
* @param curValue The current value in the target text
|
|
* @param curIndex The index in the pattern at which we failed to match
|
|
* curValue in the target text.
|
|
*/
|
|
int32_t StringSearch::getShift( int32_t curValue, int32_t curIndex ) const
|
|
{
|
|
int32_t shiftAmt = shiftTable[hash(curValue)];
|
|
|
|
if (minLen != maxLen) {
|
|
int adjust = normLen - curIndex;
|
|
if (shiftAmt > adjust + 1) {
|
|
// if (DEBUG) debug("getShift: adjusting by " + adjust);
|
|
shiftAmt -= adjust;
|
|
}
|
|
}
|
|
return shiftAmt;
|
|
}
|
|
|
|
/**
|
|
* Method used by StringSearch to determine how far to the left to
|
|
* shift the pattern during a reverse Boyer-Moore search.
|
|
*
|
|
* @param curValue The current value in the target text
|
|
* @param curIndex The index in the pattern at which we failed to match
|
|
* curValue in the target text.
|
|
*/
|
|
int32_t StringSearch::getBackShift( int32_t curValue, int32_t curIndex ) const
|
|
{
|
|
int shiftAmt = backShiftTable[hash(curValue)];
|
|
|
|
if (minLen != maxLen) {
|
|
int adjust = normLen - (minLen - curIndex);
|
|
if (shiftAmt > adjust + 1) {
|
|
// if (DEBUG) debug("getBackShift: adjusting by " + adjust);
|
|
shiftAmt -= adjust;
|
|
}
|
|
}
|
|
return shiftAmt;
|
|
}
|
|
|
|
/**
|
|
* Hash a collation element from its full size (32 bits) down into a
|
|
* value that can be used as an index into the shift tables. Right
|
|
* now we do a modulus by the size of the hash table.
|
|
*
|
|
* TODO: At some point I should experiment to see whether a slightly
|
|
* more complicated hash function gives us a better distribution
|
|
* on multilingual text. I doubt it will have much effect on
|
|
* performance, though.
|
|
*/
|
|
int32_t StringSearch::hash(int32_t order)
|
|
{
|
|
return CollationElementIterator::primaryOrder(order) % 256;
|
|
}
|
|
|
|
|
|
|
|
|