* \code
* "ca" -> the first key is key('c') and second key is key('a').
* "cha" -> the first key is key('ch') and second key is key('a').
* \endcode
*
* And in German,
*
* \code
* "ęb"-> the first key is key('a'), the second key is key('e'), and
* the third key is key('b').
* \endcode
*
* The key of a character, is an integer composed of primary order(short),
* secondary order(char), and tertiary order(char). Java strictly defines the
* size and signedness of its primitive data types. Therefore, the static
* functions primaryOrder(), secondaryOrder(), and tertiaryOrder() return
* int32_t to ensure the correctness of the key value.
* Example of the iterator usage: (without error checking) *
* \code
* void CollationElementIterator_Example()
* {
* UnicodeString str = "This is a test";
* UErrorCode success = U_ZERO_ERROR;
* RuleBasedCollator* rbc =
* (RuleBasedCollator*) RuleBasedCollator::createInstance(success);
* CollationElementIterator* c =
* rbc->createCollationElementIterator( str );
* int32_t order = c->next(success);
* c->reset();
* order = c->previous(success);
* delete c;
* delete rbc;
* }
* \endcode
*
* * CollationElementIterator::next returns the collation order of the next * character based on the comparison level of the collator. * CollationElementIterator::previous returns the collation order of the * previous character based on the comparison level of the collator. * The Collation Element Iterator moves only in one direction between calls to * CollationElementIterator::reset. That is, CollationElementIterator::next() * and CollationElementIterator::previous can not be inter-used. Whenever * CollationElementIterator::previous is to be called after * CollationElementIterator::next() or vice versa, * CollationElementIterator::reset has to be called first to reset the status, * shifting pointers to either the end or the start of the string. Hence at the * next call of CollationElementIterator::previous or * CollationElementIterator::next(), the first or last collation order will be * returned. * If a change of direction is done without a CollationElementIterator::reset(), * the result is undefined. * The result of a forward iterate (CollationElementIterator::next) and * reversed result of the backward iterate (CollationElementIterator::previous) * on the same string are equivalent, if collation orders with the value * UCOL_IGNORABLE are ignored. * Character based on the comparison level of the collator. A collation order * consists of primary order, secondary order and tertiary order. The data * type of the collation order is t_int32. * * Note, CollationElementIterator should not be subclassed. * @see Collator * @see RuleBasedCollator * @version 1.8 Jan 16 2001 */ class U_I18N_API CollationElementIterator { public: // CollationElementIterator public data member ------------------------------ /** * NULLORDER indicates that an error has occured while processing */ static int32_t const NULLORDER; // CollationElementIterator public constructor/destructor ------------------- /** * Copy constructor. */ CollationElementIterator(const CollationElementIterator& other); /** * Destructor */ ~CollationElementIterator(); // CollationElementIterator public methods ---------------------------------- /** * Returns true if "other" is the same as "this" */ UBool operator==(const CollationElementIterator& other) const; /** * Returns true if "other" is not the same as "this". */ UBool operator!=(const CollationElementIterator& other) const; /** * Resets the cursor to the beginning of the string. */ void reset(void); /** * Gets the ordering priority of the next character in the string. * @param status the error code status. * @return the next character's ordering. otherwise returns NULLORDER if an * error has occured or if the end of string has been reached */ int32_t next(UErrorCode& status); /** * Get the ordering priority of the previous collation element in the string. * @param status the error code status. * @return the previous element's ordering. otherwise returns NULLORDER if an * error has occured or if the start of string has been reached */ int32_t previous(UErrorCode& status); /** * Gets the primary order of a collation order. * @param order the collation order * @return the primary order of a collation order. */ static int32_t primaryOrder(int32_t order); /** * Gets the secondary order of a collation order. * @param order the collation order * @return the secondary order of a collation order. */ static int32_t secondaryOrder(int32_t order); /** * Gets the tertiary order of a collation order. * @param order the collation order * @return the tertiary order of a collation order. */ static int32_t tertiaryOrder(int32_t order); /** * Return the maximum length of any expansion sequences that end with the * specified comparison order. * @param order a collation order returned by previous or next. * @return maximum size of the expansion sequences ending with the collation * element or 1 if collation element does not occur at the end of any * expansion sequence */ int32_t getMaxExpansion(int32_t order) const; /** * Gets the comparison order in the desired strength. Ignore the other * differences. * @param order The order value */ int32_t strengthOrder(int32_t order) const; /** * Sets the source string. * @param str the source string. * @param status the error code status. */ void setText(const UnicodeString& str, UErrorCode& status); /** * Sets the source string. * @param str the source character iterator. * @param status the error code status. */ void setText(CharacterIterator& str, UErrorCode& status); /** * Checks if a comparison order is ignorable. * @param order the collation order. * @return TRUE if a character is ignorable, FALSE otherwise. */ static UBool isIgnorable(int32_t order); /** * Gets the offset of the currently processed character in the source string. * @return the offset of the character. */ UTextOffset getOffset(void) const; /** * Sets the offset of the currently processed character in the source string. * @param newOffset the new offset. * @param status the error code status. * @return the offset of the character. */ void setOffset(UTextOffset newOffset, UErrorCode& status); protected: // CollationElementIterator protected constructors -------------------------- friend class RuleBasedCollator; /** * CollationElementIterator constructor. This takes the source string and the * collation object. The cursor will walk thru the source string based on the * predefined collation rules. If the source string is empty, NULLORDER will * be returned on the calls to next(). * @param sourceText the source string. * @param startOffset the beginning offset of the string where the cursor * starts the iterating. * @param endOffset the ending offset of the string where the cursor stops the * iterating. * @param order the collation object. */ CollationElementIterator(const UnicodeString& sourceText, const RuleBasedCollator* order, UErrorCode& status); /** * CollationElementIterator constructor. This takes the source string and the * collation object. The cursor will walk thru the source string based on the * predefined collation rules. If the source string is empty, NULLORDER will * be returned on the calls to next(). * @param sourceText the source string. * @param startOffset the beginning offset of the string where the cursor * starts the iterating. * @param endOffset the ending offset of the string where the cursor stops the * iterating. * @param order the collation object. */ CollationElementIterator(const CharacterIterator& sourceText, const RuleBasedCollator* order, UErrorCode& status); // CollationElementIterator protected methods ------------------------------- /** * Assignment operator */ const CollationElementIterator& operator=(const CollationElementIterator& other); private: // friend class RuleBasedCollator; // CollationElementIterator private data members ---------------------------- // static const int32_t UNMAPPEDCHARVALUE; /* Normalizer* text; // owning VectorOfInt* bufferAlias; // not owned */ /** * ownBuffer wants to be a subobject, not a pointer, but that means exposing * the internal class VectorOfInt by #including the internal header * "tables.h" -- not allowed! ownBuffer is a fixed-size 2-element vector that * is used to handle Thai collation; bufferAlias points to ownBuffer in some * situations. [j159 - aliu] */ // VectorOfInt* ownBuffer; /** * reorderBuffer is created on demand, so it doesn't want to be a subobject -- * pointer is fine. It is created and bufferAlias is set to it under certain * conditions. Once created, it is reused for the life of this object. Because * of the implementation of VectorOfInt, it grows monotonically. [j159 - aliu] */ /* VectorOfInt* reorderBuffer; int32_t expIndex; UnicodeString key; const RuleBasedCollator* orderAlias; */ /** * Data wrapper for collation elements */ UCollationElements *m_data_; /** * Indicates if m_data_ belongs to this object. */ UBool isDataOwned_; // CollationElementIterator private constructor/destructor ------------------ /** * Default constructor. */ /* CollationElementIterator(); */ /** * Constructor. * @param order RuleBasedCollator object */ CollationElementIterator(const RuleBasedCollator* order); // CollationElementIterator private methods --------------------------------- /** * Gets the ordering priority of the next contracting character in the string. * @param ch the starting character of a contracting character token * @param status the error code status. * @return the next contracting character's ordering. Returns NULLORDER if the * end of string is reached. */ // int32_t nextContractChar(UChar32 ch, UErrorCode& status); /** * Gets the ordering priority of the previous contracting character in the * string. * @param ch the starting character of a contracting character token * @param status the error code status. * @return the previous contracting character's ordering. Returns NULLORDER if * the start of string is reached. */ // int32_t prevContractChar(UChar32 ch, UErrorCode& status); // inline static UBool isThaiPreVowel(UChar32 ch); // inline static UBool isThaiBaseConsonant(UChar32 ch); /* VectorOfInt* makeReorderedBuffer(UChar colFirst, int32_t lastValue, VectorOfInt* lastExpansion, UBool forward, UErrorCode& status); */ }; // CollationElementIterator inline method defination -------------------------- /** * Get the primary order of a collation order. * @param order the collation order * @return the primary order of a collation order. */ inline int32_t CollationElementIterator::primaryOrder(int32_t order) { order &= RuleBasedCollator::PRIMARYORDERMASK; return (order >> RuleBasedCollator::PRIMARYORDERSHIFT); } /** * Get the secondary order of a collation order. * @param order the collation order * @return the secondary order of a collation order. */ inline int32_t CollationElementIterator::secondaryOrder(int32_t order) { order = order & RuleBasedCollator::SECONDARYORDERMASK; return (order >> RuleBasedCollator::SECONDARYORDERSHIFT); } /** * Get the tertiary order of a collation order. * @param order the collation order * @return the tertiary order of a collation order. */ inline int32_t CollationElementIterator::tertiaryOrder(int32_t order) { return (order &= RuleBasedCollator::TERTIARYORDERMASK); } inline int32_t CollationElementIterator::getMaxExpansion(int32_t order) const { return ucol_getMaxExpansion(m_data_, (uint32_t)order); } inline UBool CollationElementIterator::isIgnorable(int32_t order) { return (primaryOrder(order) == RuleBasedCollator::PRIMIGNORABLE); } /** * Determine if a character is a Thai vowel (which sorts after * its base consonant). */ /* inline UBool CollationElementIterator::isThaiPreVowel(UChar32 ch) { return ((uint32_t)ch - 0xe40) <= (0xe44 - 0xe40); } */ /** * Determine if a character is a Thai base consonant */ /* inline UBool CollationElementIterator::isThaiBaseConsonant(UChar32 ch) { return ((uint32_t)ch - 0xe01) <= (0xe2e - 0xe01); } */ #endif