int TextCheckingHelper::findFirstGrammarDetail(const Vector<GrammarDetail>& grammarDetails, int badGrammarPhraseLocation, int startOffset, int endOffset, bool markAll) const
{
// Found some bad grammar. Find the earliest detail range that starts in our search range (if any).
// Optionally add a DocumentMarker for each detail in the range.
int earliestDetailLocationSoFar = -1;
int earliestDetailIndex = -1;
for (unsigned i = 0; i < grammarDetails.size(); i++) {
const GrammarDetail* detail = &grammarDetails[i];
ASSERT(detail->length > 0 && detail->location >= 0);
int detailStartOffsetInParagraph = badGrammarPhraseLocation + detail->location;
// Skip this detail if it starts before the original search range
if (detailStartOffsetInParagraph < startOffset)
continue;
// Skip this detail if it starts after the original search range
if (detailStartOffsetInParagraph >= endOffset)
continue;
if (markAll) {
const EphemeralRange badGrammarRange = calculateCharacterSubrange(EphemeralRange(m_start, m_end), badGrammarPhraseLocation - startOffset + detail->location, detail->length);
badGrammarRange.document().markers().addMarker(badGrammarRange.startPosition(), badGrammarRange.endPosition(), DocumentMarker::Grammar, detail->userDescription);
}
// Remember this detail only if it's earlier than our current candidate (the details aren't in a guaranteed order)
if (earliestDetailIndex < 0 || earliestDetailLocationSoFar > detail->location) {
earliestDetailIndex = i;
earliestDetailLocationSoFar = detail->location;
}
}
return earliestDetailIndex;
}
EphemeralRange TextCheckingParagraph::offsetAsRange() const
{
ASSERT(m_checkingRange.isNotNull());
if (m_offsetAsRange.isNull())
m_offsetAsRange = EphemeralRange(paragraphRange().startPosition(), checkingRange().startPosition());
return m_offsetAsRange;
}
String TextCheckingHelper::findFirstBadGrammar(GrammarDetail& outGrammarDetail, int& outGrammarPhraseOffset, bool markAll)
{
// Initialize out parameters; these will be updated if we find something to return.
outGrammarDetail.location = -1;
outGrammarDetail.length = 0;
outGrammarDetail.guesses.clear();
outGrammarDetail.userDescription = "";
outGrammarPhraseOffset = 0;
String firstBadGrammarPhrase;
// Expand the search range to encompass entire paragraphs, since grammar checking needs that much context.
// Determine the character offset from the start of the paragraph to the start of the original search range,
// since we will want to ignore results in this area.
TextCheckingParagraph paragraph(EphemeralRange(m_start, m_end));
// Start checking from beginning of paragraph, but skip past results that occur before the start of the original search range.
int startOffset = 0;
while (startOffset < paragraph.checkingEnd()) {
Vector<GrammarDetail> grammarDetails;
int badGrammarPhraseLocation = -1;
int badGrammarPhraseLength = 0;
m_client->textChecker().checkGrammarOfString(paragraph.textSubstring(startOffset), grammarDetails, &badGrammarPhraseLocation, &badGrammarPhraseLength);
if (!badGrammarPhraseLength) {
ASSERT(badGrammarPhraseLocation == -1);
return String();
}
ASSERT(badGrammarPhraseLocation >= 0);
badGrammarPhraseLocation += startOffset;
// Found some bad grammar. Find the earliest detail range that starts in our search range (if any).
int badGrammarIndex = findFirstGrammarDetail(grammarDetails, badGrammarPhraseLocation, paragraph.checkingStart(), paragraph.checkingEnd(), markAll);
if (badGrammarIndex >= 0) {
ASSERT(static_cast<unsigned>(badGrammarIndex) < grammarDetails.size());
outGrammarDetail = grammarDetails[badGrammarIndex];
}
// If we found a detail in range, then we have found the first bad phrase (unless we found one earlier but
// kept going so we could mark all instances).
if (badGrammarIndex >= 0 && firstBadGrammarPhrase.isEmpty()) {
outGrammarPhraseOffset = badGrammarPhraseLocation - paragraph.checkingStart();
firstBadGrammarPhrase = paragraph.textSubstring(badGrammarPhraseLocation, badGrammarPhraseLength);
// Found one. We're done now, unless we're marking each instance.
if (!markAll)
break;
}
// These results were all between the start of the paragraph and the start of the search range; look
// beyond this phrase.
startOffset = badGrammarPhraseLocation + badGrammarPhraseLength;
}
return firstBadGrammarPhrase;
}
String AbstractInlineTextBox::text() const
{
if (!m_inlineTextBox || !m_lineLayoutItem)
return String();
unsigned start = m_inlineTextBox->start();
unsigned len = m_inlineTextBox->len();
if (Node* node = m_lineLayoutItem.node()) {
if (node->isTextNode())
return plainText(EphemeralRange(Position(node, start), Position(node, start + len)), TextIteratorIgnoresStyleVisibility);
return plainText(EphemeralRange(Position(node, PositionAnchorType::BeforeAnchor), Position(node, PositionAnchorType::AfterAnchor)), TextIteratorIgnoresStyleVisibility);
}
String result = m_lineLayoutItem.text().substring(start, len).simplifyWhiteSpace(WTF::DoNotStripWhiteSpace);
if (m_inlineTextBox->nextTextBox() && m_inlineTextBox->nextTextBox()->start() > m_inlineTextBox->end() && result.length() && !result.right(1).containsOnlyWhitespace())
return result + " ";
return result;
}
String TextCheckingHelper::findFirstMisspelling(int& firstMisspellingOffset, bool markAll)
{
WordAwareIterator it(m_start, m_end);
firstMisspellingOffset = 0;
String firstMisspelling;
int currentChunkOffset = 0;
while (!it.atEnd()) {
int length = it.length();
// Skip some work for one-space-char hunks
if (!(length == 1 && it.characterAt(0) == ' ')) {
int misspellingLocation = -1;
int misspellingLength = 0;
m_client->textChecker().checkSpellingOfString(it.substring(0, length), &misspellingLocation, &misspellingLength);
// 5490627 shows that there was some code path here where the String constructor below crashes.
// We don't know exactly what combination of bad input caused this, so we're making this much
// more robust against bad input on release builds.
ASSERT(misspellingLength >= 0);
ASSERT(misspellingLocation >= -1);
ASSERT(!misspellingLength || misspellingLocation >= 0);
ASSERT(misspellingLocation < length);
ASSERT(misspellingLength <= length);
ASSERT(misspellingLocation + misspellingLength <= length);
if (misspellingLocation >= 0 && misspellingLength > 0 && misspellingLocation < length && misspellingLength <= length && misspellingLocation + misspellingLength <= length) {
// Compute range of misspelled word
const EphemeralRange misspellingRange = calculateCharacterSubrange(EphemeralRange(m_start, m_end), currentChunkOffset + misspellingLocation, misspellingLength);
// Remember first-encountered misspelling and its offset.
if (!firstMisspelling) {
firstMisspellingOffset = currentChunkOffset + misspellingLocation;
firstMisspelling = it.substring(misspellingLocation, misspellingLength);
}
// Store marker for misspelled word.
misspellingRange.document().markers().addMarker(misspellingRange.startPosition(), misspellingRange.endPosition(), DocumentMarker::Spelling);
// Bail out if we're marking only the first misspelling, and not all instances.
if (!markAll)
break;
}
}
currentChunkOffset += length;
it.advance();
}
return firstMisspelling;
}
void SpellCheckRequester::didCheckSucceed(int sequence, const Vector<TextCheckingResult>& results)
{
TextCheckingRequestData requestData = m_processingRequest->data();
if (requestData.sequence() == sequence) {
DocumentMarker::MarkerTypes markers = DocumentMarker::SpellCheckClientMarkers();
if (!requestData.maskContains(TextCheckingTypeSpelling))
markers.remove(DocumentMarker::Spelling);
if (!requestData.maskContains(TextCheckingTypeGrammar))
markers.remove(DocumentMarker::Grammar);
RefPtrWillBeRawPtr<Range> checkingRange = m_processingRequest->checkingRange();
frame().document()->markers().removeMarkers(EphemeralRange(checkingRange.get()), markers);
}
didCheck(sequence, results);
}
TEST_F(CharacterIteratorTest, SubrangeWithReplacedElements) {
static const char* bodyContent =
"<div id='div' contenteditable='true'>1<img src='foo.png'>345</div>";
setBodyContent(bodyContent);
document().view()->updateAllLifecyclePhases();
Node* divNode = document().getElementById("div");
Range* entireRange = Range::create(document(), divNode, 0, divNode, 3);
EphemeralRange result =
calculateCharacterSubrange(EphemeralRange(entireRange), 2, 3);
Node* textNode = divNode->lastChild();
EXPECT_EQ(Position(textNode, 0), result.startPosition());
EXPECT_EQ(Position(textNode, 3), result.endPosition());
}
static EphemeralRange expandEndToSentenceBoundary(const EphemeralRange& range) {
DCHECK(range.isNotNull());
const VisiblePosition& visibleEnd =
createVisiblePosition(range.endPosition());
DCHECK(visibleEnd.isNotNull());
const Position& sentenceEnd = endOfSentence(visibleEnd).deepEquivalent();
// TODO(xiaochengh): |sentenceEnd < range.endPosition()| is possible,
// which would trigger a DCHECK in EphemeralRange's constructor if we return
// it directly. However, this shouldn't happen and needs to be fixed.
return EphemeralRange(
range.startPosition(),
sentenceEnd.isNotNull() && sentenceEnd > range.endPosition()
? sentenceEnd
: range.endPosition());
}
void InputMethodController::setComposition(const String& text, const Vector<CompositionUnderline>& underlines, unsigned selectionStart, unsigned selectionEnd)
{
Editor::RevealSelectionScope revealSelectionScope(&editor());
// Updates styles before setting selection for composition to prevent
// inserting the previous composition text into text nodes oddly.
// See https://bugs.webkit.org/show_bug.cgi?id=46868
frame().document()->updateLayoutTreeIfNeeded();
selectComposition();
if (frame().selection().isNone())
return;
if (Element* target = frame().document()->focusedElement()) {
// Dispatch an appropriate composition event to the focused node.
// We check the composition status and choose an appropriate composition event since this
// function is used for three purposes:
// 1. Starting a new composition.
// Send a compositionstart and a compositionupdate event when this function creates
// a new composition node, i.e.
// !hasComposition() && !text.isEmpty().
// Sending a compositionupdate event at this time ensures that at least one
// compositionupdate event is dispatched.
// 2. Updating the existing composition node.
// Send a compositionupdate event when this function updates the existing composition
// node, i.e. hasComposition() && !text.isEmpty().
// 3. Canceling the ongoing composition.
// Send a compositionend event when function deletes the existing composition node, i.e.
// !hasComposition() && test.isEmpty().
RefPtrWillBeRawPtr<CompositionEvent> event = nullptr;
if (!hasComposition()) {
// We should send a compositionstart event only when the given text is not empty because this
// function doesn't create a composition node when the text is empty.
if (!text.isEmpty()) {
target->dispatchEvent(CompositionEvent::create(EventTypeNames::compositionstart, frame().domWindow(), frame().selectedText()));
event = CompositionEvent::create(EventTypeNames::compositionupdate, frame().domWindow(), text);
}
} else {
if (!text.isEmpty())
event = CompositionEvent::create(EventTypeNames::compositionupdate, frame().domWindow(), text);
else
event = CompositionEvent::create(EventTypeNames::compositionend, frame().domWindow(), text);
}
if (event.get())
target->dispatchEvent(event);
}
// If text is empty, then delete the old composition here. If text is non-empty, InsertTextCommand::input
// will delete the old composition with an optimized replace operation.
if (text.isEmpty()) {
ASSERT(frame().document());
TypingCommand::deleteSelection(*frame().document(), TypingCommand::PreventSpellChecking);
}
clear();
if (text.isEmpty())
return;
ASSERT(frame().document());
TypingCommand::insertText(*frame().document(), text, TypingCommand::SelectInsertedText | TypingCommand::PreventSpellChecking, TypingCommand::TextCompositionUpdate);
// Find out what node has the composition now.
Position base = mostForwardCaretPosition(frame().selection().base());
Node* baseNode = base.anchorNode();
if (!baseNode || !baseNode->isTextNode())
return;
Position extent = frame().selection().extent();
Node* extentNode = extent.anchorNode();
if (baseNode != extentNode)
return;
unsigned extentOffset = extent.computeOffsetInContainerNode();
unsigned baseOffset = base.computeOffsetInContainerNode();
if (baseOffset + text.length() != extentOffset)
return;
m_isDirty = true;
m_hasComposition = true;
if (!m_compositionRange)
m_compositionRange = Range::create(baseNode->document());
m_compositionRange->setStart(baseNode, baseOffset);
m_compositionRange->setEnd(baseNode, extentOffset);
if (baseNode->layoutObject())
baseNode->layoutObject()->setShouldDoFullPaintInvalidation();
unsigned start = std::min(baseOffset + selectionStart, extentOffset);
unsigned end = std::min(std::max(start, baseOffset + selectionEnd), extentOffset);
RefPtrWillBeRawPtr<Range> selectedRange = Range::create(baseNode->document(), baseNode, start, baseNode, end);
frame().selection().setSelectedRange(selectedRange.get(), TextAffinity::Downstream, SelectionDirectionalMode::NonDirectional, NotUserTriggered);
if (underlines.isEmpty()) {
frame().document()->markers().addCompositionMarker(m_compositionRange->startPosition(), m_compositionRange->endPosition(), Color::black, false, LayoutTheme::theme().platformDefaultCompositionBackgroundColor());
return;
}
for (const auto& underline : underlines) {
unsigned underlineStart = baseOffset + underline.startOffset;
unsigned underlineEnd = baseOffset + underline.endOffset;
EphemeralRange ephemeralLineRange = EphemeralRange(Position(baseNode, underlineStart), Position(baseNode, underlineEnd));
if (ephemeralLineRange.isNull())
continue;
frame().document()->markers().addCompositionMarker(ephemeralLineRange.startPosition(), ephemeralLineRange.endPosition(), underline.color, underline.thick, underline.backgroundColor);
}
}
String TextCheckingHelper::findFirstMisspellingOrBadGrammar(bool& outIsSpelling, int& outFirstFoundOffset, GrammarDetail& outGrammarDetail)
{
if (!unifiedTextCheckerEnabled())
return "";
String firstFoundItem;
String misspelledWord;
String badGrammarPhrase;
// Initialize out parameters; these will be updated if we find something to return.
outIsSpelling = true;
outFirstFoundOffset = 0;
outGrammarDetail.location = -1;
outGrammarDetail.length = 0;
outGrammarDetail.guesses.clear();
outGrammarDetail.userDescription = "";
// Expand the search range to encompass entire paragraphs, since text checking needs that much context.
// Determine the character offset from the start of the paragraph to the start of the original search range,
// since we will want to ignore results in this area.
Position paragraphStart = startOfParagraph(createVisiblePosition(m_start)).toParentAnchoredPosition();
Position paragraphEnd = m_end;
int totalRangeLength = TextIterator::rangeLength(paragraphStart, paragraphEnd);
paragraphEnd = endOfParagraph(createVisiblePosition(m_start)).toParentAnchoredPosition();
int rangeStartOffset = TextIterator::rangeLength(paragraphStart, m_start);
int totalLengthProcessed = 0;
bool firstIteration = true;
bool lastIteration = false;
while (totalLengthProcessed < totalRangeLength) {
// Iterate through the search range by paragraphs, checking each one for spelling and grammar.
int currentLength = TextIterator::rangeLength(paragraphStart, paragraphEnd);
int currentStartOffset = firstIteration ? rangeStartOffset : 0;
int currentEndOffset = currentLength;
if (inSameParagraph(createVisiblePosition(paragraphStart), createVisiblePosition(m_end))) {
// Determine the character offset from the end of the original search range to the end of the paragraph,
// since we will want to ignore results in this area.
currentEndOffset = TextIterator::rangeLength(paragraphStart, m_end);
lastIteration = true;
}
if (currentStartOffset < currentEndOffset) {
String paragraphString = plainText(EphemeralRange(paragraphStart, paragraphEnd));
if (paragraphString.length() > 0) {
bool foundGrammar = false;
int spellingLocation = 0;
int grammarPhraseLocation = 0;
int grammarDetailLocation = 0;
unsigned grammarDetailIndex = 0;
Vector<TextCheckingResult> results;
TextCheckingTypeMask checkingTypes = TextCheckingTypeSpelling | TextCheckingTypeGrammar;
checkTextOfParagraph(m_client->textChecker(), paragraphString, checkingTypes, results);
for (unsigned i = 0; i < results.size(); i++) {
const TextCheckingResult* result = &results[i];
if (result->decoration == TextDecorationTypeSpelling && result->location >= currentStartOffset && result->location + result->length <= currentEndOffset) {
ASSERT(result->length > 0 && result->location >= 0);
spellingLocation = result->location;
misspelledWord = paragraphString.substring(result->location, result->length);
ASSERT(misspelledWord.length());
break;
}
if (result->decoration == TextDecorationTypeGrammar && result->location < currentEndOffset && result->location + result->length > currentStartOffset) {
ASSERT(result->length > 0 && result->location >= 0);
// We can't stop after the first grammar result, since there might still be a spelling result after
// it begins but before the first detail in it, but we can stop if we find a second grammar result.
if (foundGrammar)
break;
for (unsigned j = 0; j < result->details.size(); j++) {
const GrammarDetail* detail = &result->details[j];
ASSERT(detail->length > 0 && detail->location >= 0);
if (result->location + detail->location >= currentStartOffset && result->location + detail->location + detail->length <= currentEndOffset && (!foundGrammar || result->location + detail->location < grammarDetailLocation)) {
grammarDetailIndex = j;
grammarDetailLocation = result->location + detail->location;
foundGrammar = true;
}
}
if (foundGrammar) {
grammarPhraseLocation = result->location;
outGrammarDetail = result->details[grammarDetailIndex];
badGrammarPhrase = paragraphString.substring(result->location, result->length);
ASSERT(badGrammarPhrase.length());
}
}
}
if (!misspelledWord.isEmpty() && (badGrammarPhrase.isEmpty() || spellingLocation <= grammarDetailLocation)) {
int spellingOffset = spellingLocation - currentStartOffset;
if (!firstIteration)
spellingOffset += TextIterator::rangeLength(m_start, paragraphStart);
outIsSpelling = true;
outFirstFoundOffset = spellingOffset;
firstFoundItem = misspelledWord;
break;
}
if (!badGrammarPhrase.isEmpty()) {
int grammarPhraseOffset = grammarPhraseLocation - currentStartOffset;
if (!firstIteration)
grammarPhraseOffset += TextIterator::rangeLength(m_start, paragraphStart);
outIsSpelling = false;
outFirstFoundOffset = grammarPhraseOffset;
firstFoundItem = badGrammarPhrase;
break;
}
}
}
if (lastIteration || totalLengthProcessed + currentLength >= totalRangeLength)
break;
VisiblePosition newParagraphStart = startOfNextParagraph(createVisiblePosition(paragraphEnd));
paragraphStart = newParagraphStart.toParentAnchoredPosition();
paragraphEnd = endOfParagraph(newParagraphStart).toParentAnchoredPosition();
firstIteration = false;
totalLengthProcessed += currentLength;
}
return firstFoundItem;
}
PlainTextRange PlainTextRange::create(const ContainerNode& scope, const Range& range)
{
return create(scope, EphemeralRange(&range));
}
void TextFinder::scopeStringMatches(int identifier,
const WebString& searchText,
const WebFindOptions& options,
bool reset) {
// TODO(dglazkov): The reset/continue cases need to be untangled into two
// separate functions. This collation of logic is unnecessary and adds to
// overall complexity of the code.
if (reset) {
// This is a brand new search, so we need to reset everything.
// Scoping is just about to begin.
m_scopingInProgress = true;
// Need to keep the current identifier locally in order to finish the
// request in case the frame is detached during the process.
m_findRequestIdentifier = identifier;
// Clear highlighting for this frame.
unmarkAllTextMatches();
// Clear the tickmarks and results cache.
clearFindMatchesCache();
// Clear the counters from last operation.
m_lastMatchCount = 0;
m_nextInvalidateAfter = 0;
m_resumeScopingFromRange = nullptr;
// The view might be null on detached frames.
LocalFrame* frame = ownerFrame().frame();
if (frame && frame->page())
m_frameScoping = true;
// Now, defer scoping until later to allow find operation to finish quickly.
scopeStringMatchesSoon(
identifier, searchText, options,
false); // false means just reset, so don't do it again.
return;
}
if (!shouldScopeMatches(searchText, options)) {
finishCurrentScopingEffort(identifier);
return;
}
PositionInFlatTree searchStart =
PositionInFlatTree::firstPositionInNode(ownerFrame().frame()->document());
PositionInFlatTree searchEnd =
PositionInFlatTree::lastPositionInNode(ownerFrame().frame()->document());
DCHECK_EQ(searchStart.document(), searchEnd.document());
if (m_resumeScopingFromRange) {
// This is a continuation of a scoping operation that timed out and didn't
// complete last time around, so we should start from where we left off.
DCHECK(m_resumeScopingFromRange->collapsed());
searchStart = fromPositionInDOMTree<EditingInFlatTreeStrategy>(
m_resumeScopingFromRange->endPosition());
if (searchStart.document() != searchEnd.document())
return;
}
// TODO(dglazkov): The use of updateStyleAndLayoutIgnorePendingStylesheets
// needs to be audited. see http://crbug.com/590369 for more details.
searchStart.document()->updateStyleAndLayoutIgnorePendingStylesheets();
// This timeout controls how long we scope before releasing control. This
// value does not prevent us from running for longer than this, but it is
// periodically checked to see if we have exceeded our allocated time.
const double maxScopingDuration = 0.1; // seconds
int matchCount = 0;
bool timedOut = false;
double startTime = currentTime();
do {
// Find next occurrence of the search string.
// FIXME: (http://crbug.com/6818) This WebKit operation may run for longer
// than the timeout value, and is not interruptible as it is currently
// written. We may need to rewrite it with interruptibility in mind, or
// find an alternative.
const EphemeralRangeInFlatTree result =
findPlainText(EphemeralRangeInFlatTree(searchStart, searchEnd),
searchText, options.matchCase ? 0 : CaseInsensitive);
if (result.isCollapsed()) {
// Not found.
break;
}
Range* resultRange = Range::create(
result.document(), toPositionInDOMTree(result.startPosition()),
toPositionInDOMTree(result.endPosition()));
if (resultRange->collapsed()) {
// resultRange will be collapsed if the matched text spans over multiple
// TreeScopes. FIXME: Show such matches to users.
searchStart = result.endPosition();
continue;
}
++matchCount;
// Catch a special case where Find found something but doesn't know what
// the bounding box for it is. In this case we set the first match we find
// as the active rect.
IntRect resultBounds = resultRange->boundingBox();
IntRect activeSelectionRect;
if (m_locatingActiveRect) {
activeSelectionRect =
m_activeMatch.get() ? m_activeMatch->boundingBox() : resultBounds;
}
// If the Find function found a match it will have stored where the
// match was found in m_activeSelectionRect on the current frame. If we
// find this rect during scoping it means we have found the active
// tickmark.
bool foundActiveMatch = false;
if (m_locatingActiveRect && (activeSelectionRect == resultBounds)) {
// We have found the active tickmark frame.
m_currentActiveMatchFrame = true;
foundActiveMatch = true;
// We also know which tickmark is active now.
m_activeMatchIndex = matchCount - 1;
// To stop looking for the active tickmark, we set this flag.
m_locatingActiveRect = false;
// Notify browser of new location for the selected rectangle.
reportFindInPageSelection(
ownerFrame().frameView()->contentsToRootFrame(resultBounds),
m_activeMatchIndex + 1, identifier);
}
ownerFrame().frame()->document()->markers().addTextMatchMarker(
EphemeralRange(resultRange), foundActiveMatch);
m_findMatchesCache.append(
FindMatch(resultRange, m_lastMatchCount + matchCount));
// Set the new start for the search range to be the end of the previous
// result range. There is no need to use a VisiblePosition here,
// since findPlainText will use a TextIterator to go over the visible
// text nodes.
searchStart = result.endPosition();
m_resumeScopingFromRange = Range::create(
result.document(), toPositionInDOMTree(result.endPosition()),
toPositionInDOMTree(result.endPosition()));
timedOut = (currentTime() - startTime) >= maxScopingDuration;
} while (!timedOut);
// Remember what we search for last time, so we can skip searching if more
// letters are added to the search string (and last outcome was 0).
m_lastSearchString = searchText;
if (matchCount > 0) {
ownerFrame().frame()->editor().setMarkedTextMatchesAreHighlighted(true);
m_lastMatchCount += matchCount;
// Let the frame know how many matches we found during this pass.
ownerFrame().increaseMatchCount(matchCount, identifier);
}
if (timedOut) {
// If we found anything during this pass, we should redraw. However, we
// don't want to spam too much if the page is extremely long, so if we
// reach a certain point we start throttling the redraw requests.
if (matchCount > 0)
invalidateIfNecessary();
// Scoping effort ran out of time, lets ask for another time-slice.
scopeStringMatchesSoon(identifier, searchText, options,
false); // don't reset.
return; // Done for now, resume work later.
}
finishCurrentScopingEffort(identifier);
}
EphemeralRange PlainTextRange::createRangeFor(const ContainerNode& scope, GetRangeFor getRangeFor) const
{
ASSERT(isNotNull());
size_t docTextPosition = 0;
bool startRangeFound = false;
Position textRunStartPosition;
Position textRunEndPosition;
TextIteratorBehaviorFlags behaviorFlags = TextIteratorEmitsObjectReplacementCharacter;
if (getRangeFor == ForSelection)
behaviorFlags |= TextIteratorEmitsCharactersBetweenAllVisiblePositions;
auto range = EphemeralRange::rangeOfContents(scope);
TextIterator it(range.startPosition(), range.endPosition(), behaviorFlags);
// FIXME: the atEnd() check shouldn't be necessary, workaround for
// <http://bugs.webkit.org/show_bug.cgi?id=6289>.
if (!start() && !length() && it.atEnd())
return EphemeralRange(Position(it.currentContainer(), 0));
Position resultStart = Position(&scope.document(), 0);
Position resultEnd = resultStart;
for (; !it.atEnd(); it.advance()) {
int len = it.length();
textRunStartPosition = it.startPositionInCurrentContainer();
textRunEndPosition = it.endPositionInCurrentContainer();
bool foundStart = start() >= docTextPosition && start() <= docTextPosition + len;
bool foundEnd = end() >= docTextPosition && end() <= docTextPosition + len;
// Fix textRunRange->endPosition(), but only if foundStart || foundEnd, because it is only
// in those cases that textRunRange is used.
if (foundEnd) {
// FIXME: This is a workaround for the fact that the end of a run
// is often at the wrong position for emitted '\n's or if the
// layoutObject of the current node is a replaced element.
if (len == 1 && (it.characterAt(0) == '\n' || it.isInsideAtomicInlineElement())) {
it.advance();
if (!it.atEnd()) {
textRunEndPosition = it.startPositionInCurrentContainer();
} else {
Position runEnd = nextPositionOf(createVisiblePosition(textRunStartPosition)).deepEquivalent();
if (runEnd.isNotNull())
textRunEndPosition = runEnd;
}
}
}
if (foundStart) {
startRangeFound = true;
if (textRunStartPosition.computeContainerNode()->isTextNode()) {
int offset = start() - docTextPosition;
resultStart = Position(textRunStartPosition.computeContainerNode(), offset + textRunStartPosition.offsetInContainerNode());
} else {
if (start() == docTextPosition)
resultStart = textRunStartPosition;
else
resultStart = textRunEndPosition;
}
}
if (foundEnd) {
if (textRunStartPosition.computeContainerNode()->isTextNode()) {
int offset = end() - docTextPosition;
resultEnd = Position(textRunStartPosition.computeContainerNode(), offset + textRunStartPosition.offsetInContainerNode());
} else {
if (end() == docTextPosition)
resultEnd = textRunStartPosition;
else
resultEnd = textRunEndPosition;
}
docTextPosition += len;
break;
}
docTextPosition += len;
}
if (!startRangeFound)
return EphemeralRange();
if (length() && end() > docTextPosition) { // end() is out of bounds
resultEnd = textRunEndPosition;
}
return EphemeralRange(resultStart.toOffsetInAnchor(), resultEnd.toOffsetInAnchor());
}
void TextCheckingParagraph::invalidateParagraphRangeValues()
{
m_checkingStart = m_checkingEnd = -1;
m_offsetAsRange = EphemeralRange();
m_text = String();
}
void TextCheckingParagraph::expandRangeToNextEnd()
{
ASSERT(m_checkingRange.isNotNull());
setParagraphRange(EphemeralRange(paragraphRange().startPosition(), endOfParagraph(startOfNextParagraph(createVisiblePosition(paragraphRange().startPosition()))).deepEquivalent()));
invalidateParagraphRangeValues();
}
bool TextFinder::setMarkerActive(Range* range, bool active) {
if (!range || range->collapsed())
return false;
return ownerFrame().frame()->document()->markers().setMarkersActive(
EphemeralRange(range), active);
}
static EphemeralRange expandToParagraphBoundary(const EphemeralRange& range)
{
return EphemeralRange(startOfParagraph(createVisiblePosition(range.startPosition())).deepEquivalent(), endOfParagraph(createVisiblePosition(range.endPosition())).deepEquivalent());
}
// static
PassRefPtrWillBeRawPtr<SpellCheckRequest> SpellCheckRequest::create(TextCheckingTypeMask textCheckingOptions, TextCheckingProcessType processType, PassRefPtrWillBeRawPtr<Range> checkingRange, PassRefPtrWillBeRawPtr<Range> paragraphRange, int requestNumber)
{
ASSERT(checkingRange);
ASSERT(paragraphRange);
String text = checkingRange->text();
if (!text.length())
return nullptr;
const DocumentMarkerVector& markers = checkingRange->ownerDocument().markers().markersInRange(EphemeralRange(checkingRange.get()), DocumentMarker::SpellCheckClientMarkers());
Vector<uint32_t> hashes(markers.size());
Vector<unsigned> offsets(markers.size());
for (size_t i = 0; i < markers.size(); i++) {
hashes[i] = markers[i]->hash();
offsets[i] = markers[i]->startOffset();
}
return adoptRefWillBeNoop(new SpellCheckRequest(checkingRange, paragraphRange, text, textCheckingOptions, processType, hashes, offsets, requestNumber));
}
void DOMSelection::addRange(Range* newRange) {
DCHECK(newRange);
if (!isAvailable())
return;
if (newRange->ownerDocument() != frame()->document())
return;
if (!newRange->isConnected()) {
addConsoleError("The given range isn't in document.");
return;
}
FrameSelection& selection = frame()->selection();
if (newRange->ownerDocument() != selection.document()) {
// "editing/selection/selection-in-iframe-removed-crash.html" goes here.
return;
}
// TODO(xiaochengh): The use of updateStyleAndLayoutIgnorePendingStylesheets
// needs to be audited. See http://crbug.com/590369 for more details.
// In the long term, we should change FrameSelection::setSelection to take a
// parameter that does not require clean layout, so that modifying selection
// no longer performs synchronous layout by itself.
frame()->document()->updateStyleAndLayoutIgnorePendingStylesheets();
if (selection.isNone()) {
selection.setSelectedRange(EphemeralRange(newRange), VP_DEFAULT_AFFINITY);
return;
}
Range* originalRange = selection.firstRange();
if (originalRange->startContainer()->document() !=
newRange->startContainer()->document()) {
addConsoleError(
"The given range does not belong to the current selection's document.");
return;
}
if (originalRange->startContainer()->treeScope() !=
newRange->startContainer()->treeScope()) {
addConsoleError(
"The given range and the current selection belong to two different "
"document fragments.");
return;
}
if (originalRange->compareBoundaryPoints(Range::kStartToEnd, newRange,
ASSERT_NO_EXCEPTION) < 0 ||
newRange->compareBoundaryPoints(Range::kStartToEnd, originalRange,
ASSERT_NO_EXCEPTION) < 0) {
addConsoleError("Discontiguous selection is not supported.");
return;
}
// FIXME: "Merge the ranges if they intersect" is Blink-specific behavior;
// other browsers supporting discontiguous selection (obviously) keep each
// Range added and return it in getRangeAt(). But it's unclear if we can
// really do the same, since we don't support discontiguous selection. Further
// discussions at
// <https://code.google.com/p/chromium/issues/detail?id=353069>.
Range* start = originalRange->compareBoundaryPoints(
Range::kStartToStart, newRange, ASSERT_NO_EXCEPTION) < 0
? originalRange
: newRange;
Range* end = originalRange->compareBoundaryPoints(Range::kEndToEnd, newRange,
ASSERT_NO_EXCEPTION) < 0
? newRange
: originalRange;
const EphemeralRange merged =
EphemeralRange(start->startPosition(), end->endPosition());
TextAffinity affinity = selection.selection().affinity();
selection.setSelectedRange(merged, affinity);
}
EphemeralRange InputMethodController::compositionEphemeralRange() const
{
if (!hasComposition())
return EphemeralRange();
return EphemeralRange(m_compositionRange.get());
}
