1 /*
2 / *
3  * (C) Copyright IBM Corp. 1998-2013 - All Rights Reserved
4  *
5  */
6 
7 #include "LETypes.h"
8 #include "OpenTypeTables.h"
9 #include "OpenTypeUtilities.h"
10 #include "IndicReordering.h"
11 #include "LEGlyphStorage.h"
12 #include "MPreFixups.h"
13 
14 U_NAMESPACE_BEGIN
15 
16 #define loclFeatureTag LE_LOCL_FEATURE_TAG
17 #define initFeatureTag LE_INIT_FEATURE_TAG
18 #define nuktFeatureTag LE_NUKT_FEATURE_TAG
19 #define akhnFeatureTag LE_AKHN_FEATURE_TAG
20 #define rphfFeatureTag LE_RPHF_FEATURE_TAG
21 #define rkrfFeatureTag LE_RKRF_FEATURE_TAG
22 #define blwfFeatureTag LE_BLWF_FEATURE_TAG
23 #define halfFeatureTag LE_HALF_FEATURE_TAG
24 #define pstfFeatureTag LE_PSTF_FEATURE_TAG
25 #define vatuFeatureTag LE_VATU_FEATURE_TAG
26 #define presFeatureTag LE_PRES_FEATURE_TAG
27 #define blwsFeatureTag LE_BLWS_FEATURE_TAG
28 #define abvsFeatureTag LE_ABVS_FEATURE_TAG
29 #define pstsFeatureTag LE_PSTS_FEATURE_TAG
30 #define halnFeatureTag LE_HALN_FEATURE_TAG
31 #define cjctFeatureTag LE_CJCT_FEATURE_TAG
32 #define blwmFeatureTag LE_BLWM_FEATURE_TAG
33 #define abvmFeatureTag LE_ABVM_FEATURE_TAG
34 #define distFeatureTag LE_DIST_FEATURE_TAG
35 #define caltFeatureTag LE_CALT_FEATURE_TAG
36 #define kernFeatureTag LE_KERN_FEATURE_TAG
37 
38 #define loclFeatureMask 0x80000000UL
39 #define rphfFeatureMask 0x40000000UL
40 #define blwfFeatureMask 0x20000000UL
41 #define halfFeatureMask 0x10000000UL
42 #define pstfFeatureMask 0x08000000UL
43 #define nuktFeatureMask 0x04000000UL
44 #define akhnFeatureMask 0x02000000UL
45 #define vatuFeatureMask 0x01000000UL
46 #define presFeatureMask 0x00800000UL
47 #define blwsFeatureMask 0x00400000UL
48 #define abvsFeatureMask 0x00200000UL
49 #define pstsFeatureMask 0x00100000UL
50 #define halnFeatureMask 0x00080000UL
51 #define blwmFeatureMask 0x00040000UL
52 #define abvmFeatureMask 0x00020000UL
53 #define distFeatureMask 0x00010000UL
54 #define initFeatureMask 0x00008000UL
55 #define cjctFeatureMask 0x00004000UL
56 #define rkrfFeatureMask 0x00002000UL
57 #define caltFeatureMask 0x00001000UL
58 #define kernFeatureMask 0x00000800UL
59 
60 // Syllable structure bits
61 #define baseConsonantMask       0x00000400UL
62 #define consonantMask           0x00000200UL
63 #define halfConsonantMask       0x00000100UL
64 #define rephConsonantMask       0x00000080UL
65 #define matraMask               0x00000040UL
66 #define vowelModifierMask       0x00000020UL
67 #define markPositionMask        0x00000018UL
68 
69 #define postBasePosition        0x00000000UL
70 #define preBasePosition         0x00000008UL
71 #define aboveBasePosition       0x00000010UL
72 #define belowBasePosition       0x00000018UL
73 
74 #define repositionedGlyphMask   0x00000002UL
75 
76 #define basicShapingFormsMask ( loclFeatureMask | nuktFeatureMask | akhnFeatureMask | rkrfFeatureMask | blwfFeatureMask | halfFeatureMask | vatuFeatureMask | cjctFeatureMask )
77 #define positioningFormsMask ( kernFeatureMask | distFeatureMask | abvmFeatureMask | blwmFeatureMask )
78 #define presentationFormsMask ( presFeatureMask | abvsFeatureMask | blwsFeatureMask | pstsFeatureMask | halnFeatureMask | caltFeatureMask )
79 
80 
81 #define C_MALAYALAM_VOWEL_SIGN_U 0x0D41
82 #define	C_DOTTED_CIRCLE 0x25CC
83 #define NO_GLYPH 0xFFFF
84 
85 // Some level of debate as to the proper value for MAX_CONSONANTS_PER_SYLLABLE.  Ticket 5588 states that 4
86 // is the magic number according to ISCII, but 5 seems to be the more consistent with XP.
87 #define MAX_CONSONANTS_PER_SYLLABLE 5
88 
89 #define INDIC_BLOCK_SIZE 0x7F
90 
91 class IndicReorderingOutput : public UMemory {
92 private:
93     le_int32   fSyllableCount;
94     le_int32   fOutIndex;
95     LEUnicode *fOutChars;
96 
97     LEGlyphStorage &fGlyphStorage;
98 
99     LEUnicode   fMpre;
100     le_int32    fMpreIndex;
101 
102     LEUnicode   fMbelow;
103     le_int32    fMbelowIndex;
104 
105     LEUnicode   fMabove;
106     le_int32    fMaboveIndex;
107 
108     LEUnicode   fMpost;
109     le_int32    fMpostIndex;
110 
111     LEUnicode   fLengthMark;
112     le_int32    fLengthMarkIndex;
113 
114     LEUnicode   fAlLakuna;
115     le_int32    fAlLakunaIndex;
116 
117     FeatureMask fMatraFeatures;
118 
119     le_int32    fMPreOutIndex;
120     MPreFixups *fMPreFixups;
121 
122     LEUnicode   fVMabove;
123     LEUnicode   fVMpost;
124     le_int32    fVMIndex;
125     FeatureMask fVMFeatures;
126 
127     LEUnicode   fSMabove;
128     LEUnicode   fSMbelow;
129     le_int32    fSMIndex;
130     FeatureMask fSMFeatures;
131 
132     LEUnicode   fPreBaseConsonant;
133     LEUnicode   fPreBaseVirama;
134     le_int32    fPBCIndex;
135     FeatureMask fPBCFeatures;
136 
saveMatra(LEUnicode matra,le_int32 matraIndex,IndicClassTable::CharClass matraClass)137     void saveMatra(LEUnicode matra, le_int32 matraIndex, IndicClassTable::CharClass matraClass)
138     {
139         // FIXME: check if already set, or if not a matra...
140         if (IndicClassTable::isLengthMark(matraClass)) {
141             fLengthMark = matra;
142             fLengthMarkIndex = matraIndex;
143         } else if (IndicClassTable::isAlLakuna(matraClass)) {
144             fAlLakuna = matra;
145             fAlLakunaIndex = matraIndex;
146         } else {
147             switch (matraClass & CF_POS_MASK) {
148             case CF_POS_BEFORE:
149                 fMpre = matra;
150                 fMpreIndex = matraIndex;
151                 break;
152 
153             case CF_POS_BELOW:
154                 fMbelow = matra;
155                 fMbelowIndex = matraIndex;
156                 break;
157 
158             case CF_POS_ABOVE:
159                 fMabove = matra;
160                 fMaboveIndex = matraIndex;
161                 break;
162 
163             case CF_POS_AFTER:
164                 fMpost = matra;
165                 fMpostIndex = matraIndex;
166                 break;
167 
168             default:
169                 // can't get here...
170                 break;
171            }
172         }
173     }
174 
175 public:
IndicReorderingOutput(LEUnicode * outChars,LEGlyphStorage & glyphStorage,MPreFixups * mpreFixups)176     IndicReorderingOutput(LEUnicode *outChars, LEGlyphStorage &glyphStorage, MPreFixups *mpreFixups)
177         : fSyllableCount(0), fOutIndex(0), fOutChars(outChars), fGlyphStorage(glyphStorage),
178           fMpre(0), fMpreIndex(0), fMbelow(0), fMbelowIndex(0), fMabove(0), fMaboveIndex(0),
179           fMpost(0), fMpostIndex(0), fLengthMark(0), fLengthMarkIndex(0), fAlLakuna(0), fAlLakunaIndex(0),
180           fMatraFeatures(0), fMPreOutIndex(-1), fMPreFixups(mpreFixups),
181           fVMabove(0), fVMpost(0), fVMIndex(0), fVMFeatures(0),
182           fSMabove(0), fSMbelow(0), fSMIndex(0), fSMFeatures(0),
183           fPreBaseConsonant(0), fPreBaseVirama(0), fPBCIndex(0), fPBCFeatures(0)
184     {
185         // nothing else to do...
186     }
187 
~IndicReorderingOutput()188     ~IndicReorderingOutput()
189     {
190         // nothing to do here...
191     }
192 
reset()193     void reset()
194     {
195         fSyllableCount += 1;
196 
197         fMpre = fMbelow = fMabove = fMpost = fLengthMark = fAlLakuna = 0;
198         fMPreOutIndex = -1;
199 
200         fVMabove = fVMpost  = 0;
201         fSMabove = fSMbelow = 0;
202 
203         fPreBaseConsonant = fPreBaseVirama = 0;
204     }
205 
writeChar(LEUnicode ch,le_uint32 charIndex,FeatureMask charFeatures)206     void writeChar(LEUnicode ch, le_uint32 charIndex, FeatureMask charFeatures)
207     {
208         LEErrorCode success = LE_NO_ERROR;
209 
210         fOutChars[fOutIndex] = ch;
211 
212         fGlyphStorage.setCharIndex(fOutIndex, charIndex, success);
213         fGlyphStorage.setAuxData(fOutIndex, charFeatures | (fSyllableCount & LE_GLYPH_GROUP_MASK), success);
214 
215         fOutIndex += 1;
216     }
217 
setFeatures(le_uint32 charIndex,FeatureMask charFeatures)218     void setFeatures ( le_uint32 charIndex, FeatureMask charFeatures)
219     {
220         LEErrorCode success = LE_NO_ERROR;
221 
222         fGlyphStorage.setAuxData( charIndex, charFeatures, success );
223 
224     }
225 
getFeatures(le_uint32 charIndex)226     FeatureMask getFeatures ( le_uint32 charIndex )
227     {
228         LEErrorCode success = LE_NO_ERROR;
229         return fGlyphStorage.getAuxData(charIndex,success);
230     }
231 
decomposeReorderMatras(const IndicClassTable * classTable,le_int32 beginSyllable,le_int32 nextSyllable,le_int32 inv_count)232 	void decomposeReorderMatras ( const IndicClassTable *classTable, le_int32 beginSyllable, le_int32 nextSyllable, le_int32 inv_count ) {
233 		le_int32 i;
234         LEErrorCode success = LE_NO_ERROR;
235 
236 		for ( i = beginSyllable ; i < nextSyllable ; i++ ) {
237 			if ( classTable->isMatra(fOutChars[i+inv_count])) {
238 				IndicClassTable::CharClass matraClass = classTable->getCharClass(fOutChars[i+inv_count]);
239 				if ( classTable->isSplitMatra(matraClass)) {
240 					le_int32 saveIndex = fGlyphStorage.getCharIndex(i+inv_count,success);
241 					le_uint32 saveAuxData = fGlyphStorage.getAuxData(i+inv_count,success);
242                     const SplitMatra *splitMatra = classTable->getSplitMatra(matraClass);
243                     int j;
244                     for (j = 0 ; j < SM_MAX_PIECES && *(splitMatra)[j] != 0 ; j++) {
245                         LEUnicode piece = (*splitMatra)[j];
246 						if ( j == 0 ) {
247 							fOutChars[i+inv_count] = piece;
248 							matraClass = classTable->getCharClass(piece);
249 						} else {
250 							insertCharacter(piece,i+1+inv_count,saveIndex,saveAuxData);
251 							nextSyllable++;
252 						}
253  				    }
254 				}
255 
256 				if ((matraClass & CF_POS_MASK) == CF_POS_BEFORE) {
257                     moveCharacter(i+inv_count,beginSyllable+inv_count);
258 				}
259 			}
260 		}
261 	}
262 
moveCharacter(le_int32 fromPosition,le_int32 toPosition)263 	void moveCharacter( le_int32 fromPosition, le_int32 toPosition ) {
264 		le_int32 i,saveIndex;
265 		le_uint32 saveAuxData;
266 		LEUnicode saveChar = fOutChars[fromPosition];
267 	    LEErrorCode success = LE_NO_ERROR;
268 		LEErrorCode success2 = LE_NO_ERROR;
269 		saveIndex = fGlyphStorage.getCharIndex(fromPosition,success);
270         saveAuxData = fGlyphStorage.getAuxData(fromPosition,success);
271 
272 		if ( fromPosition > toPosition ) {
273 			for ( i = fromPosition ; i > toPosition ; i-- ) {
274 				fOutChars[i] = fOutChars[i-1];
275 				fGlyphStorage.setCharIndex(i,fGlyphStorage.getCharIndex(i-1,success2),success);
276 				fGlyphStorage.setAuxData(i,fGlyphStorage.getAuxData(i-1,success2), success);
277 
278 			}
279 		} else {
280 			for ( i = fromPosition ; i < toPosition ; i++ ) {
281 				fOutChars[i] = fOutChars[i+1];
282 				fGlyphStorage.setCharIndex(i,fGlyphStorage.getCharIndex(i+1,success2),success);
283 				fGlyphStorage.setAuxData(i,fGlyphStorage.getAuxData(i+1,success2), success);
284 			}
285 
286 		}
287 		fOutChars[toPosition] = saveChar;
288 		fGlyphStorage.setCharIndex(toPosition,saveIndex,success);
289 		fGlyphStorage.setAuxData(toPosition,saveAuxData,success);
290 
291 	}
insertCharacter(LEUnicode ch,le_int32 toPosition,le_int32 charIndex,le_uint32 auxData)292 	void insertCharacter( LEUnicode ch, le_int32 toPosition, le_int32 charIndex, le_uint32 auxData ) {
293 	    LEErrorCode success = LE_NO_ERROR;
294         le_int32 i;
295 		fOutIndex += 1;
296 
297 		for ( i = fOutIndex ; i > toPosition ; i--) {
298 				fOutChars[i] = fOutChars[i-1];
299 				fGlyphStorage.setCharIndex(i,fGlyphStorage.getCharIndex(i-1,success),success);
300 				fGlyphStorage.setAuxData(i,fGlyphStorage.getAuxData(i-1,success), success);
301 		}
302 
303 		fOutChars[toPosition] = ch;
304 		fGlyphStorage.setCharIndex(toPosition,charIndex,success);
305 		fGlyphStorage.setAuxData(toPosition,auxData,success);
306 
307 	}
removeCharacter(le_int32 fromPosition)308 	void removeCharacter( le_int32 fromPosition ) {
309 	    LEErrorCode success = LE_NO_ERROR;
310         le_int32 i;
311 		fOutIndex -= 1;
312 
313 		for ( i = fromPosition ; i < fOutIndex ; i--) {
314 				fOutChars[i] = fOutChars[i+1];
315 				fGlyphStorage.setCharIndex(i,fGlyphStorage.getCharIndex(i+1,success),success);
316 				fGlyphStorage.setAuxData(i,fGlyphStorage.getAuxData(i+1,success), success);
317 		}
318 	}
319 
noteMatra(const IndicClassTable * classTable,LEUnicode matra,le_uint32 matraIndex,FeatureMask matraFeatures,le_bool wordStart)320     le_bool noteMatra(const IndicClassTable *classTable, LEUnicode matra, le_uint32 matraIndex, FeatureMask matraFeatures, le_bool wordStart)
321     {
322         IndicClassTable::CharClass matraClass = classTable->getCharClass(matra);
323 
324         fMatraFeatures  = matraFeatures;
325 
326         if (wordStart) {
327             fMatraFeatures |= initFeatureMask;
328         }
329 
330         if (IndicClassTable::isMatra(matraClass)) {
331             if (IndicClassTable::isSplitMatra(matraClass)) {
332                 const SplitMatra *splitMatra = classTable->getSplitMatra(matraClass);
333                 int i;
334 
335                 for (i = 0; i < SM_MAX_PIECES && (*splitMatra)[i] != 0; i += 1) {
336                     LEUnicode piece = (*splitMatra)[i];
337                     IndicClassTable::CharClass pieceClass = classTable->getCharClass(piece);
338 
339                     saveMatra(piece, matraIndex, pieceClass);
340                 }
341             } else {
342                 saveMatra(matra, matraIndex, matraClass);
343             }
344 
345             return TRUE;
346         }
347 
348         return FALSE;
349     }
350 
noteVowelModifier(const IndicClassTable * classTable,LEUnicode vowelModifier,le_uint32 vowelModifierIndex,FeatureMask vowelModifierFeatures)351     void noteVowelModifier(const IndicClassTable *classTable, LEUnicode vowelModifier, le_uint32 vowelModifierIndex, FeatureMask vowelModifierFeatures)
352     {
353         IndicClassTable::CharClass vmClass = classTable->getCharClass(vowelModifier);
354 
355         fVMIndex = vowelModifierIndex;
356         fVMFeatures  = vowelModifierFeatures;
357 
358         if (IndicClassTable::isVowelModifier(vmClass)) {
359            switch (vmClass & CF_POS_MASK) {
360            case CF_POS_ABOVE:
361                fVMabove = vowelModifier;
362                break;
363 
364            case CF_POS_AFTER:
365                fVMpost = vowelModifier;
366                break;
367 
368            default:
369                // FIXME: this is an error...
370                break;
371            }
372         }
373     }
374 
noteStressMark(const IndicClassTable * classTable,LEUnicode stressMark,le_uint32 stressMarkIndex,FeatureMask stressMarkFeatures)375     void noteStressMark(const IndicClassTable *classTable, LEUnicode stressMark, le_uint32 stressMarkIndex, FeatureMask stressMarkFeatures)
376     {
377        IndicClassTable::CharClass smClass = classTable->getCharClass(stressMark);
378 
379         fSMIndex = stressMarkIndex;
380         fSMFeatures  = stressMarkFeatures;
381 
382         if (IndicClassTable::isStressMark(smClass)) {
383             switch (smClass & CF_POS_MASK) {
384             case CF_POS_ABOVE:
385                 fSMabove = stressMark;
386                 break;
387 
388             case CF_POS_BELOW:
389                 fSMbelow = stressMark;
390                 break;
391 
392             default:
393                 // FIXME: this is an error...
394                 break;
395            }
396         }
397     }
398 
notePreBaseConsonant(le_uint32 index,LEUnicode PBConsonant,LEUnicode PBVirama,FeatureMask features)399     void notePreBaseConsonant(le_uint32 index,LEUnicode PBConsonant, LEUnicode PBVirama, FeatureMask features)
400     {
401         fPBCIndex = index;
402         fPreBaseConsonant = PBConsonant;
403         fPreBaseVirama = PBVirama;
404         fPBCFeatures = features;
405     }
406 
noteBaseConsonant()407     void noteBaseConsonant()
408     {
409         if (fMPreFixups != NULL && fMPreOutIndex >= 0) {
410             fMPreFixups->add(fOutIndex, fMPreOutIndex);
411         }
412     }
413 
414     // Handles Al-Lakuna in Sinhala split vowels.
writeAlLakuna()415     void writeAlLakuna()
416     {
417         if (fAlLakuna != 0) {
418             writeChar(fAlLakuna, fAlLakunaIndex, fMatraFeatures);
419         }
420     }
421 
writeMpre()422     void writeMpre()
423     {
424         if (fMpre != 0) {
425             fMPreOutIndex = fOutIndex;
426             writeChar(fMpre, fMpreIndex, fMatraFeatures);
427         }
428     }
429 
writeMbelow()430     void writeMbelow()
431     {
432         if (fMbelow != 0) {
433             writeChar(fMbelow, fMbelowIndex, fMatraFeatures);
434         }
435     }
436 
writeMabove()437     void writeMabove()
438     {
439         if (fMabove != 0) {
440             writeChar(fMabove, fMaboveIndex, fMatraFeatures);
441         }
442     }
443 
writeMpost()444     void writeMpost()
445     {
446         if (fMpost != 0) {
447             writeChar(fMpost, fMpostIndex, fMatraFeatures);
448         }
449     }
450 
writeLengthMark()451     void writeLengthMark()
452     {
453         if (fLengthMark != 0) {
454             writeChar(fLengthMark, fLengthMarkIndex, fMatraFeatures);
455         }
456     }
457 
writeVMabove()458     void writeVMabove()
459     {
460         if (fVMabove != 0) {
461             writeChar(fVMabove, fVMIndex, fVMFeatures);
462         }
463     }
464 
writeVMpost()465     void writeVMpost()
466     {
467         if (fVMpost != 0) {
468             writeChar(fVMpost, fVMIndex, fVMFeatures);
469         }
470     }
471 
writeSMabove()472     void writeSMabove()
473     {
474         if (fSMabove != 0) {
475             writeChar(fSMabove, fSMIndex, fSMFeatures);
476         }
477     }
478 
writeSMbelow()479     void writeSMbelow()
480     {
481         if (fSMbelow != 0) {
482             writeChar(fSMbelow, fSMIndex, fSMFeatures);
483         }
484     }
485 
writePreBaseConsonant()486     void writePreBaseConsonant()
487     {
488         // The TDIL spec says that consonant + virama + RRA should produce a rakar in Malayalam.  However,
489         // it seems that almost none of the fonts for Malayalam are set up to handle this.
490         // So, we're going to force the issue here by using the rakar as defined with RA in most fonts.
491 
492         if (fPreBaseConsonant == 0x0d31) { // RRA
493             fPreBaseConsonant = 0x0d30; // RA
494         }
495 
496         if (fPreBaseConsonant != 0) {
497             writeChar(fPreBaseConsonant, fPBCIndex, fPBCFeatures);
498             writeChar(fPreBaseVirama,fPBCIndex-1,fPBCFeatures);
499         }
500     }
501 
getOutputIndex()502     le_int32 getOutputIndex()
503     {
504         return fOutIndex;
505     }
506 };
507 
508 
509 
510 // TODO: Find better names for these!
511 #define tagArray4 (loclFeatureMask | nuktFeatureMask | akhnFeatureMask | vatuFeatureMask | presFeatureMask | blwsFeatureMask | abvsFeatureMask | pstsFeatureMask | halnFeatureMask | blwmFeatureMask | abvmFeatureMask | distFeatureMask)
512 #define tagArray3 (pstfFeatureMask | tagArray4)
513 #define tagArray2 (halfFeatureMask | tagArray3)
514 #define tagArray1 (blwfFeatureMask | tagArray2)
515 #define tagArray0 (rphfFeatureMask | tagArray1)
516 
517 static const FeatureMap featureMap[] = {
518     {loclFeatureTag, loclFeatureMask},
519     {initFeatureTag, initFeatureMask},
520     {nuktFeatureTag, nuktFeatureMask},
521     {akhnFeatureTag, akhnFeatureMask},
522     {rphfFeatureTag, rphfFeatureMask},
523     {blwfFeatureTag, blwfFeatureMask},
524     {halfFeatureTag, halfFeatureMask},
525     {pstfFeatureTag, pstfFeatureMask},
526     {vatuFeatureTag, vatuFeatureMask},
527     {presFeatureTag, presFeatureMask},
528     {blwsFeatureTag, blwsFeatureMask},
529     {abvsFeatureTag, abvsFeatureMask},
530     {pstsFeatureTag, pstsFeatureMask},
531     {halnFeatureTag, halnFeatureMask},
532     {blwmFeatureTag, blwmFeatureMask},
533     {abvmFeatureTag, abvmFeatureMask},
534     {distFeatureTag, distFeatureMask}
535 };
536 
537 static const le_int32 featureCount = LE_ARRAY_SIZE(featureMap);
538 
539 static const FeatureMap v2FeatureMap[] = {
540 	{loclFeatureTag, loclFeatureMask},
541     {nuktFeatureTag, nuktFeatureMask},
542     {akhnFeatureTag, akhnFeatureMask},
543     {rphfFeatureTag, rphfFeatureMask},
544 	{rkrfFeatureTag, rkrfFeatureMask},
545 	{blwfFeatureTag, blwfFeatureMask},
546     {halfFeatureTag, halfFeatureMask},
547     {vatuFeatureTag, vatuFeatureMask},
548     {cjctFeatureTag, cjctFeatureMask},
549     {presFeatureTag, presFeatureMask},
550     {abvsFeatureTag, abvsFeatureMask},
551     {blwsFeatureTag, blwsFeatureMask},
552     {pstsFeatureTag, pstsFeatureMask},
553 	{halnFeatureTag, halnFeatureMask},
554 	{caltFeatureTag, caltFeatureMask},
555     {kernFeatureTag, kernFeatureMask},
556     {distFeatureTag, distFeatureMask},
557     {abvmFeatureTag, abvmFeatureMask},
558     {blwmFeatureTag, blwmFeatureMask}
559 };
560 
561 static const le_int32 v2FeatureMapCount = LE_ARRAY_SIZE(v2FeatureMap);
562 
563 static const le_int8 stateTable[][CC_COUNT] =
564 {
565 //   xx  vm  sm  iv  i2  i3  ct  cn  nu  dv  s1  s2  s3  vr  zw  al
566     { 1,  6,  1,  5,  8, 11,  3,  2,  1,  5,  9,  5,  5,  1,  1,  1}, //  0 - ground state
567     {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1}, //  1 - exit state
568     {-1,  6,  1, -1, -1, -1, -1, -1, -1,  5,  9,  5,  5,  4, 12, -1}, //  2 - consonant with nukta
569     {-1,  6,  1, -1, -1, -1, -1, -1,  2,  5,  9,  5,  5,  4, 12, 13}, //  3 - consonant
570     {-1, -1, -1, -1, -1, -1,  3,  2, -1, -1, -1, -1, -1, -1,  7, -1}, //  4 - consonant virama
571     {-1,  6,  1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1}, //  5 - dependent vowels
572     {-1, -1,  1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1}, //  6 - vowel mark
573     {-1, -1, -1, -1, -1, -1,  3,  2, -1, -1, -1, -1, -1, -1, -1, -1}, //  7 - consonant virama ZWJ, consonant ZWJ virama
574     {-1,  6,  1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,  4, -1, -1}, //  8 - independent vowels that can take a virama
575     {-1,  6,  1, -1, -1, -1, -1, -1, -1, -1, -1, 10,  5, -1, -1, -1}, //  9 - first part of split vowel
576     {-1,  6,  1, -1, -1, -1, -1, -1, -1, -1, -1, -1,  5, -1, -1, -1}, // 10 - second part of split vowel
577     {-1,  6,  1, -1, -1, -1, -1, -1, -1,  5,  9,  5,  5,  4, -1, -1}, // 11 - independent vowels that can take an iv
578     {-1, -1,  1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,  7, -1,  7}, // 12 - consonant ZWJ (TODO: Take everything else that can be after a consonant?)
579     {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,  7, -1}  // 13 - consonant al-lakuna ZWJ consonant
580 };
581 
582 
getFeatureMap(le_int32 & count)583 const FeatureMap *IndicReordering::getFeatureMap(le_int32 &count)
584 {
585     count = featureCount;
586 
587     return featureMap;
588 }
589 
getv2FeatureMap(le_int32 & count)590 const FeatureMap *IndicReordering::getv2FeatureMap(le_int32 &count)
591 {
592     count = v2FeatureMapCount;
593 
594     return v2FeatureMap;
595 }
596 
findSyllable(const IndicClassTable * classTable,const LEUnicode * chars,le_int32 prev,le_int32 charCount)597 le_int32 IndicReordering::findSyllable(const IndicClassTable *classTable, const LEUnicode *chars, le_int32 prev, le_int32 charCount)
598 {
599     le_int32 cursor = prev;
600     le_int8 state = 0;
601     le_int8 consonant_count = 0;
602 
603     while (cursor < charCount) {
604         IndicClassTable::CharClass charClass = classTable->getCharClass(chars[cursor]);
605 
606         if ( IndicClassTable::isConsonant(charClass) ) {
607             consonant_count++;
608             if ( consonant_count > MAX_CONSONANTS_PER_SYLLABLE ) {
609                 break;
610             }
611         }
612 
613         state = stateTable[state][charClass & CF_CLASS_MASK];
614 
615         if (state < 0) {
616             break;
617         }
618 
619         cursor += 1;
620     }
621 
622     return cursor;
623 }
624 
reorder(const LEUnicode * chars,le_int32 charCount,le_int32 scriptCode,LEUnicode * outChars,LEGlyphStorage & glyphStorage,MPreFixups ** outMPreFixups,LEErrorCode & success)625 le_int32 IndicReordering::reorder(const LEUnicode *chars, le_int32 charCount, le_int32 scriptCode,
626                                   LEUnicode *outChars, LEGlyphStorage &glyphStorage,
627                                   MPreFixups **outMPreFixups, LEErrorCode& success)
628 {
629     if (LE_FAILURE(success)) {
630         return 0;
631     }
632 
633     MPreFixups *mpreFixups = NULL;
634     const IndicClassTable *classTable = IndicClassTable::getScriptClassTable(scriptCode);
635 
636     if(classTable==NULL) {
637       success = LE_MEMORY_ALLOCATION_ERROR;
638       return 0;
639     }
640 
641     if (classTable->scriptFlags & SF_MPRE_FIXUP) {
642         mpreFixups = new MPreFixups(charCount);
643         if (mpreFixups == NULL) {
644             success = LE_MEMORY_ALLOCATION_ERROR;
645             return 0;
646         }
647     }
648 
649     IndicReorderingOutput output(outChars, glyphStorage, mpreFixups);
650     le_int32 i, prev = 0;
651     le_bool lastInWord = FALSE;
652 
653     while (prev < charCount) {
654         le_int32 syllable = findSyllable(classTable, chars, prev, charCount);
655         le_int32 matra, markStart = syllable;
656 
657         output.reset();
658 
659         if (classTable->isStressMark(chars[markStart - 1])) {
660             markStart -= 1;
661             output.noteStressMark(classTable, chars[markStart], markStart, tagArray1);
662         }
663 
664         if (markStart != prev && classTable->isVowelModifier(chars[markStart - 1])) {
665             markStart -= 1;
666             output.noteVowelModifier(classTable, chars[markStart], markStart, tagArray1);
667         }
668 
669         matra = markStart - 1;
670 
671         while (output.noteMatra(classTable, chars[matra], matra, tagArray1, !lastInWord) && matra != prev) {
672             matra -= 1;
673         }
674 
675         lastInWord = TRUE;
676 
677         switch (classTable->getCharClass(chars[prev]) & CF_CLASS_MASK) {
678         case CC_RESERVED:
679             lastInWord = FALSE;
680             /* fall through */
681 
682         case CC_INDEPENDENT_VOWEL:
683         case CC_ZERO_WIDTH_MARK:
684             for (i = prev; i < syllable; i += 1) {
685                 output.writeChar(chars[i], i, tagArray1);
686             }
687 
688             break;
689 
690         case CC_AL_LAKUNA:
691         case CC_NUKTA:
692             output.writeChar(C_DOTTED_CIRCLE, prev, tagArray1);
693             output.writeChar(chars[prev], prev, tagArray1);
694             break;
695 
696         case CC_VIRAMA:
697             // A lone virama is illegal unless it follows a
698             // MALAYALAM_VOWEL_SIGN_U. Such a usage is called
699             // "samvruthokaram".
700             if (chars[prev - 1] != C_MALAYALAM_VOWEL_SIGN_U) {
701                 output.writeChar(C_DOTTED_CIRCLE, prev, tagArray1);
702             }
703 
704             output.writeChar(chars[prev], prev, tagArray1);
705             break;
706 
707         case CC_DEPENDENT_VOWEL:
708         case CC_SPLIT_VOWEL_PIECE_1:
709         case CC_SPLIT_VOWEL_PIECE_2:
710         case CC_SPLIT_VOWEL_PIECE_3:
711         case CC_VOWEL_MODIFIER:
712         case CC_STRESS_MARK:
713             output.writeMpre();
714 
715             output.writeChar(C_DOTTED_CIRCLE, prev, tagArray1);
716 
717             output.writeMbelow();
718             output.writeSMbelow();
719             output.writeMabove();
720 
721             if ((classTable->scriptFlags & SF_MATRAS_AFTER_BASE) != 0) {
722                 output.writeMpost();
723             }
724 
725             if ((classTable->scriptFlags & SF_REPH_AFTER_BELOW) != 0) {
726                 output.writeVMabove();
727                 output.writeSMabove(); // FIXME: there are no SM's in these scripts...
728             }
729 
730             if ((classTable->scriptFlags & SF_MATRAS_AFTER_BASE) == 0) {
731                 output.writeMpost();
732             }
733 
734             output.writeLengthMark();
735             output.writeAlLakuna();
736 
737             if ((classTable->scriptFlags & SF_REPH_AFTER_BELOW) == 0) {
738                 output.writeVMabove();
739                 output.writeSMabove();
740             }
741 
742             output.writeVMpost();
743             break;
744 
745         case CC_INDEPENDENT_VOWEL_2:
746         case CC_INDEPENDENT_VOWEL_3:
747         case CC_CONSONANT:
748         case CC_CONSONANT_WITH_NUKTA:
749         {
750             le_uint32 length = markStart - prev;
751             le_int32  lastConsonant = markStart - 1;
752             le_int32  baseLimit = prev;
753 
754             // Check for REPH at front of syllable
755             if (length > 2 && classTable->isReph(chars[prev]) && classTable->isVirama(chars[prev + 1]) && chars[prev + 2] != C_SIGN_ZWNJ) {
756                 baseLimit += 2;
757 
758                 // Check for eyelash RA, if the script supports it
759                 if ((classTable->scriptFlags & SF_EYELASH_RA) != 0 &&
760                     chars[baseLimit] == C_SIGN_ZWJ) {
761                     if (length > 3) {
762                         baseLimit += 1;
763                     } else {
764                         baseLimit -= 2;
765                     }
766                 }
767             }
768 
769             while (lastConsonant > baseLimit && !classTable->isConsonant(chars[lastConsonant])) {
770                 lastConsonant -= 1;
771             }
772 
773 
774             IndicClassTable::CharClass charClass = CC_RESERVED;
775             IndicClassTable::CharClass nextClass = CC_RESERVED;
776             le_int32 baseConsonant = lastConsonant;
777             le_int32 postBase = lastConsonant + 1;
778             le_int32 postBaseLimit = classTable->scriptFlags & SF_POST_BASE_LIMIT_MASK;
779             le_bool  seenVattu = FALSE;
780             le_bool  seenBelowBaseForm = FALSE;
781             le_bool  seenPreBaseForm = FALSE;
782             le_bool  hasNukta = FALSE;
783             le_bool  hasBelowBaseForm = FALSE;
784             le_bool  hasPostBaseForm = FALSE;
785             le_bool  hasPreBaseForm = FALSE;
786 
787             if (postBase < markStart && classTable->isNukta(chars[postBase])) {
788                 charClass = CC_NUKTA;
789                 postBase += 1;
790             }
791 
792             while (baseConsonant > baseLimit) {
793                 nextClass = charClass;
794                 hasNukta  = IndicClassTable::isNukta(nextClass);
795                 charClass = classTable->getCharClass(chars[baseConsonant]);
796 
797                 hasBelowBaseForm = IndicClassTable::hasBelowBaseForm(charClass) && !hasNukta;
798                 hasPostBaseForm  = IndicClassTable::hasPostBaseForm(charClass)  && !hasNukta;
799                 hasPreBaseForm = IndicClassTable::hasPreBaseForm(charClass) && !hasNukta;
800 
801                 if (IndicClassTable::isConsonant(charClass)) {
802                     if (postBaseLimit == 0 || seenVattu ||
803                         (baseConsonant > baseLimit && !classTable->isVirama(chars[baseConsonant - 1])) ||
804                         !(hasBelowBaseForm || hasPostBaseForm || hasPreBaseForm)) {
805                         break;
806                     }
807 
808                     // Note any pre-base consonants
809                     if ( baseConsonant == lastConsonant && lastConsonant > 0 &&
810                          hasPreBaseForm && classTable->isVirama(chars[baseConsonant - 1])) {
811                         output.notePreBaseConsonant(lastConsonant,chars[lastConsonant],chars[lastConsonant-1],tagArray2);
812                         seenPreBaseForm = TRUE;
813 
814                     }
815                     // consonants with nuktas are never vattus
816                     seenVattu = IndicClassTable::isVattu(charClass) && !hasNukta;
817 
818                     // consonants with nuktas never have below- or post-base forms
819                     if (hasPostBaseForm) {
820                         if (seenBelowBaseForm) {
821                             break;
822                         }
823 
824                         postBase = baseConsonant;
825                     } else if (hasBelowBaseForm) {
826                         seenBelowBaseForm = TRUE;
827                     }
828 
829                     postBaseLimit -= 1;
830                 }
831 
832                 baseConsonant -= 1;
833             }
834 
835             // Write Mpre
836             output.writeMpre();
837 
838             // Write eyelash RA
839             // NOTE: baseLimit == prev + 3 iff eyelash RA present...
840             if (baseLimit == prev + 3) {
841                 output.writeChar(chars[prev], prev, tagArray2);
842                 output.writeChar(chars[prev + 1], prev + 1, tagArray2);
843                 output.writeChar(chars[prev + 2], prev + 2, tagArray2);
844             }
845 
846             // write any pre-base consonants
847             output.writePreBaseConsonant();
848 
849             le_bool supressVattu = TRUE;
850 
851             for (i = baseLimit; i < baseConsonant; i += 1) {
852                 LEUnicode ch = chars[i];
853                 // Don't put 'pstf' or 'blwf' on anything before the base consonant.
854                 FeatureMask features = tagArray1 & ~( pstfFeatureMask | blwfFeatureMask );
855 
856                 charClass = classTable->getCharClass(ch);
857                 nextClass = classTable->getCharClass(chars[i + 1]);
858                 hasNukta  = IndicClassTable::isNukta(nextClass);
859 
860                 if (IndicClassTable::isConsonant(charClass)) {
861                     if (IndicClassTable::isVattu(charClass) && !hasNukta && supressVattu) {
862                         features = tagArray4;
863                     }
864 
865                     supressVattu = IndicClassTable::isVattu(charClass) && !hasNukta;
866                 } else if (IndicClassTable::isVirama(charClass) && chars[i + 1] == C_SIGN_ZWNJ)
867                 {
868                     features = tagArray4;
869                 }
870 
871                 output.writeChar(ch, i, features);
872             }
873 
874             le_int32 bcSpan = baseConsonant + 1;
875 
876             if (bcSpan < markStart && classTable->isNukta(chars[bcSpan])) {
877                 bcSpan += 1;
878             }
879 
880             if (baseConsonant == lastConsonant && bcSpan < markStart &&
881                  (classTable->isVirama(chars[bcSpan]) || classTable->isAlLakuna(chars[bcSpan]))) {
882                 bcSpan += 1;
883 
884                 if (bcSpan < markStart && chars[bcSpan] == C_SIGN_ZWNJ) {
885                     bcSpan += 1;
886                 }
887             }
888 
889             // note the base consonant for post-GSUB fixups
890             output.noteBaseConsonant();
891 
892             // write base consonant
893             for (i = baseConsonant; i < bcSpan; i += 1) {
894                 output.writeChar(chars[i], i, tagArray4);
895             }
896 
897             if ((classTable->scriptFlags & SF_MATRAS_AFTER_BASE) != 0) {
898                 output.writeMbelow();
899                 output.writeSMbelow(); // FIXME: there are no SMs in these scripts...
900                 output.writeMabove();
901                 output.writeMpost();
902             }
903 
904             // write below-base consonants
905             if (baseConsonant != lastConsonant && !seenPreBaseForm) {
906                 for (i = bcSpan + 1; i < postBase; i += 1) {
907                     output.writeChar(chars[i], i, tagArray1);
908                 }
909 
910                 if (postBase > lastConsonant) {
911                     // write halant that was after base consonant
912                     output.writeChar(chars[bcSpan], bcSpan, tagArray1);
913                 }
914             }
915 
916             // write Mbelow, SMbelow, Mabove
917             if ((classTable->scriptFlags & SF_MATRAS_AFTER_BASE) == 0) {
918                 output.writeMbelow();
919                 output.writeSMbelow();
920                 output.writeMabove();
921             }
922 
923             if ((classTable->scriptFlags & SF_REPH_AFTER_BELOW) != 0) {
924                 if (baseLimit == prev + 2) {
925                     output.writeChar(chars[prev], prev, tagArray0);
926                     output.writeChar(chars[prev + 1], prev + 1, tagArray0);
927                 }
928 
929                 output.writeVMabove();
930                 output.writeSMabove(); // FIXME: there are no SM's in these scripts...
931             }
932 
933             // write post-base consonants
934             // FIXME: does this put the right tags on post-base consonants?
935             if (baseConsonant != lastConsonant && !seenPreBaseForm) {
936                 if (postBase <= lastConsonant) {
937                     for (i = postBase; i <= lastConsonant; i += 1) {
938                         output.writeChar(chars[i], i, tagArray3);
939                     }
940 
941                     // write halant that was after base consonant
942                     output.writeChar(chars[bcSpan], bcSpan, tagArray1);
943                 }
944 
945                 // write the training halant, if there is one
946                 if (lastConsonant < matra && classTable->isVirama(chars[matra])) {
947                     output.writeChar(chars[matra], matra, tagArray4);
948                 }
949             }
950 
951             // write Mpost
952             if ((classTable->scriptFlags & SF_MATRAS_AFTER_BASE) == 0) {
953                 output.writeMpost();
954             }
955 
956             output.writeLengthMark();
957             output.writeAlLakuna();
958 
959             // write reph
960             if ((classTable->scriptFlags & SF_REPH_AFTER_BELOW) == 0) {
961                 if (baseLimit == prev + 2) {
962                     output.writeChar(chars[prev], prev, tagArray0);
963                     output.writeChar(chars[prev + 1], prev + 1, tagArray0);
964                 }
965 
966                 output.writeVMabove();
967                 output.writeSMabove();
968             }
969 
970             output.writeVMpost();
971 
972             break;
973         }
974 
975         default:
976             break;
977         }
978 
979         prev = syllable;
980     }
981 
982     *outMPreFixups = mpreFixups;
983 
984     return output.getOutputIndex();
985 }
986 
adjustMPres(MPreFixups * mpreFixups,LEGlyphStorage & glyphStorage,LEErrorCode & success)987 void IndicReordering::adjustMPres(MPreFixups *mpreFixups, LEGlyphStorage &glyphStorage, LEErrorCode& success)
988 {
989     if (mpreFixups != NULL) {
990         mpreFixups->apply(glyphStorage, success);
991 
992         delete mpreFixups;
993     }
994 }
995 
applyPresentationForms(LEGlyphStorage & glyphStorage,le_int32 count)996 void IndicReordering::applyPresentationForms(LEGlyphStorage &glyphStorage, le_int32 count)
997 {
998     LEErrorCode success = LE_NO_ERROR;
999 
1000 //  This sets us up for 2nd pass of glyph substitution as well as setting the feature masks for the
1001 //  GPOS table lookups
1002 
1003     for ( le_int32 i = 0 ; i < count ; i++ ) {
1004         glyphStorage.setAuxData(i, ( presentationFormsMask | positioningFormsMask ), success);
1005     }
1006 
1007 }
finalReordering(LEGlyphStorage & glyphStorage,le_int32 count)1008 void IndicReordering::finalReordering(LEGlyphStorage &glyphStorage, le_int32 count)
1009 {
1010     LEErrorCode success = LE_NO_ERROR;
1011 
1012     // Reposition REPH as appropriate
1013 
1014     for ( le_int32 i = 0 ; i < count ; i++ ) {
1015 
1016         le_int32 tmpAuxData = glyphStorage.getAuxData(i,success);
1017         LEGlyphID tmpGlyph = glyphStorage.getGlyphID(i,success);
1018 
1019         if ( ( tmpGlyph != NO_GLYPH ) && (tmpAuxData & rephConsonantMask) && !(tmpAuxData & repositionedGlyphMask))  {
1020 
1021             le_bool targetPositionFound = false;
1022             le_int32 targetPosition = i+1;
1023             le_int32 baseConsonantData;
1024 
1025             while (!targetPositionFound) {
1026                 tmpGlyph = glyphStorage.getGlyphID(targetPosition,success);
1027                 tmpAuxData = glyphStorage.getAuxData(targetPosition,success);
1028 
1029                 if ( tmpAuxData & baseConsonantMask ) {
1030                     baseConsonantData = tmpAuxData;
1031                     targetPositionFound = true;
1032                 } else {
1033                     targetPosition++;
1034                 }
1035             }
1036 
1037             // Make sure we are not putting the reph into an empty hole
1038 
1039             le_bool targetPositionHasGlyph = false;
1040             while (!targetPositionHasGlyph) {
1041                 tmpGlyph = glyphStorage.getGlyphID(targetPosition,success);
1042                 if ( tmpGlyph != NO_GLYPH ) {
1043                     targetPositionHasGlyph = true;
1044                 } else {
1045                     targetPosition--;
1046                 }
1047             }
1048 
1049             // Make sure that REPH is positioned after any above base or post base matras
1050             //
1051             le_bool checkMatraDone = false;
1052             le_int32 checkMatraPosition = targetPosition+1;
1053             while ( !checkMatraDone ) {
1054                tmpAuxData = glyphStorage.getAuxData(checkMatraPosition,success);
1055                if ( checkMatraPosition >= count || ( (tmpAuxData ^ baseConsonantData) & LE_GLYPH_GROUP_MASK)) {
1056                    checkMatraDone = true;
1057                    continue;
1058                }
1059                if ( (tmpAuxData & matraMask) &&
1060                     (((tmpAuxData & markPositionMask) == aboveBasePosition) ||
1061                       ((tmpAuxData & markPositionMask) == postBasePosition))) {
1062                    targetPosition = checkMatraPosition;
1063                }
1064                checkMatraPosition++;
1065             }
1066 
1067             glyphStorage.moveGlyph(i,targetPosition,repositionedGlyphMask);
1068         }
1069     }
1070 }
1071 
1072 
v2process(const LEUnicode * chars,le_int32 charCount,le_int32 scriptCode,LEUnicode * outChars,LEGlyphStorage & glyphStorage)1073 le_int32 IndicReordering::v2process(const LEUnicode *chars, le_int32 charCount, le_int32 scriptCode,
1074                                   LEUnicode *outChars, LEGlyphStorage &glyphStorage)
1075 {
1076     const IndicClassTable *classTable = IndicClassTable::getScriptClassTable(scriptCode);
1077 
1078     DynamicProperties dynProps[INDIC_BLOCK_SIZE];
1079     IndicReordering::getDynamicProperties(dynProps,classTable);
1080 
1081     IndicReorderingOutput output(outChars, glyphStorage, NULL);
1082     le_int32 i, firstConsonant, baseConsonant, secondConsonant, inv_count = 0, beginSyllable = 0;
1083     //le_bool lastInWord = FALSE;
1084 
1085     while (beginSyllable < charCount) {
1086         le_int32 nextSyllable = findSyllable(classTable, chars, beginSyllable, charCount);
1087 
1088         output.reset();
1089 
1090 		// Find the First Consonant
1091 		for ( firstConsonant = beginSyllable ; firstConsonant < nextSyllable ; firstConsonant++ ) {
1092 			 if ( classTable->isConsonant(chars[firstConsonant]) ) {
1093 					break;
1094 				}
1095 		}
1096 
1097         // Find the base consonant
1098 
1099         baseConsonant = nextSyllable - 1;
1100         secondConsonant = firstConsonant;
1101 
1102         // TODO: Use Dynamic Properties for hasBelowBaseForm and hasPostBaseForm()
1103 
1104         while ( baseConsonant > firstConsonant ) {
1105             if ( classTable->isConsonant(chars[baseConsonant]) &&
1106                  !classTable->hasBelowBaseForm(chars[baseConsonant]) &&
1107                  !classTable->hasPostBaseForm(chars[baseConsonant]) ) {
1108                 break;
1109             }
1110             else {
1111                 if ( classTable->isConsonant(chars[baseConsonant]) ) {
1112                     secondConsonant = baseConsonant;
1113                 }
1114                 baseConsonant--;
1115             }
1116         }
1117 
1118         // If the syllable starts with Ra + Halant ( in a script that has Reph ) and has more than one
1119         // consonant, Ra is excluced from candidates for base consonants
1120 
1121         if ( classTable->isReph(chars[beginSyllable]) &&
1122              beginSyllable+1 < nextSyllable && classTable->isVirama(chars[beginSyllable+1]) &&
1123              secondConsonant != firstConsonant) {
1124             baseConsonant = secondConsonant;
1125         }
1126 
1127 	    // Populate the output
1128 		for ( i = beginSyllable ; i < nextSyllable ; i++ ) {
1129 
1130             // Handle invalid combinartions
1131 
1132             if ( classTable->isVirama(chars[beginSyllable]) ||
1133 			     classTable->isMatra(chars[beginSyllable]) ||
1134 			     classTable->isVowelModifier(chars[beginSyllable]) ||
1135 			     classTable->isNukta(chars[beginSyllable]) ) {
1136                      output.writeChar(C_DOTTED_CIRCLE,beginSyllable,basicShapingFormsMask);
1137                      inv_count++;
1138             }
1139              output.writeChar(chars[i],i, basicShapingFormsMask);
1140 
1141         }
1142 
1143         // Adjust features and set syllable structure bits
1144 
1145         for ( i = beginSyllable ; i < nextSyllable ; i++ ) {
1146 
1147             FeatureMask outMask = output.getFeatures(i+inv_count);
1148             FeatureMask saveMask = outMask;
1149 
1150             // Since reph can only validly occur at the beginning of a syllable
1151             // We only apply it to the first 2 characters in the syllable, to keep it from
1152             // conflicting with other features ( i.e. rkrf )
1153 
1154             // TODO : Use the dynamic property for determining isREPH
1155             if ( i == beginSyllable && i < baseConsonant && classTable->isReph(chars[i]) &&
1156                  i+1 < nextSyllable && classTable->isVirama(chars[i+1])) {
1157                 outMask |= rphfFeatureMask;
1158                 outMask |= rephConsonantMask;
1159                 output.setFeatures(i+1+inv_count,outMask);
1160 
1161             }
1162 
1163             if ( i == baseConsonant ) {
1164                 outMask |= baseConsonantMask;
1165             }
1166 
1167             if ( classTable->isMatra(chars[i])) {
1168                     outMask |= matraMask;
1169                     if ( classTable->hasAboveBaseForm(chars[i])) {
1170                         outMask |= aboveBasePosition;
1171                     } else if ( classTable->hasBelowBaseForm(chars[i])) {
1172                         outMask |= belowBasePosition;
1173                     }
1174             }
1175 
1176             // Don't apply half form to virama that stands alone at the end of a syllable
1177             // to prevent half forms from forming when syllable ends with virama
1178 
1179             if ( classTable->isVirama(chars[i]) && (i+1 == nextSyllable) ) {
1180                 outMask ^= halfFeatureMask;
1181                 if ( classTable->isConsonant(chars[i-1]) ) {
1182                     FeatureMask tmp = output.getFeatures(i-1+inv_count);
1183                     tmp ^= halfFeatureMask;
1184                     output.setFeatures(i-1+inv_count,tmp);
1185                 }
1186             }
1187 
1188             if ( outMask != saveMask ) {
1189                 output.setFeatures(i+inv_count,outMask);
1190             }
1191 		}
1192 
1193 	    output.decomposeReorderMatras(classTable,beginSyllable,nextSyllable,inv_count);
1194 
1195         beginSyllable = nextSyllable;
1196 	}
1197 
1198 
1199     return output.getOutputIndex();
1200 }
1201 
1202 
getDynamicProperties(DynamicProperties *,const IndicClassTable * classTable)1203 void IndicReordering::getDynamicProperties( DynamicProperties *, const IndicClassTable *classTable ) {
1204 
1205 
1206     LEUnicode currentChar;
1207     LEUnicode workChars[2];
1208     LEGlyphStorage workGlyphs;
1209 
1210     IndicReorderingOutput workOutput(workChars, workGlyphs, NULL);
1211 
1212     //le_int32 offset = 0;
1213 
1214 #if 0
1215 // TODO:  Should this section of code have actually been doing something?
1216     // First find the relevant virama for the script we are dealing with
1217     LEUnicode virama;
1218     for ( currentChar = classTable->firstChar ; currentChar <= classTable->lastChar ; currentChar++ ) {
1219         if ( classTable->isVirama(currentChar)) {
1220             virama = currentChar;
1221             break;
1222         }
1223     }
1224 #endif
1225 
1226     for ( currentChar = classTable->firstChar ; currentChar <= classTable->lastChar ; currentChar++ ) {
1227         if ( classTable->isConsonant(currentChar)) {
1228             workOutput.reset();
1229         }
1230     }
1231 
1232 
1233 }
1234 
1235 U_NAMESPACE_END
1236