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262 lines
9.1 KiB
C++
262 lines
9.1 KiB
C++
/*
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*****************************************************************************************
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* *
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* COPYRIGHT: *
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* (C) Copyright Taligent, Inc., 1996 *
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* (C) Copyright International Business Machines Corporation, 1996 *
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* Licensed Material - Program-Property of IBM - All Rights Reserved. *
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* US Government Users Restricted Rights - Use, duplication, or disclosure *
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* restricted by GSA ADP Schedule Contract with IBM Corp. *
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* *
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*****************************************************************************************
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*/
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//===============================================================================
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//
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// File sortkey.h
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//
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//
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//
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// Created by: Helena Shih
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//
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// Modification History:
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//
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// Date Name Description
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//
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// 6/20/97 helena Java class name change.
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// 8/18/97 helena Added internal API documentation.
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//===============================================================================
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#ifndef _SORTKEY
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#define _SORTKEY
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#ifndef _PTYPES
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#include "ptypes.h"
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#endif
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#ifndef _UNISTRING
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#include "unistring.h"
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#endif
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#ifndef _COLL
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#include "coll.h"
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#endif
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/**
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* Collation keys are generated by the Collator class. Use the CollationKey objects
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* instead of Collator to compare strings multiple times. A CollationKey
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* preprocesses the comparison information from the Collator object to
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* make the comparison faster. If you are not going to comparing strings
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* multiple times, then using the Collator object is generally faster,
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* since it only processes as much of the string as needed to make a
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* comparison.
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* <p> For example (with strength == tertiary)
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* <p>When comparing "Abernathy" to "Baggins-Smythworthy", Collator
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* only needs to process a couple of characters, while a comparison
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* with CollationKeys will process all of the characters. On the other hand,
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* if you are doing a sort of a number of fields, it is much faster to use
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* CollationKeys, since you will be comparing strings multiple times.
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* <p>Typical use of CollationKeys are in databases, where you store a CollationKey
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* in a hidden field, and use it for sorting or indexing.
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*
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* <p>Example of use:
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* <pre>
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* . ErrorCode status = ZERO_ERROR;
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* . Collator *myCollation = Collator::getDefault(Locale::FRANCE, status);
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* . if (FAILURE(status)) return;
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* . // Set to ignore the accent differences
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* . myCollation->setStrength(Collator::PRIMARY);
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* . UniChar sortchars[][MAX_TOKEN] = {
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* . {'a', 'b', 'c', 0},
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* . {0x00e4, 'b', 'c', 0},
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* . {0x00c4, 'B', 'C', 0},
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* . {0x00c4, 'b', 'c', 0},
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* . {'r', 'e', 's', 'u', 'm', 'e', 0},
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* . {'r', 0x00e9, 's', 'u', 'm', 0x00e9, 0},
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* . {'R', 'E', 'S', 'U', 'M', 'E', 0},
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* . {'R', 0x00e9, 's', 'u', 'm', 0x00e9, 0}
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* . };
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* . UnicodeString *sortlist[8];
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* . CollationKey sortKeys[8];
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* . myCollation->setStrength(Collator::SECONDARY);
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* . int i;
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* . for (i = 0; i < 8; i++) {
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* . ErrorCode keyStatus = ZERO_ERROR;
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* . sortlist[i] = new UnicodeString(sortchars[i]);
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* . sortKeys[i] = myCollation->getCollationKey(*sortlist[i], sortKeys[i], keyStatus);
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* . if (FAILURE(keyStatus)) { delete myCollation; return; } // getCollationKey failed.
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* . }
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* . // query the "RESUME", "r<>sum<75>", and "R<>sum<75>" collation keys
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* . // will return the objects that compares equal
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* . if ((sortKeys[4] == sortKeys[5]) &&
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* . (sortKeys[5] == sortKeys[6]) &&
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* . (sortKeys[6] == sortKey2[7]))
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* . printf("Test passes!\n");
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* </pre>
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* <p>Because Collator::compare()'s algorithm is complex, it is faster to sort
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* long lists of words by retrieving collation keys with Collator::getCollationKey().
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* You can then cache the collation keys and compare them using CollationKey::compareTo().
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* @see Collator
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* @see RuleBasedCollator
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* @version 1.3 12/18/96
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* @author Helena Shih
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*/
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#ifdef NLS_MAC
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#pragma export on
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#endif
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class T_COLLATE_API CollationKey {
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public :
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/**
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* This creates an empty collation key based on the null string. An empty
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* collation key contains no sorting information. When comparing two empty
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* collation keys, the result is Collator::EQUAL. Comparing empty collation key
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* with non-empty collation key is always Collator::LESS.
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*/
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CollationKey();
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/**
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* Creates a collation key based on the collation key values.
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* @param values the collation key values
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* @param count number of collation key values
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* @see #createBits
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*/
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CollationKey(const t_uint8* values,
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t_int32 count);
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/**
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* Copy constructor.
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*/
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CollationKey(const CollationKey& other);
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/**
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* Sort key destructor.
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*/
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~CollationKey();
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/**
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* Assignment operator
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*/
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const CollationKey& operator=(const CollationKey& other);
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/**
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* Compare if two collation keys are the same.
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* @param source the collation key to compare to.
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* @return Returns true if two collation keys are equal, false otherwise.
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*/
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t_bool operator==(const CollationKey& source) const;
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/**
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* Compare if two collation keys are not the same.
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* @param source the collation key to compare to.
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* @return Returns true if two collation keys are different, false otherwise.
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*/
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t_bool operator!=(const CollationKey& source) const;
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/**
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* Extracts the collation key values.
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* @param count the output parameter of number of collation key values
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*/
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t_uint8* toByteArray( t_int32& count) const;
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t_uint8* createBits( t_int32& count) const;
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/**
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* Convenience method which does a string(bit-wise) comparison of the
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* two collation keys.
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* @param sourceKey source collation key
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* @param targetKey target collation key
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* @return Returns Collator::LESS if sourceKey < targetKey,
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* Collator::GREATER if sourceKey > targetKey and Collator::EQUAL
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* otherwise.
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* @see UnicodeString::compare
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*/
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Collator::EComparisonResult compareTo(const CollationKey& target) const;
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Collator::EComparisonResult compare(const CollationKey& target) const;
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/**
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* Creates an integer that is unique to the collation key. NOTE: this
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* is not the same as String.hashCode.
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* <p>Example of use:
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* <pre>
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* . ErrorCode status = ZERO_ERROR;
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* . Collator *myCollation = Collator::createInstance(Locale::US, status);
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* . if (FAILURE(status)) return;
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* . CollationKey key1, key2;
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* . ErrorCode status1 = ZERO_ERROR, status2 = ZERO_ERROR;
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* . myCollation->getCollationKey("abc", key1, status1);
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* . if (FAILURE(status1)) { delete myCollation; return; }
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* . myCollation->getCollationKey("ABC", key2, status2);
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* . if (FAILURE(status2)) { delete myCollation; return; }
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* . // key1.hashCode() != key2.hashCode()
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* </pre>
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* @return the hash value based on the string's collation order.
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* @see UnicodeString#hashCode
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*/
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t_int32 hashCode() const;
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const UniChar* getValues(t_int32& size) const;
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private:
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/*
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* Creates a collation key with a string.
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*/
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CollationKey(const UnicodeString& value);
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friend class RuleBasedCollator;
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UnicodeString strValue;
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};
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#ifdef NLS_MAC
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#pragma export off
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#endif
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inline const CollationKey&
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CollationKey::operator=( const CollationKey& other)
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{
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if (this != &other) {
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strValue = other.strValue;
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}
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return *this;
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}
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inline t_bool
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CollationKey::operator==(const CollationKey& source) const
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{
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return (this->strValue == source.strValue);
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}
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inline t_bool
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CollationKey::operator!=( const CollationKey& other) const
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{
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return !(*this == other);
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}
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inline t_int32
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CollationKey::hashCode() const
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{
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return (strValue.hashCode());
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}
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// Bitwise comparison for the collation keys.
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inline Collator::EComparisonResult
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CollationKey::compareTo(const CollationKey& target) const
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{
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return (Collator::EComparisonResult)strValue.compare(target.strValue);
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}
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inline Collator::EComparisonResult
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CollationKey::compare(const CollationKey& target) const
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{
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return compareTo(target);
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}
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inline t_uint8*
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CollationKey::createBits( t_int32& count) const
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{
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return toByteArray(count);
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}
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inline const UniChar*
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CollationKey::getValues(t_int32& size) const
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{
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size = strValue.size();
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return ((const UniChar*)strValue);
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}
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#endif
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