2006-02-21 17:13:48 +00:00
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/*
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* HangulLayoutEngine.cpp: OpenType processing for Han fonts.
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*
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2013-04-18 21:24:51 +00:00
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* (C) Copyright IBM Corp. 1998-2013 - All Rights Reserved.
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2006-02-21 17:13:48 +00:00
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*/
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#include "LETypes.h"
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#include "LEScripts.h"
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#include "LELanguages.h"
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#include "LayoutEngine.h"
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#include "OpenTypeLayoutEngine.h"
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#include "HangulLayoutEngine.h"
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#include "ScriptAndLanguageTags.h"
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#include "LEGlyphStorage.h"
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#include "OpenTypeTables.h"
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U_NAMESPACE_BEGIN
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UOBJECT_DEFINE_RTTI_IMPLEMENTATION(HangulOpenTypeLayoutEngine)
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#define FEATURE_MAP(name) {name ## FeatureTag, name ## FeatureMask}
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#define LJMO_FIRST 0x1100
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#define LJMO_LAST 0x1159
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#define LJMO_FILL 0x115F
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#define LJMO_COUNT 19
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#define VJMO_FIRST 0x1161
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#define VJMO_LAST 0x11A2
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#define VJMO_FILL 0x1160
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#define VJMO_COUNT 21
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#define TJMO_FIRST 0x11A7
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#define TJMO_LAST 0x11F9
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#define TJMO_COUNT 28
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#define HSYL_FIRST 0xAC00
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#define HSYL_COUNT 11172
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#define HSYL_LVCNT (VJMO_COUNT * TJMO_COUNT)
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// Character classes
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enum
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{
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CC_L = 0,
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CC_V,
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CC_T,
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CC_LV,
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CC_LVT,
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CC_X,
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CC_COUNT
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};
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// Action flags
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#define AF_L 1
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#define AF_V 2
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#define AF_T 4
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// Actions
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#define a_N 0
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#define a_L (AF_L)
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#define a_V (AF_V)
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#define a_T (AF_T)
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#define a_VT (AF_V | AF_T)
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#define a_LV (AF_L | AF_V)
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#define a_LVT (AF_L | AF_V | AF_T)
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typedef struct
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{
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int32_t newState;
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int32_t actionFlags;
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} StateTransition;
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static const StateTransition stateTable[][CC_COUNT] =
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{
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// L V T LV LVT X
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{ {1, a_L}, {2, a_LV}, {3, a_LVT}, {2, a_LV}, {3, a_LVT}, {4, a_T}}, // 0 - start
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{ {1, a_L}, {2, a_V}, {3, a_VT}, {2, a_LV}, {3, a_LVT}, {-1, a_V}}, // 1 - L+
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{{-1, a_N}, {2, a_V}, {3, a_T}, {-1, a_N}, {-1, a_N}, {-1, a_N}}, // 2 - L+V+
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{{-1, a_N}, {-1, a_N}, {3, a_T}, {-1, a_N}, {-1, a_N}, {-1, a_N}}, // 3 - L+V+T*
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{{-1, a_N}, {-1, a_N}, {-1, a_N}, {-1, a_N}, {-1, a_N}, {4, a_T}} // 4 - X+
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};
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#define ccmpFeatureTag LE_CCMP_FEATURE_TAG
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#define ljmoFeatureTag LE_LJMO_FEATURE_TAG
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#define vjmoFeatureTag LE_VJMO_FEATURE_TAG
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#define tjmoFeatureTag LE_TJMO_FEATURE_TAG
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#define ccmpFeatureMask 0x80000000UL
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#define ljmoFeatureMask 0x40000000UL
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#define vjmoFeatureMask 0x20000000UL
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#define tjmoFeatureMask 0x10000000UL
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static const FeatureMap featureMap[] =
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{
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{ccmpFeatureTag, ccmpFeatureMask},
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{ljmoFeatureTag, ljmoFeatureMask},
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{vjmoFeatureTag, vjmoFeatureMask},
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{tjmoFeatureTag, tjmoFeatureMask}
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};
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static const le_int32 featureMapCount = LE_ARRAY_SIZE(featureMap);
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#define nullFeatures 0
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#define ljmoFeatures (ccmpFeatureMask | ljmoFeatureMask)
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#define vjmoFeatures (ccmpFeatureMask | vjmoFeatureMask | ljmoFeatureMask | tjmoFeatureMask)
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#define tjmoFeatures (ccmpFeatureMask | tjmoFeatureMask | ljmoFeatureMask | vjmoFeatureMask)
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static le_int32 compose(LEUnicode lead, LEUnicode vowel, LEUnicode trail, LEUnicode &syllable)
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{
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le_int32 lIndex = lead - LJMO_FIRST;
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le_int32 vIndex = vowel - VJMO_FIRST;
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le_int32 tIndex = trail - TJMO_FIRST;
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le_int32 result = 3;
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if ((lIndex < 0 || lIndex >= LJMO_COUNT ) || (vIndex < 0 || vIndex >= VJMO_COUNT)) {
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return 0;
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}
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if (tIndex <= 0 || tIndex >= TJMO_COUNT) {
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tIndex = 0;
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result = 2;
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}
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syllable = (LEUnicode) ((lIndex * VJMO_COUNT + vIndex) * TJMO_COUNT + tIndex + HSYL_FIRST);
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return result;
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}
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static le_int32 decompose(LEUnicode syllable, LEUnicode &lead, LEUnicode &vowel, LEUnicode &trail)
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{
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le_int32 sIndex = syllable - HSYL_FIRST;
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if (sIndex < 0 || sIndex >= HSYL_COUNT) {
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return 0;
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}
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lead = LJMO_FIRST + (sIndex / HSYL_LVCNT);
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vowel = VJMO_FIRST + (sIndex % HSYL_LVCNT) / TJMO_COUNT;
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trail = TJMO_FIRST + (sIndex % TJMO_COUNT);
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if (trail == TJMO_FIRST) {
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return 2;
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}
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return 3;
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}
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static le_int32 getCharClass(LEUnicode ch, LEUnicode &lead, LEUnicode &vowel, LEUnicode &trail)
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{
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lead = LJMO_FILL;
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vowel = VJMO_FILL;
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trail = TJMO_FIRST;
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if (ch >= LJMO_FIRST && ch <= LJMO_LAST) {
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lead = ch;
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return CC_L;
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}
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if (ch >= VJMO_FIRST && ch <= VJMO_LAST) {
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vowel = ch;
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return CC_V;
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}
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if (ch > TJMO_FIRST && ch <= TJMO_LAST) {
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trail = ch;
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return CC_T;
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}
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le_int32 c = decompose(ch, lead, vowel, trail);
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if (c == 2) {
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return CC_LV;
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}
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if (c == 3) {
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return CC_LVT;
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}
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trail = ch;
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return CC_X;
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}
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2006-03-18 01:09:27 +00:00
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HangulOpenTypeLayoutEngine::HangulOpenTypeLayoutEngine(const LEFontInstance *fontInstance, le_int32 scriptCode, le_int32 /*languageCode*/,
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2013-04-18 21:24:51 +00:00
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le_int32 typoFlags, const LEReferenceTo<GlyphSubstitutionTableHeader> &gsubTable, LEErrorCode &success)
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2008-12-02 17:17:15 +00:00
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: OpenTypeLayoutEngine(fontInstance, scriptCode, korLanguageCode, typoFlags, gsubTable, success)
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2006-02-21 17:13:48 +00:00
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{
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fFeatureMap = featureMap;
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fFeatureMapCount = featureMapCount;
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fFeatureOrder = TRUE;
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}
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2006-03-18 01:09:27 +00:00
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HangulOpenTypeLayoutEngine::HangulOpenTypeLayoutEngine(const LEFontInstance *fontInstance, le_int32 scriptCode, le_int32 /*languageCode*/,
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2008-12-02 17:17:15 +00:00
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le_int32 typoFlags, LEErrorCode &success)
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: OpenTypeLayoutEngine(fontInstance, scriptCode, korLanguageCode, typoFlags, success)
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2006-02-21 17:13:48 +00:00
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{
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fFeatureMap = featureMap;
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fFeatureMapCount = featureMapCount;
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fFeatureOrder = TRUE;
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}
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HangulOpenTypeLayoutEngine::~HangulOpenTypeLayoutEngine()
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{
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// nothing to do
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}
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le_int32 HangulOpenTypeLayoutEngine::characterProcessing(const LEUnicode chars[], le_int32 offset, le_int32 count, le_int32 max, le_bool rightToLeft,
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LEUnicode *&outChars, LEGlyphStorage &glyphStorage, LEErrorCode &success)
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{
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if (LE_FAILURE(success)) {
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return 0;
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}
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if (chars == NULL || offset < 0 || count < 0 || max < 0 || offset >= max || offset + count > max) {
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success = LE_ILLEGAL_ARGUMENT_ERROR;
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return 0;
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}
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le_int32 worstCase = count * 3;
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outChars = LE_NEW_ARRAY(LEUnicode, worstCase);
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if (outChars == NULL) {
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success = LE_MEMORY_ALLOCATION_ERROR;
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return 0;
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}
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glyphStorage.allocateGlyphArray(worstCase, rightToLeft, success);
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glyphStorage.allocateAuxData(success);
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if (LE_FAILURE(success)) {
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LE_DELETE_ARRAY(outChars);
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return 0;
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}
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le_int32 outCharCount = 0;
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le_int32 limit = offset + count;
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le_int32 i = offset;
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while (i < limit) {
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le_int32 state = 0;
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le_int32 inStart = i;
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le_int32 outStart = outCharCount;
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while( i < limit) {
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LEUnicode lead = 0;
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LEUnicode vowel = 0;
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LEUnicode trail = 0;
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int32_t chClass = getCharClass(chars[i], lead, vowel, trail);
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const StateTransition transition = stateTable[state][chClass];
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if (chClass == CC_X) {
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/* Any character of type X will be stored as a trail jamo */
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if ((transition.actionFlags & AF_T) != 0) {
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outChars[outCharCount] = trail;
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glyphStorage.setCharIndex(outCharCount, i-offset, success);
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glyphStorage.setAuxData(outCharCount++, nullFeatures, success);
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}
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} else {
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/* Any Hangul will be fully decomposed. Output the decomposed characters. */
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if ((transition.actionFlags & AF_L) != 0) {
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outChars[outCharCount] = lead;
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glyphStorage.setCharIndex(outCharCount, i-offset, success);
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glyphStorage.setAuxData(outCharCount++, ljmoFeatures, success);
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}
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if ((transition.actionFlags & AF_V) != 0) {
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outChars[outCharCount] = vowel;
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glyphStorage.setCharIndex(outCharCount, i-offset, success);
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glyphStorage.setAuxData(outCharCount++, vjmoFeatures, success);
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}
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if ((transition.actionFlags & AF_T) != 0) {
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outChars[outCharCount] = trail;
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glyphStorage.setCharIndex(outCharCount, i-offset, success);
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glyphStorage.setAuxData(outCharCount++, tjmoFeatures, success);
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}
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}
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state = transition.newState;
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/* Negative next state means stop. */
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if (state < 0) {
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break;
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}
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i += 1;
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}
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le_int32 inLength = i - inStart;
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le_int32 outLength = outCharCount - outStart;
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/*
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* See if the syllable can be composed into a single character. There are 5
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* possible cases:
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*
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* Input Decomposed to Compose to
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* LV L, V LV
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* LVT L, V, T LVT
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* L, V L, V LV, DEL
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* LV, T L, V, T LVT, DEL
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* L, V, T L, V, T LVT, DEL, DEL
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*/
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if ((inLength >= 1 && inLength <= 3) && (outLength == 2 || outLength == 3)) {
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LEUnicode syllable = 0x0000;
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LEUnicode lead = outChars[outStart];
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LEUnicode vowel = outChars[outStart + 1];
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LEUnicode trail = outLength == 3? outChars[outStart + 2] : TJMO_FIRST;
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/*
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* If the composition consumes the whole decomposed syllable,
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* we can use it.
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*/
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if (compose(lead, vowel, trail, syllable) == outLength) {
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outCharCount = outStart;
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outChars[outCharCount] = syllable;
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glyphStorage.setCharIndex(outCharCount, inStart-offset, success);
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glyphStorage.setAuxData(outCharCount++, nullFeatures, success);
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/*
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* Replace the rest of the input characters with DEL.
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*/
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for(le_int32 d = inStart + 1; d < i; d += 1) {
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outChars[outCharCount] = 0xFFFF;
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glyphStorage.setCharIndex(outCharCount, d - offset, success);
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glyphStorage.setAuxData(outCharCount++, nullFeatures, success);
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}
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}
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}
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}
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glyphStorage.adoptGlyphCount(outCharCount);
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return outCharCount;
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}
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U_NAMESPACE_END
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