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|
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "mozInlineSpellWordUtil.h"
#include <algorithm>
#include <utility>
#include "mozilla/BinarySearch.h"
#include "mozilla/EditorBase.h"
#include "mozilla/HTMLEditor.h"
#include "mozilla/Logging.h"
#include "mozilla/dom/Element.h"
#include "nsDebug.h"
#include "nsAtom.h"
#include "nsComponentManagerUtils.h"
#include "nsUnicodeProperties.h"
#include "nsServiceManagerUtils.h"
#include "nsIContent.h"
#include "nsTextFragment.h"
#include "nsRange.h"
#include "nsContentUtils.h"
#include "nsIFrame.h"
using namespace mozilla;
static LazyLogModule sInlineSpellWordUtilLog{"InlineSpellWordUtil"};
// IsIgnorableCharacter
//
// These characters are ones that we should ignore in input.
inline bool IsIgnorableCharacter(char ch) {
return (ch == static_cast<char>(0xAD)); // SOFT HYPHEN
}
inline bool IsIgnorableCharacter(char16_t ch) {
return (ch == 0xAD || // SOFT HYPHEN
ch == 0x1806); // MONGOLIAN TODO SOFT HYPHEN
}
// IsConditionalPunctuation
//
// Some characters (like apostrophes) require characters on each side to be
// part of a word, and are otherwise punctuation.
inline bool IsConditionalPunctuation(char ch) {
return (ch == '\'' || // RIGHT SINGLE QUOTATION MARK
ch == static_cast<char>(0xB7)); // MIDDLE DOT
}
inline bool IsConditionalPunctuation(char16_t ch) {
return (ch == '\'' || ch == 0x2019 || // RIGHT SINGLE QUOTATION MARK
ch == 0x00B7); // MIDDLE DOT
}
static bool IsAmbiguousDOMWordSeprator(char16_t ch) {
// This class may be CHAR_CLASS_SEPARATOR, but it depends on context.
return (ch == '@' || ch == ':' || ch == '.' || ch == '/' || ch == '-' ||
IsConditionalPunctuation(ch));
}
static bool IsAmbiguousDOMWordSeprator(char ch) {
// This class may be CHAR_CLASS_SEPARATOR, but it depends on context.
return IsAmbiguousDOMWordSeprator(static_cast<char16_t>(ch));
}
// IsDOMWordSeparator
//
// Determines if the given character should be considered as a DOM Word
// separator. Basically, this is whitespace, although it could also have
// certain punctuation that we know ALWAYS breaks words. This is important.
// For example, we can't have any punctuation that could appear in a URL
// or email address in this, because those need to always fit into a single
// DOM word.
static bool IsDOMWordSeparator(char ch) {
// simple spaces or no-break space
return (ch == ' ' || ch == '\t' || ch == '\n' || ch == '\r' ||
ch == static_cast<char>(0xA0));
}
static bool IsDOMWordSeparator(char16_t ch) {
// simple spaces
if (ch == ' ' || ch == '\t' || ch == '\n' || ch == '\r') return true;
// complex spaces - check only if char isn't ASCII (uncommon)
if (ch >= 0xA0 && (ch == 0x00A0 || // NO-BREAK SPACE
ch == 0x2002 || // EN SPACE
ch == 0x2003 || // EM SPACE
ch == 0x2009 || // THIN SPACE
ch == 0x3000)) // IDEOGRAPHIC SPACE
return true;
// otherwise not a space
return false;
}
bool NodeOffset::operator==(
const mozilla::RangeBoundary& aRangeBoundary) const {
if (aRangeBoundary.Container() != mNode) {
return false;
}
const Maybe<uint32_t> rangeBoundaryOffset =
aRangeBoundary.Offset(RangeBoundary::OffsetFilter::kValidOffsets);
MOZ_ASSERT(mOffset >= 0);
return rangeBoundaryOffset &&
(*rangeBoundaryOffset == static_cast<uint32_t>(mOffset));
}
bool NodeOffsetRange::operator==(const nsRange& aRange) const {
return mBegin == aRange.StartRef() && mEnd == aRange.EndRef();
}
// static
Maybe<mozInlineSpellWordUtil> mozInlineSpellWordUtil::Create(
const EditorBase& aEditorBase) {
dom::Document* document = aEditorBase.GetDocument();
if (NS_WARN_IF(!document)) {
return Nothing();
}
const bool isContentEditableOrDesignMode = aEditorBase.IsHTMLEditor();
// Find the root node for the editor. For contenteditable the mRootNode could
// change to shadow root if the begin and end are inside the shadowDOM.
nsINode* rootNode = aEditorBase.GetRoot();
if (NS_WARN_IF(!rootNode)) {
return Nothing();
}
mozInlineSpellWordUtil util{*document, isContentEditableOrDesignMode,
*rootNode};
return Some(std::move(util));
}
static inline bool IsSpellCheckingTextNode(nsINode* aNode) {
nsIContent* parent = aNode->GetParent();
if (parent &&
parent->IsAnyOfHTMLElements(nsGkAtoms::script, nsGkAtoms::style))
return false;
return aNode->IsText();
}
typedef void (*OnLeaveNodeFunPtr)(nsINode* aNode, void* aClosure);
// Find the next node in the DOM tree in preorder.
// Calls OnLeaveNodeFunPtr when the traversal leaves a node, which is
// why we can't just use GetNextNode here, sadly.
static nsINode* FindNextNode(nsINode* aNode, const nsINode* aRoot,
OnLeaveNodeFunPtr aOnLeaveNode, void* aClosure) {
MOZ_ASSERT(aNode, "Null starting node?");
nsINode* next = aNode->GetFirstChild();
if (next) return next;
// Don't look at siblings or otherwise outside of aRoot
if (aNode == aRoot) return nullptr;
next = aNode->GetNextSibling();
if (next) return next;
// Go up
for (;;) {
if (aOnLeaveNode) {
aOnLeaveNode(aNode, aClosure);
}
next = aNode->GetParent();
if (next == aRoot || !next) return nullptr;
aNode = next;
next = aNode->GetNextSibling();
if (next) return next;
}
}
// aNode is not a text node. Find the first text node starting at aNode/aOffset
// in a preorder DOM traversal.
static nsINode* FindNextTextNode(nsINode* aNode, int32_t aOffset,
const nsINode* aRoot) {
MOZ_ASSERT(aNode, "Null starting node?");
MOZ_ASSERT(!IsSpellCheckingTextNode(aNode),
"FindNextTextNode should start with a non-text node");
nsINode* checkNode;
// Need to start at the aOffset'th child
nsIContent* child = aNode->GetChildAt_Deprecated(aOffset);
if (child) {
checkNode = child;
} else {
// aOffset was beyond the end of the child list.
// goto next node after the last descendant of aNode in
// a preorder DOM traversal.
checkNode = aNode->GetNextNonChildNode(aRoot);
}
while (checkNode && !IsSpellCheckingTextNode(checkNode)) {
checkNode = checkNode->GetNextNode(aRoot);
}
return checkNode;
}
// mozInlineSpellWordUtil::SetPositionAndEnd
//
// We have two ranges "hard" and "soft". The hard boundary is simply
// the scope of the root node. The soft boundary is that which is set
// by the caller of this class by calling this function. If this function is
// not called, the soft boundary is the same as the hard boundary.
//
// When we reach the soft boundary (mSoftText.GetEnd()), we keep
// going until we reach the end of a word. This allows the caller to set the
// end of the range to anything, and we will always check whole multiples of
// words. When we reach the hard boundary we stop no matter what.
//
// There is no beginning soft boundary. This is because we only go to the
// previous node once, when finding the previous word boundary in
// SetPosition(). You might think of the soft boundary as being this initial
// position.
nsresult mozInlineSpellWordUtil::SetPositionAndEnd(nsINode* aPositionNode,
int32_t aPositionOffset,
nsINode* aEndNode,
int32_t aEndOffset) {
MOZ_LOG(sInlineSpellWordUtilLog, LogLevel::Debug,
("%s: pos=(%p, %i), end=(%p, %i)", __FUNCTION__, aPositionNode,
aPositionOffset, aEndNode, aEndOffset));
MOZ_ASSERT(aPositionNode, "Null begin node?");
MOZ_ASSERT(aEndNode, "Null end node?");
MOZ_ASSERT(mRootNode, "Not initialized");
// Find a appropriate root if we are dealing with contenteditable nodes which
// are in the shadow DOM.
if (mIsContentEditableOrDesignMode) {
nsINode* rootNode = aPositionNode->SubtreeRoot();
if (rootNode != aEndNode->SubtreeRoot()) {
return NS_ERROR_FAILURE;
}
if (mozilla::dom::ShadowRoot::FromNode(rootNode)) {
mRootNode = rootNode;
}
}
mSoftText.Invalidate();
if (!IsSpellCheckingTextNode(aPositionNode)) {
// Start at the start of the first text node after aNode/aOffset.
aPositionNode = FindNextTextNode(aPositionNode, aPositionOffset, mRootNode);
aPositionOffset = 0;
}
NodeOffset softBegin = NodeOffset(aPositionNode, aPositionOffset);
if (!IsSpellCheckingTextNode(aEndNode)) {
// End at the start of the first text node after aEndNode/aEndOffset.
aEndNode = FindNextTextNode(aEndNode, aEndOffset, mRootNode);
aEndOffset = 0;
}
NodeOffset softEnd = NodeOffset(aEndNode, aEndOffset);
nsresult rv = EnsureWords(std::move(softBegin), std::move(softEnd));
if (NS_FAILED(rv)) {
return rv;
}
int32_t textOffset = MapDOMPositionToSoftTextOffset(mSoftText.GetBegin());
if (textOffset < 0) {
return NS_OK;
}
mNextWordIndex = FindRealWordContaining(textOffset, HINT_END, true);
return NS_OK;
}
nsresult mozInlineSpellWordUtil::EnsureWords(NodeOffset aSoftBegin,
NodeOffset aSoftEnd) {
if (mSoftText.mIsValid) return NS_OK;
mSoftText.AdjustBeginAndBuildText(std::move(aSoftBegin), std::move(aSoftEnd),
mRootNode);
mRealWords.Clear();
Result<RealWords, nsresult> realWords = BuildRealWords();
if (realWords.isErr()) {
return realWords.unwrapErr();
}
mRealWords = realWords.unwrap();
mSoftText.mIsValid = true;
return NS_OK;
}
nsresult mozInlineSpellWordUtil::MakeRangeForWord(const RealWord& aWord,
nsRange** aRange) const {
NodeOffset begin =
MapSoftTextOffsetToDOMPosition(aWord.mSoftTextOffset, HINT_BEGIN);
NodeOffset end = MapSoftTextOffsetToDOMPosition(aWord.EndOffset(), HINT_END);
return MakeRange(begin, end, aRange);
}
void mozInlineSpellWordUtil::MakeNodeOffsetRangeForWord(
const RealWord& aWord, NodeOffsetRange* aNodeOffsetRange) {
NodeOffset begin =
MapSoftTextOffsetToDOMPosition(aWord.mSoftTextOffset, HINT_BEGIN);
NodeOffset end = MapSoftTextOffsetToDOMPosition(aWord.EndOffset(), HINT_END);
*aNodeOffsetRange = NodeOffsetRange(begin, end);
}
// mozInlineSpellWordUtil::GetRangeForWord
nsresult mozInlineSpellWordUtil::GetRangeForWord(nsINode* aWordNode,
int32_t aWordOffset,
nsRange** aRange) {
// Set our soft end and start
NodeOffset pt(aWordNode, aWordOffset);
if (!mSoftText.mIsValid || pt != mSoftText.GetBegin() ||
pt != mSoftText.GetEnd()) {
mSoftText.Invalidate();
NodeOffset softBegin = pt;
NodeOffset softEnd = pt;
nsresult rv = EnsureWords(std::move(softBegin), std::move(softEnd));
if (NS_FAILED(rv)) {
return rv;
}
}
int32_t offset = MapDOMPositionToSoftTextOffset(pt);
if (offset < 0) return MakeRange(pt, pt, aRange);
int32_t wordIndex = FindRealWordContaining(offset, HINT_BEGIN, false);
if (wordIndex < 0) return MakeRange(pt, pt, aRange);
return MakeRangeForWord(mRealWords[wordIndex], aRange);
}
// This is to fix characters that the spellchecker may not like
static void NormalizeWord(const nsAString& aInput, int32_t aPos, int32_t aLen,
nsAString& aOutput) {
aOutput.Truncate();
for (int32_t i = 0; i < aLen; i++) {
char16_t ch = aInput.CharAt(i + aPos);
// remove ignorable characters from the word
if (IsIgnorableCharacter(ch)) continue;
// the spellchecker doesn't handle curly apostrophes in all languages
if (ch == 0x2019) { // RIGHT SINGLE QUOTATION MARK
ch = '\'';
}
aOutput.Append(ch);
}
}
// mozInlineSpellWordUtil::GetNextWord
//
// FIXME-optimization: we shouldn't have to generate a range every single
// time. It would be better if the inline spellchecker didn't require a
// range unless the word was misspelled. This may or may not be possible.
bool mozInlineSpellWordUtil::GetNextWord(Word& aWord) {
MOZ_LOG(sInlineSpellWordUtilLog, LogLevel::Debug,
("%s: mNextWordIndex=%d", __FUNCTION__, mNextWordIndex));
if (mNextWordIndex < 0 || mNextWordIndex >= int32_t(mRealWords.Length())) {
mNextWordIndex = -1;
aWord.mSkipChecking = true;
return false;
}
const RealWord& realWord = mRealWords[mNextWordIndex];
MakeNodeOffsetRangeForWord(realWord, &aWord.mNodeOffsetRange);
++mNextWordIndex;
aWord.mSkipChecking = !realWord.mCheckableWord;
::NormalizeWord(mSoftText.GetValue(), realWord.mSoftTextOffset,
realWord.mLength, aWord.mText);
MOZ_LOG(sInlineSpellWordUtilLog, LogLevel::Debug,
("%s: returning: %s (skip=%d)", __FUNCTION__,
NS_ConvertUTF16toUTF8(aWord.mText).get(), aWord.mSkipChecking));
return true;
}
// mozInlineSpellWordUtil::MakeRange
//
// Convenience function for creating a range over the current document.
nsresult mozInlineSpellWordUtil::MakeRange(NodeOffset aBegin, NodeOffset aEnd,
nsRange** aRange) const {
NS_ENSURE_ARG_POINTER(aBegin.mNode);
if (!mDocument) {
return NS_ERROR_NOT_INITIALIZED;
}
ErrorResult error;
RefPtr<nsRange> range = nsRange::Create(aBegin.mNode, aBegin.mOffset,
aEnd.mNode, aEnd.mOffset, error);
if (NS_WARN_IF(error.Failed())) {
return error.StealNSResult();
}
MOZ_ASSERT(range);
range.forget(aRange);
return NS_OK;
}
// static
already_AddRefed<nsRange> mozInlineSpellWordUtil::MakeRange(
const NodeOffsetRange& aRange) {
IgnoredErrorResult ignoredError;
RefPtr<nsRange> range =
nsRange::Create(aRange.Begin().Node(), aRange.Begin().Offset(),
aRange.End().Node(), aRange.End().Offset(), ignoredError);
NS_WARNING_ASSERTION(!ignoredError.Failed(), "Creating a range failed");
return range.forget();
}
/*********** Word Splitting ************/
// classifies a given character in the DOM word
enum CharClass {
CHAR_CLASS_WORD,
CHAR_CLASS_SEPARATOR,
CHAR_CLASS_END_OF_INPUT
};
// Encapsulates DOM-word to real-word splitting
template <class T>
struct MOZ_STACK_CLASS WordSplitState {
const T& mDOMWordText;
int32_t mDOMWordOffset;
CharClass mCurCharClass;
explicit WordSplitState(const T& aString)
: mDOMWordText(aString),
mDOMWordOffset(0),
mCurCharClass(CHAR_CLASS_END_OF_INPUT) {}
CharClass ClassifyCharacter(int32_t aIndex, bool aRecurse) const;
void Advance();
void AdvanceThroughSeparators();
void AdvanceThroughWord();
// Finds special words like email addresses and URLs that may start at the
// current position, and returns their length, or 0 if not found. This allows
// arbitrary word breaking rules to be used for these special entities, as
// long as they can not contain whitespace.
bool IsSpecialWord() const;
// Similar to IsSpecialWord except that this takes a split word as
// input. This checks for things that do not require special word-breaking
// rules.
bool ShouldSkipWord(int32_t aStart, int32_t aLength) const;
// Finds the last sequence of DOM word separators before aBeforeOffset and
// returns the offset to its first element.
Maybe<int32_t> FindOffsetOfLastDOMWordSeparatorSequence(
int32_t aBeforeOffset) const;
char16_t GetUnicharAt(int32_t aIndex) const;
};
// WordSplitState::ClassifyCharacter
template <class T>
CharClass WordSplitState<T>::ClassifyCharacter(int32_t aIndex,
bool aRecurse) const {
MOZ_ASSERT(aIndex >= 0 && aIndex <= int32_t(mDOMWordText.Length()),
"Index out of range");
if (aIndex == int32_t(mDOMWordText.Length())) return CHAR_CLASS_SEPARATOR;
// this will classify the character, we want to treat "ignorable" characters
// such as soft hyphens, and also ZWJ and ZWNJ as word characters.
nsUGenCategory charCategory =
mozilla::unicode::GetGenCategory(GetUnicharAt(aIndex));
if (charCategory == nsUGenCategory::kLetter ||
IsIgnorableCharacter(mDOMWordText[aIndex]) ||
mDOMWordText[aIndex] == 0x200C /* ZWNJ */ ||
mDOMWordText[aIndex] == 0x200D /* ZWJ */)
return CHAR_CLASS_WORD;
// If conditional punctuation is surrounded immediately on both sides by word
// characters it also counts as a word character.
if (IsConditionalPunctuation(mDOMWordText[aIndex])) {
if (!aRecurse) {
// not allowed to look around, this punctuation counts like a separator
return CHAR_CLASS_SEPARATOR;
}
// check the left-hand character
if (aIndex == 0) return CHAR_CLASS_SEPARATOR;
if (ClassifyCharacter(aIndex - 1, false) != CHAR_CLASS_WORD)
return CHAR_CLASS_SEPARATOR;
// If the previous charatcer is a word-char, make sure that it's not a
// special dot character.
if (mDOMWordText[aIndex - 1] == '.') return CHAR_CLASS_SEPARATOR;
// now we know left char is a word-char, check the right-hand character
if (aIndex == int32_t(mDOMWordText.Length() - 1)) {
return CHAR_CLASS_SEPARATOR;
}
if (ClassifyCharacter(aIndex + 1, false) != CHAR_CLASS_WORD)
return CHAR_CLASS_SEPARATOR;
// If the next charatcer is a word-char, make sure that it's not a
// special dot character.
if (mDOMWordText[aIndex + 1] == '.') return CHAR_CLASS_SEPARATOR;
// char on either side is a word, this counts as a word
return CHAR_CLASS_WORD;
}
// The dot character, if appearing at the end of a word, should
// be considered part of that word. Example: "etc.", or
// abbreviations
if (aIndex > 0 && mDOMWordText[aIndex] == '.' &&
mDOMWordText[aIndex - 1] != '.' &&
ClassifyCharacter(aIndex - 1, false) != CHAR_CLASS_WORD) {
return CHAR_CLASS_WORD;
}
// all other punctuation
if (charCategory == nsUGenCategory::kSeparator ||
charCategory == nsUGenCategory::kOther ||
charCategory == nsUGenCategory::kPunctuation ||
charCategory == nsUGenCategory::kSymbol) {
// Don't break on hyphens, as hunspell handles them on its own.
if (aIndex > 0 && mDOMWordText[aIndex] == '-' &&
mDOMWordText[aIndex - 1] != '-' &&
ClassifyCharacter(aIndex - 1, false) == CHAR_CLASS_WORD) {
// A hyphen is only meaningful as a separator inside a word
// if the previous and next characters are a word character.
if (aIndex == int32_t(mDOMWordText.Length()) - 1)
return CHAR_CLASS_SEPARATOR;
if (mDOMWordText[aIndex + 1] != '.' &&
ClassifyCharacter(aIndex + 1, false) == CHAR_CLASS_WORD)
return CHAR_CLASS_WORD;
}
return CHAR_CLASS_SEPARATOR;
}
// any other character counts as a word
return CHAR_CLASS_WORD;
}
// WordSplitState::Advance
template <class T>
void WordSplitState<T>::Advance() {
MOZ_ASSERT(mDOMWordOffset >= 0, "Negative word index");
MOZ_ASSERT(mDOMWordOffset < (int32_t)mDOMWordText.Length(),
"Length beyond end");
mDOMWordOffset++;
if (mDOMWordOffset >= (int32_t)mDOMWordText.Length())
mCurCharClass = CHAR_CLASS_END_OF_INPUT;
else
mCurCharClass = ClassifyCharacter(mDOMWordOffset, true);
}
// WordSplitState::AdvanceThroughSeparators
template <class T>
void WordSplitState<T>::AdvanceThroughSeparators() {
while (mCurCharClass == CHAR_CLASS_SEPARATOR) Advance();
}
// WordSplitState::AdvanceThroughWord
template <class T>
void WordSplitState<T>::AdvanceThroughWord() {
while (mCurCharClass == CHAR_CLASS_WORD) Advance();
}
// WordSplitState::IsSpecialWord
template <class T>
bool WordSplitState<T>::IsSpecialWord() const {
// Search for email addresses. We simply define these as any sequence of
// characters with an '@' character in the middle. The DOM word is already
// split on whitepace, so we know that everything to the end is the address
int32_t firstColon = -1;
for (int32_t i = mDOMWordOffset; i < int32_t(mDOMWordText.Length()); i++) {
if (mDOMWordText[i] == '@') {
// only accept this if there are unambiguous word characters (don't bother
// recursing to disambiguate apostrophes) on each side. This prevents
// classifying, e.g. "@home" as an email address
// Use this condition to only accept words with '@' in the middle of
// them. It works, but the inlinespellcker doesn't like this. The problem
// is that you type "fhsgfh@" that's a misspelled word followed by a
// symbol, but when you type another letter "fhsgfh@g" that first word
// need to be unmarked misspelled. It doesn't do this. it only checks the
// current position for potentially removing a spelling range.
if (i > 0 && ClassifyCharacter(i - 1, false) == CHAR_CLASS_WORD &&
i < (int32_t)mDOMWordText.Length() - 1 &&
ClassifyCharacter(i + 1, false) == CHAR_CLASS_WORD) {
return true;
}
} else if (mDOMWordText[i] == ':' && firstColon < 0) {
firstColon = i;
// If the first colon is followed by a slash, consider it a URL
// This will catch things like asdf://foo.com
if (firstColon < (int32_t)mDOMWordText.Length() - 1 &&
mDOMWordText[firstColon + 1] == '/') {
return true;
}
}
}
// Check the text before the first colon against some known protocols. It
// is impossible to check against all protocols, especially since you can
// plug in new protocols. We also don't want to waste time here checking
// against a lot of obscure protocols.
if (firstColon > mDOMWordOffset) {
nsString protocol(
Substring(mDOMWordText, mDOMWordOffset, firstColon - mDOMWordOffset));
if (protocol.EqualsIgnoreCase("http") ||
protocol.EqualsIgnoreCase("https") ||
protocol.EqualsIgnoreCase("news") ||
protocol.EqualsIgnoreCase("file") ||
protocol.EqualsIgnoreCase("javascript") ||
protocol.EqualsIgnoreCase("data") || protocol.EqualsIgnoreCase("ftp")) {
return true;
}
}
// not anything special
return false;
}
// WordSplitState::ShouldSkipWord
template <class T>
bool WordSplitState<T>::ShouldSkipWord(int32_t aStart, int32_t aLength) const {
int32_t last = aStart + aLength;
// check to see if the word contains a digit
for (int32_t i = aStart; i < last; i++) {
if (mozilla::unicode::GetGenCategory(GetUnicharAt(i)) ==
nsUGenCategory::kNumber) {
return true;
}
}
// not special
return false;
}
template <class T>
Maybe<int32_t> WordSplitState<T>::FindOffsetOfLastDOMWordSeparatorSequence(
const int32_t aBeforeOffset) const {
for (int32_t i = aBeforeOffset - 1; i >= 0; --i) {
if (IsDOMWordSeparator(mDOMWordText[i]) ||
(!IsAmbiguousDOMWordSeprator(mDOMWordText[i]) &&
ClassifyCharacter(i, true) == CHAR_CLASS_SEPARATOR)) {
// Be greedy, find as many separators as we can
for (int32_t j = i - 1; j >= 0; --j) {
if (IsDOMWordSeparator(mDOMWordText[j]) ||
(!IsAmbiguousDOMWordSeprator(mDOMWordText[j]) &&
ClassifyCharacter(j, true) == CHAR_CLASS_SEPARATOR)) {
i = j;
} else {
break;
}
}
return Some(i);
}
}
return Nothing();
}
template <>
char16_t WordSplitState<nsDependentSubstring>::GetUnicharAt(
int32_t aIndex) const {
return mDOMWordText[aIndex];
}
template <>
char16_t WordSplitState<nsDependentCSubstring>::GetUnicharAt(
int32_t aIndex) const {
return static_cast<char16_t>(static_cast<uint8_t>(mDOMWordText[aIndex]));
}
static inline bool IsBRElement(nsINode* aNode) {
return aNode->IsHTMLElement(nsGkAtoms::br);
}
/**
* Given a TextNode, finds the last sequence of DOM word separators before
* aBeforeOffset and returns the offset to its first element.
*
* @param aContent the TextNode to check.
* @param aBeforeOffset the offset in the TextNode before which we will search
* for the DOM separator. You can pass INT32_MAX to search the entire
* length of the string.
*/
static Maybe<int32_t> FindOffsetOfLastDOMWordSeparatorSequence(
nsIContent* aContent, int32_t aBeforeOffset) {
const nsTextFragment* textFragment = aContent->GetText();
MOZ_ASSERT(textFragment, "Where is our text?");
int32_t end = std::min(aBeforeOffset, int32_t(textFragment->GetLength()));
if (textFragment->Is2b()) {
nsDependentSubstring targetText(textFragment->Get2b(), end);
WordSplitState<nsDependentSubstring> state(targetText);
return state.FindOffsetOfLastDOMWordSeparatorSequence(end);
}
nsDependentCSubstring targetText(textFragment->Get1b(), end);
WordSplitState<nsDependentCSubstring> state(targetText);
return state.FindOffsetOfLastDOMWordSeparatorSequence(end);
}
/**
* Check if there's a DOM word separator before aBeforeOffset in this node.
* Always returns true if it's a BR element.
* aSeparatorOffset is set to the index of the first character in the last
* separator if any is found (0 for BR elements).
*
* This function does not modify aSeparatorOffset when it returns false.
*/
static bool ContainsDOMWordSeparator(nsINode* aNode, int32_t aBeforeOffset,
int32_t* aSeparatorOffset) {
if (IsBRElement(aNode)) {
*aSeparatorOffset = 0;
return true;
}
if (!IsSpellCheckingTextNode(aNode)) return false;
const Maybe<int32_t> separatorOffset =
FindOffsetOfLastDOMWordSeparatorSequence(aNode->AsContent(),
aBeforeOffset);
if (separatorOffset) {
*aSeparatorOffset = *separatorOffset;
return true;
}
return false;
}
static bool IsBreakElement(nsINode* aNode) {
if (!aNode->IsElement()) {
return false;
}
dom::Element* element = aNode->AsElement();
if (element->IsHTMLElement(nsGkAtoms::br)) {
return true;
}
// If we don't have a frame, we don't consider ourselves a break
// element. In particular, words can span us.
nsIFrame* frame = element->GetPrimaryFrame();
if (!frame) {
return false;
}
auto* disp = frame->StyleDisplay();
// Anything that's not an inline element is a break element.
// XXXbz should replaced inlines be break elements, though?
// Also should inline-block and such be break elements?
//
// FIXME(emilio): We should teach the spell checker to deal with generated
// content (it doesn't at all), then remove the IsListItem() check, as there
// could be no marker, etc...
return !disp->IsInlineFlow() || disp->IsListItem();
}
struct CheckLeavingBreakElementClosure {
bool mLeftBreakElement;
};
static void CheckLeavingBreakElement(nsINode* aNode, void* aClosure) {
CheckLeavingBreakElementClosure* cl =
static_cast<CheckLeavingBreakElementClosure*>(aClosure);
if (!cl->mLeftBreakElement && IsBreakElement(aNode)) {
cl->mLeftBreakElement = true;
}
}
void mozInlineSpellWordUtil::NormalizeWord(nsAString& aWord) {
nsAutoString result;
::NormalizeWord(aWord, 0, aWord.Length(), result);
aWord = result;
}
void mozInlineSpellWordUtil::SoftText::AdjustBeginAndBuildText(
NodeOffset aBegin, NodeOffset aEnd, const nsINode* aRootNode) {
MOZ_LOG(sInlineSpellWordUtilLog, LogLevel::Debug, ("%s", __FUNCTION__));
mBegin = std::move(aBegin);
mEnd = std::move(aEnd);
// First we have to work backwards from mBegin to find a text node
// containing a DOM word separator, a non-inline-element
// boundary, or the hard start node. That's where we'll start building the
// soft string from.
nsINode* node = mBegin.mNode;
int32_t firstOffsetInNode = 0;
int32_t checkBeforeOffset = mBegin.mOffset;
while (node) {
if (ContainsDOMWordSeparator(node, checkBeforeOffset, &firstOffsetInNode)) {
if (node == mBegin.mNode) {
// If we find a word separator on the first node, look at the preceding
// word on the text node as well.
if (firstOffsetInNode > 0) {
// Try to find the previous word boundary in the current node. If
// we can't find one, start checking previous sibling nodes (if any
// adjacent ones exist) to see if we can find any text nodes with
// DOM word separators. We bail out as soon as we see a node that is
// not a text node, or we run out of previous sibling nodes. In the
// event that we simply cannot find any preceding word separator, the
// offset is set to 0, and the soft text beginning node is set to the
// "most previous" text node before the original starting node, or
// kept at the original starting node if no previous text nodes exist.
int32_t newOffset = 0;
if (!ContainsDOMWordSeparator(node, firstOffsetInNode - 1,
&newOffset)) {
nsIContent* prevNode = node->GetPreviousSibling();
while (prevNode && IsSpellCheckingTextNode(prevNode)) {
mBegin.mNode = prevNode;
const Maybe<int32_t> separatorOffset =
FindOffsetOfLastDOMWordSeparatorSequence(prevNode, INT32_MAX);
if (separatorOffset) {
newOffset = *separatorOffset;
break;
}
prevNode = prevNode->GetPreviousSibling();
}
}
firstOffsetInNode = newOffset;
} else {
firstOffsetInNode = 0;
}
MOZ_LOG(sInlineSpellWordUtilLog, LogLevel::Debug,
("%s: adjusting mBegin.mOffset from %i to %i.", __FUNCTION__,
mBegin.mOffset, firstOffsetInNode));
mBegin.mOffset = firstOffsetInNode;
}
break;
}
checkBeforeOffset = INT32_MAX;
if (IsBreakElement(node)) {
// Since GetPreviousContent follows tree *preorder*, we're about to
// traverse up out of 'node'. Since node induces breaks (e.g., it's a
// block), don't bother trying to look outside it, just stop now.
break;
}
// GetPreviousContent below expects aRootNode to be an ancestor of node.
if (!node->IsInclusiveDescendantOf(aRootNode)) {
break;
}
node = node->GetPreviousContent(aRootNode);
}
// Now build up the string moving forward through the DOM until we reach
// the soft end and *then* see a DOM word separator, a non-inline-element
// boundary, or the hard end node.
mValue.Truncate();
mDOMMapping.Clear();
bool seenSoftEnd = false;
// Leave this outside the loop so large heap string allocations can be reused
// across iterations
while (node) {
if (node == mEnd.mNode) {
seenSoftEnd = true;
}
bool exit = false;
if (IsSpellCheckingTextNode(node)) {
nsIContent* content = static_cast<nsIContent*>(node);
MOZ_ASSERT(content, "Where is our content?");
const nsTextFragment* textFragment = content->GetText();
MOZ_ASSERT(textFragment, "Where is our text?");
uint32_t lastOffsetInNode = textFragment->GetLength();
if (seenSoftEnd) {
// check whether we can stop after this
for (uint32_t i =
node == mEnd.mNode ? AssertedCast<uint32_t>(mEnd.mOffset) : 0;
i < textFragment->GetLength(); ++i) {
if (IsDOMWordSeparator(textFragment->CharAt(i))) {
exit = true;
// stop at the first separator after the soft end point
lastOffsetInNode = i;
break;
}
}
}
if (firstOffsetInNode >= 0 &&
static_cast<uint32_t>(firstOffsetInNode) < lastOffsetInNode) {
const uint32_t len = lastOffsetInNode - firstOffsetInNode;
mDOMMapping.AppendElement(DOMTextMapping(
NodeOffset(node, firstOffsetInNode), mValue.Length(), len));
const bool ok = textFragment->AppendTo(
mValue, static_cast<uint32_t>(firstOffsetInNode), len,
mozilla::fallible);
if (!ok) {
// probably out of memory, remove from mDOMMapping
mDOMMapping.RemoveLastElement();
exit = true;
}
}
firstOffsetInNode = 0;
}
if (exit) break;
CheckLeavingBreakElementClosure closure = {false};
node = FindNextNode(node, aRootNode, CheckLeavingBreakElement, &closure);
if (closure.mLeftBreakElement || (node && IsBreakElement(node))) {
// We left, or are entering, a break element (e.g., block). Maybe we can
// stop now.
if (seenSoftEnd) break;
// Record the break
mValue.Append(' ');
}
}
MOZ_LOG(sInlineSpellWordUtilLog, LogLevel::Debug,
("%s: got DOM string: %s", __FUNCTION__,
NS_ConvertUTF16toUTF8(mValue).get()));
}
auto mozInlineSpellWordUtil::BuildRealWords() const
-> Result<RealWords, nsresult> {
// This is pretty simple. We just have to walk mSoftText.GetValue(),
// tokenizing it into "real words". We do an outer traversal of words
// delimited by IsDOMWordSeparator, calling SplitDOMWordAndAppendTo on each of
// those DOM words
int32_t wordStart = -1;
RealWords realWords;
for (int32_t i = 0; i < int32_t(mSoftText.GetValue().Length()); ++i) {
if (IsDOMWordSeparator(mSoftText.GetValue().CharAt(i))) {
if (wordStart >= 0) {
nsresult rv = SplitDOMWordAndAppendTo(wordStart, i, realWords);
if (NS_FAILED(rv)) {
return Err(rv);
}
wordStart = -1;
}
} else {
if (wordStart < 0) {
wordStart = i;
}
}
}
if (wordStart >= 0) {
nsresult rv = SplitDOMWordAndAppendTo(
wordStart, mSoftText.GetValue().Length(), realWords);
if (NS_FAILED(rv)) {
return Err(rv);
}
}
return realWords;
}
/*********** DOM/realwords<->mSoftText.GetValue() mapping functions
* ************/
int32_t mozInlineSpellWordUtil::MapDOMPositionToSoftTextOffset(
const NodeOffset& aNodeOffset) const {
if (!mSoftText.mIsValid) {
NS_ERROR("Soft text must be valid if we're to map into it");
return -1;
}
for (int32_t i = 0; i < int32_t(mSoftText.GetDOMMapping().Length()); ++i) {
const DOMTextMapping& map = mSoftText.GetDOMMapping()[i];
if (map.mNodeOffset.mNode == aNodeOffset.mNode) {
// Allow offsets at either end of the string, in particular, allow the
// offset that's at the end of the contributed string
int32_t offsetInContributedString =
aNodeOffset.mOffset - map.mNodeOffset.mOffset;
if (offsetInContributedString >= 0 &&
offsetInContributedString <= map.mLength)
return map.mSoftTextOffset + offsetInContributedString;
return -1;
}
}
return -1;
}
namespace {
template <class T>
class FirstLargerOffset {
int32_t mSoftTextOffset;
public:
explicit FirstLargerOffset(int32_t aSoftTextOffset)
: mSoftTextOffset(aSoftTextOffset) {}
int operator()(const T& t) const {
// We want the first larger offset, so never return 0 (which would
// short-circuit evaluation before finding the last such offset).
return mSoftTextOffset < t.mSoftTextOffset ? -1 : 1;
}
};
template <class T>
bool FindLastNongreaterOffset(const nsTArray<T>& aContainer,
int32_t aSoftTextOffset, size_t* aIndex) {
if (aContainer.Length() == 0) {
return false;
}
BinarySearchIf(aContainer, 0, aContainer.Length(),
FirstLargerOffset<T>(aSoftTextOffset), aIndex);
if (*aIndex > 0) {
// There was at least one mapping with offset <= aSoftTextOffset. Step back
// to find the last element with |mSoftTextOffset <= aSoftTextOffset|.
*aIndex -= 1;
} else {
// Every mapping had offset greater than aSoftTextOffset.
MOZ_ASSERT(aContainer[*aIndex].mSoftTextOffset > aSoftTextOffset);
}
return true;
}
} // namespace
NodeOffset mozInlineSpellWordUtil::MapSoftTextOffsetToDOMPosition(
int32_t aSoftTextOffset, DOMMapHint aHint) const {
MOZ_ASSERT(mSoftText.mIsValid,
"Soft text must be valid if we're to map out of it");
if (!mSoftText.mIsValid) return NodeOffset(nullptr, -1);
// Find the last mapping, if any, such that mSoftTextOffset <= aSoftTextOffset
size_t index;
bool found = FindLastNongreaterOffset(mSoftText.GetDOMMapping(),
aSoftTextOffset, &index);
if (!found) {
return NodeOffset(nullptr, -1);
}
// 'index' is now the last mapping, if any, such that
// mSoftTextOffset <= aSoftTextOffset.
// If we're doing HINT_END, then we may want to return the end of the
// the previous mapping instead of the start of this mapping
if (aHint == HINT_END && index > 0) {
const DOMTextMapping& map = mSoftText.GetDOMMapping()[index - 1];
if (map.mSoftTextOffset + map.mLength == aSoftTextOffset)
return NodeOffset(map.mNodeOffset.mNode,
map.mNodeOffset.mOffset + map.mLength);
}
// We allow ourselves to return the end of this mapping even if we're
// doing HINT_START. This will only happen if there is no mapping which this
// point is the start of. I'm not 100% sure this is OK...
const DOMTextMapping& map = mSoftText.GetDOMMapping()[index];
int32_t offset = aSoftTextOffset - map.mSoftTextOffset;
if (offset >= 0 && offset <= map.mLength)
return NodeOffset(map.mNodeOffset.mNode, map.mNodeOffset.mOffset + offset);
return NodeOffset(nullptr, -1);
}
// static
void mozInlineSpellWordUtil::ToString(const DOMMapHint aHint,
nsACString& aResult) {
switch (aHint) {
case HINT_BEGIN:
aResult.AssignLiteral("begin");
break;
case HINT_END:
aResult.AssignLiteral("end");
break;
}
}
int32_t mozInlineSpellWordUtil::FindRealWordContaining(
int32_t aSoftTextOffset, DOMMapHint aHint, bool aSearchForward) const {
if (MOZ_LOG_TEST(sInlineSpellWordUtilLog, LogLevel::Debug)) {
nsAutoCString hint;
mozInlineSpellWordUtil::ToString(aHint, hint);
MOZ_LOG(
sInlineSpellWordUtilLog, LogLevel::Debug,
("%s: offset=%i, hint=%s, searchForward=%i.", __FUNCTION__,
aSoftTextOffset, hint.get(), static_cast<int32_t>(aSearchForward)));
}
MOZ_ASSERT(mSoftText.mIsValid,
"Soft text must be valid if we're to map out of it");
if (!mSoftText.mIsValid) return -1;
// Find the last word, if any, such that mRealWords[index].mSoftTextOffset
// <= aSoftTextOffset
size_t index;
bool found = FindLastNongreaterOffset(mRealWords, aSoftTextOffset, &index);
if (!found) {
return -1;
}
// 'index' is now the last word, if any, such that
// mSoftTextOffset <= aSoftTextOffset.
// If we're doing HINT_END, then we may want to return the end of the
// the previous word instead of the start of this word
if (aHint == HINT_END && index > 0) {
const RealWord& word = mRealWords[index - 1];
if (word.EndOffset() == aSoftTextOffset) {
return index - 1;
}
}
// We allow ourselves to return the end of this word even if we're
// doing HINT_BEGIN. This will only happen if there is no word which this
// point is the start of. I'm not 100% sure this is OK...
const RealWord& word = mRealWords[index];
int32_t offset = aSoftTextOffset - word.mSoftTextOffset;
if (offset >= 0 && offset <= static_cast<int32_t>(word.mLength)) return index;
if (aSearchForward) {
if (mRealWords[0].mSoftTextOffset > aSoftTextOffset) {
// All words have mSoftTextOffset > aSoftTextOffset
return 0;
}
// 'index' is the last word such that mSoftTextOffset <= aSoftTextOffset.
// Word index+1, if it exists, will be the first with
// mSoftTextOffset > aSoftTextOffset.
if (index + 1 < mRealWords.Length()) return index + 1;
}
return -1;
}
// mozInlineSpellWordUtil::SplitDOMWordAndAppendTo
nsresult mozInlineSpellWordUtil::SplitDOMWordAndAppendTo(
int32_t aStart, int32_t aEnd, nsTArray<RealWord>& aRealWords) const {
nsDependentSubstring targetText(mSoftText.GetValue(), aStart, aEnd - aStart);
WordSplitState<nsDependentSubstring> state(targetText);
state.mCurCharClass = state.ClassifyCharacter(0, true);
state.AdvanceThroughSeparators();
if (state.mCurCharClass != CHAR_CLASS_END_OF_INPUT && state.IsSpecialWord()) {
int32_t specialWordLength =
state.mDOMWordText.Length() - state.mDOMWordOffset;
if (!aRealWords.AppendElement(
RealWord(aStart + state.mDOMWordOffset, specialWordLength, false),
fallible)) {
return NS_ERROR_OUT_OF_MEMORY;
}
return NS_OK;
}
while (state.mCurCharClass != CHAR_CLASS_END_OF_INPUT) {
state.AdvanceThroughSeparators();
if (state.mCurCharClass == CHAR_CLASS_END_OF_INPUT) break;
// save the beginning of the word
int32_t wordOffset = state.mDOMWordOffset;
// find the end of the word
state.AdvanceThroughWord();
int32_t wordLen = state.mDOMWordOffset - wordOffset;
if (!aRealWords.AppendElement(
RealWord(aStart + wordOffset, wordLen,
!state.ShouldSkipWord(wordOffset, wordLen)),
fallible)) {
return NS_ERROR_OUT_OF_MEMORY;
}
}
return NS_OK;
}
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