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614 lines
21 KiB
614 lines
21 KiB
/*
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**********************************************************************
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* Copyright (C) 1999-2011, International Business Machines
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* Corporation and others. All Rights Reserved.
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**********************************************************************
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* Date Name Description
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* 11/17/99 aliu Creation.
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**********************************************************************
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*/
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#include "unicode/utypes.h"
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#if !UCONFIG_NO_TRANSLITERATION
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#include "unicode/unifilt.h"
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#include "unicode/uniset.h"
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#include "cpdtrans.h"
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#include "uvector.h"
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#include "tridpars.h"
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#include "cmemory.h"
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// keep in sync with Transliterator
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//static const UChar ID_SEP = 0x002D; /*-*/
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static const UChar ID_DELIM = 0x003B; /*;*/
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static const UChar NEWLINE = 10;
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static const UChar COLON_COLON[] = {0x3A, 0x3A, 0}; //"::"
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U_NAMESPACE_BEGIN
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const UChar CompoundTransliterator::PASS_STRING[] = { 0x0025, 0x0050, 0x0061, 0x0073, 0x0073, 0 }; // "%Pass"
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UOBJECT_DEFINE_RTTI_IMPLEMENTATION(CompoundTransliterator)
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/**
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* Constructs a new compound transliterator given an array of
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* transliterators. The array of transliterators may be of any
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* length, including zero or one, however, useful compound
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* transliterators have at least two components.
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* @param transliterators array of <code>Transliterator</code>
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* objects
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* @param transliteratorCount The number of
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* <code>Transliterator</code> objects in transliterators.
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* @param filter the filter. Any character for which
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* <tt>filter.contains()</tt> returns <tt>false</tt> will not be
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* altered by this transliterator. If <tt>filter</tt> is
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* <tt>null</tt> then no filtering is applied.
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*/
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CompoundTransliterator::CompoundTransliterator(
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Transliterator* const transliterators[],
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int32_t transliteratorCount,
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UnicodeFilter* adoptedFilter) :
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Transliterator(joinIDs(transliterators, transliteratorCount), adoptedFilter),
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trans(0), count(0), numAnonymousRBTs(0) {
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setTransliterators(transliterators, transliteratorCount);
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}
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/**
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* Splits an ID of the form "ID;ID;..." into a compound using each
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* of the IDs.
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* @param id of above form
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* @param forward if false, does the list in reverse order, and
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* takes the inverse of each ID.
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*/
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CompoundTransliterator::CompoundTransliterator(const UnicodeString& id,
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UTransDirection direction,
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UnicodeFilter* adoptedFilter,
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UParseError& /*parseError*/,
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UErrorCode& status) :
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Transliterator(id, adoptedFilter),
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trans(0), numAnonymousRBTs(0) {
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// TODO add code for parseError...currently unused, but
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// later may be used by parsing code...
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init(id, direction, TRUE, status);
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}
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CompoundTransliterator::CompoundTransliterator(const UnicodeString& id,
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UParseError& /*parseError*/,
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UErrorCode& status) :
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Transliterator(id, 0), // set filter to 0 here!
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trans(0), numAnonymousRBTs(0) {
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// TODO add code for parseError...currently unused, but
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// later may be used by parsing code...
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init(id, UTRANS_FORWARD, TRUE, status);
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}
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/**
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* Private constructor for use of TransliteratorAlias
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*/
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CompoundTransliterator::CompoundTransliterator(const UnicodeString& newID,
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UVector& list,
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UnicodeFilter* adoptedFilter,
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int32_t anonymousRBTs,
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UParseError& /*parseError*/,
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UErrorCode& status) :
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Transliterator(newID, adoptedFilter),
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trans(0), numAnonymousRBTs(anonymousRBTs)
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{
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init(list, UTRANS_FORWARD, FALSE, status);
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}
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/**
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* Private constructor for Transliterator from a vector of
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* transliterators. The caller is responsible for fixing up the
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* ID.
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*/
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CompoundTransliterator::CompoundTransliterator(UVector& list,
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UParseError& /*parseError*/,
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UErrorCode& status) :
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Transliterator(UnicodeString(), NULL),
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trans(0), numAnonymousRBTs(0)
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{
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// TODO add code for parseError...currently unused, but
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// later may be used by parsing code...
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init(list, UTRANS_FORWARD, FALSE, status);
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// assume caller will fixup ID
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}
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CompoundTransliterator::CompoundTransliterator(UVector& list,
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int32_t anonymousRBTs,
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UParseError& /*parseError*/,
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UErrorCode& status) :
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Transliterator(UnicodeString(), NULL),
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trans(0), numAnonymousRBTs(anonymousRBTs)
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{
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init(list, UTRANS_FORWARD, FALSE, status);
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}
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/**
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* Finish constructing a transliterator: only to be called by
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* constructors. Before calling init(), set trans and filter to NULL.
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* @param id the id containing ';'-separated entries
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* @param direction either FORWARD or REVERSE
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* @param idSplitPoint the index into id at which the
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* adoptedSplitTransliterator should be inserted, if there is one, or
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* -1 if there is none.
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* @param adoptedSplitTransliterator a transliterator to be inserted
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* before the entry at offset idSplitPoint in the id string. May be
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* NULL to insert no entry.
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* @param fixReverseID if TRUE, then reconstruct the ID of reverse
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* entries by calling getID() of component entries. Some constructors
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* do not require this because they apply a facade ID anyway.
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* @param status the error code indicating success or failure
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*/
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void CompoundTransliterator::init(const UnicodeString& id,
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UTransDirection direction,
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UBool fixReverseID,
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UErrorCode& status) {
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// assert(trans == 0);
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if (U_FAILURE(status)) {
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return;
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}
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UVector list(status);
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UnicodeSet* compoundFilter = NULL;
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UnicodeString regenID;
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if (!TransliteratorIDParser::parseCompoundID(id, direction,
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regenID, list, compoundFilter)) {
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status = U_INVALID_ID;
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delete compoundFilter;
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return;
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}
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TransliteratorIDParser::instantiateList(list, status);
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init(list, direction, fixReverseID, status);
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if (compoundFilter != NULL) {
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adoptFilter(compoundFilter);
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}
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}
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/**
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* Finish constructing a transliterator: only to be called by
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* constructors. Before calling init(), set trans and filter to NULL.
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* @param list a vector of transliterator objects to be adopted. It
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* should NOT be empty. The list should be in declared order. That
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* is, it should be in the FORWARD order; if direction is REVERSE then
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* the list order will be reversed.
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* @param direction either FORWARD or REVERSE
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* @param fixReverseID if TRUE, then reconstruct the ID of reverse
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* entries by calling getID() of component entries. Some constructors
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* do not require this because they apply a facade ID anyway.
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* @param status the error code indicating success or failure
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*/
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void CompoundTransliterator::init(UVector& list,
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UTransDirection direction,
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UBool fixReverseID,
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UErrorCode& status) {
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// assert(trans == 0);
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// Allocate array
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if (U_SUCCESS(status)) {
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count = list.size();
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trans = (Transliterator **)uprv_malloc(count * sizeof(Transliterator *));
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/* test for NULL */
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if (trans == 0) {
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status = U_MEMORY_ALLOCATION_ERROR;
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return;
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}
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}
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if (U_FAILURE(status) || trans == 0) {
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// assert(trans == 0);
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return;
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}
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// Move the transliterators from the vector into an array.
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// Reverse the order if necessary.
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int32_t i;
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for (i=0; i<count; ++i) {
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int32_t j = (direction == UTRANS_FORWARD) ? i : count - 1 - i;
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trans[i] = (Transliterator*) list.elementAt(j);
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}
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// If the direction is UTRANS_REVERSE then we may need to fix the
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// ID.
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if (direction == UTRANS_REVERSE && fixReverseID) {
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UnicodeString newID;
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for (i=0; i<count; ++i) {
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if (i > 0) {
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newID.append(ID_DELIM);
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}
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newID.append(trans[i]->getID());
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}
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setID(newID);
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}
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computeMaximumContextLength();
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}
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/**
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* Return the IDs of the given list of transliterators, concatenated
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* with ID_DELIM delimiting them. Equivalent to the perlish expression
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* join(ID_DELIM, map($_.getID(), transliterators).
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*/
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UnicodeString CompoundTransliterator::joinIDs(Transliterator* const transliterators[],
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int32_t transCount) {
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UnicodeString id;
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for (int32_t i=0; i<transCount; ++i) {
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if (i > 0) {
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id.append(ID_DELIM);
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}
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id.append(transliterators[i]->getID());
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}
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return id; // Return temporary
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}
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/**
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* Copy constructor.
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*/
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CompoundTransliterator::CompoundTransliterator(const CompoundTransliterator& t) :
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Transliterator(t), trans(0), count(0), numAnonymousRBTs(-1) {
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*this = t;
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}
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/**
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* Destructor
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*/
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CompoundTransliterator::~CompoundTransliterator() {
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freeTransliterators();
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}
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void CompoundTransliterator::freeTransliterators(void) {
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if (trans != 0) {
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for (int32_t i=0; i<count; ++i) {
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delete trans[i];
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}
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uprv_free(trans);
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}
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trans = 0;
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count = 0;
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}
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/**
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* Assignment operator.
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*/
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CompoundTransliterator& CompoundTransliterator::operator=(
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const CompoundTransliterator& t)
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{
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Transliterator::operator=(t);
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int32_t i = 0;
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UBool failed = FALSE;
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if (trans != NULL) {
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for (i=0; i<count; ++i) {
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delete trans[i];
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trans[i] = 0;
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}
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}
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if (t.count > count) {
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if (trans != NULL) {
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uprv_free(trans);
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}
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trans = (Transliterator **)uprv_malloc(t.count * sizeof(Transliterator *));
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}
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count = t.count;
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if (trans != NULL) {
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for (i=0; i<count; ++i) {
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trans[i] = t.trans[i]->clone();
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if (trans[i] == NULL) {
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failed = TRUE;
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break;
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}
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}
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}
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// if memory allocation failed delete backwards trans array
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if (failed && i > 0) {
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int32_t n;
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for (n = i-1; n >= 0; n--) {
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uprv_free(trans[n]);
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trans[n] = NULL;
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}
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}
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numAnonymousRBTs = t.numAnonymousRBTs;
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return *this;
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}
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/**
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* Transliterator API.
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*/
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Transliterator* CompoundTransliterator::clone(void) const {
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return new CompoundTransliterator(*this);
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}
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/**
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* Returns the number of transliterators in this chain.
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* @return number of transliterators in this chain.
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*/
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int32_t CompoundTransliterator::getCount(void) const {
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return count;
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}
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/**
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* Returns the transliterator at the given index in this chain.
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* @param index index into chain, from 0 to <code>getCount() - 1</code>
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* @return transliterator at the given index
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*/
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const Transliterator& CompoundTransliterator::getTransliterator(int32_t index) const {
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return *trans[index];
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}
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void CompoundTransliterator::setTransliterators(Transliterator* const transliterators[],
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int32_t transCount) {
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Transliterator** a = (Transliterator **)uprv_malloc(transCount * sizeof(Transliterator *));
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if (a == NULL) {
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return;
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}
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int32_t i = 0;
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UBool failed = FALSE;
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for (i=0; i<transCount; ++i) {
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a[i] = transliterators[i]->clone();
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if (a[i] == NULL) {
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failed = TRUE;
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break;
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}
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}
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if (failed && i > 0) {
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int32_t n;
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for (n = i-1; n >= 0; n--) {
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uprv_free(a[n]);
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a[n] = NULL;
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}
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return;
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}
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adoptTransliterators(a, transCount);
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}
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void CompoundTransliterator::adoptTransliterators(Transliterator* adoptedTransliterators[],
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int32_t transCount) {
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// First free trans[] and set count to zero. Once this is done,
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// orphan the filter. Set up the new trans[].
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freeTransliterators();
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trans = adoptedTransliterators;
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count = transCount;
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computeMaximumContextLength();
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setID(joinIDs(trans, count));
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}
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/**
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* Append c to buf, unless buf is empty or buf already ends in c.
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*/
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static void _smartAppend(UnicodeString& buf, UChar c) {
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if (buf.length() != 0 &&
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buf.charAt(buf.length() - 1) != c) {
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buf.append(c);
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}
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}
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UnicodeString& CompoundTransliterator::toRules(UnicodeString& rulesSource,
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UBool escapeUnprintable) const {
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// We do NOT call toRules() on our component transliterators, in
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// general. If we have several rule-based transliterators, this
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// yields a concatenation of the rules -- not what we want. We do
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// handle compound RBT transliterators specially -- those for which
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// compoundRBTIndex >= 0. For the transliterator at compoundRBTIndex,
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// we do call toRules() recursively.
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rulesSource.truncate(0);
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if (numAnonymousRBTs >= 1 && getFilter() != NULL) {
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// If we are a compound RBT and if we have a global
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// filter, then emit it at the top.
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UnicodeString pat;
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rulesSource.append(COLON_COLON, 2).append(getFilter()->toPattern(pat, escapeUnprintable)).append(ID_DELIM);
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}
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for (int32_t i=0; i<count; ++i) {
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UnicodeString rule;
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// Anonymous RuleBasedTransliterators (inline rules and
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// ::BEGIN/::END blocks) are given IDs that begin with
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// "%Pass": use toRules() to write all the rules to the output
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// (and insert "::Null;" if we have two in a row)
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if (trans[i]->getID().startsWith(PASS_STRING, 5)) {
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trans[i]->toRules(rule, escapeUnprintable);
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if (numAnonymousRBTs > 1 && i > 0 && trans[i - 1]->getID().startsWith(PASS_STRING, 5))
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rule = UNICODE_STRING_SIMPLE("::Null;") + rule;
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// we also use toRules() on CompoundTransliterators (which we
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// check for by looking for a semicolon in the ID)-- this gets
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// the list of their child transliterators output in the right
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// format
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} else if (trans[i]->getID().indexOf(ID_DELIM) >= 0) {
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trans[i]->toRules(rule, escapeUnprintable);
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// for everything else, use Transliterator::toRules()
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} else {
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trans[i]->Transliterator::toRules(rule, escapeUnprintable);
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}
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_smartAppend(rulesSource, NEWLINE);
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rulesSource.append(rule);
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_smartAppend(rulesSource, ID_DELIM);
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}
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return rulesSource;
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}
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/**
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* Implement Transliterator framework
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*/
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void CompoundTransliterator::handleGetSourceSet(UnicodeSet& result) const {
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UnicodeSet set;
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result.clear();
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for (int32_t i=0; i<count; ++i) {
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result.addAll(trans[i]->getSourceSet(set));
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// Take the example of Hiragana-Latin. This is really
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// Hiragana-Katakana; Katakana-Latin. The source set of
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// these two is roughly [:Hiragana:] and [:Katakana:].
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// But the source set for the entire transliterator is
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// actually [:Hiragana:] ONLY -- that is, the first
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// non-empty source set.
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// This is a heuristic, and not 100% reliable.
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if (!result.isEmpty()) {
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break;
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}
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}
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}
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/**
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* Override Transliterator framework
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*/
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UnicodeSet& CompoundTransliterator::getTargetSet(UnicodeSet& result) const {
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UnicodeSet set;
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result.clear();
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for (int32_t i=0; i<count; ++i) {
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// This is a heuristic, and not 100% reliable.
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result.addAll(trans[i]->getTargetSet(set));
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}
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return result;
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}
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/**
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* Implements {@link Transliterator#handleTransliterate}.
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*/
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void CompoundTransliterator::handleTransliterate(Replaceable& text, UTransPosition& index,
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UBool incremental) const {
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/* Call each transliterator with the same contextStart and
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* start, but with the limit as modified
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* by preceding transliterators. The start index must be
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* reset for each transliterator to give each a chance to
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* transliterate the text. The initial contextStart index is known
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* to still point to the same place after each transliterator
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* is called because each transliterator will not change the
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* text between contextStart and the initial start index.
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*
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* IMPORTANT: After the first transliterator, each subsequent
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* transliterator only gets to transliterate text committed by
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* preceding transliterators; that is, the start (output
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* value) of transliterator i becomes the limit (input value)
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* of transliterator i+1. Finally, the overall limit is fixed
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* up before we return.
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*
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* Assumptions we make here:
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* (1) contextStart <= start <= limit <= contextLimit <= text.length()
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* (2) start <= start' <= limit' ;cursor doesn't move back
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* (3) start <= limit' ;text before cursor unchanged
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* - start' is the value of start after calling handleKT
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* - limit' is the value of limit after calling handleKT
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*/
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/**
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* Example: 3 transliterators. This example illustrates the
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* mechanics we need to implement. C, S, and L are the contextStart,
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* start, and limit. gl is the globalLimit. contextLimit is
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* equal to limit throughout.
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*
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* 1. h-u, changes hex to Unicode
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*
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* 4 7 a d 0 4 7 a
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* abc/u0061/u => abca/u
|
|
* C S L C S L gl=f->a
|
|
*
|
|
* 2. upup, changes "x" to "XX"
|
|
*
|
|
* 4 7 a 4 7 a
|
|
* abca/u => abcAA/u
|
|
* C SL C S
|
|
* L gl=a->b
|
|
* 3. u-h, changes Unicode to hex
|
|
*
|
|
* 4 7 a 4 7 a d 0 3
|
|
* abcAA/u => abc/u0041/u0041/u
|
|
* C S L C S
|
|
* L gl=b->15
|
|
* 4. return
|
|
*
|
|
* 4 7 a d 0 3
|
|
* abc/u0041/u0041/u
|
|
* C S L
|
|
*/
|
|
|
|
if (count < 1) {
|
|
index.start = index.limit;
|
|
return; // Short circuit for empty compound transliterators
|
|
}
|
|
|
|
// compoundLimit is the limit value for the entire compound
|
|
// operation. We overwrite index.limit with the previous
|
|
// index.start. After each transliteration, we update
|
|
// compoundLimit for insertions or deletions that have happened.
|
|
int32_t compoundLimit = index.limit;
|
|
|
|
// compoundStart is the start for the entire compound
|
|
// operation.
|
|
int32_t compoundStart = index.start;
|
|
|
|
int32_t delta = 0; // delta in length
|
|
|
|
// Give each transliterator a crack at the run of characters.
|
|
// See comments at the top of the method for more detail.
|
|
for (int32_t i=0; i<count; ++i) {
|
|
index.start = compoundStart; // Reset start
|
|
int32_t limit = index.limit;
|
|
|
|
if (index.start == index.limit) {
|
|
// Short circuit for empty range
|
|
break;
|
|
}
|
|
|
|
trans[i]->filteredTransliterate(text, index, incremental);
|
|
|
|
// In a properly written transliterator, start == limit after
|
|
// handleTransliterate() returns when incremental is false.
|
|
// Catch cases where the subclass doesn't do this, and throw
|
|
// an exception. (Just pinning start to limit is a bad idea,
|
|
// because what's probably happening is that the subclass
|
|
// isn't transliterating all the way to the end, and it should
|
|
// in non-incremental mode.)
|
|
if (!incremental && index.start != index.limit) {
|
|
// We can't throw an exception, so just fudge things
|
|
index.start = index.limit;
|
|
}
|
|
|
|
// Cumulative delta for insertions/deletions
|
|
delta += index.limit - limit;
|
|
|
|
if (incremental) {
|
|
// In the incremental case, only allow subsequent
|
|
// transliterators to modify what has already been
|
|
// completely processed by prior transliterators. In the
|
|
// non-incrmental case, allow each transliterator to
|
|
// process the entire text.
|
|
index.limit = index.start;
|
|
}
|
|
}
|
|
|
|
compoundLimit += delta;
|
|
|
|
// Start is good where it is -- where the last transliterator left
|
|
// it. Limit needs to be put back where it was, modulo
|
|
// adjustments for deletions/insertions.
|
|
index.limit = compoundLimit;
|
|
}
|
|
|
|
/**
|
|
* Sets the length of the longest context required by this transliterator.
|
|
* This is <em>preceding</em> context.
|
|
*/
|
|
void CompoundTransliterator::computeMaximumContextLength(void) {
|
|
int32_t max = 0;
|
|
for (int32_t i=0; i<count; ++i) {
|
|
int32_t len = trans[i]->getMaximumContextLength();
|
|
if (len > max) {
|
|
max = len;
|
|
}
|
|
}
|
|
setMaximumContextLength(max);
|
|
}
|
|
|
|
U_NAMESPACE_END
|
|
|
|
#endif /* #if !UCONFIG_NO_TRANSLITERATION */
|
|
|
|
/* eof */
|
|
|