1 /*
2 * Copyright (C) 2006, 2007 Apple Inc. All rights reserved.
3 * Copyright (C) 2008 Nokia Corporation and/or its subsidiary(-ies)
4 *
5 * Redistribution and use in source and binary forms, with or without
6 * modification, are permitted provided that the following conditions
7 * are met:
8 * 1. Redistributions of source code must retain the above copyright
9 * notice, this list of conditions and the following disclaimer.
10 * 2. Redistributions in binary form must reproduce the above copyright
11 * notice, this list of conditions and the following disclaimer in the
12 * documentation and/or other materials provided with the distribution.
13 *
14 * THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY
15 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
16 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
17 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR
18 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
19 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
20 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
21 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
22 * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
23 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
24 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
25 */
26
27 #include "config.h"
28 #include "TextCheckingHelper.h"
29
30 #include "DocumentMarkerController.h"
31 #include "Range.h"
32 #include "TextCheckerClient.h"
33 #include "TextIterator.h"
34 #include "VisiblePosition.h"
35 #include "visible_units.h"
36
37 namespace WebCore {
38
expandToParagraphBoundary(PassRefPtr<Range> range)39 static PassRefPtr<Range> expandToParagraphBoundary(PassRefPtr<Range> range)
40 {
41 ExceptionCode ec = 0;
42 RefPtr<Range> paragraphRange = range->cloneRange(ec);
43 setStart(paragraphRange.get(), startOfParagraph(range->startPosition()));
44 setEnd(paragraphRange.get(), endOfParagraph(range->endPosition()));
45 return paragraphRange;
46 }
47
TextCheckingParagraph(PassRefPtr<Range> checkingRange)48 TextCheckingParagraph::TextCheckingParagraph(PassRefPtr<Range> checkingRange)
49 : m_checkingRange(checkingRange)
50 , m_checkingStart(-1)
51 , m_checkingEnd(-1)
52 , m_checkingLength(-1)
53 {
54 }
55
~TextCheckingParagraph()56 TextCheckingParagraph::~TextCheckingParagraph()
57 {
58 }
59
expandRangeToNextEnd()60 void TextCheckingParagraph::expandRangeToNextEnd()
61 {
62 ASSERT(m_checkingRange);
63 setEnd(paragraphRange().get(), endOfParagraph(startOfNextParagraph(paragraphRange()->startPosition())));
64 invalidateParagraphRangeValues();
65 }
66
invalidateParagraphRangeValues()67 void TextCheckingParagraph::invalidateParagraphRangeValues()
68 {
69 m_checkingStart = m_checkingEnd = -1;
70 m_offsetAsRange = 0;
71 m_text = String();
72 }
73
rangeLength() const74 int TextCheckingParagraph::rangeLength() const
75 {
76 ASSERT(m_checkingRange);
77 return TextIterator::rangeLength(paragraphRange().get());
78 }
79
paragraphRange() const80 PassRefPtr<Range> TextCheckingParagraph::paragraphRange() const
81 {
82 ASSERT(m_checkingRange);
83 if (!m_paragraphRange)
84 m_paragraphRange = expandToParagraphBoundary(checkingRange());
85 return m_paragraphRange;
86 }
87
subrange(int characterOffset,int characterCount) const88 PassRefPtr<Range> TextCheckingParagraph::subrange(int characterOffset, int characterCount) const
89 {
90 ASSERT(m_checkingRange);
91 return TextIterator::subrange(paragraphRange().get(), characterOffset, characterCount);
92 }
93
offsetTo(const Position & position,ExceptionCode & ec) const94 int TextCheckingParagraph::offsetTo(const Position& position, ExceptionCode& ec) const
95 {
96 ASSERT(m_checkingRange);
97 RefPtr<Range> range = offsetAsRange();
98 range->setEnd(position.containerNode(), position.computeOffsetInContainerNode(), ec);
99 if (ec)
100 return 0;
101 return TextIterator::rangeLength(range.get());
102 }
103
isEmpty() const104 bool TextCheckingParagraph::isEmpty() const
105 {
106 // Both predicates should have same result, but we check both just for sure.
107 // We need to investigate to remove this redundancy.
108 return isRangeEmpty() || isTextEmpty();
109 }
110
offsetAsRange() const111 PassRefPtr<Range> TextCheckingParagraph::offsetAsRange() const
112 {
113 ASSERT(m_checkingRange);
114 if (!m_offsetAsRange) {
115 ExceptionCode ec = 0;
116 m_offsetAsRange = Range::create(paragraphRange()->startContainer(ec)->document(), paragraphRange()->startPosition(), checkingRange()->startPosition());
117 }
118
119 return m_offsetAsRange;
120 }
121
text() const122 const String& TextCheckingParagraph::text() const
123 {
124 ASSERT(m_checkingRange);
125 if (m_text.isEmpty())
126 m_text = plainText(paragraphRange().get());
127 return m_text;
128 }
129
checkingStart() const130 int TextCheckingParagraph::checkingStart() const
131 {
132 ASSERT(m_checkingRange);
133 if (m_checkingStart == -1)
134 m_checkingStart = TextIterator::rangeLength(offsetAsRange().get());
135 return m_checkingStart;
136 }
137
checkingEnd() const138 int TextCheckingParagraph::checkingEnd() const
139 {
140 ASSERT(m_checkingRange);
141 if (m_checkingEnd == -1)
142 m_checkingEnd = checkingStart() + TextIterator::rangeLength(checkingRange().get());
143 return m_checkingEnd;
144 }
145
checkingLength() const146 int TextCheckingParagraph::checkingLength() const
147 {
148 ASSERT(m_checkingRange);
149 if (-1 == m_checkingLength)
150 m_checkingLength = TextIterator::rangeLength(checkingRange().get());
151 return m_checkingLength;
152 }
153
TextCheckingHelper(EditorClient * client,PassRefPtr<Range> range)154 TextCheckingHelper::TextCheckingHelper(EditorClient* client, PassRefPtr<Range> range)
155 : m_client(client)
156 , m_range(range)
157 {
158 ASSERT_ARG(m_client, m_client);
159 ASSERT_ARG(m_range, m_range);
160 }
161
~TextCheckingHelper()162 TextCheckingHelper::~TextCheckingHelper()
163 {
164 }
165
findFirstMisspelling(int & firstMisspellingOffset,bool markAll,RefPtr<Range> & firstMisspellingRange)166 String TextCheckingHelper::findFirstMisspelling(int& firstMisspellingOffset, bool markAll, RefPtr<Range>& firstMisspellingRange)
167 {
168 WordAwareIterator it(m_range.get());
169 firstMisspellingOffset = 0;
170
171 String firstMisspelling;
172 int currentChunkOffset = 0;
173
174 while (!it.atEnd()) {
175 const UChar* chars = it.characters();
176 int len = it.length();
177
178 // Skip some work for one-space-char hunks
179 if (!(len == 1 && chars[0] == ' ')) {
180
181 int misspellingLocation = -1;
182 int misspellingLength = 0;
183 m_client->textChecker()->checkSpellingOfString(chars, len, &misspellingLocation, &misspellingLength);
184
185 // 5490627 shows that there was some code path here where the String constructor below crashes.
186 // We don't know exactly what combination of bad input caused this, so we're making this much
187 // more robust against bad input on release builds.
188 ASSERT(misspellingLength >= 0);
189 ASSERT(misspellingLocation >= -1);
190 ASSERT(!misspellingLength || misspellingLocation >= 0);
191 ASSERT(misspellingLocation < len);
192 ASSERT(misspellingLength <= len);
193 ASSERT(misspellingLocation + misspellingLength <= len);
194
195 if (misspellingLocation >= 0 && misspellingLength > 0 && misspellingLocation < len && misspellingLength <= len && misspellingLocation + misspellingLength <= len) {
196
197 // Compute range of misspelled word
198 RefPtr<Range> misspellingRange = TextIterator::subrange(m_range.get(), currentChunkOffset + misspellingLocation, misspellingLength);
199
200 // Remember first-encountered misspelling and its offset.
201 if (!firstMisspelling) {
202 firstMisspellingOffset = currentChunkOffset + misspellingLocation;
203 firstMisspelling = String(chars + misspellingLocation, misspellingLength);
204 firstMisspellingRange = misspellingRange;
205 }
206
207 // Store marker for misspelled word.
208 ExceptionCode ec = 0;
209 misspellingRange->startContainer(ec)->document()->markers()->addMarker(misspellingRange.get(), DocumentMarker::Spelling);
210 ASSERT(!ec);
211
212 // Bail out if we're marking only the first misspelling, and not all instances.
213 if (!markAll)
214 break;
215 }
216 }
217
218 currentChunkOffset += len;
219 it.advance();
220 }
221
222 return firstMisspelling;
223 }
224
findFirstMisspellingOrBadGrammar(bool checkGrammar,bool & outIsSpelling,int & outFirstFoundOffset,GrammarDetail & outGrammarDetail)225 String TextCheckingHelper::findFirstMisspellingOrBadGrammar(bool checkGrammar, bool& outIsSpelling, int& outFirstFoundOffset, GrammarDetail& outGrammarDetail)
226 {
227 #if USE(UNIFIED_TEXT_CHECKING)
228 String firstFoundItem;
229 String misspelledWord;
230 String badGrammarPhrase;
231 ExceptionCode ec = 0;
232
233 // Initialize out parameters; these will be updated if we find something to return.
234 outIsSpelling = true;
235 outFirstFoundOffset = 0;
236 outGrammarDetail.location = -1;
237 outGrammarDetail.length = 0;
238 outGrammarDetail.guesses.clear();
239 outGrammarDetail.userDescription = "";
240
241 // Expand the search range to encompass entire paragraphs, since text checking needs that much context.
242 // Determine the character offset from the start of the paragraph to the start of the original search range,
243 // since we will want to ignore results in this area.
244 RefPtr<Range> paragraphRange = m_range->cloneRange(ec);
245 setStart(paragraphRange.get(), startOfParagraph(m_range->startPosition()));
246 int totalRangeLength = TextIterator::rangeLength(paragraphRange.get());
247 setEnd(paragraphRange.get(), endOfParagraph(m_range->startPosition()));
248
249 RefPtr<Range> offsetAsRange = Range::create(paragraphRange->startContainer(ec)->document(), paragraphRange->startPosition(), m_range->startPosition());
250 int rangeStartOffset = TextIterator::rangeLength(offsetAsRange.get());
251 int totalLengthProcessed = 0;
252
253 bool firstIteration = true;
254 bool lastIteration = false;
255 while (totalLengthProcessed < totalRangeLength) {
256 // Iterate through the search range by paragraphs, checking each one for spelling and grammar.
257 int currentLength = TextIterator::rangeLength(paragraphRange.get());
258 int currentStartOffset = firstIteration ? rangeStartOffset : 0;
259 int currentEndOffset = currentLength;
260 if (inSameParagraph(paragraphRange->startPosition(), m_range->endPosition())) {
261 // Determine the character offset from the end of the original search range to the end of the paragraph,
262 // since we will want to ignore results in this area.
263 RefPtr<Range> endOffsetAsRange = Range::create(paragraphRange->startContainer(ec)->document(), paragraphRange->startPosition(), m_range->endPosition());
264 currentEndOffset = TextIterator::rangeLength(endOffsetAsRange.get());
265 lastIteration = true;
266 }
267 if (currentStartOffset < currentEndOffset) {
268 String paragraphString = plainText(paragraphRange.get());
269 if (paragraphString.length() > 0) {
270 bool foundGrammar = false;
271 int spellingLocation = 0;
272 int grammarPhraseLocation = 0;
273 int grammarDetailLocation = 0;
274 unsigned grammarDetailIndex = 0;
275
276 Vector<TextCheckingResult> results;
277 TextCheckingTypeMask checkingTypes = checkGrammar ? (TextCheckingTypeSpelling | TextCheckingTypeGrammar) : TextCheckingTypeSpelling;
278 m_client->textChecker()->checkTextOfParagraph(paragraphString.characters(), paragraphString.length(), checkingTypes, results);
279
280 for (unsigned i = 0; i < results.size(); i++) {
281 const TextCheckingResult* result = &results[i];
282 if (result->type == TextCheckingTypeSpelling && result->location >= currentStartOffset && result->location + result->length <= currentEndOffset) {
283 ASSERT(result->length > 0 && result->location >= 0);
284 spellingLocation = result->location;
285 misspelledWord = paragraphString.substring(result->location, result->length);
286 ASSERT(misspelledWord.length());
287 break;
288 }
289 if (checkGrammar && result->type == TextCheckingTypeGrammar && result->location < currentEndOffset && result->location + result->length > currentStartOffset) {
290 ASSERT(result->length > 0 && result->location >= 0);
291 // We can't stop after the first grammar result, since there might still be a spelling result after
292 // it begins but before the first detail in it, but we can stop if we find a second grammar result.
293 if (foundGrammar)
294 break;
295 for (unsigned j = 0; j < result->details.size(); j++) {
296 const GrammarDetail* detail = &result->details[j];
297 ASSERT(detail->length > 0 && detail->location >= 0);
298 if (result->location + detail->location >= currentStartOffset && result->location + detail->location + detail->length <= currentEndOffset && (!foundGrammar || result->location + detail->location < grammarDetailLocation)) {
299 grammarDetailIndex = j;
300 grammarDetailLocation = result->location + detail->location;
301 foundGrammar = true;
302 }
303 }
304 if (foundGrammar) {
305 grammarPhraseLocation = result->location;
306 outGrammarDetail = result->details[grammarDetailIndex];
307 badGrammarPhrase = paragraphString.substring(result->location, result->length);
308 ASSERT(badGrammarPhrase.length());
309 }
310 }
311 }
312
313 if (!misspelledWord.isEmpty() && (!checkGrammar || badGrammarPhrase.isEmpty() || spellingLocation <= grammarDetailLocation)) {
314 int spellingOffset = spellingLocation - currentStartOffset;
315 if (!firstIteration) {
316 RefPtr<Range> paragraphOffsetAsRange = Range::create(paragraphRange->startContainer(ec)->document(), m_range->startPosition(), paragraphRange->startPosition());
317 spellingOffset += TextIterator::rangeLength(paragraphOffsetAsRange.get());
318 }
319 outIsSpelling = true;
320 outFirstFoundOffset = spellingOffset;
321 firstFoundItem = misspelledWord;
322 break;
323 }
324 if (checkGrammar && !badGrammarPhrase.isEmpty()) {
325 int grammarPhraseOffset = grammarPhraseLocation - currentStartOffset;
326 if (!firstIteration) {
327 RefPtr<Range> paragraphOffsetAsRange = Range::create(paragraphRange->startContainer(ec)->document(), m_range->startPosition(), paragraphRange->startPosition());
328 grammarPhraseOffset += TextIterator::rangeLength(paragraphOffsetAsRange.get());
329 }
330 outIsSpelling = false;
331 outFirstFoundOffset = grammarPhraseOffset;
332 firstFoundItem = badGrammarPhrase;
333 break;
334 }
335 }
336 }
337 if (lastIteration || totalLengthProcessed + currentLength >= totalRangeLength)
338 break;
339 VisiblePosition newParagraphStart = startOfNextParagraph(paragraphRange->endPosition());
340 setStart(paragraphRange.get(), newParagraphStart);
341 setEnd(paragraphRange.get(), endOfParagraph(newParagraphStart));
342 firstIteration = false;
343 totalLengthProcessed += currentLength;
344 }
345 return firstFoundItem;
346 #else
347 ASSERT_NOT_REACHED();
348 UNUSED_PARAM(checkGrammar);
349 UNUSED_PARAM(outIsSpelling);
350 UNUSED_PARAM(outFirstFoundOffset);
351 UNUSED_PARAM(outGrammarDetail);
352 return "";
353 #endif // USE(UNIFIED_TEXT_CHECKING)
354 }
355
findFirstGrammarDetail(const Vector<GrammarDetail> & grammarDetails,int badGrammarPhraseLocation,int,int startOffset,int endOffset,bool markAll)356 int TextCheckingHelper::findFirstGrammarDetail(const Vector<GrammarDetail>& grammarDetails, int badGrammarPhraseLocation, int /*badGrammarPhraseLength*/, int startOffset, int endOffset, bool markAll)
357 {
358 #if USE(GRAMMAR_CHECKING)
359 // Found some bad grammar. Find the earliest detail range that starts in our search range (if any).
360 // Optionally add a DocumentMarker for each detail in the range.
361 int earliestDetailLocationSoFar = -1;
362 int earliestDetailIndex = -1;
363 for (unsigned i = 0; i < grammarDetails.size(); i++) {
364 const GrammarDetail* detail = &grammarDetails[i];
365 ASSERT(detail->length > 0 && detail->location >= 0);
366
367 int detailStartOffsetInParagraph = badGrammarPhraseLocation + detail->location;
368
369 // Skip this detail if it starts before the original search range
370 if (detailStartOffsetInParagraph < startOffset)
371 continue;
372
373 // Skip this detail if it starts after the original search range
374 if (detailStartOffsetInParagraph >= endOffset)
375 continue;
376
377 if (markAll) {
378 RefPtr<Range> badGrammarRange = TextIterator::subrange(m_range.get(), badGrammarPhraseLocation - startOffset + detail->location, detail->length);
379 ExceptionCode ec = 0;
380 badGrammarRange->startContainer(ec)->document()->markers()->addMarker(badGrammarRange.get(), DocumentMarker::Grammar, detail->userDescription);
381 ASSERT(!ec);
382 }
383
384 // Remember this detail only if it's earlier than our current candidate (the details aren't in a guaranteed order)
385 if (earliestDetailIndex < 0 || earliestDetailLocationSoFar > detail->location) {
386 earliestDetailIndex = i;
387 earliestDetailLocationSoFar = detail->location;
388 }
389 }
390
391 return earliestDetailIndex;
392 #else
393 ASSERT_NOT_REACHED();
394 UNUSED_PARAM(grammarDetails);
395 UNUSED_PARAM(badGrammarPhraseLocation);
396 UNUSED_PARAM(startOffset);
397 UNUSED_PARAM(endOffset);
398 UNUSED_PARAM(markAll);
399 return 0;
400 #endif
401 }
402
findFirstBadGrammar(GrammarDetail & outGrammarDetail,int & outGrammarPhraseOffset,bool markAll)403 String TextCheckingHelper::findFirstBadGrammar(GrammarDetail& outGrammarDetail, int& outGrammarPhraseOffset, bool markAll)
404 {
405 ASSERT(WTF_USE_GRAMMAR_CHECKING);
406 // Initialize out parameters; these will be updated if we find something to return.
407 outGrammarDetail.location = -1;
408 outGrammarDetail.length = 0;
409 outGrammarDetail.guesses.clear();
410 outGrammarDetail.userDescription = "";
411 outGrammarPhraseOffset = 0;
412
413 String firstBadGrammarPhrase;
414
415 // Expand the search range to encompass entire paragraphs, since grammar checking needs that much context.
416 // Determine the character offset from the start of the paragraph to the start of the original search range,
417 // since we will want to ignore results in this area.
418 TextCheckingParagraph paragraph(m_range);
419
420 // Start checking from beginning of paragraph, but skip past results that occur before the start of the original search range.
421 int startOffset = 0;
422 while (startOffset < paragraph.checkingEnd()) {
423 Vector<GrammarDetail> grammarDetails;
424 int badGrammarPhraseLocation = -1;
425 int badGrammarPhraseLength = 0;
426 m_client->textChecker()->checkGrammarOfString(paragraph.textCharacters() + startOffset, paragraph.textLength() - startOffset, grammarDetails, &badGrammarPhraseLocation, &badGrammarPhraseLength);
427
428 if (!badGrammarPhraseLength) {
429 ASSERT(badGrammarPhraseLocation == -1);
430 return String();
431 }
432
433 ASSERT(badGrammarPhraseLocation >= 0);
434 badGrammarPhraseLocation += startOffset;
435
436
437 // Found some bad grammar. Find the earliest detail range that starts in our search range (if any).
438 int badGrammarIndex = findFirstGrammarDetail(grammarDetails, badGrammarPhraseLocation, badGrammarPhraseLength, paragraph.checkingStart(), paragraph.checkingEnd(), markAll);
439 if (badGrammarIndex >= 0) {
440 ASSERT(static_cast<unsigned>(badGrammarIndex) < grammarDetails.size());
441 outGrammarDetail = grammarDetails[badGrammarIndex];
442 }
443
444 // If we found a detail in range, then we have found the first bad phrase (unless we found one earlier but
445 // kept going so we could mark all instances).
446 if (badGrammarIndex >= 0 && firstBadGrammarPhrase.isEmpty()) {
447 outGrammarPhraseOffset = badGrammarPhraseLocation - paragraph.checkingStart();
448 firstBadGrammarPhrase = paragraph.textSubstring(badGrammarPhraseLocation, badGrammarPhraseLength);
449
450 // Found one. We're done now, unless we're marking each instance.
451 if (!markAll)
452 break;
453 }
454
455 // These results were all between the start of the paragraph and the start of the search range; look
456 // beyond this phrase.
457 startOffset = badGrammarPhraseLocation + badGrammarPhraseLength;
458 }
459
460 return firstBadGrammarPhrase;
461 }
462
463
isUngrammatical(Vector<String> & guessesVector) const464 bool TextCheckingHelper::isUngrammatical(Vector<String>& guessesVector) const
465 {
466 ASSERT(WTF_USE_GRAMMAR_CHECKING);
467 if (!m_client)
468 return false;
469
470 ExceptionCode ec;
471 if (!m_range || m_range->collapsed(ec))
472 return false;
473
474 // Returns true only if the passed range exactly corresponds to a bad grammar detail range. This is analogous
475 // to isSelectionMisspelled. It's not good enough for there to be some bad grammar somewhere in the range,
476 // or overlapping the range; the ranges must exactly match.
477 guessesVector.clear();
478 int grammarPhraseOffset;
479
480 GrammarDetail grammarDetail;
481 String badGrammarPhrase = const_cast<TextCheckingHelper*>(this)->findFirstBadGrammar(grammarDetail, grammarPhraseOffset, false);
482
483 // No bad grammar in these parts at all.
484 if (badGrammarPhrase.isEmpty())
485 return false;
486
487 // Bad grammar, but phrase (e.g. sentence) starts beyond start of range.
488 if (grammarPhraseOffset > 0)
489 return false;
490
491 ASSERT(grammarDetail.location >= 0 && grammarDetail.length > 0);
492
493 // Bad grammar, but start of detail (e.g. ungrammatical word) doesn't match start of range
494 if (grammarDetail.location + grammarPhraseOffset)
495 return false;
496
497 // Bad grammar at start of range, but end of bad grammar is before or after end of range
498 if (grammarDetail.length != TextIterator::rangeLength(m_range.get()))
499 return false;
500
501 // Update the spelling panel to be displaying this error (whether or not the spelling panel is on screen).
502 // This is necessary to make a subsequent call to [NSSpellChecker ignoreWord:inSpellDocumentWithTag:] work
503 // correctly; that call behaves differently based on whether the spelling panel is displaying a misspelling
504 // or a grammar error.
505 m_client->updateSpellingUIWithGrammarString(badGrammarPhrase, grammarDetail);
506
507 return true;
508 }
509
guessesForMisspelledOrUngrammaticalRange(bool checkGrammar,bool & misspelled,bool & ungrammatical) const510 Vector<String> TextCheckingHelper::guessesForMisspelledOrUngrammaticalRange(bool checkGrammar, bool& misspelled, bool& ungrammatical) const
511 {
512 #if USE(UNIFIED_TEXT_CHECKING)
513 Vector<String> guesses;
514 ExceptionCode ec;
515 misspelled = false;
516 ungrammatical = false;
517
518 if (!m_client || !m_range || m_range->collapsed(ec))
519 return guesses;
520
521 // Expand the range to encompass entire paragraphs, since text checking needs that much context.
522 TextCheckingParagraph paragraph(m_range);
523 if (paragraph.isEmpty())
524 return guesses;
525
526 Vector<TextCheckingResult> results;
527 TextCheckingTypeMask checkingTypes = checkGrammar ? (TextCheckingTypeSpelling | TextCheckingTypeGrammar) : TextCheckingTypeSpelling;
528 m_client->textChecker()->checkTextOfParagraph(paragraph.textCharacters(), paragraph.textLength(), checkingTypes, results);
529
530 for (unsigned i = 0; i < results.size(); i++) {
531 const TextCheckingResult* result = &results[i];
532 if (result->type == TextCheckingTypeSpelling && paragraph.checkingRangeMatches(result->location, result->length)) {
533 String misspelledWord = paragraph.checkingSubstring();
534 ASSERT(misspelledWord.length());
535 m_client->textChecker()->getGuessesForWord(misspelledWord, String(), guesses);
536 m_client->updateSpellingUIWithMisspelledWord(misspelledWord);
537 misspelled = true;
538 return guesses;
539 }
540 }
541
542 if (!checkGrammar)
543 return guesses;
544
545 for (unsigned i = 0; i < results.size(); i++) {
546 const TextCheckingResult* result = &results[i];
547 if (result->type == TextCheckingTypeGrammar && paragraph.isCheckingRangeCoveredBy(result->location, result->length)) {
548 for (unsigned j = 0; j < result->details.size(); j++) {
549 const GrammarDetail* detail = &result->details[j];
550 ASSERT(detail->length > 0 && detail->location >= 0);
551 if (paragraph.checkingRangeMatches(result->location + detail->location, detail->length)) {
552 String badGrammarPhrase = paragraph.textSubstring(result->location, result->length);
553 ASSERT(badGrammarPhrase.length());
554 for (unsigned k = 0; k < detail->guesses.size(); k++)
555 guesses.append(detail->guesses[k]);
556 m_client->updateSpellingUIWithGrammarString(badGrammarPhrase, *detail);
557 ungrammatical = true;
558 return guesses;
559 }
560 }
561 }
562 }
563 return guesses;
564 #else
565 ASSERT_NOT_REACHED();
566 UNUSED_PARAM(checkGrammar);
567 UNUSED_PARAM(misspelled);
568 UNUSED_PARAM(ungrammatical);
569 return Vector<String>();
570 #endif // USE(UNIFIED_TEXT_CHECKING)
571 }
572
573
markAllMisspellings(RefPtr<Range> & firstMisspellingRange)574 void TextCheckingHelper::markAllMisspellings(RefPtr<Range>& firstMisspellingRange)
575 {
576 // Use the "markAll" feature of findFirstMisspelling. Ignore the return value and the "out parameter";
577 // all we need to do is mark every instance.
578 int ignoredOffset;
579 findFirstMisspelling(ignoredOffset, true, firstMisspellingRange);
580 }
581
markAllBadGrammar()582 void TextCheckingHelper::markAllBadGrammar()
583 {
584 ASSERT(WTF_USE_GRAMMAR_CHECKING);
585 // Use the "markAll" feature of ofindFirstBadGrammar. Ignore the return value and "out parameters"; all we need to
586 // do is mark every instance.
587 GrammarDetail ignoredGrammarDetail;
588 int ignoredOffset;
589 findFirstBadGrammar(ignoredGrammarDetail, ignoredOffset, true);
590 }
591
592 }
593