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|
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=2 et sw=2 tw=80: */
/* 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 "TextLeafRange.h"
#include "HyperTextAccessible-inl.h"
#include "mozilla/a11y/Accessible.h"
#include "mozilla/a11y/CacheConstants.h"
#include "mozilla/a11y/DocAccessible.h"
#include "mozilla/a11y/DocAccessibleParent.h"
#include "mozilla/a11y/LocalAccessible.h"
#include "mozilla/BinarySearch.h"
#include "mozilla/Casting.h"
#include "mozilla/dom/CharacterData.h"
#include "mozilla/dom/Document.h"
#include "mozilla/dom/HTMLInputElement.h"
#include "mozilla/PresShell.h"
#include "mozilla/intl/Segmenter.h"
#include "mozilla/intl/WordBreaker.h"
#include "mozilla/StaticPrefs_layout.h"
#include "mozilla/TextEditor.h"
#include "nsAccessibilityService.h"
#include "nsAccUtils.h"
#include "nsBlockFrame.h"
#include "nsContentUtils.h"
#include "nsFrameSelection.h"
#include "nsIAccessiblePivot.h"
#include "nsILineIterator.h"
#include "nsINode.h"
#include "nsRange.h"
#include "nsStyleStructInlines.h"
#include "nsTArray.h"
#include "nsTextFrame.h"
#include "nsUnicodeProperties.h"
#include "Pivot.h"
#include "TextAttrs.h"
using mozilla::intl::WordBreaker;
namespace mozilla::a11y {
/*** Helpers ***/
/**
* These two functions convert between rendered and content text offsets.
* When text DOM nodes are rendered, the rendered text often does not contain
* all the whitespace from the source. For example, by default, the text
* "a b" will be rendered as "a b"; i.e. multiple spaces are compressed to
* one. TextLeafAccessibles contain rendered text, but when we query layout, we
* need to provide offsets into the original content text. Similarly, layout
* returns content offsets, but we need to convert them to rendered offsets to
* map them to TextLeafAccessibles.
*/
static int32_t RenderedToContentOffset(LocalAccessible* aAcc,
uint32_t aRenderedOffset) {
nsTextFrame* frame = do_QueryFrame(aAcc->GetFrame());
if (!frame) {
MOZ_ASSERT(!aAcc->HasOwnContent() || aAcc->IsHTMLBr(),
"No text frame because this is a XUL label[value] text leaf or "
"a BR element.");
return static_cast<int32_t>(aRenderedOffset);
}
if (frame->StyleText()->WhiteSpaceIsSignificant() &&
frame->StyleText()->NewlineIsSignificant(frame)) {
// Spaces and new lines aren't altered, so the content and rendered offsets
// are the same. This happens in pre-formatted text and text fields.
return static_cast<int32_t>(aRenderedOffset);
}
nsIFrame::RenderedText text =
frame->GetRenderedText(aRenderedOffset, aRenderedOffset + 1,
nsIFrame::TextOffsetType::OffsetsInRenderedText,
nsIFrame::TrailingWhitespace::DontTrim);
return text.mOffsetWithinNodeText;
}
static uint32_t ContentToRenderedOffset(LocalAccessible* aAcc,
int32_t aContentOffset) {
nsTextFrame* frame = do_QueryFrame(aAcc->GetFrame());
if (!frame) {
MOZ_ASSERT(!aAcc->HasOwnContent(),
"No text frame because this is a XUL label[value] text leaf.");
return aContentOffset;
}
if (frame->StyleText()->WhiteSpaceIsSignificant() &&
frame->StyleText()->NewlineIsSignificant(frame)) {
// Spaces and new lines aren't altered, so the content and rendered offsets
// are the same. This happens in pre-formatted text and text fields.
return aContentOffset;
}
nsIFrame::RenderedText text =
frame->GetRenderedText(aContentOffset, aContentOffset + 1,
nsIFrame::TextOffsetType::OffsetsInContentText,
nsIFrame::TrailingWhitespace::DontTrim);
return text.mOffsetWithinNodeRenderedText;
}
class LeafRule : public PivotRule {
public:
explicit LeafRule(bool aIgnoreListItemMarker)
: mIgnoreListItemMarker(aIgnoreListItemMarker) {}
virtual uint16_t Match(Accessible* aAcc) override {
if (aAcc->IsOuterDoc()) {
// Treat an embedded doc as a single character in this document, but do
// not descend inside it.
return nsIAccessibleTraversalRule::FILTER_MATCH |
nsIAccessibleTraversalRule::FILTER_IGNORE_SUBTREE;
}
if (mIgnoreListItemMarker && aAcc->Role() == roles::LISTITEM_MARKER) {
// Ignore list item markers if configured to do so.
return nsIAccessibleTraversalRule::FILTER_IGNORE;
}
// We deliberately include Accessibles such as empty input elements and
// empty containers, as these can be at the start of a line.
if (!aAcc->HasChildren()) {
return nsIAccessibleTraversalRule::FILTER_MATCH;
}
return nsIAccessibleTraversalRule::FILTER_IGNORE;
}
private:
bool mIgnoreListItemMarker;
};
static HyperTextAccessible* HyperTextFor(LocalAccessible* aAcc) {
for (LocalAccessible* acc = aAcc; acc; acc = acc->LocalParent()) {
if (HyperTextAccessible* ht = acc->AsHyperText()) {
return ht;
}
}
return nullptr;
}
static Accessible* NextLeaf(Accessible* aOrigin, bool aIsEditable = false,
bool aIgnoreListItemMarker = false) {
MOZ_ASSERT(aOrigin);
Accessible* doc = nsAccUtils::DocumentFor(aOrigin);
Pivot pivot(doc);
auto rule = LeafRule(aIgnoreListItemMarker);
Accessible* leaf = pivot.Next(aOrigin, rule);
if (aIsEditable && leaf) {
return leaf->Parent() && (leaf->Parent()->State() & states::EDITABLE)
? leaf
: nullptr;
}
return leaf;
}
static Accessible* PrevLeaf(Accessible* aOrigin, bool aIsEditable = false,
bool aIgnoreListItemMarker = false) {
MOZ_ASSERT(aOrigin);
Accessible* doc = nsAccUtils::DocumentFor(aOrigin);
Pivot pivot(doc);
auto rule = LeafRule(aIgnoreListItemMarker);
Accessible* leaf = pivot.Prev(aOrigin, rule);
if (aIsEditable && leaf) {
return leaf->Parent() && (leaf->Parent()->State() & states::EDITABLE)
? leaf
: nullptr;
}
return leaf;
}
static nsIFrame* GetFrameInBlock(const LocalAccessible* aAcc) {
dom::HTMLInputElement* input =
dom::HTMLInputElement::FromNodeOrNull(aAcc->GetContent());
if (!input) {
if (LocalAccessible* parent = aAcc->LocalParent()) {
input = dom::HTMLInputElement::FromNodeOrNull(parent->GetContent());
}
}
if (input) {
// If this is a single line input (or a leaf of an input) we want to return
// the top frame of the input element and not the text leaf's frame because
// the leaf may be inside of an embedded block frame in the input's shadow
// DOM that we aren't interested in.
return input->GetPrimaryFrame();
}
return aAcc->GetFrame();
}
static bool IsLocalAccAtLineStart(LocalAccessible* aAcc) {
if (aAcc->NativeRole() == roles::LISTITEM_MARKER) {
// A bullet always starts a line.
return true;
}
// Splitting of content across lines is handled by layout.
// nsIFrame::IsLogicallyAtLineEdge queries whether a frame is the first frame
// on its line. However, we can't use that because the first frame on a line
// might not be included in the a11y tree; e.g. an empty span, or space
// in the DOM after a line break which is stripped when rendered. Instead, we
// get the line number for this Accessible's frame and the line number for the
// previous leaf Accessible's frame and compare them.
Accessible* prev = PrevLeaf(aAcc);
LocalAccessible* prevLocal = prev ? prev->AsLocal() : nullptr;
if (!prevLocal) {
// There's nothing before us, so this is the start of the first line.
return true;
}
if (prevLocal->NativeRole() == roles::LISTITEM_MARKER) {
// If there is a bullet immediately before us and we're inside the same
// list item, this is not the start of a line.
LocalAccessible* listItem = prevLocal->LocalParent();
MOZ_ASSERT(listItem);
LocalAccessible* doc = listItem->Document();
MOZ_ASSERT(doc);
for (LocalAccessible* parent = aAcc->LocalParent(); parent && parent != doc;
parent = parent->LocalParent()) {
if (parent == listItem) {
return false;
}
}
}
nsIFrame* thisFrame = GetFrameInBlock(aAcc);
if (!thisFrame) {
return false;
}
nsIFrame* prevFrame = GetFrameInBlock(prevLocal);
if (!prevFrame) {
return false;
}
auto [thisBlock, thisLineFrame] = thisFrame->GetContainingBlockForLine(
/* aLockScroll */ false);
if (!thisBlock) {
// We couldn't get the containing block for this frame. In that case, we
// play it safe and assume this is the beginning of a new line.
return true;
}
// The previous leaf might cross lines. We want to compare against the last
// line.
prevFrame = prevFrame->LastContinuation();
auto [prevBlock, prevLineFrame] = prevFrame->GetContainingBlockForLine(
/* aLockScroll */ false);
if (thisBlock != prevBlock) {
// If the blocks are different, that means there's nothing before us on the
// same line, so we're at the start.
return true;
}
if (nsBlockFrame* block = do_QueryFrame(thisBlock)) {
// If we have a block frame, it's faster for us to use
// BlockInFlowLineIterator because it uses the line cursor.
bool found = false;
block->SetupLineCursorForQuery();
nsBlockInFlowLineIterator prevIt(block, prevLineFrame, &found);
if (!found) {
// Error; play it safe.
return true;
}
found = false;
nsBlockInFlowLineIterator thisIt(block, thisLineFrame, &found);
// if the lines are different, that means there's nothing before us on the
// same line, so we're at the start.
return !found || prevIt.GetLine() != thisIt.GetLine();
}
AutoAssertNoDomMutations guard;
nsILineIterator* it = prevBlock->GetLineIterator();
MOZ_ASSERT(it, "GetLineIterator impl in line-container blocks is infallible");
int32_t prevLineNum = it->FindLineContaining(prevLineFrame);
if (prevLineNum < 0) {
// Error; play it safe.
return true;
}
int32_t thisLineNum = it->FindLineContaining(thisLineFrame, prevLineNum);
// if the blocks and line numbers are different, that means there's nothing
// before us on the same line, so we're at the start.
return thisLineNum != prevLineNum;
}
/**
* There are many kinds of word break, but we only need to treat punctuation and
* space specially.
*/
enum WordBreakClass { eWbcSpace = 0, eWbcPunct, eWbcOther };
static WordBreakClass GetWordBreakClass(char16_t aChar) {
// Based on IsSelectionInlineWhitespace and IsSelectionNewline in
// layout/generic/nsTextFrame.cpp.
const char16_t kCharNbsp = 0xA0;
switch (aChar) {
case ' ':
case kCharNbsp:
case '\t':
case '\f':
case '\n':
case '\r':
return eWbcSpace;
default:
break;
}
// Based on ClusterIterator::IsPunctuation in
// layout/generic/nsTextFrame.cpp.
uint8_t cat = unicode::GetGeneralCategory(aChar);
switch (cat) {
case HB_UNICODE_GENERAL_CATEGORY_CONNECT_PUNCTUATION: /* Pc */
if (aChar == '_' &&
!StaticPrefs::layout_word_select_stop_at_underscore()) {
return eWbcOther;
}
[[fallthrough]];
case HB_UNICODE_GENERAL_CATEGORY_DASH_PUNCTUATION: /* Pd */
case HB_UNICODE_GENERAL_CATEGORY_CLOSE_PUNCTUATION: /* Pe */
case HB_UNICODE_GENERAL_CATEGORY_FINAL_PUNCTUATION: /* Pf */
case HB_UNICODE_GENERAL_CATEGORY_INITIAL_PUNCTUATION: /* Pi */
case HB_UNICODE_GENERAL_CATEGORY_OTHER_PUNCTUATION: /* Po */
case HB_UNICODE_GENERAL_CATEGORY_OPEN_PUNCTUATION: /* Ps */
case HB_UNICODE_GENERAL_CATEGORY_CURRENCY_SYMBOL: /* Sc */
case HB_UNICODE_GENERAL_CATEGORY_MATH_SYMBOL: /* Sm */
case HB_UNICODE_GENERAL_CATEGORY_OTHER_SYMBOL: /* So */
return eWbcPunct;
default:
break;
}
return eWbcOther;
}
/**
* Words can cross Accessibles. To work out whether we're at the start of a
* word, we might have to check the previous leaf. This class handles querying
* the previous WordBreakClass, crossing Accessibles if necessary.
*/
class PrevWordBreakClassWalker {
public:
PrevWordBreakClassWalker(Accessible* aAcc, const nsAString& aText,
int32_t aOffset)
: mAcc(aAcc), mText(aText), mOffset(aOffset) {
mClass = GetWordBreakClass(mText.CharAt(mOffset));
}
WordBreakClass CurClass() { return mClass; }
Maybe<WordBreakClass> PrevClass() {
for (;;) {
if (!PrevChar()) {
return Nothing();
}
WordBreakClass curClass = GetWordBreakClass(mText.CharAt(mOffset));
if (curClass != mClass) {
mClass = curClass;
return Some(curClass);
}
}
MOZ_ASSERT_UNREACHABLE();
return Nothing();
}
bool IsStartOfGroup() {
if (!PrevChar()) {
// There are no characters before us.
return true;
}
WordBreakClass curClass = GetWordBreakClass(mText.CharAt(mOffset));
// We wanted to peek at the previous character, not really move to it.
++mOffset;
return curClass != mClass;
}
private:
bool PrevChar() {
if (mOffset > 0) {
--mOffset;
return true;
}
if (!mAcc) {
// PrevChar was called already and failed.
return false;
}
mAcc = PrevLeaf(mAcc);
if (!mAcc) {
return false;
}
mText.Truncate();
mAcc->AppendTextTo(mText);
mOffset = static_cast<int32_t>(mText.Length()) - 1;
return true;
}
Accessible* mAcc;
nsAutoString mText;
int32_t mOffset;
WordBreakClass mClass;
};
/**
* WordBreaker breaks at all space, punctuation, etc. We want to emulate
* layout, so that's not what we want. This function determines whether this
* is acceptable as the start of a word for our purposes.
*/
static bool IsAcceptableWordStart(Accessible* aAcc, const nsAutoString& aText,
int32_t aOffset) {
PrevWordBreakClassWalker walker(aAcc, aText, aOffset);
if (!walker.IsStartOfGroup()) {
// If we're not at the start of a WordBreaker group, this can't be the
// start of a word.
return false;
}
WordBreakClass curClass = walker.CurClass();
if (curClass == eWbcSpace) {
// Space isn't the start of a word.
return false;
}
Maybe<WordBreakClass> prevClass = walker.PrevClass();
if (curClass == eWbcPunct && (!prevClass || prevClass.value() != eWbcSpace)) {
// Punctuation isn't the start of a word (unless it is after space).
return false;
}
if (!prevClass || prevClass.value() != eWbcPunct) {
// If there's nothing before this or the group before this isn't
// punctuation, this is the start of a word.
return true;
}
// At this point, we know the group before this is punctuation.
if (!StaticPrefs::layout_word_select_stop_at_punctuation()) {
// When layout.word_select.stop_at_punctuation is false (defaults to true),
// if there is punctuation before this, this is not the start of a word.
return false;
}
Maybe<WordBreakClass> prevPrevClass = walker.PrevClass();
if (!prevPrevClass || prevPrevClass.value() == eWbcSpace) {
// If there is punctuation before this and space (or nothing) before the
// punctuation, this is not the start of a word.
return false;
}
return true;
}
class BlockRule : public PivotRule {
public:
virtual uint16_t Match(Accessible* aAcc) override {
if (RefPtr<nsAtom>(aAcc->DisplayStyle()) == nsGkAtoms::block ||
aAcc->IsHTMLListItem() || aAcc->IsTableRow() || aAcc->IsTableCell()) {
return nsIAccessibleTraversalRule::FILTER_MATCH;
}
return nsIAccessibleTraversalRule::FILTER_IGNORE;
}
};
/**
* Find spelling error DOM ranges overlapping the requested LocalAccessible and
* offsets. This includes ranges that begin or end outside of the given
* LocalAccessible. Note that the offset arguments are rendered offsets, but
* because the returned ranges are DOM ranges, those offsets are content
* offsets. See the documentation for dom::Selection::GetRangesForIntervalArray
* for information about the aAllowAdjacent argument.
*/
static nsTArray<nsRange*> FindDOMSpellingErrors(LocalAccessible* aAcc,
int32_t aRenderedStart,
int32_t aRenderedEnd,
bool aAllowAdjacent = false) {
if (!aAcc->IsTextLeaf() || !aAcc->HasOwnContent()) {
return {};
}
nsIFrame* frame = aAcc->GetFrame();
RefPtr<nsFrameSelection> frameSel =
frame ? frame->GetFrameSelection() : nullptr;
dom::Selection* domSel =
frameSel ? frameSel->GetSelection(SelectionType::eSpellCheck) : nullptr;
if (!domSel) {
return {};
}
nsINode* node = aAcc->GetNode();
uint32_t contentStart = RenderedToContentOffset(aAcc, aRenderedStart);
uint32_t contentEnd =
aRenderedEnd == nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT
? dom::CharacterData::FromNode(node)->TextLength()
: RenderedToContentOffset(aAcc, aRenderedEnd);
nsTArray<nsRange*> domRanges;
domSel->GetDynamicRangesForIntervalArray(node, contentStart, node, contentEnd,
aAllowAdjacent, &domRanges);
return domRanges;
}
/**
* Given two DOM nodes get DOM Selection object that is common
* to both of them.
*/
static dom::Selection* GetDOMSelection(const nsIContent* aStartContent,
const nsIContent* aEndContent) {
nsIFrame* startFrame = aStartContent->GetPrimaryFrame();
const nsFrameSelection* startFrameSel =
startFrame ? startFrame->GetConstFrameSelection() : nullptr;
nsIFrame* endFrame = aEndContent->GetPrimaryFrame();
const nsFrameSelection* endFrameSel =
endFrame ? endFrame->GetConstFrameSelection() : nullptr;
if (startFrameSel != endFrameSel) {
// Start and end point don't share the same selection state.
// This could happen when both points aren't in the same editable.
return nullptr;
}
return startFrameSel ? startFrameSel->GetSelection(SelectionType::eNormal)
: nullptr;
}
std::pair<nsIContent*, int32_t> TextLeafPoint::ToDOMPoint(
bool aIncludeGenerated) const {
if (!(*this) || !mAcc->IsLocal()) {
MOZ_ASSERT_UNREACHABLE("Invalid point");
return {nullptr, 0};
}
nsIContent* content = mAcc->AsLocal()->GetContent();
nsIFrame* frame = content ? content->GetPrimaryFrame() : nullptr;
MOZ_ASSERT(frame);
if (!aIncludeGenerated && frame && frame->IsGeneratedContentFrame()) {
// List markers accessibles represent the generated content element,
// before/after text accessibles represent the child text nodes.
auto generatedElement = content->IsGeneratedContentContainerForMarker()
? content
: content->GetParentElement();
auto parent = generatedElement ? generatedElement->GetParent() : nullptr;
MOZ_ASSERT(parent);
if (parent) {
if (generatedElement->IsGeneratedContentContainerForAfter()) {
// Use the end offset of the parent element for trailing generated
// content.
return {parent, parent->GetChildCount()};
}
if (generatedElement->IsGeneratedContentContainerForBefore() ||
generatedElement->IsGeneratedContentContainerForMarker()) {
// Use the start offset of the parent element for leading generated
// content.
return {parent, 0};
}
MOZ_ASSERT_UNREACHABLE("Unknown generated content type!");
}
}
if (!mAcc->IsTextLeaf() && !mAcc->IsHTMLBr() && !mAcc->HasChildren()) {
// If this is not a text leaf it can be an empty editable container,
// whitespace, or an empty doc. In any case, the offset inside should be 0.
MOZ_ASSERT(mOffset == 0);
if (RefPtr<TextControlElement> textControlElement =
TextControlElement::FromNodeOrNull(content)) {
// This is an empty input, use the shadow root's element.
if (RefPtr<TextEditor> textEditor = textControlElement->GetTextEditor()) {
if (textEditor->IsEmpty()) {
MOZ_ASSERT(mOffset == 0);
return {textEditor->GetRoot(), 0};
}
}
}
return {content, 0};
}
return {content, RenderedToContentOffset(mAcc->AsLocal(), mOffset)};
}
/*** TextLeafPoint ***/
TextLeafPoint::TextLeafPoint(Accessible* aAcc, int32_t aOffset) {
if (!aAcc) {
// Construct an invalid point.
mAcc = nullptr;
mOffset = 0;
return;
}
// Even though an OuterDoc contains a document, we treat it as a leaf because
// we don't want to move into another document.
if (aOffset != nsIAccessibleText::TEXT_OFFSET_CARET && !aAcc->IsOuterDoc() &&
aAcc->HasChildren()) {
// Find a leaf. This might not necessarily be a TextLeafAccessible; it
// could be an empty container.
auto GetChild = [&aOffset](Accessible* acc) -> Accessible* {
if (acc->IsOuterDoc()) {
return nullptr;
}
return aOffset != nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT
? acc->FirstChild()
: acc->LastChild();
};
for (Accessible* acc = GetChild(aAcc); acc; acc = GetChild(acc)) {
mAcc = acc;
}
mOffset = aOffset != nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT
? 0
: nsAccUtils::TextLength(mAcc);
return;
}
mAcc = aAcc;
mOffset = aOffset != nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT
? aOffset
: nsAccUtils::TextLength(mAcc);
}
bool TextLeafPoint::operator<(const TextLeafPoint& aPoint) const {
if (mAcc == aPoint.mAcc) {
return mOffset < aPoint.mOffset;
}
return mAcc->IsBefore(aPoint.mAcc);
}
bool TextLeafPoint::operator<=(const TextLeafPoint& aPoint) const {
return *this == aPoint || *this < aPoint;
}
bool TextLeafPoint::IsDocEdge(nsDirection aDirection) const {
if (aDirection == eDirPrevious) {
return mOffset == 0 && !PrevLeaf(mAcc);
}
return mOffset == static_cast<int32_t>(nsAccUtils::TextLength(mAcc)) &&
!NextLeaf(mAcc);
}
bool TextLeafPoint::IsLeafAfterListItemMarker() const {
Accessible* prev = PrevLeaf(mAcc);
return prev && prev->Role() == roles::LISTITEM_MARKER &&
prev->Parent()->IsAncestorOf(mAcc);
}
bool TextLeafPoint::IsEmptyLastLine() const {
if (mAcc->IsHTMLBr() && mOffset == 1) {
return true;
}
if (!mAcc->IsTextLeaf()) {
return false;
}
if (mOffset < static_cast<int32_t>(nsAccUtils::TextLength(mAcc))) {
return false;
}
nsAutoString text;
mAcc->AppendTextTo(text, mOffset - 1, 1);
return text.CharAt(0) == '\n';
}
char16_t TextLeafPoint::GetChar() const {
nsAutoString text;
mAcc->AppendTextTo(text, mOffset, 1);
return text.CharAt(0);
}
TextLeafPoint TextLeafPoint::FindPrevLineStartSameLocalAcc(
bool aIncludeOrigin) const {
LocalAccessible* acc = mAcc->AsLocal();
MOZ_ASSERT(acc);
if (mOffset == 0) {
if (aIncludeOrigin && IsLocalAccAtLineStart(acc)) {
return *this;
}
return TextLeafPoint();
}
nsIFrame* frame = acc->GetFrame();
if (!frame) {
// This can happen if this is an empty element with display: contents. In
// that case, this Accessible contains no lines.
return TextLeafPoint();
}
if (!frame->IsTextFrame()) {
if (IsLocalAccAtLineStart(acc)) {
return TextLeafPoint(acc, 0);
}
return TextLeafPoint();
}
// Each line of a text node is rendered as a continuation frame. Get the
// continuation containing the origin.
int32_t origOffset = mOffset;
origOffset = RenderedToContentOffset(acc, origOffset);
nsTextFrame* continuation = nullptr;
int32_t unusedOffsetInContinuation = 0;
frame->GetChildFrameContainingOffset(
origOffset, true, &unusedOffsetInContinuation, (nsIFrame**)&continuation);
MOZ_ASSERT(continuation);
int32_t lineStart = continuation->GetContentOffset();
if (!aIncludeOrigin && lineStart > 0 && lineStart == origOffset) {
// A line starts at the origin, but the caller doesn't want this included.
// Go back one more.
continuation = continuation->GetPrevContinuation();
MOZ_ASSERT(continuation);
lineStart = continuation->GetContentOffset();
}
MOZ_ASSERT(lineStart >= 0);
if (lineStart == 0 && !IsLocalAccAtLineStart(acc)) {
// This is the first line of this text node, but there is something else
// on the same line before this text node, so don't return this as a line
// start.
return TextLeafPoint();
}
lineStart = static_cast<int32_t>(ContentToRenderedOffset(acc, lineStart));
return TextLeafPoint(acc, lineStart);
}
TextLeafPoint TextLeafPoint::FindNextLineStartSameLocalAcc(
bool aIncludeOrigin) const {
LocalAccessible* acc = mAcc->AsLocal();
MOZ_ASSERT(acc);
if (aIncludeOrigin && mOffset == 0 && IsLocalAccAtLineStart(acc)) {
return *this;
}
nsIFrame* frame = acc->GetFrame();
if (!frame) {
// This can happen if this is an empty element with display: contents. In
// that case, this Accessible contains no lines.
return TextLeafPoint();
}
if (!frame->IsTextFrame()) {
// There can't be multiple lines in a non-text leaf.
return TextLeafPoint();
}
// Each line of a text node is rendered as a continuation frame. Get the
// continuation containing the origin.
int32_t origOffset = mOffset;
origOffset = RenderedToContentOffset(acc, origOffset);
nsTextFrame* continuation = nullptr;
int32_t unusedOffsetInContinuation = 0;
frame->GetChildFrameContainingOffset(
origOffset, true, &unusedOffsetInContinuation, (nsIFrame**)&continuation);
MOZ_ASSERT(continuation);
if (
// A line starts at the origin and the caller wants this included.
aIncludeOrigin && continuation->GetContentOffset() == origOffset &&
// If this is the first line of this text node (offset 0), don't treat it
// as a line start if there's something else on the line before this text
// node.
!(origOffset == 0 && !IsLocalAccAtLineStart(acc))) {
return *this;
}
continuation = continuation->GetNextContinuation();
if (!continuation) {
return TextLeafPoint();
}
int32_t lineStart = continuation->GetContentOffset();
lineStart = static_cast<int32_t>(ContentToRenderedOffset(acc, lineStart));
return TextLeafPoint(acc, lineStart);
}
TextLeafPoint TextLeafPoint::FindLineStartSameRemoteAcc(
nsDirection aDirection, bool aIncludeOrigin) const {
RemoteAccessible* acc = mAcc->AsRemote();
MOZ_ASSERT(acc);
auto lines = acc->GetCachedTextLines();
if (!lines) {
return TextLeafPoint();
}
size_t index;
// If BinarySearch returns true, mOffset is in the array and index points at
// it. If BinarySearch returns false, mOffset is not in the array and index
// points at the next line start after mOffset.
if (BinarySearch(*lines, 0, lines->Length(), mOffset, &index)) {
if (aIncludeOrigin) {
return *this;
}
if (aDirection == eDirNext) {
// We don't want to include the origin. Get the next line start.
++index;
}
}
MOZ_ASSERT(index <= lines->Length());
if ((aDirection == eDirNext && index == lines->Length()) ||
(aDirection == eDirPrevious && index == 0)) {
return TextLeafPoint();
}
// index points at the line start after mOffset.
if (aDirection == eDirPrevious) {
--index;
}
return TextLeafPoint(mAcc, lines->ElementAt(index));
}
TextLeafPoint TextLeafPoint::FindLineStartSameAcc(
nsDirection aDirection, bool aIncludeOrigin,
bool aIgnoreListItemMarker) const {
TextLeafPoint boundary;
if (aIgnoreListItemMarker && aIncludeOrigin && mOffset == 0 &&
IsLeafAfterListItemMarker()) {
// If:
// (1) we are ignoring list markers
// (2) we should include origin
// (3) we are at the start of a leaf that follows a list item marker
// ...then return this point.
return *this;
}
if (mAcc->IsLocal()) {
boundary = aDirection == eDirNext
? FindNextLineStartSameLocalAcc(aIncludeOrigin)
: FindPrevLineStartSameLocalAcc(aIncludeOrigin);
} else {
boundary = FindLineStartSameRemoteAcc(aDirection, aIncludeOrigin);
}
if (aIgnoreListItemMarker && aDirection == eDirPrevious && !boundary &&
mOffset != 0 && IsLeafAfterListItemMarker()) {
// If:
// (1) we are ignoring list markers
// (2) we are searching backwards in accessible
// (3) we did not find a line start before this point
// (4) we are in a leaf that follows a list item marker
// ...then return the first point in this accessible.
boundary = TextLeafPoint(mAcc, 0);
}
return boundary;
}
TextLeafPoint TextLeafPoint::FindPrevWordStartSameAcc(
bool aIncludeOrigin) const {
if (mOffset == 0 && !aIncludeOrigin) {
// We can't go back any further and the caller doesn't want the origin
// included, so there's nothing more to do.
return TextLeafPoint();
}
nsAutoString text;
mAcc->AppendTextTo(text);
TextLeafPoint lineStart = *this;
if (!aIncludeOrigin || (lineStart.mOffset == 1 && text.Length() == 1 &&
text.CharAt(0) == '\n')) {
// We're not interested in a line that starts here, either because
// aIncludeOrigin is false or because we're at the end of a line break
// node.
--lineStart.mOffset;
}
// A word never starts with a line feed character. If there are multiple
// consecutive line feed characters and we're after the first of them, the
// previous line start will be a line feed character. Skip this and any prior
// consecutive line feed first.
for (; lineStart.mOffset >= 0 && text.CharAt(lineStart.mOffset) == '\n';
--lineStart.mOffset) {
}
if (lineStart.mOffset < 0) {
// There's no line start for our purposes.
lineStart = TextLeafPoint();
} else {
lineStart =
lineStart.FindLineStartSameAcc(eDirPrevious, /* aIncludeOrigin */ true);
}
// Keep walking backward until we find an acceptable word start.
intl::WordRange word;
if (mOffset == 0) {
word.mBegin = 0;
} else if (mOffset == static_cast<int32_t>(text.Length())) {
word = WordBreaker::FindWord(text.get(), text.Length(), mOffset - 1);
} else {
word = WordBreaker::FindWord(text.get(), text.Length(), mOffset);
}
for (;; word = WordBreaker::FindWord(text.get(), text.Length(),
word.mBegin - 1)) {
if (!aIncludeOrigin && static_cast<int32_t>(word.mBegin) == mOffset) {
// A word possibly starts at the origin, but the caller doesn't want this
// included.
MOZ_ASSERT(word.mBegin != 0);
continue;
}
if (lineStart && static_cast<int32_t>(word.mBegin) < lineStart.mOffset) {
// A line start always starts a new word.
return lineStart;
}
if (IsAcceptableWordStart(mAcc, text, static_cast<int32_t>(word.mBegin))) {
break;
}
if (word.mBegin == 0) {
// We can't go back any further.
if (lineStart) {
// A line start always starts a new word.
return lineStart;
}
return TextLeafPoint();
}
}
return TextLeafPoint(mAcc, static_cast<int32_t>(word.mBegin));
}
TextLeafPoint TextLeafPoint::FindNextWordStartSameAcc(
bool aIncludeOrigin) const {
nsAutoString text;
mAcc->AppendTextTo(text);
int32_t wordStart = mOffset;
if (aIncludeOrigin) {
if (wordStart == 0) {
if (IsAcceptableWordStart(mAcc, text, 0)) {
return *this;
}
} else {
// The origin might start a word, so search from just before it.
--wordStart;
}
}
TextLeafPoint lineStart = FindLineStartSameAcc(eDirNext, aIncludeOrigin);
if (lineStart) {
// A word never starts with a line feed character. If there are multiple
// consecutive line feed characters, lineStart will point at the second of
// them. Skip this and any subsequent consecutive line feed.
for (; lineStart.mOffset < static_cast<int32_t>(text.Length()) &&
text.CharAt(lineStart.mOffset) == '\n';
++lineStart.mOffset) {
}
if (lineStart.mOffset == static_cast<int32_t>(text.Length())) {
// There's no line start for our purposes.
lineStart = TextLeafPoint();
}
}
// Keep walking forward until we find an acceptable word start.
intl::WordBreakIteratorUtf16 wordBreakIter(text);
Maybe<uint32_t> nextBreak = wordBreakIter.Seek(wordStart);
for (;;) {
if (!nextBreak || *nextBreak == text.Length()) {
if (lineStart) {
// A line start always starts a new word.
return lineStart;
}
return TextLeafPoint();
}
wordStart = AssertedCast<int32_t>(*nextBreak);
if (lineStart && wordStart > lineStart.mOffset) {
// A line start always starts a new word.
return lineStart;
}
if (IsAcceptableWordStart(mAcc, text, wordStart)) {
break;
}
nextBreak = wordBreakIter.Next();
}
return TextLeafPoint(mAcc, wordStart);
}
bool TextLeafPoint::IsCaretAtEndOfLine() const {
MOZ_ASSERT(IsCaret());
if (LocalAccessible* acc = mAcc->AsLocal()) {
HyperTextAccessible* ht = HyperTextFor(acc);
if (!ht) {
return false;
}
// Use HyperTextAccessible::IsCaretAtEndOfLine. Eventually, we'll want to
// move that code into TextLeafPoint, but existing code depends on it living
// in HyperTextAccessible (including caret events).
return ht->IsCaretAtEndOfLine();
}
return mAcc->AsRemote()->Document()->IsCaretAtEndOfLine();
}
TextLeafPoint TextLeafPoint::ActualizeCaret(bool aAdjustAtEndOfLine) const {
MOZ_ASSERT(IsCaret());
HyperTextAccessibleBase* ht;
int32_t htOffset;
if (LocalAccessible* acc = mAcc->AsLocal()) {
// Use HyperTextAccessible::CaretOffset. Eventually, we'll want to move
// that code into TextLeafPoint, but existing code depends on it living in
// HyperTextAccessible (including caret events).
ht = HyperTextFor(acc);
if (!ht) {
return TextLeafPoint();
}
htOffset = ht->CaretOffset();
if (htOffset == -1) {
return TextLeafPoint();
}
} else {
// Ideally, we'd cache the caret as a leaf, but our events are based on
// HyperText for now.
std::tie(ht, htOffset) = mAcc->AsRemote()->Document()->GetCaret();
if (!ht) {
return TextLeafPoint();
}
}
if (aAdjustAtEndOfLine && htOffset > 0 && IsCaretAtEndOfLine()) {
// It is the same character offset when the caret is visually at the very
// end of a line or the start of a new line (soft line break). Getting text
// at the line should provide the line with the visual caret. Otherwise,
// screen readers will announce the wrong line as the user presses up or
// down arrow and land at the end of a line.
--htOffset;
}
return ht->ToTextLeafPoint(htOffset);
}
TextLeafPoint TextLeafPoint::FindBoundary(AccessibleTextBoundary aBoundaryType,
nsDirection aDirection,
BoundaryFlags aFlags) const {
if (IsCaret()) {
if (aBoundaryType == nsIAccessibleText::BOUNDARY_CHAR) {
if (IsCaretAtEndOfLine()) {
// The caret is at the end of the line. Return no character.
return ActualizeCaret(/* aAdjustAtEndOfLine */ false);
}
}
return ActualizeCaret().FindBoundary(
aBoundaryType, aDirection, aFlags & BoundaryFlags::eIncludeOrigin);
}
bool inEditableAndStopInIt = (aFlags & BoundaryFlags::eStopInEditable) &&
mAcc->Parent() &&
(mAcc->Parent()->State() & states::EDITABLE);
if (aBoundaryType == nsIAccessibleText::BOUNDARY_LINE_END) {
return FindLineEnd(aDirection,
inEditableAndStopInIt
? aFlags
: (aFlags & ~BoundaryFlags::eStopInEditable));
}
if (aBoundaryType == nsIAccessibleText::BOUNDARY_WORD_END) {
return FindWordEnd(aDirection,
inEditableAndStopInIt
? aFlags
: (aFlags & ~BoundaryFlags::eStopInEditable));
}
if ((aBoundaryType == nsIAccessibleText::BOUNDARY_LINE_START ||
aBoundaryType == nsIAccessibleText::BOUNDARY_PARAGRAPH) &&
(aFlags & BoundaryFlags::eIncludeOrigin) && aDirection == eDirPrevious &&
IsEmptyLastLine()) {
// If we're at an empty line at the end of an Accessible, we don't want to
// walk into the previous line. For example, this can happen if the caret
// is positioned on an empty line at the end of a textarea.
return *this;
}
bool includeOrigin = !!(aFlags & BoundaryFlags::eIncludeOrigin);
bool ignoreListItemMarker = !!(aFlags & BoundaryFlags::eIgnoreListItemMarker);
Accessible* lastAcc = nullptr;
for (TextLeafPoint searchFrom = *this; searchFrom;
searchFrom = searchFrom.NeighborLeafPoint(
aDirection, inEditableAndStopInIt, ignoreListItemMarker)) {
lastAcc = searchFrom.mAcc;
if (ignoreListItemMarker && searchFrom == *this &&
searchFrom.mAcc->Role() == roles::LISTITEM_MARKER) {
continue;
}
TextLeafPoint boundary;
// Search for the boundary within the current Accessible.
switch (aBoundaryType) {
case nsIAccessibleText::BOUNDARY_CHAR:
if (includeOrigin) {
boundary = searchFrom;
} else if (aDirection == eDirPrevious && searchFrom.mOffset > 0) {
boundary.mAcc = searchFrom.mAcc;
boundary.mOffset = searchFrom.mOffset - 1;
} else if (aDirection == eDirNext &&
searchFrom.mOffset + 1 <
static_cast<int32_t>(
nsAccUtils::TextLength(searchFrom.mAcc))) {
boundary.mAcc = searchFrom.mAcc;
boundary.mOffset = searchFrom.mOffset + 1;
}
break;
case nsIAccessibleText::BOUNDARY_WORD_START:
if (aDirection == eDirPrevious) {
boundary = searchFrom.FindPrevWordStartSameAcc(includeOrigin);
} else {
boundary = searchFrom.FindNextWordStartSameAcc(includeOrigin);
}
break;
case nsIAccessibleText::BOUNDARY_LINE_START:
boundary = searchFrom.FindLineStartSameAcc(aDirection, includeOrigin,
ignoreListItemMarker);
break;
case nsIAccessibleText::BOUNDARY_PARAGRAPH:
boundary = searchFrom.FindParagraphSameAcc(aDirection, includeOrigin,
ignoreListItemMarker);
break;
default:
MOZ_ASSERT_UNREACHABLE();
break;
}
if (boundary) {
return boundary;
}
// The start/end of the Accessible might be a boundary. If so, we must stop
// on it.
includeOrigin = true;
}
MOZ_ASSERT(lastAcc);
// No further leaf was found. Use the start/end of the first/last leaf.
return TextLeafPoint(
lastAcc, aDirection == eDirPrevious
? 0
: static_cast<int32_t>(nsAccUtils::TextLength(lastAcc)));
}
TextLeafPoint TextLeafPoint::FindLineEnd(nsDirection aDirection,
BoundaryFlags aFlags) const {
if (aDirection == eDirPrevious && IsEmptyLastLine()) {
// If we're at an empty line at the end of an Accessible, we don't want to
// walk into the previous line. For example, this can happen if the caret
// is positioned on an empty line at the end of a textarea.
// Because we want the line end, we must walk back to the line feed
// character.
return FindBoundary(nsIAccessibleText::BOUNDARY_CHAR, eDirPrevious,
aFlags & ~BoundaryFlags::eIncludeOrigin);
}
if ((aFlags & BoundaryFlags::eIncludeOrigin) && IsLineFeedChar()) {
return *this;
}
if (aDirection == eDirPrevious && !(aFlags & BoundaryFlags::eIncludeOrigin)) {
// If there is a line feed immediately before us, return that.
TextLeafPoint prevChar =
FindBoundary(nsIAccessibleText::BOUNDARY_CHAR, eDirPrevious,
aFlags & ~BoundaryFlags::eIncludeOrigin);
if (prevChar.IsLineFeedChar()) {
return prevChar;
}
}
TextLeafPoint searchFrom = *this;
if (aDirection == eDirNext && IsLineFeedChar()) {
// If we search for the next line start from a line feed, we'll get the
// character immediately following the line feed. We actually want the
// next line start after that. Skip the line feed.
searchFrom = FindBoundary(nsIAccessibleText::BOUNDARY_CHAR, eDirNext,
aFlags & ~BoundaryFlags::eIncludeOrigin);
}
TextLeafPoint lineStart = searchFrom.FindBoundary(
nsIAccessibleText::BOUNDARY_LINE_START, aDirection, aFlags);
if (aDirection == eDirNext && IsEmptyLastLine()) {
// There is a line feed immediately before us, but that's actually the end
// of the previous line, not the end of our empty line. Don't walk back.
return lineStart;
}
// If there is a line feed before this line start (at the end of the previous
// line), we must return that.
TextLeafPoint prevChar =
lineStart.FindBoundary(nsIAccessibleText::BOUNDARY_CHAR, eDirPrevious,
aFlags & ~BoundaryFlags::eIncludeOrigin);
if (prevChar && prevChar.IsLineFeedChar()) {
return prevChar;
}
return lineStart;
}
bool TextLeafPoint::IsSpace() const {
return GetWordBreakClass(GetChar()) == eWbcSpace;
}
TextLeafPoint TextLeafPoint::FindWordEnd(nsDirection aDirection,
BoundaryFlags aFlags) const {
char16_t origChar = GetChar();
const bool origIsSpace = GetWordBreakClass(origChar) == eWbcSpace;
bool prevIsSpace = false;
if (aDirection == eDirPrevious ||
((aFlags & BoundaryFlags::eIncludeOrigin) && origIsSpace) || !origChar) {
TextLeafPoint prev =
FindBoundary(nsIAccessibleText::BOUNDARY_CHAR, eDirPrevious,
aFlags & ~BoundaryFlags::eIncludeOrigin);
if (aDirection == eDirPrevious && prev == *this) {
return *this; // Can't go any further.
}
prevIsSpace = prev.IsSpace();
if ((aFlags & BoundaryFlags::eIncludeOrigin) &&
(origIsSpace || IsDocEdge(eDirNext)) && !prevIsSpace) {
// The origin is space or end of document, but the previous
// character is not. This means we're at the end of a word.
return *this;
}
}
TextLeafPoint boundary = *this;
if (aDirection == eDirPrevious && !prevIsSpace) {
// If there isn't space immediately before us, first find the start of the
// previous word.
boundary = FindBoundary(nsIAccessibleText::BOUNDARY_WORD_START,
eDirPrevious, aFlags);
} else if (aDirection == eDirNext &&
(origIsSpace || (!origChar && prevIsSpace))) {
// We're within the space at the end of the word. Skip over the space. We
// can do that by searching for the next word start.
boundary = FindBoundary(nsIAccessibleText::BOUNDARY_WORD_START, eDirNext,
aFlags & ~BoundaryFlags::eIncludeOrigin);
if (boundary.IsSpace()) {
// The next word starts with a space. This can happen if there is a space
// after or at the start of a block element.
return boundary;
}
}
if (aDirection == eDirNext) {
BoundaryFlags flags = aFlags;
if (IsDocEdge(eDirPrevious)) {
// If this is the start of the doc don't be inclusive in the word-start
// search because there is no preceding block where this could be a
// word-end for.
flags &= ~BoundaryFlags::eIncludeOrigin;
}
boundary = boundary.FindBoundary(nsIAccessibleText::BOUNDARY_WORD_START,
eDirNext, flags);
}
// At this point, boundary is either the start of a word or at a space. A
// word ends at the beginning of consecutive space. Therefore, skip back to
// the start of any space before us.
TextLeafPoint prev = boundary;
for (;;) {
prev = prev.FindBoundary(nsIAccessibleText::BOUNDARY_CHAR, eDirPrevious,
aFlags & ~BoundaryFlags::eIncludeOrigin);
if (prev == boundary) {
break; // Can't go any further.
}
if (!prev.IsSpace()) {
break;
}
boundary = prev;
}
return boundary;
}
TextLeafPoint TextLeafPoint::FindParagraphSameAcc(
nsDirection aDirection, bool aIncludeOrigin,
bool aIgnoreListItemMarker) const {
if (aIncludeOrigin && IsDocEdge(eDirPrevious)) {
// The top of the document is a paragraph boundary.
return *this;
}
if (aIgnoreListItemMarker && aIncludeOrigin && mOffset == 0 &&
IsLeafAfterListItemMarker()) {
// If we are in a list item and the previous sibling is
// a bullet, the 0 offset in this leaf is a line start.
return *this;
}
if (mAcc->IsTextLeaf() &&
// We don't want to copy strings unnecessarily. See below for the context
// of these individual conditions.
((aIncludeOrigin && mOffset > 0) || aDirection == eDirNext ||
mOffset >= 2)) {
// If there is a line feed, a new paragraph begins after it.
nsAutoString text;
mAcc->AppendTextTo(text);
if (aIncludeOrigin && mOffset > 0 && text.CharAt(mOffset - 1) == '\n') {
return TextLeafPoint(mAcc, mOffset);
}
int32_t lfOffset = -1;
if (aDirection == eDirNext) {
lfOffset = text.FindChar('\n', mOffset);
} else if (mOffset >= 2) {
// A line feed at mOffset - 1 means the origin begins a new paragraph,
// but we already handled aIncludeOrigin above. Therefore, we search from
// mOffset - 2.
lfOffset = text.RFindChar('\n', mOffset - 2);
}
if (lfOffset != -1 && lfOffset + 1 < static_cast<int32_t>(text.Length())) {
return TextLeafPoint(mAcc, lfOffset + 1);
}
}
if (aIgnoreListItemMarker && mOffset > 0 && aDirection == eDirPrevious &&
IsLeafAfterListItemMarker()) {
// No line breaks were found in the preceding text to this offset.
// If we are in a list item and the previous sibling is
// a bullet, the 0 offset in this leaf is a line start.
return TextLeafPoint(mAcc, 0);
}
// Check whether this Accessible begins a paragraph.
if ((!aIncludeOrigin && mOffset == 0) ||
(aDirection == eDirNext && mOffset > 0)) {
// The caller isn't interested in whether this Accessible begins a
// paragraph.
return TextLeafPoint();
}
Accessible* prevLeaf = PrevLeaf(mAcc);
BlockRule blockRule;
Pivot pivot(nsAccUtils::DocumentFor(mAcc));
Accessible* prevBlock = pivot.Prev(mAcc, blockRule);
// Check if we're the first leaf after a block element.
if (prevBlock) {
if (
// If there's no previous leaf, we must be the first leaf after the
// block.
!prevLeaf ||
// A block can be a leaf; e.g. an empty div or paragraph.
prevBlock == prevLeaf) {
return TextLeafPoint(mAcc, 0);
}
if (prevBlock->IsAncestorOf(mAcc)) {
// We're inside the block.
if (!prevBlock->IsAncestorOf(prevLeaf)) {
// The previous leaf isn't inside the block. That means we're the first
// leaf in the block.
return TextLeafPoint(mAcc, 0);
}
} else {
// We aren't inside the block, so the block ends before us.
if (prevBlock->IsAncestorOf(prevLeaf)) {
// The previous leaf is inside the block. That means we're the first
// leaf after the block. This case is necessary because a block causes a
// paragraph break both before and after it.
return TextLeafPoint(mAcc, 0);
}
}
}
if (!prevLeaf || prevLeaf->IsHTMLBr()) {
// We're the first leaf after a line break or the start of the document.
return TextLeafPoint(mAcc, 0);
}
if (prevLeaf->IsTextLeaf()) {
// There's a text leaf before us. Check if it ends with a line feed.
nsAutoString text;
prevLeaf->AppendTextTo(text, nsAccUtils::TextLength(prevLeaf) - 1, 1);
if (text.CharAt(0) == '\n') {
return TextLeafPoint(mAcc, 0);
}
}
return TextLeafPoint();
}
bool TextLeafPoint::IsInSpellingError() const {
if (LocalAccessible* acc = mAcc->AsLocal()) {
auto domRanges = FindDOMSpellingErrors(acc, mOffset, mOffset + 1);
// If there is a spelling error overlapping this character, we're in a
// spelling error.
return !domRanges.IsEmpty();
}
RemoteAccessible* acc = mAcc->AsRemote();
MOZ_ASSERT(acc);
if (!acc->mCachedFields) {
return false;
}
auto spellingErrors =
acc->mCachedFields->GetAttribute<nsTArray<int32_t>>(nsGkAtoms::spelling);
if (!spellingErrors) {
return false;
}
size_t index;
const bool foundOrigin = BinarySearch(
*spellingErrors, 0, spellingErrors->Length(), mOffset, &index);
// In spellingErrors, even indices are start offsets, odd indices are end
// offsets.
const bool foundStart = index % 2 == 0;
if (foundOrigin) {
// mOffset is a spelling error boundary. If it's a start offset, we're in a
// spelling error.
return foundStart;
}
// index points at the next spelling error boundary after mOffset.
if (index == 0) {
return false; // No spelling errors before mOffset.
}
if (foundStart) {
// We're not in a spelling error because it starts after mOffset.
return false;
}
// A spelling error ends after mOffset.
return true;
}
TextLeafPoint TextLeafPoint::FindSpellingErrorSameAcc(
nsDirection aDirection, bool aIncludeOrigin) const {
if (!aIncludeOrigin && mOffset == 0 && aDirection == eDirPrevious) {
return TextLeafPoint();
}
if (LocalAccessible* acc = mAcc->AsLocal()) {
// We want to find both start and end points, so we pass true for
// aAllowAdjacent.
auto domRanges =
aDirection == eDirNext
? FindDOMSpellingErrors(acc, mOffset,
nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT,
/* aAllowAdjacent */ true)
: FindDOMSpellingErrors(acc, 0, mOffset,
/* aAllowAdjacent */ true);
nsINode* node = acc->GetNode();
if (aDirection == eDirNext) {
for (nsRange* domRange : domRanges) {
if (domRange->GetStartContainer() == node) {
int32_t matchOffset = static_cast<int32_t>(ContentToRenderedOffset(
acc, static_cast<int32_t>(domRange->StartOffset())));
if ((aIncludeOrigin && matchOffset == mOffset) ||
matchOffset > mOffset) {
return TextLeafPoint(mAcc, matchOffset);
}
}
if (domRange->GetEndContainer() == node) {
int32_t matchOffset = static_cast<int32_t>(ContentToRenderedOffset(
acc, static_cast<int32_t>(domRange->EndOffset())));
if ((aIncludeOrigin && matchOffset == mOffset) ||
matchOffset > mOffset) {
return TextLeafPoint(mAcc, matchOffset);
}
}
}
} else {
for (nsRange* domRange : Reversed(domRanges)) {
if (domRange->GetEndContainer() == node) {
int32_t matchOffset = static_cast<int32_t>(ContentToRenderedOffset(
acc, static_cast<int32_t>(domRange->EndOffset())));
if ((aIncludeOrigin && matchOffset == mOffset) ||
matchOffset < mOffset) {
return TextLeafPoint(mAcc, matchOffset);
}
}
if (domRange->GetStartContainer() == node) {
int32_t matchOffset = static_cast<int32_t>(ContentToRenderedOffset(
acc, static_cast<int32_t>(domRange->StartOffset())));
if ((aIncludeOrigin && matchOffset == mOffset) ||
matchOffset < mOffset) {
return TextLeafPoint(mAcc, matchOffset);
}
}
}
}
return TextLeafPoint();
}
RemoteAccessible* acc = mAcc->AsRemote();
MOZ_ASSERT(acc);
if (!acc->mCachedFields) {
return TextLeafPoint();
}
auto spellingErrors =
acc->mCachedFields->GetAttribute<nsTArray<int32_t>>(nsGkAtoms::spelling);
if (!spellingErrors) {
return TextLeafPoint();
}
size_t index;
if (BinarySearch(*spellingErrors, 0, spellingErrors->Length(), mOffset,
&index)) {
// mOffset is in spellingErrors.
if (aIncludeOrigin) {
return *this;
}
if (aDirection == eDirNext) {
// We don't want the origin, so move to the next spelling error boundary
// after mOffset.
++index;
}
}
// index points at the next spelling error boundary after mOffset.
if (aDirection == eDirNext) {
if (spellingErrors->Length() == index) {
return TextLeafPoint(); // No spelling error boundary after us.
}
return TextLeafPoint(mAcc, (*spellingErrors)[index]);
}
if (index == 0) {
return TextLeafPoint(); // No spelling error boundary before us.
}
// Decrement index so it points at a spelling error boundary before mOffset.
--index;
if ((*spellingErrors)[index] == -1) {
MOZ_ASSERT(index == 0);
// A spelling error starts before mAcc.
return TextLeafPoint();
}
return TextLeafPoint(mAcc, (*spellingErrors)[index]);
}
TextLeafPoint TextLeafPoint::NeighborLeafPoint(
nsDirection aDirection, bool aIsEditable,
bool aIgnoreListItemMarker) const {
Accessible* acc = aDirection == eDirPrevious
? PrevLeaf(mAcc, aIsEditable, aIgnoreListItemMarker)
: NextLeaf(mAcc, aIsEditable, aIgnoreListItemMarker);
if (!acc) {
return TextLeafPoint();
}
return TextLeafPoint(
acc, aDirection == eDirPrevious
? static_cast<int32_t>(nsAccUtils::TextLength(acc)) - 1
: 0);
}
LayoutDeviceIntRect TextLeafPoint::ComputeBoundsFromFrame() const {
LocalAccessible* local = mAcc->AsLocal();
MOZ_ASSERT(local, "Can't compute bounds in frame from non-local acc");
nsIFrame* frame = local->GetFrame();
MOZ_ASSERT(frame, "No frame found for acc!");
if (!frame || !frame->IsTextFrame()) {
return local->Bounds();
}
// Substring must be entirely within the same text node.
MOZ_ASSERT(frame->IsPrimaryFrame(),
"Cannot compute content offset on non-primary frame");
nsIFrame::RenderedText text = frame->GetRenderedText(
mOffset, mOffset + 1, nsIFrame::TextOffsetType::OffsetsInRenderedText,
nsIFrame::TrailingWhitespace::DontTrim);
int32_t contentOffset = text.mOffsetWithinNodeText;
int32_t contentOffsetInFrame;
// Get the right frame continuation -- not really a child, but a sibling of
// the primary frame passed in
nsresult rv = frame->GetChildFrameContainingOffset(
contentOffset, true, &contentOffsetInFrame, &frame);
NS_ENSURE_SUCCESS(rv, LayoutDeviceIntRect());
// Start with this frame's screen rect, which we will shrink based on
// the char we care about within it.
nsRect frameScreenRect = frame->GetScreenRectInAppUnits();
// Add the point where the char starts to the frameScreenRect
nsPoint frameTextStartPoint;
rv = frame->GetPointFromOffset(contentOffset, &frameTextStartPoint);
NS_ENSURE_SUCCESS(rv, LayoutDeviceIntRect());
// Use the next offset to calculate the width
// XXX(morgan) does this work for vertical text?
nsPoint frameTextEndPoint;
rv = frame->GetPointFromOffset(contentOffset + 1, &frameTextEndPoint);
NS_ENSURE_SUCCESS(rv, LayoutDeviceIntRect());
frameScreenRect.SetRectX(
frameScreenRect.X() +
std::min(frameTextStartPoint.x, frameTextEndPoint.x),
mozilla::Abs(frameTextStartPoint.x - frameTextEndPoint.x));
nsPresContext* presContext = local->Document()->PresContext();
return LayoutDeviceIntRect::FromAppUnitsToNearest(
frameScreenRect, presContext->AppUnitsPerDevPixel());
}
/* static */
nsTArray<int32_t> TextLeafPoint::GetSpellingErrorOffsets(
LocalAccessible* aAcc) {
nsINode* node = aAcc->GetNode();
auto domRanges = FindDOMSpellingErrors(
aAcc, 0, nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT);
// Our offsets array will contain two offsets for each range: one for the
// start, one for the end. That is, the array is of the form:
// [r1start, r1end, r2start, r2end, ...]
nsTArray<int32_t> offsets(domRanges.Length() * 2);
for (nsRange* domRange : domRanges) {
if (domRange->GetStartContainer() == node) {
offsets.AppendElement(static_cast<int32_t>(ContentToRenderedOffset(
aAcc, static_cast<int32_t>(domRange->StartOffset()))));
} else {
// This range overlaps aAcc, but starts before it.
// This can only happen for the first range.
MOZ_ASSERT(domRange == *domRanges.begin() && offsets.IsEmpty());
// Using -1 here means this won't be treated as the start of a spelling
// error range, while still indicating that we're within a spelling error.
offsets.AppendElement(-1);
}
if (domRange->GetEndContainer() == node) {
offsets.AppendElement(static_cast<int32_t>(ContentToRenderedOffset(
aAcc, static_cast<int32_t>(domRange->EndOffset()))));
} else {
// This range overlaps aAcc, but ends after it.
// This can only happen for the last range.
MOZ_ASSERT(domRange == *domRanges.rbegin());
// We don't append -1 here because this would just make things harder for
// a binary search.
}
}
return offsets;
}
/* static */
void TextLeafPoint::UpdateCachedSpellingError(dom::Document* aDocument,
const nsRange& aRange) {
DocAccessible* docAcc = GetExistingDocAccessible(aDocument);
if (!docAcc) {
return;
}
LocalAccessible* startAcc = docAcc->GetAccessible(aRange.GetStartContainer());
LocalAccessible* endAcc = docAcc->GetAccessible(aRange.GetEndContainer());
if (!startAcc || !endAcc) {
return;
}
for (Accessible* acc = startAcc; acc; acc = NextLeaf(acc)) {
if (acc->IsTextLeaf()) {
docAcc->QueueCacheUpdate(acc->AsLocal(), CacheDomain::Spelling);
}
if (acc == endAcc) {
// Subtle: We check this here rather than in the loop condition because
// we want to include endAcc but stop once we reach it. Putting it in the
// loop condition would mean we stop at endAcc, but we would also exclude
// it; i.e. we wouldn't push the cache for it.
break;
}
}
}
already_AddRefed<AccAttributes> TextLeafPoint::GetTextAttributesLocalAcc(
bool aIncludeDefaults) const {
LocalAccessible* acc = mAcc->AsLocal();
MOZ_ASSERT(acc);
MOZ_ASSERT(acc->IsText());
// TextAttrsMgr wants a HyperTextAccessible.
LocalAccessible* parent = acc->LocalParent();
HyperTextAccessible* hyperAcc = parent->AsHyperText();
MOZ_ASSERT(hyperAcc);
RefPtr<AccAttributes> attributes = new AccAttributes();
if (hyperAcc) {
TextAttrsMgr mgr(hyperAcc, aIncludeDefaults, acc,
acc ? acc->IndexInParent() : -1);
mgr.GetAttributes(attributes, nullptr, nullptr);
}
return attributes.forget();
}
already_AddRefed<AccAttributes> TextLeafPoint::GetTextAttributes(
bool aIncludeDefaults) const {
if (!mAcc->IsText()) {
return nullptr;
}
RefPtr<AccAttributes> attrs;
if (mAcc->IsLocal()) {
attrs = GetTextAttributesLocalAcc(aIncludeDefaults);
} else {
attrs = new AccAttributes();
if (aIncludeDefaults) {
Accessible* parent = mAcc->Parent();
if (parent && parent->IsRemote() && parent->IsHyperText()) {
if (auto defAttrs = parent->AsRemote()->GetCachedTextAttributes()) {
defAttrs->CopyTo(attrs);
}
}
}
if (auto thisAttrs = mAcc->AsRemote()->GetCachedTextAttributes()) {
thisAttrs->CopyTo(attrs);
}
}
if (IsInSpellingError()) {
attrs->SetAttribute(nsGkAtoms::invalid, nsGkAtoms::spelling);
}
return attrs.forget();
}
TextLeafPoint TextLeafPoint::FindTextAttrsStart(nsDirection aDirection,
bool aIncludeOrigin) const {
if (IsCaret()) {
return ActualizeCaret().FindTextAttrsStart(aDirection, aIncludeOrigin);
}
const bool isRemote = mAcc->IsRemote();
RefPtr<const AccAttributes> lastAttrs =
isRemote ? mAcc->AsRemote()->GetCachedTextAttributes()
: GetTextAttributesLocalAcc();
if (aIncludeOrigin && aDirection == eDirNext && mOffset == 0) {
// Even when searching forward, the only way to know whether the origin is
// the start of a text attrs run is to compare with the previous sibling.
// Anything other than text breaks an attrs run.
TextLeafPoint point;
point.mAcc = mAcc->PrevSibling();
if (!point.mAcc || !point.mAcc->IsText()) {
return *this;
}
// For RemoteAccessible, we can get attributes from the cache without any
// calculation or copying.
RefPtr<const AccAttributes> attrs =
isRemote ? point.mAcc->AsRemote()->GetCachedTextAttributes()
: point.GetTextAttributesLocalAcc();
if (attrs && lastAttrs && !attrs->Equal(lastAttrs)) {
return *this;
}
}
TextLeafPoint lastPoint = *this;
for (;;) {
if (TextLeafPoint spelling = lastPoint.FindSpellingErrorSameAcc(
aDirection, aIncludeOrigin && lastPoint.mAcc == mAcc)) {
// A spelling error starts or ends somewhere in the Accessible we're
// considering. This causes an attribute change, so return that point.
return spelling;
}
TextLeafPoint point;
point.mAcc = aDirection == eDirNext ? lastPoint.mAcc->NextSibling()
: lastPoint.mAcc->PrevSibling();
if (!point.mAcc || !point.mAcc->IsText()) {
break;
}
RefPtr<const AccAttributes> attrs =
isRemote ? point.mAcc->AsRemote()->GetCachedTextAttributes()
: point.GetTextAttributesLocalAcc();
if (attrs && lastAttrs && !attrs->Equal(lastAttrs)) {
// The attributes change here. If we're moving forward, we want to
// return this point. If we're moving backward, we've now moved before
// the start of the attrs run containing the origin, so return that start
// point; i.e. the start of the last Accessible we hit.
if (aDirection == eDirPrevious) {
point = lastPoint;
point.mOffset = 0;
}
if (!aIncludeOrigin && point == *this) {
MOZ_ASSERT(aDirection == eDirPrevious);
// The origin is the start of an attrs run, but the caller doesn't want
// the origin included.
continue;
}
return point;
}
lastPoint = point;
if (aDirection == eDirPrevious) {
// On the next iteration, we want to search for spelling errors from the
// end of this Accessible.
lastPoint.mOffset =
static_cast<int32_t>(nsAccUtils::TextLength(point.mAcc));
}
lastAttrs = attrs;
}
// We couldn't move any further. Use the start/end.
return TextLeafPoint(
lastPoint.mAcc,
aDirection == eDirPrevious
? 0
: static_cast<int32_t>(nsAccUtils::TextLength(lastPoint.mAcc)));
}
LayoutDeviceIntRect TextLeafPoint::CharBounds() {
if (mAcc && !mAcc->IsText()) {
// If we're dealing with an empty container, return the
// accessible's non-text bounds.
return mAcc->Bounds();
}
if (!mAcc || (mAcc->IsRemote() && !mAcc->AsRemote()->mCachedFields)) {
return LayoutDeviceIntRect();
}
if (LocalAccessible* local = mAcc->AsLocal()) {
if (!local->IsTextLeaf() || nsAccUtils::TextLength(local) == 0) {
// Empty content, use our own bounds to at least get x,y coordinates
return local->Bounds();
}
if (mOffset >= 0 &&
static_cast<uint32_t>(mOffset) >= nsAccUtils::TextLength(local)) {
// It's valid for a caller to query the length because the caret might be
// at the end of editable text. In that case, we should just silently
// return. However, we assert that the offset isn't greater than the
// length.
NS_ASSERTION(
static_cast<uint32_t>(mOffset) <= nsAccUtils::TextLength(local),
"Wrong in offset");
return LayoutDeviceIntRect();
}
LayoutDeviceIntRect bounds = ComputeBoundsFromFrame();
// This document may have a resolution set, we will need to multiply
// the document-relative coordinates by that value and re-apply the doc's
// screen coordinates.
nsPresContext* presContext = local->Document()->PresContext();
nsIFrame* rootFrame = presContext->PresShell()->GetRootFrame();
LayoutDeviceIntRect orgRectPixels =
LayoutDeviceIntRect::FromAppUnitsToNearest(
rootFrame->GetScreenRectInAppUnits(),
presContext->AppUnitsPerDevPixel());
bounds.MoveBy(-orgRectPixels.X(), -orgRectPixels.Y());
bounds.ScaleRoundOut(presContext->PresShell()->GetResolution());
bounds.MoveBy(orgRectPixels.X(), orgRectPixels.Y());
return bounds;
}
RemoteAccessible* remote = mAcc->AsRemote();
nsRect charBounds = remote->GetCachedCharRect(mOffset);
if (!charBounds.IsEmpty()) {
return remote->BoundsWithOffset(Some(charBounds));
}
return LayoutDeviceIntRect();
}
bool TextLeafPoint::ContainsPoint(int32_t aX, int32_t aY) {
if (mAcc && !mAcc->IsText()) {
// If we're dealing with an empty embedded object, use the
// accessible's non-text bounds.
return mAcc->Bounds().Contains(aX, aY);
}
return CharBounds().Contains(aX, aY);
}
LayoutDeviceIntRect TextLeafRange::Bounds() const {
if (mEnd == mStart || mEnd < mStart) {
return LayoutDeviceIntRect();
}
bool locatedFinalLine = false;
TextLeafPoint currPoint = mStart;
LayoutDeviceIntRect result = currPoint.CharBounds();
// Union the first and last chars of each line to create a line rect. Then,
// union the lines together.
while (!locatedFinalLine) {
// Fetch the last point in the current line by getting the
// start of the next line and going back one char. We don't
// use BOUNDARY_LINE_END here because it is equivalent to LINE_START when
// the line doesn't end with a line feed character.
TextLeafPoint lineStartPoint = currPoint.FindBoundary(
nsIAccessibleText::BOUNDARY_LINE_START, eDirNext);
TextLeafPoint lastPointInLine = lineStartPoint.FindBoundary(
nsIAccessibleText::BOUNDARY_CHAR, eDirPrevious);
// If currPoint is the end of the document, lineStartPoint will be equal
// to currPoint and we would be in an endless loop.
if (lineStartPoint == currPoint || mEnd <= lastPointInLine) {
lastPointInLine = mEnd;
locatedFinalLine = true;
}
LayoutDeviceIntRect currLine = currPoint.CharBounds();
currLine.UnionRect(currLine, lastPointInLine.CharBounds());
result.UnionRect(result, currLine);
currPoint = lineStartPoint;
}
return result;
}
bool TextLeafRange::SetSelection(int32_t aSelectionNum) const {
if (!mStart || !mEnd || mStart.mAcc->IsLocal() != mEnd.mAcc->IsLocal()) {
return false;
}
if (mStart.mAcc->IsRemote()) {
DocAccessibleParent* doc = mStart.mAcc->AsRemote()->Document();
if (doc != mEnd.mAcc->AsRemote()->Document()) {
return false;
}
Unused << doc->SendSetTextSelection(mStart.mAcc->ID(), mStart.mOffset,
mEnd.mAcc->ID(), mEnd.mOffset,
aSelectionNum);
return true;
}
bool reversed = mEnd < mStart;
auto [startContent, startContentOffset] =
!reversed ? mStart.ToDOMPoint(false) : mEnd.ToDOMPoint(false);
auto [endContent, endContentOffset] =
!reversed ? mEnd.ToDOMPoint(false) : mStart.ToDOMPoint(false);
if (!startContent || !endContent) {
return false;
}
RefPtr<dom::Selection> domSel = GetDOMSelection(startContent, endContent);
if (!domSel) {
return false;
}
uint32_t rangeCount = domSel->RangeCount();
RefPtr<nsRange> domRange = nullptr;
if (aSelectionNum == static_cast<int32_t>(rangeCount) || aSelectionNum < 0) {
domRange = nsRange::Create(startContent);
} else {
domRange = domSel->GetRangeAt(AssertedCast<uint32_t>(aSelectionNum));
}
if (!domRange) {
return false;
}
domRange->SetStart(startContent, startContentOffset);
domRange->SetEnd(endContent, endContentOffset);
// If this is not a new range, notify selection listeners that the existing
// selection range has changed. Otherwise, just add the new range.
if (aSelectionNum != static_cast<int32_t>(rangeCount)) {
domSel->RemoveRangeAndUnselectFramesAndNotifyListeners(*domRange,
IgnoreErrors());
}
IgnoredErrorResult err;
domSel->AddRangeAndSelectFramesAndNotifyListeners(*domRange, err);
if (!err.Failed()) {
// Changing the direction of the selection assures that the caret
// will be at the logical end of the selection.
domSel->SetDirection(reversed ? eDirPrevious : eDirNext);
return true;
}
return false;
}
void TextLeafRange::ScrollIntoView(uint32_t aScrollType) const {
if (!mStart || !mEnd || mStart.mAcc->IsLocal() != mEnd.mAcc->IsLocal()) {
return;
}
if (mStart.mAcc->IsRemote()) {
DocAccessibleParent* doc = mStart.mAcc->AsRemote()->Document();
if (doc != mEnd.mAcc->AsRemote()->Document()) {
// Can't scroll range that spans docs.
return;
}
Unused << doc->SendScrollTextLeafRangeIntoView(
mStart.mAcc->ID(), mStart.mOffset, mEnd.mAcc->ID(), mEnd.mOffset,
aScrollType);
return;
}
auto [startContent, startContentOffset] = mStart.ToDOMPoint();
auto [endContent, endContentOffset] = mEnd.ToDOMPoint();
if (!startContent || !endContent) {
return;
}
ErrorResult er;
RefPtr<nsRange> domRange = nsRange::Create(startContent, startContentOffset,
endContent, endContentOffset, er);
if (er.Failed()) {
return;
}
nsCoreUtils::ScrollSubstringTo(mStart.mAcc->AsLocal()->GetFrame(), domRange,
aScrollType);
}
TextLeafRange::Iterator TextLeafRange::Iterator::BeginIterator(
const TextLeafRange& aRange) {
Iterator result(aRange);
result.mSegmentStart = aRange.mStart;
if (aRange.mStart.mAcc == aRange.mEnd.mAcc) {
result.mSegmentEnd = aRange.mEnd;
} else {
result.mSegmentEnd = TextLeafPoint(
aRange.mStart.mAcc, nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT);
}
return result;
}
TextLeafRange::Iterator TextLeafRange::Iterator::EndIterator(
const TextLeafRange& aRange) {
Iterator result(aRange);
result.mSegmentEnd = TextLeafPoint();
result.mSegmentStart = TextLeafPoint();
return result;
}
TextLeafRange::Iterator& TextLeafRange::Iterator::operator++() {
if (mSegmentEnd.mAcc == mRange.mEnd.mAcc) {
mSegmentEnd = TextLeafPoint();
mSegmentStart = TextLeafPoint();
return *this;
}
if (Accessible* nextLeaf = NextLeaf(mSegmentEnd.mAcc)) {
mSegmentStart = TextLeafPoint(nextLeaf, 0);
if (nextLeaf == mRange.mEnd.mAcc) {
mSegmentEnd = TextLeafPoint(nextLeaf, mRange.mEnd.mOffset);
} else {
mSegmentEnd =
TextLeafPoint(nextLeaf, nsIAccessibleText::TEXT_OFFSET_END_OF_TEXT);
}
} else {
mSegmentEnd = TextLeafPoint();
mSegmentStart = TextLeafPoint();
}
return *this;
}
} // namespace mozilla::a11y
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