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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
#include "WSRunObject.h"
#include "EditorDOMPoint.h"
#include "EditorUtils.h"
#include "ErrorList.h"
#include "HTMLEditHelpers.h" // for MoveNodeResult, SplitNodeResult
#include "HTMLEditor.h"
#include "HTMLEditorNestedClasses.h" // for AutoMoveOneLineHandler
#include "HTMLEditUtils.h"
#include "SelectionState.h"
#include "mozilla/Assertions.h"
#include "mozilla/Casting.h"
#include "mozilla/SelectionState.h"
#include "mozilla/mozalloc.h"
#include "mozilla/OwningNonNull.h"
#include "mozilla/RangeUtils.h"
#include "mozilla/StaticPrefs_dom.h" // for StaticPrefs::dom_*
#include "mozilla/StaticPrefs_editor.h" // for StaticPrefs::editor_*
#include "mozilla/InternalMutationEvent.h"
#include "mozilla/dom/AncestorIterator.h"
#include "nsAString.h"
#include "nsCRT.h"
#include "nsContentUtils.h"
#include "nsDebug.h"
#include "nsError.h"
#include "nsIContent.h"
#include "nsIContentInlines.h"
#include "nsISupportsImpl.h"
#include "nsRange.h"
#include "nsString.h"
#include "nsTextFragment.h"
namespace mozilla {
using namespace dom;
using LeafNodeType = HTMLEditUtils::LeafNodeType;
using LeafNodeTypes = HTMLEditUtils::LeafNodeTypes;
using WalkTreeOption = HTMLEditUtils::WalkTreeOption;
template WSScanResult WSRunScanner::ScanPreviousVisibleNodeOrBlockBoundaryFrom(
const EditorDOMPoint& aPoint) const;
template WSScanResult WSRunScanner::ScanPreviousVisibleNodeOrBlockBoundaryFrom(
const EditorRawDOMPoint& aPoint) const;
template WSScanResult
WSRunScanner::ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom(
const EditorDOMPoint& aPoint) const;
template WSScanResult
WSRunScanner::ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom(
const EditorRawDOMPoint& aPoint) const;
template WSScanResult
WSRunScanner::ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom(
const EditorDOMPointInText& aPoint) const;
template WSScanResult
WSRunScanner::ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom(
const EditorRawDOMPointInText& aPoint) const;
template EditorDOMPoint WSRunScanner::GetAfterLastVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter);
template EditorRawDOMPoint WSRunScanner::GetAfterLastVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter);
template EditorDOMPoint WSRunScanner::GetFirstVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter);
template EditorRawDOMPoint WSRunScanner::GetFirstVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter);
template nsresult WhiteSpaceVisibilityKeeper::NormalizeVisibleWhiteSpacesAt(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aScanStartPoint);
template nsresult WhiteSpaceVisibilityKeeper::NormalizeVisibleWhiteSpacesAt(
HTMLEditor& aHTMLEditor, const EditorDOMPointInText& aScanStartPoint);
template WSRunScanner::TextFragmentData::TextFragmentData(
const EditorDOMPoint& aPoint, const Element* aEditingHost,
BlockInlineCheck aBlockInlineCheck);
template WSRunScanner::TextFragmentData::TextFragmentData(
const EditorRawDOMPoint& aPoint, const Element* aEditingHost,
BlockInlineCheck aBlockInlineCheck);
template WSRunScanner::TextFragmentData::TextFragmentData(
const EditorDOMPointInText& aPoint, const Element* aEditingHost,
BlockInlineCheck aBlockInlineCheck);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetInclusiveNextEditableCharPoint,
const EditorDOMPoint& aPoint);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetInclusiveNextEditableCharPoint,
const EditorRawDOMPoint& aPoint);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetInclusiveNextEditableCharPoint,
const EditorDOMPointInText& aPoint);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetInclusiveNextEditableCharPoint,
const EditorRawDOMPointInText& aPoint);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetPreviousEditableCharPoint,
const EditorDOMPoint& aPoint);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetPreviousEditableCharPoint,
const EditorRawDOMPoint& aPoint);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetPreviousEditableCharPoint,
const EditorDOMPointInText& aPoint);
NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(
WSRunScanner::TextFragmentData::GetPreviousEditableCharPoint,
const EditorRawDOMPointInText& aPoint);
Result<EditorDOMPoint, nsresult>
WhiteSpaceVisibilityKeeper::PrepareToSplitBlockElement(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPointToSplit,
const Element& aSplittingBlockElement) {
if (NS_WARN_IF(!aPointToSplit.IsInContentNode()) ||
NS_WARN_IF(!HTMLEditUtils::IsSplittableNode(aSplittingBlockElement)) ||
NS_WARN_IF(!EditorUtils::IsEditableContent(
*aPointToSplit.ContainerAs<nsIContent>(), EditorType::HTML))) {
return Err(NS_ERROR_FAILURE);
}
// The container of aPointToSplit may be not splittable, e.g., selection
// may be collapsed **in** a `<br>` element or a comment node. So, look
// for splittable point with climbing the tree up.
EditorDOMPoint pointToSplit(aPointToSplit);
for (nsIContent* content : aPointToSplit.ContainerAs<nsIContent>()
->InclusiveAncestorsOfType<nsIContent>()) {
if (content == &aSplittingBlockElement) {
break;
}
if (HTMLEditUtils::IsSplittableNode(*content)) {
break;
}
pointToSplit.Set(content);
}
{
AutoTrackDOMPoint tracker(aHTMLEditor.RangeUpdaterRef(), &pointToSplit);
nsresult rv = WhiteSpaceVisibilityKeeper::
MakeSureToKeepVisibleWhiteSpacesVisibleAfterSplit(aHTMLEditor,
pointToSplit);
if (NS_WARN_IF(aHTMLEditor.Destroyed())) {
return Err(NS_ERROR_EDITOR_DESTROYED);
}
if (NS_FAILED(rv)) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::"
"MakeSureToKeepVisibleWhiteSpacesVisibleAfterSplit() failed");
return Err(rv);
}
}
if (NS_WARN_IF(!pointToSplit.IsInContentNode()) ||
NS_WARN_IF(
!pointToSplit.ContainerAs<nsIContent>()->IsInclusiveDescendantOf(
&aSplittingBlockElement)) ||
NS_WARN_IF(!HTMLEditUtils::IsSplittableNode(aSplittingBlockElement)) ||
NS_WARN_IF(!HTMLEditUtils::IsSplittableNode(
*pointToSplit.ContainerAs<nsIContent>()))) {
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
return pointToSplit;
}
// static
Result<MoveNodeResult, nsresult> WhiteSpaceVisibilityKeeper::
MergeFirstLineOfRightBlockElementIntoDescendantLeftBlockElement(
HTMLEditor& aHTMLEditor, Element& aLeftBlockElement,
Element& aRightBlockElement, const EditorDOMPoint& aAtRightBlockChild,
const Maybe<nsAtom*>& aListElementTagName,
const HTMLBRElement* aPrecedingInvisibleBRElement,
const Element& aEditingHost) {
MOZ_ASSERT(
EditorUtils::IsDescendantOf(aLeftBlockElement, aRightBlockElement));
MOZ_ASSERT(&aRightBlockElement == aAtRightBlockChild.GetContainer());
// NOTE: This method may extend deletion range:
// - to delete invisible white-spaces at end of aLeftBlockElement
// - to delete invisible white-spaces at start of
// afterRightBlockChild.GetChild()
// - to delete invisible white-spaces before afterRightBlockChild.GetChild()
// - to delete invisible `<br>` element at end of aLeftBlockElement
{
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces(
aHTMLEditor, EditorDOMPoint::AtEndOf(aLeftBlockElement));
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces() "
"failed");
return caretPointOrError.propagateErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
}
// Check whether aLeftBlockElement is a descendant of aRightBlockElement.
if (aHTMLEditor.MayHaveMutationEventListeners()) {
EditorDOMPoint leftBlockContainingPointInRightBlockElement;
if (aHTMLEditor.MayHaveMutationEventListeners() &&
MOZ_UNLIKELY(!EditorUtils::IsDescendantOf(
aLeftBlockElement, aRightBlockElement,
&leftBlockContainingPointInRightBlockElement))) {
NS_WARNING(
"Deleting invisible whitespace at end of left block element caused "
"moving the left block element outside the right block element");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
if (MOZ_UNLIKELY(leftBlockContainingPointInRightBlockElement !=
aAtRightBlockChild)) {
NS_WARNING(
"Deleting invisible whitespace at end of left block element caused "
"changing the left block element in the right block element");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
if (MOZ_UNLIKELY(!EditorUtils::IsEditableContent(aRightBlockElement,
EditorType::HTML))) {
NS_WARNING(
"Deleting invisible whitespace at end of left block element caused "
"making the right block element non-editable");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
if (MOZ_UNLIKELY(!EditorUtils::IsEditableContent(aLeftBlockElement,
EditorType::HTML))) {
NS_WARNING(
"Deleting invisible whitespace at end of left block element caused "
"making the left block element non-editable");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
}
OwningNonNull<Element> rightBlockElement = aRightBlockElement;
EditorDOMPoint afterRightBlockChild = aAtRightBlockChild.NextPoint();
{
// We can't just track rightBlockElement because it's an Element.
AutoTrackDOMPoint tracker(aHTMLEditor.RangeUpdaterRef(),
&afterRightBlockChild);
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces(
aHTMLEditor, afterRightBlockChild);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces() "
"failed");
return caretPointOrError.propagateErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
// XXX AutoTrackDOMPoint instance, tracker, hasn't been destroyed here.
// Do we really need to do update rightBlockElement here??
// XXX And afterRightBlockChild.GetContainerAs<Element>() always returns
// an element pointer so that probably here should not use
// accessors of EditorDOMPoint, should use DOM API directly instead.
if (afterRightBlockChild.GetContainerAs<Element>()) {
rightBlockElement = *afterRightBlockChild.ContainerAs<Element>();
} else if (NS_WARN_IF(
!afterRightBlockChild.GetContainerParentAs<Element>())) {
return Err(NS_ERROR_UNEXPECTED);
} else {
rightBlockElement = *afterRightBlockChild.GetContainerParentAs<Element>();
}
}
// Do br adjustment.
// XXX Why don't we delete the <br> first? If so, we can skip to track the
// MoveNodeResult at last.
const RefPtr<HTMLBRElement> invisibleBRElementAtEndOfLeftBlockElement =
WSRunScanner::GetPrecedingBRElementUnlessVisibleContentFound(
aHTMLEditor.ComputeEditingHost(),
EditorDOMPoint::AtEndOf(aLeftBlockElement),
BlockInlineCheck::UseComputedDisplayStyle);
NS_ASSERTION(
aPrecedingInvisibleBRElement == invisibleBRElementAtEndOfLeftBlockElement,
"The preceding invisible BR element computation was different");
auto moveContentResult = [&]() MOZ_NEVER_INLINE_DEBUG MOZ_CAN_RUN_SCRIPT
-> Result<MoveNodeResult, nsresult> {
// NOTE: Keep syncing with CanMergeLeftAndRightBlockElements() of
// AutoInclusiveAncestorBlockElementsJoiner.
if (NS_WARN_IF(aListElementTagName.isSome())) {
// Since 2002, here was the following comment:
// > The idea here is to take all children in rightListElement that are
// > past offset, and pull them into leftlistElement.
// However, this has never been performed because we are here only when
// neither left list nor right list is a descendant of the other but
// in such case, getting a list item in the right list node almost
// always failed since a variable for offset of
// rightListElement->GetChildAt() was not initialized. So, it might be
// a bug, but we should keep this traditional behavior for now. If you
// find when we get here, please remove this comment if we don't need to
// do it. Otherwise, please move children of the right list node to the
// end of the left list node.
// XXX Although, we do nothing here, but for keeping traditional
// behavior, we should mark as handled.
return MoveNodeResult::HandledResult(
EditorDOMPoint::AtEndOf(aLeftBlockElement));
}
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
// XXX Why do we ignore the result of AutoMoveOneLineHandler::Run()?
NS_ASSERTION(rightBlockElement == afterRightBlockChild.GetContainer(),
"The relation is not guaranteed but assumed");
#ifdef DEBUG
Result<bool, nsresult> firstLineHasContent =
HTMLEditor::AutoMoveOneLineHandler::CanMoveOrDeleteSomethingInLine(
EditorDOMPoint(rightBlockElement, afterRightBlockChild.Offset()),
aEditingHost);
#endif // #ifdef DEBUG
HTMLEditor::AutoMoveOneLineHandler lineMoverToEndOfLeftBlock(
aLeftBlockElement);
nsresult rv = lineMoverToEndOfLeftBlock.Prepare(
aHTMLEditor,
EditorDOMPoint(rightBlockElement, afterRightBlockChild.Offset()),
aEditingHost);
if (NS_FAILED(rv)) {
NS_WARNING("AutoMoveOneLineHandler::Prepare() failed");
return Err(rv);
}
MoveNodeResult moveResult = MoveNodeResult::IgnoredResult(
EditorDOMPoint::AtEndOf(aLeftBlockElement));
AutoTrackDOMMoveNodeResult trackMoveResult(aHTMLEditor.RangeUpdaterRef(),
&moveResult);
Result<MoveNodeResult, nsresult> moveFirstLineResult =
lineMoverToEndOfLeftBlock.Run(aHTMLEditor, aEditingHost);
if (MOZ_UNLIKELY(moveFirstLineResult.isErr())) {
NS_WARNING("AutoMoveOneLineHandler::Run() failed");
return moveFirstLineResult.propagateErr();
}
trackMoveResult.FlushAndStopTracking();
#ifdef DEBUG
MOZ_ASSERT(!firstLineHasContent.isErr());
if (firstLineHasContent.inspect()) {
NS_ASSERTION(moveFirstLineResult.inspect().Handled(),
"Failed to consider whether moving or not something");
} else {
NS_ASSERTION(moveFirstLineResult.inspect().Ignored(),
"Failed to consider whether moving or not something");
}
#endif // #ifdef DEBUG
moveResult |= moveFirstLineResult.unwrap();
// Now, all children of rightBlockElement were moved to leftBlockElement.
// So, afterRightBlockChild is now invalid.
afterRightBlockChild.Clear();
return std::move(moveResult);
}();
if (MOZ_UNLIKELY(moveContentResult.isErr())) {
return moveContentResult;
}
if (!invisibleBRElementAtEndOfLeftBlockElement ||
!invisibleBRElementAtEndOfLeftBlockElement->IsInComposedDoc()) {
return moveContentResult;
}
MoveNodeResult unwrappedMoveContentResult = moveContentResult.unwrap();
{
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
AutoTrackDOMMoveNodeResult trackMoveContentResult(
aHTMLEditor.RangeUpdaterRef(), &unwrappedMoveContentResult);
nsresult rv = aHTMLEditor.DeleteNodeWithTransaction(
*invisibleBRElementAtEndOfLeftBlockElement);
if (NS_FAILED(rv)) {
NS_WARNING("EditorBase::DeleteNodeWithTransaction() failed, but ignored");
unwrappedMoveContentResult.IgnoreCaretPointSuggestion();
return Err(rv);
}
}
return std::move(unwrappedMoveContentResult);
}
// static
Result<MoveNodeResult, nsresult> WhiteSpaceVisibilityKeeper::
MergeFirstLineOfRightBlockElementIntoAncestorLeftBlockElement(
HTMLEditor& aHTMLEditor, Element& aLeftBlockElement,
Element& aRightBlockElement, const EditorDOMPoint& aAtLeftBlockChild,
nsIContent& aLeftContentInBlock,
const Maybe<nsAtom*>& aListElementTagName,
const HTMLBRElement* aPrecedingInvisibleBRElement,
const Element& aEditingHost) {
MOZ_ASSERT(
EditorUtils::IsDescendantOf(aRightBlockElement, aLeftBlockElement));
MOZ_ASSERT(
&aLeftBlockElement == &aLeftContentInBlock ||
EditorUtils::IsDescendantOf(aLeftContentInBlock, aLeftBlockElement));
MOZ_ASSERT(&aLeftBlockElement == aAtLeftBlockChild.GetContainer());
// NOTE: This method may extend deletion range:
// - to delete invisible white-spaces at start of aRightBlockElement
// - to delete invisible white-spaces before aRightBlockElement
// - to delete invisible white-spaces at start of aAtLeftBlockChild.GetChild()
// - to delete invisible white-spaces before aAtLeftBlockChild.GetChild()
// - to delete invisible `<br>` element before aAtLeftBlockChild.GetChild()
{
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces(
aHTMLEditor, EditorDOMPoint(&aRightBlockElement, 0));
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces() "
"failed");
return caretPointOrError.propagateErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
}
// Check whether aRightBlockElement is a descendant of aLeftBlockElement.
if (aHTMLEditor.MayHaveMutationEventListeners()) {
EditorDOMPoint rightBlockContainingPointInLeftBlockElement;
if (aHTMLEditor.MayHaveMutationEventListeners() &&
MOZ_UNLIKELY(!EditorUtils::IsDescendantOf(
aRightBlockElement, aLeftBlockElement,
&rightBlockContainingPointInLeftBlockElement))) {
NS_WARNING(
"Deleting invisible whitespace at start of right block element "
"caused moving the right block element outside the left block "
"element");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
if (MOZ_UNLIKELY(rightBlockContainingPointInLeftBlockElement !=
aAtLeftBlockChild)) {
NS_WARNING(
"Deleting invisible whitespace at start of right block element "
"caused changing the right block element position in the left block "
"element");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
if (MOZ_UNLIKELY(!EditorUtils::IsEditableContent(aLeftBlockElement,
EditorType::HTML))) {
NS_WARNING(
"Deleting invisible whitespace at start of right block element "
"caused making the left block element non-editable");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
if (MOZ_UNLIKELY(!EditorUtils::IsEditableContent(aRightBlockElement,
EditorType::HTML))) {
NS_WARNING(
"Deleting invisible whitespace at start of right block element "
"caused making the right block element non-editable");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
}
OwningNonNull<Element> originalLeftBlockElement = aLeftBlockElement;
OwningNonNull<Element> leftBlockElement = aLeftBlockElement;
EditorDOMPoint atLeftBlockChild(aAtLeftBlockChild);
{
// We can't just track leftBlockElement because it's an Element, so track
// something else.
AutoTrackDOMPoint tracker(aHTMLEditor.RangeUpdaterRef(), &atLeftBlockChild);
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces(
aHTMLEditor, EditorDOMPoint(atLeftBlockChild.GetContainer(),
atLeftBlockChild.Offset()));
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces() "
"failed");
return caretPointOrError.propagateErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
}
if (MOZ_UNLIKELY(!atLeftBlockChild.IsSetAndValid())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces() caused "
"unexpected DOM tree");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
// XXX atLeftBlockChild.GetContainerAs<Element>() should always return
// an element pointer so that probably here should not use
// accessors of EditorDOMPoint, should use DOM API directly instead.
if (Element* nearestAncestor =
atLeftBlockChild.GetContainerOrContainerParentElement()) {
leftBlockElement = *nearestAncestor;
} else {
return Err(NS_ERROR_UNEXPECTED);
}
// Do br adjustment.
// XXX Why don't we delete the <br> first? If so, we can skip to track the
// MoveNodeResult at last.
const RefPtr<HTMLBRElement> invisibleBRElementBeforeLeftBlockElement =
WSRunScanner::GetPrecedingBRElementUnlessVisibleContentFound(
aHTMLEditor.ComputeEditingHost(), atLeftBlockChild,
BlockInlineCheck::UseComputedDisplayStyle);
NS_ASSERTION(
aPrecedingInvisibleBRElement == invisibleBRElementBeforeLeftBlockElement,
"The preceding invisible BR element computation was different");
auto moveContentResult = [&]() MOZ_NEVER_INLINE_DEBUG MOZ_CAN_RUN_SCRIPT
-> Result<MoveNodeResult, nsresult> {
// NOTE: Keep syncing with CanMergeLeftAndRightBlockElements() of
// AutoInclusiveAncestorBlockElementsJoiner.
if (aListElementTagName.isSome()) {
// XXX Why do we ignore the error from MoveChildrenWithTransaction()?
MOZ_ASSERT(originalLeftBlockElement == atLeftBlockChild.GetContainer(),
"This is not guaranteed, but assumed");
#ifdef DEBUG
Result<bool, nsresult> rightBlockHasContent =
aHTMLEditor.CanMoveChildren(aRightBlockElement, aLeftBlockElement);
#endif // #ifdef DEBUG
MoveNodeResult moveResult = MoveNodeResult::IgnoredResult(EditorDOMPoint(
atLeftBlockChild.GetContainer(), atLeftBlockChild.Offset()));
AutoTrackDOMMoveNodeResult trackMoveResult(aHTMLEditor.RangeUpdaterRef(),
&moveResult);
// TODO: Stop using HTMLEditor::PreserveWhiteSpaceStyle::No due to no
// tests.
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
Result<MoveNodeResult, nsresult> moveChildrenResult =
aHTMLEditor.MoveChildrenWithTransaction(
aRightBlockElement, moveResult.NextInsertionPointRef(),
HTMLEditor::PreserveWhiteSpaceStyle::No,
HTMLEditor::RemoveIfCommentNode::Yes);
if (MOZ_UNLIKELY(moveChildrenResult.isErr())) {
if (NS_WARN_IF(moveChildrenResult.inspectErr() ==
NS_ERROR_EDITOR_DESTROYED)) {
return moveChildrenResult;
}
NS_WARNING(
"HTMLEditor::MoveChildrenWithTransaction() failed, but ignored");
} else {
#ifdef DEBUG
MOZ_ASSERT(!rightBlockHasContent.isErr());
if (rightBlockHasContent.inspect()) {
NS_ASSERTION(moveChildrenResult.inspect().Handled(),
"Failed to consider whether moving or not children");
} else {
NS_ASSERTION(moveChildrenResult.inspect().Ignored(),
"Failed to consider whether moving or not children");
}
#endif // #ifdef DEBUG
trackMoveResult.FlushAndStopTracking();
moveResult |= moveChildrenResult.unwrap();
}
// atLeftBlockChild was moved to rightListElement. So, it's invalid now.
atLeftBlockChild.Clear();
return std::move(moveResult);
}
// Left block is a parent of right block, and the parent of the previous
// visible content. Right block is a child and contains the contents we
// want to move.
EditorDOMPoint pointToMoveFirstLineContent;
if (&aLeftContentInBlock == leftBlockElement) {
// We are working with valid HTML, aLeftContentInBlock is a block
// element, and is therefore allowed to contain aRightBlockElement. This
// is the simple case, we will simply move the content in
// aRightBlockElement out of its block.
pointToMoveFirstLineContent = atLeftBlockChild;
MOZ_ASSERT(pointToMoveFirstLineContent.GetContainer() ==
&aLeftBlockElement);
} else {
if (NS_WARN_IF(!aLeftContentInBlock.IsInComposedDoc())) {
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
// We try to work as well as possible with HTML that's already invalid.
// Although "right block" is a block, and a block must not be contained
// in inline elements, reality is that broken documents do exist. The
// DIRECT parent of "left NODE" might be an inline element. Previous
// versions of this code skipped inline parents until the first block
// parent was found (and used "left block" as the destination).
// However, in some situations this strategy moves the content to an
// moving content a sibling, next to the previous visible content.
pointToMoveFirstLineContent.SetAfter(&aLeftContentInBlock);
if (NS_WARN_IF(!pointToMoveFirstLineContent.IsInContentNode())) {
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
}
MOZ_ASSERT(pointToMoveFirstLineContent.IsSetAndValid());
// Because we don't want the moving content to receive the style of the
// previous content, we split the previous content's style.
#ifdef DEBUG
Result<bool, nsresult> firstLineHasContent =
HTMLEditor::AutoMoveOneLineHandler::CanMoveOrDeleteSomethingInLine(
EditorDOMPoint(&aRightBlockElement, 0u), aEditingHost);
#endif // #ifdef DEBUG
if (&aLeftContentInBlock != &aEditingHost) {
Result<SplitNodeResult, nsresult> splitNodeResult =
aHTMLEditor.SplitAncestorStyledInlineElementsAt(
pointToMoveFirstLineContent, EditorInlineStyle::RemoveAllStyles(),
HTMLEditor::SplitAtEdges::eDoNotCreateEmptyContainer);
if (MOZ_UNLIKELY(splitNodeResult.isErr())) {
NS_WARNING("HTMLEditor::SplitAncestorStyledInlineElementsAt() failed");
return splitNodeResult.propagateErr();
}
SplitNodeResult unwrappedSplitNodeResult = splitNodeResult.unwrap();
nsresult rv = unwrappedSplitNodeResult.SuggestCaretPointTo(
aHTMLEditor, {SuggestCaret::OnlyIfHasSuggestion,
SuggestCaret::OnlyIfTransactionsAllowedToDoIt});
if (NS_FAILED(rv)) {
NS_WARNING("SplitNodeResult::SuggestCaretPointTo() failed");
return Err(rv);
}
if (!unwrappedSplitNodeResult.DidSplit()) {
// If nothing was split, we should move the first line content to
// after the parent inline elements.
for (EditorDOMPoint parentPoint = pointToMoveFirstLineContent;
pointToMoveFirstLineContent.IsEndOfContainer() &&
pointToMoveFirstLineContent.IsInContentNode();
pointToMoveFirstLineContent = EditorDOMPoint::After(
*pointToMoveFirstLineContent.ContainerAs<nsIContent>())) {
if (pointToMoveFirstLineContent.GetContainer() ==
&aLeftBlockElement ||
NS_WARN_IF(pointToMoveFirstLineContent.GetContainer() ==
&aEditingHost)) {
break;
}
}
if (NS_WARN_IF(!pointToMoveFirstLineContent.IsInContentNode())) {
return Err(NS_ERROR_FAILURE);
}
} else if (unwrappedSplitNodeResult.Handled()) {
// If se split something, we should move the first line contents
// before the right elements.
if (nsIContent* nextContentAtSplitPoint =
unwrappedSplitNodeResult.GetNextContent()) {
pointToMoveFirstLineContent.Set(nextContentAtSplitPoint);
if (NS_WARN_IF(!pointToMoveFirstLineContent.IsInContentNode())) {
return Err(NS_ERROR_FAILURE);
}
} else {
pointToMoveFirstLineContent =
unwrappedSplitNodeResult.AtSplitPoint<EditorDOMPoint>();
if (NS_WARN_IF(!pointToMoveFirstLineContent.IsInContentNode())) {
return Err(NS_ERROR_FAILURE);
}
}
}
MOZ_DIAGNOSTIC_ASSERT(pointToMoveFirstLineContent.IsSetAndValid());
}
MoveNodeResult moveResult =
MoveNodeResult::IgnoredResult(pointToMoveFirstLineContent);
HTMLEditor::AutoMoveOneLineHandler lineMoverToPoint(
pointToMoveFirstLineContent);
nsresult rv = lineMoverToPoint.Prepare(
aHTMLEditor, EditorDOMPoint(&aRightBlockElement, 0u), aEditingHost);
if (NS_FAILED(rv)) {
NS_WARNING("AutoMoveOneLineHandler::Prepare() failed");
return Err(rv);
}
AutoTrackDOMMoveNodeResult trackMoveResult(aHTMLEditor.RangeUpdaterRef(),
&moveResult);
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
Result<MoveNodeResult, nsresult> moveFirstLineResult =
lineMoverToPoint.Run(aHTMLEditor, aEditingHost);
if (MOZ_UNLIKELY(moveFirstLineResult.isErr())) {
NS_WARNING("AutoMoveOneLineHandler::Run() failed");
return moveFirstLineResult.propagateErr();
}
#ifdef DEBUG
MOZ_ASSERT(!firstLineHasContent.isErr());
if (firstLineHasContent.inspect()) {
NS_ASSERTION(moveFirstLineResult.inspect().Handled(),
"Failed to consider whether moving or not something");
} else {
NS_ASSERTION(moveFirstLineResult.inspect().Ignored(),
"Failed to consider whether moving or not something");
}
#endif // #ifdef DEBUG
trackMoveResult.FlushAndStopTracking();
moveResult |= moveFirstLineResult.unwrap();
return std::move(moveResult);
}();
if (MOZ_UNLIKELY(moveContentResult.isErr())) {
return moveContentResult;
}
if (!invisibleBRElementBeforeLeftBlockElement ||
!invisibleBRElementBeforeLeftBlockElement->IsInComposedDoc()) {
return moveContentResult;
}
MoveNodeResult unwrappedMoveContentResult = moveContentResult.unwrap();
{
AutoTrackDOMMoveNodeResult trackMoveContentResult(
aHTMLEditor.RangeUpdaterRef(), &unwrappedMoveContentResult);
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
nsresult rv = aHTMLEditor.DeleteNodeWithTransaction(
*invisibleBRElementBeforeLeftBlockElement);
if (NS_FAILED(rv)) {
NS_WARNING("EditorBase::DeleteNodeWithTransaction() failed, but ignored");
unwrappedMoveContentResult.IgnoreCaretPointSuggestion();
return Err(rv);
}
}
return std::move(unwrappedMoveContentResult);
}
// static
Result<MoveNodeResult, nsresult> WhiteSpaceVisibilityKeeper::
MergeFirstLineOfRightBlockElementIntoLeftBlockElement(
HTMLEditor& aHTMLEditor, Element& aLeftBlockElement,
Element& aRightBlockElement, const Maybe<nsAtom*>& aListElementTagName,
const HTMLBRElement* aPrecedingInvisibleBRElement,
const Element& aEditingHost) {
MOZ_ASSERT(
!EditorUtils::IsDescendantOf(aLeftBlockElement, aRightBlockElement));
MOZ_ASSERT(
!EditorUtils::IsDescendantOf(aRightBlockElement, aLeftBlockElement));
// NOTE: This method may extend deletion range:
// - to delete invisible white-spaces at end of aLeftBlockElement
// - to delete invisible white-spaces at start of aRightBlockElement
// - to delete invisible `<br>` element at end of aLeftBlockElement
// Adjust white-space at block boundaries
{
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::
MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange(
aHTMLEditor,
EditorDOMRange(EditorDOMPoint::AtEndOf(aLeftBlockElement),
EditorDOMPoint(&aRightBlockElement, 0)),
aEditingHost);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::"
"MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange() "
"failed");
return caretPointOrError.propagateErr();
}
// Ignore caret point suggestion because there was
// AutoTransactionsConserveSelection.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
}
// Do br adjustment.
// XXX Why don't we delete the <br> first? If so, we can skip to track the
// MoveNodeResult at last.
const RefPtr<HTMLBRElement> invisibleBRElementAtEndOfLeftBlockElement =
WSRunScanner::GetPrecedingBRElementUnlessVisibleContentFound(
aHTMLEditor.ComputeEditingHost(),
EditorDOMPoint::AtEndOf(aLeftBlockElement),
BlockInlineCheck::UseComputedDisplayStyle);
NS_ASSERTION(
aPrecedingInvisibleBRElement == invisibleBRElementAtEndOfLeftBlockElement,
"The preceding invisible BR element computation was different");
auto moveContentResult = [&]() MOZ_NEVER_INLINE_DEBUG MOZ_CAN_RUN_SCRIPT
-> Result<MoveNodeResult, nsresult> {
if (aListElementTagName.isSome() ||
// TODO: We should stop merging entire blocks even if they have same
// white-space style because Chrome behave so. However, it's risky to
// change our behavior in the major cases so that we should do it in
// a bug to manage only the change.
(aLeftBlockElement.NodeInfo()->NameAtom() ==
aRightBlockElement.NodeInfo()->NameAtom() &&
EditorUtils::GetComputedWhiteSpaceStyles(aLeftBlockElement) ==
EditorUtils::GetComputedWhiteSpaceStyles(aRightBlockElement))) {
MoveNodeResult moveResult = MoveNodeResult::IgnoredResult(
EditorDOMPoint::AtEndOf(aLeftBlockElement));
AutoTrackDOMMoveNodeResult trackMoveResult(aHTMLEditor.RangeUpdaterRef(),
&moveResult);
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
// Nodes are same type. merge them.
EditorDOMPoint atFirstChildOfRightNode;
nsresult rv = aHTMLEditor.JoinNearestEditableNodesWithTransaction(
aLeftBlockElement, aRightBlockElement, &atFirstChildOfRightNode);
if (NS_WARN_IF(rv == NS_ERROR_EDITOR_DESTROYED)) {
return Err(NS_ERROR_EDITOR_DESTROYED);
}
NS_WARNING_ASSERTION(
NS_SUCCEEDED(rv),
"HTMLEditor::JoinNearestEditableNodesWithTransaction()"
" failed, but ignored");
if (aListElementTagName.isSome() && atFirstChildOfRightNode.IsSet()) {
Result<CreateElementResult, nsresult> convertListTypeResult =
aHTMLEditor.ChangeListElementType(
// XXX Shouldn't be aLeftBlockElement here?
aRightBlockElement, MOZ_KnownLive(*aListElementTagName.ref()),
*nsGkAtoms::li);
if (MOZ_UNLIKELY(convertListTypeResult.isErr())) {
if (NS_WARN_IF(convertListTypeResult.inspectErr() ==
NS_ERROR_EDITOR_DESTROYED)) {
return Err(NS_ERROR_EDITOR_DESTROYED);
}
NS_WARNING("HTMLEditor::ChangeListElementType() failed, but ignored");
} else {
// There is AutoTransactionConserveSelection above, therefore, we
// don't need to update selection here.
convertListTypeResult.inspect().IgnoreCaretPointSuggestion();
}
}
trackMoveResult.FlushAndStopTracking();
moveResult |= MoveNodeResult::HandledResult(
EditorDOMPoint::AtEndOf(aLeftBlockElement));
return std::move(moveResult);
}
#ifdef DEBUG
Result<bool, nsresult> firstLineHasContent =
HTMLEditor::AutoMoveOneLineHandler::CanMoveOrDeleteSomethingInLine(
EditorDOMPoint(&aRightBlockElement, 0u), aEditingHost);
#endif // #ifdef DEBUG
MoveNodeResult moveResult = MoveNodeResult::IgnoredResult(
EditorDOMPoint::AtEndOf(aLeftBlockElement));
// Nodes are dissimilar types.
HTMLEditor::AutoMoveOneLineHandler lineMoverToEndOfLeftBlock(
aLeftBlockElement);
nsresult rv = lineMoverToEndOfLeftBlock.Prepare(
aHTMLEditor, EditorDOMPoint(&aRightBlockElement, 0u), aEditingHost);
if (NS_FAILED(rv)) {
NS_WARNING("AutoMoveOneLineHandler::Prepare() failed");
return Err(rv);
}
AutoTrackDOMMoveNodeResult trackMoveResult(aHTMLEditor.RangeUpdaterRef(),
&moveResult);
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
Result<MoveNodeResult, nsresult> moveFirstLineResult =
lineMoverToEndOfLeftBlock.Run(aHTMLEditor, aEditingHost);
if (MOZ_UNLIKELY(moveFirstLineResult.isErr())) {
NS_WARNING("AutoMoveOneLineHandler::Run() failed");
return moveFirstLineResult.propagateErr();
}
#ifdef DEBUG
MOZ_ASSERT(!firstLineHasContent.isErr());
if (firstLineHasContent.inspect()) {
NS_ASSERTION(moveFirstLineResult.inspect().Handled(),
"Failed to consider whether moving or not something");
} else {
NS_ASSERTION(moveFirstLineResult.inspect().Ignored(),
"Failed to consider whether moving or not something");
}
#endif // #ifdef DEBUG
trackMoveResult.FlushAndStopTracking();
moveResult |= moveFirstLineResult.unwrap();
return std::move(moveResult);
}();
if (MOZ_UNLIKELY(moveContentResult.isErr())) {
return moveContentResult;
}
MoveNodeResult unwrappedMoveContentResult = moveContentResult.unwrap();
if (!invisibleBRElementAtEndOfLeftBlockElement ||
!invisibleBRElementAtEndOfLeftBlockElement->IsInComposedDoc()) {
unwrappedMoveContentResult.ForceToMarkAsHandled();
return std::move(unwrappedMoveContentResult);
}
{
AutoTrackDOMMoveNodeResult trackMoveContentResult(
aHTMLEditor.RangeUpdaterRef(), &unwrappedMoveContentResult);
AutoTransactionsConserveSelection dontChangeMySelection(aHTMLEditor);
nsresult rv = aHTMLEditor.DeleteNodeWithTransaction(
*invisibleBRElementAtEndOfLeftBlockElement);
// XXX In other top level if blocks, the result of
// DeleteNodeWithTransaction() is ignored. Why does only this result
// is respected?
if (NS_FAILED(rv)) {
NS_WARNING("EditorBase::DeleteNodeWithTransaction() failed");
unwrappedMoveContentResult.IgnoreCaretPointSuggestion();
return Err(rv);
}
}
return std::move(unwrappedMoveContentResult);
}
// static
Result<CreateElementResult, nsresult>
WhiteSpaceVisibilityKeeper::InsertBRElement(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPointToInsert,
const Element& aEditingHost) {
if (MOZ_UNLIKELY(NS_WARN_IF(!aPointToInsert.IsSet()))) {
return Err(NS_ERROR_INVALID_ARG);
}
// MOOSE: for now, we always assume non-PRE formatting. Fix this later.
// meanwhile, the pre case is handled in HandleInsertText() in
// HTMLEditSubActionHandler.cpp
TextFragmentData textFragmentDataAtInsertionPoint(
aPointToInsert, &aEditingHost, BlockInlineCheck::UseComputedDisplayStyle);
if (MOZ_UNLIKELY(
NS_WARN_IF(!textFragmentDataAtInsertionPoint.IsInitialized()))) {
return Err(NS_ERROR_FAILURE);
}
EditorDOMRange invisibleLeadingWhiteSpaceRangeOfNewLine =
textFragmentDataAtInsertionPoint
.GetNewInvisibleLeadingWhiteSpaceRangeIfSplittingAt(aPointToInsert);
EditorDOMRange invisibleTrailingWhiteSpaceRangeOfCurrentLine =
textFragmentDataAtInsertionPoint
.GetNewInvisibleTrailingWhiteSpaceRangeIfSplittingAt(aPointToInsert);
const Maybe<const VisibleWhiteSpacesData> visibleWhiteSpaces =
!invisibleLeadingWhiteSpaceRangeOfNewLine.IsPositioned() ||
!invisibleTrailingWhiteSpaceRangeOfCurrentLine.IsPositioned()
? Some(textFragmentDataAtInsertionPoint.VisibleWhiteSpacesDataRef())
: Nothing();
const PointPosition pointPositionWithVisibleWhiteSpaces =
visibleWhiteSpaces.isSome() && visibleWhiteSpaces.ref().IsInitialized()
? visibleWhiteSpaces.ref().ComparePoint(aPointToInsert)
: PointPosition::NotInSameDOMTree;
EditorDOMPoint pointToInsert(aPointToInsert);
EditorDOMPoint atNBSPReplaceableWithSP;
if (!invisibleLeadingWhiteSpaceRangeOfNewLine.IsPositioned() &&
(pointPositionWithVisibleWhiteSpaces == PointPosition::MiddleOfFragment ||
pointPositionWithVisibleWhiteSpaces == PointPosition::EndOfFragment)) {
atNBSPReplaceableWithSP =
textFragmentDataAtInsertionPoint
.GetPreviousNBSPPointIfNeedToReplaceWithASCIIWhiteSpace(
pointToInsert)
.To<EditorDOMPoint>();
}
{
if (invisibleTrailingWhiteSpaceRangeOfCurrentLine.IsPositioned()) {
if (!invisibleTrailingWhiteSpaceRangeOfCurrentLine.Collapsed()) {
// XXX Why don't we remove all of the invisible white-spaces?
MOZ_ASSERT(invisibleTrailingWhiteSpaceRangeOfCurrentLine.StartRef() ==
pointToInsert);
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
AutoTrackDOMPoint trackEndOfLineNBSP(aHTMLEditor.RangeUpdaterRef(),
&atNBSPReplaceableWithSP);
AutoTrackDOMRange trackLeadingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleLeadingWhiteSpaceRangeOfNewLine);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
invisibleTrailingWhiteSpaceRangeOfCurrentLine.StartRef(),
invisibleTrailingWhiteSpaceRangeOfCurrentLine.EndRef(),
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.propagateErr();
}
nsresult rv = caretPointOrError.unwrap().SuggestCaretPointTo(
aHTMLEditor, {SuggestCaret::OnlyIfHasSuggestion,
SuggestCaret::OnlyIfTransactionsAllowedToDoIt,
SuggestCaret::AndIgnoreTrivialError});
if (NS_FAILED(rv)) {
NS_WARNING("CaretPoint::SuggestCaretPointTo() failed");
return Err(rv);
}
NS_WARNING_ASSERTION(
rv != NS_SUCCESS_EDITOR_BUT_IGNORED_TRIVIAL_ERROR,
"CaretPoint::SuggestCaretPointTo() failed, but ignored");
// Don't refer the following variables anymore unless tracking the
// change.
invisibleTrailingWhiteSpaceRangeOfCurrentLine.Clear();
}
}
// If new line will start with visible white-spaces, it needs to be start
// with an NBSP.
else if (pointPositionWithVisibleWhiteSpaces ==
PointPosition::StartOfFragment ||
pointPositionWithVisibleWhiteSpaces ==
PointPosition::MiddleOfFragment) {
auto atNextCharOfInsertionPoint =
textFragmentDataAtInsertionPoint
.GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(
pointToInsert);
if (atNextCharOfInsertionPoint.IsSet() &&
!atNextCharOfInsertionPoint.IsEndOfContainer() &&
atNextCharOfInsertionPoint.IsCharCollapsibleASCIISpace()) {
const EditorDOMPointInText atPreviousCharOfNextCharOfInsertionPoint =
textFragmentDataAtInsertionPoint.GetPreviousEditableCharPoint(
atNextCharOfInsertionPoint);
if (!atPreviousCharOfNextCharOfInsertionPoint.IsSet() ||
atPreviousCharOfNextCharOfInsertionPoint.IsEndOfContainer() ||
!atPreviousCharOfNextCharOfInsertionPoint.IsCharASCIISpace()) {
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
AutoTrackDOMPoint trackEndOfLineNBSP(aHTMLEditor.RangeUpdaterRef(),
&atNBSPReplaceableWithSP);
AutoTrackDOMRange trackLeadingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleLeadingWhiteSpaceRangeOfNewLine);
// We are at start of non-nbsps. Convert to a single nbsp.
const EditorDOMPointInText endOfCollapsibleASCIIWhiteSpaces =
textFragmentDataAtInsertionPoint
.GetEndOfCollapsibleASCIIWhiteSpaces(
atNextCharOfInsertionPoint, nsIEditor::eNone);
nsresult rv =
WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes(
aHTMLEditor,
EditorDOMRangeInTexts(atNextCharOfInsertionPoint,
endOfCollapsibleASCIIWhiteSpaces),
nsDependentSubstring(&HTMLEditUtils::kNBSP, 1));
if (MOZ_UNLIKELY(NS_FAILED(rv))) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::"
"ReplaceTextAndRemoveEmptyTextNodes() failed");
return Err(rv);
}
// Don't refer the following variables anymore unless tracking the
// change.
invisibleTrailingWhiteSpaceRangeOfCurrentLine.Clear();
}
}
}
if (invisibleLeadingWhiteSpaceRangeOfNewLine.IsPositioned()) {
if (!invisibleLeadingWhiteSpaceRangeOfNewLine.Collapsed()) {
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
// XXX Why don't we remove all of the invisible white-spaces?
MOZ_ASSERT(invisibleLeadingWhiteSpaceRangeOfNewLine.EndRef() ==
pointToInsert);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
invisibleLeadingWhiteSpaceRangeOfNewLine.StartRef(),
invisibleLeadingWhiteSpaceRangeOfNewLine.EndRef(),
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.propagateErr();
}
nsresult rv = caretPointOrError.unwrap().SuggestCaretPointTo(
aHTMLEditor, {SuggestCaret::OnlyIfHasSuggestion,
SuggestCaret::OnlyIfTransactionsAllowedToDoIt,
SuggestCaret::AndIgnoreTrivialError});
if (NS_FAILED(rv)) {
NS_WARNING("CaretPoint::SuggestCaretPointTo() failed");
return Err(rv);
}
NS_WARNING_ASSERTION(
rv != NS_SUCCESS_EDITOR_BUT_IGNORED_TRIVIAL_ERROR,
"CaretPoint::SuggestCaretPointTo() failed, but ignored");
// Don't refer the following variables anymore unless tracking the
// change.
atNBSPReplaceableWithSP.Clear();
invisibleLeadingWhiteSpaceRangeOfNewLine.Clear();
invisibleTrailingWhiteSpaceRangeOfCurrentLine.Clear();
}
}
// If the `<br>` element is put immediately after an NBSP, it should be
// replaced with an ASCII white-space.
else if (atNBSPReplaceableWithSP.IsInTextNode()) {
const EditorDOMPointInText atNBSPReplacedWithASCIIWhiteSpace =
atNBSPReplaceableWithSP.AsInText();
if (!atNBSPReplacedWithASCIIWhiteSpace.IsEndOfContainer() &&
atNBSPReplacedWithASCIIWhiteSpace.IsCharNBSP()) {
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
Result<InsertTextResult, nsresult> replaceTextResult =
aHTMLEditor.ReplaceTextWithTransaction(
MOZ_KnownLive(
*atNBSPReplacedWithASCIIWhiteSpace.ContainerAs<Text>()),
atNBSPReplacedWithASCIIWhiteSpace.Offset(), 1, u" "_ns);
if (MOZ_UNLIKELY(replaceTextResult.isErr())) {
NS_WARNING("HTMLEditor::ReplaceTextWithTransaction() failed failed");
return replaceTextResult.propagateErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
replaceTextResult.unwrap().IgnoreCaretPointSuggestion();
// Don't refer the following variables anymore unless tracking the
// change.
atNBSPReplaceableWithSP.Clear();
invisibleLeadingWhiteSpaceRangeOfNewLine.Clear();
invisibleTrailingWhiteSpaceRangeOfCurrentLine.Clear();
}
}
}
Result<CreateElementResult, nsresult> insertBRElementResult =
aHTMLEditor.InsertBRElement(WithTransaction::Yes, pointToInsert);
NS_WARNING_ASSERTION(
insertBRElementResult.isOk(),
"HTMLEditor::InsertBRElement(WithTransaction::Yes, eNone) failed");
return insertBRElementResult;
}
// static
Result<InsertTextResult, nsresult> WhiteSpaceVisibilityKeeper::ReplaceText(
HTMLEditor& aHTMLEditor, const nsAString& aStringToInsert,
const EditorDOMRange& aRangeToBeReplaced, InsertTextTo aInsertTextTo,
const Element& aEditingHost) {
// MOOSE: for now, we always assume non-PRE formatting. Fix this later.
// meanwhile, the pre case is handled in HandleInsertText() in
// HTMLEditSubActionHandler.cpp
// MOOSE: for now, just getting the ws logic straight. This implementation
// is very slow. Will need to replace edit rules impl with a more efficient
// text sink here that does the minimal amount of searching/replacing/copying
if (aStringToInsert.IsEmpty()) {
MOZ_ASSERT(aRangeToBeReplaced.Collapsed());
return InsertTextResult();
}
TextFragmentData textFragmentDataAtStart(
aRangeToBeReplaced.StartRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (MOZ_UNLIKELY(NS_WARN_IF(!textFragmentDataAtStart.IsInitialized()))) {
return Err(NS_ERROR_FAILURE);
}
const bool isInsertionPointEqualsOrIsBeforeStartOfText =
aRangeToBeReplaced.StartRef().EqualsOrIsBefore(
textFragmentDataAtStart.StartRef());
TextFragmentData textFragmentDataAtEnd =
aRangeToBeReplaced.Collapsed()
? textFragmentDataAtStart
: TextFragmentData(aRangeToBeReplaced.EndRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (MOZ_UNLIKELY(NS_WARN_IF(!textFragmentDataAtEnd.IsInitialized()))) {
return Err(NS_ERROR_FAILURE);
}
const bool isInsertionPointEqualsOrAfterEndOfText =
textFragmentDataAtEnd.EndRef().EqualsOrIsBefore(
aRangeToBeReplaced.EndRef());
EditorDOMRange invisibleLeadingWhiteSpaceRangeAtStart =
textFragmentDataAtStart
.GetNewInvisibleLeadingWhiteSpaceRangeIfSplittingAt(
aRangeToBeReplaced.StartRef());
const bool isInvisibleLeadingWhiteSpaceRangeAtStartPositioned =
invisibleLeadingWhiteSpaceRangeAtStart.IsPositioned();
EditorDOMRange invisibleTrailingWhiteSpaceRangeAtEnd =
textFragmentDataAtEnd.GetNewInvisibleTrailingWhiteSpaceRangeIfSplittingAt(
aRangeToBeReplaced.EndRef());
const bool isInvisibleTrailingWhiteSpaceRangeAtEndPositioned =
invisibleTrailingWhiteSpaceRangeAtEnd.IsPositioned();
const Maybe<const VisibleWhiteSpacesData> visibleWhiteSpacesAtStart =
!isInvisibleLeadingWhiteSpaceRangeAtStartPositioned
? Some(textFragmentDataAtStart.VisibleWhiteSpacesDataRef())
: Nothing();
const PointPosition pointPositionWithVisibleWhiteSpacesAtStart =
visibleWhiteSpacesAtStart.isSome() &&
visibleWhiteSpacesAtStart.ref().IsInitialized()
? visibleWhiteSpacesAtStart.ref().ComparePoint(
aRangeToBeReplaced.StartRef())
: PointPosition::NotInSameDOMTree;
const Maybe<const VisibleWhiteSpacesData> visibleWhiteSpacesAtEnd =
!isInvisibleTrailingWhiteSpaceRangeAtEndPositioned
? Some(textFragmentDataAtEnd.VisibleWhiteSpacesDataRef())
: Nothing();
const PointPosition pointPositionWithVisibleWhiteSpacesAtEnd =
visibleWhiteSpacesAtEnd.isSome() &&
visibleWhiteSpacesAtEnd.ref().IsInitialized()
? visibleWhiteSpacesAtEnd.ref().ComparePoint(
aRangeToBeReplaced.EndRef())
: PointPosition::NotInSameDOMTree;
EditorDOMPoint pointToPutCaret;
EditorDOMPoint pointToInsert(aRangeToBeReplaced.StartRef());
EditorDOMPoint atNBSPReplaceableWithSP;
if (!invisibleTrailingWhiteSpaceRangeAtEnd.IsPositioned() &&
(pointPositionWithVisibleWhiteSpacesAtStart ==
PointPosition::MiddleOfFragment ||
pointPositionWithVisibleWhiteSpacesAtStart ==
PointPosition::EndOfFragment)) {
atNBSPReplaceableWithSP =
textFragmentDataAtStart
.GetPreviousNBSPPointIfNeedToReplaceWithASCIIWhiteSpace(
pointToInsert)
.To<EditorDOMPoint>();
}
nsAutoString theString(aStringToInsert);
{
if (invisibleTrailingWhiteSpaceRangeAtEnd.IsPositioned()) {
if (!invisibleTrailingWhiteSpaceRangeAtEnd.Collapsed()) {
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
AutoTrackDOMPoint trackPrecedingNBSP(aHTMLEditor.RangeUpdaterRef(),
&atNBSPReplaceableWithSP);
AutoTrackDOMRange trackInvisibleLeadingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleLeadingWhiteSpaceRangeAtStart);
AutoTrackDOMRange trackInvisibleTrailingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleTrailingWhiteSpaceRangeAtEnd);
// XXX Why don't we remove all of the invisible white-spaces?
MOZ_ASSERT(invisibleTrailingWhiteSpaceRangeAtEnd.StartRef() ==
pointToInsert);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
invisibleTrailingWhiteSpaceRangeAtEnd.StartRef(),
invisibleTrailingWhiteSpaceRangeAtEnd.EndRef(),
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.propagateErr();
}
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
}
// Replace an NBSP at inclusive next character of replacing range to an
// ASCII white-space if inserting into a visible white-space sequence.
// XXX With modifying the inserting string later, this creates a line break
// opportunity after the inserting string, but this causes
// inconsistent result with inserting order. E.g., type white-space
// n times with various order.
else if (pointPositionWithVisibleWhiteSpacesAtEnd ==
PointPosition::StartOfFragment ||
pointPositionWithVisibleWhiteSpacesAtEnd ==
PointPosition::MiddleOfFragment) {
EditorDOMPointInText atNBSPReplacedWithASCIIWhiteSpace =
textFragmentDataAtEnd
.GetInclusiveNextNBSPPointIfNeedToReplaceWithASCIIWhiteSpace(
aRangeToBeReplaced.EndRef());
if (atNBSPReplacedWithASCIIWhiteSpace.IsSet()) {
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
AutoTrackDOMPoint trackPrecedingNBSP(aHTMLEditor.RangeUpdaterRef(),
&atNBSPReplaceableWithSP);
AutoTrackDOMRange trackInvisibleLeadingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleLeadingWhiteSpaceRangeAtStart);
AutoTrackDOMRange trackInvisibleTrailingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleTrailingWhiteSpaceRangeAtEnd);
Result<InsertTextResult, nsresult> replaceTextResult =
aHTMLEditor.ReplaceTextWithTransaction(
MOZ_KnownLive(
*atNBSPReplacedWithASCIIWhiteSpace.ContainerAs<Text>()),
atNBSPReplacedWithASCIIWhiteSpace.Offset(), 1, u" "_ns);
if (MOZ_UNLIKELY(replaceTextResult.isErr())) {
NS_WARNING("HTMLEditor::ReplaceTextWithTransaction() failed");
return replaceTextResult.propagateErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
replaceTextResult.unwrap().IgnoreCaretPointSuggestion();
}
}
if (invisibleLeadingWhiteSpaceRangeAtStart.IsPositioned()) {
if (!invisibleLeadingWhiteSpaceRangeAtStart.Collapsed()) {
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
AutoTrackDOMRange trackInvisibleTrailingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleTrailingWhiteSpaceRangeAtEnd);
// XXX Why don't we remove all of the invisible white-spaces?
MOZ_ASSERT(invisibleLeadingWhiteSpaceRangeAtStart.EndRef() ==
pointToInsert);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
invisibleLeadingWhiteSpaceRangeAtStart.StartRef(),
invisibleLeadingWhiteSpaceRangeAtStart.EndRef(),
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.propagateErr();
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
// Don't refer the following variables anymore unless tracking the
// change.
atNBSPReplaceableWithSP.Clear();
invisibleLeadingWhiteSpaceRangeAtStart.Clear();
}
}
// Replace an NBSP at previous character of insertion point to an ASCII
// white-space if inserting into a visible white-space sequence.
// XXX With modifying the inserting string later, this creates a line break
// opportunity before the inserting string, but this causes
// inconsistent result with inserting order. E.g., type white-space
// n times with various order.
else if (atNBSPReplaceableWithSP.IsInTextNode()) {
EditorDOMPointInText atNBSPReplacedWithASCIIWhiteSpace =
atNBSPReplaceableWithSP.AsInText();
if (!atNBSPReplacedWithASCIIWhiteSpace.IsEndOfContainer() &&
atNBSPReplacedWithASCIIWhiteSpace.IsCharNBSP()) {
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
AutoTrackDOMPoint trackPointToInsert(aHTMLEditor.RangeUpdaterRef(),
&pointToInsert);
AutoTrackDOMRange trackInvisibleTrailingWhiteSpaceRange(
aHTMLEditor.RangeUpdaterRef(),
&invisibleTrailingWhiteSpaceRangeAtEnd);
Result<InsertTextResult, nsresult> replaceTextResult =
aHTMLEditor.ReplaceTextWithTransaction(
MOZ_KnownLive(
*atNBSPReplacedWithASCIIWhiteSpace.ContainerAs<Text>()),
atNBSPReplacedWithASCIIWhiteSpace.Offset(), 1, u" "_ns);
if (MOZ_UNLIKELY(replaceTextResult.isErr())) {
NS_WARNING("HTMLEditor::ReplaceTextWithTransaction() failed failed");
return replaceTextResult.propagateErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
replaceTextResult.unwrap().IgnoreCaretPointSuggestion();
// Don't refer the following variables anymore unless tracking the
// change.
atNBSPReplaceableWithSP.Clear();
invisibleLeadingWhiteSpaceRangeAtStart.Clear();
}
}
}
// If white-space and/or linefeed characters are collapsible, and inserting
// string starts and/or ends with a collapsible characters, we need to
// replace them with NBSP for making sure the collapsible characters visible.
// FYI: There is no case only linefeeds are collapsible. So, we need to
// do the things only when white-spaces are collapsible.
MOZ_DIAGNOSTIC_ASSERT(!theString.IsEmpty());
if (NS_WARN_IF(!pointToInsert.IsInContentNode()) ||
!EditorUtils::IsWhiteSpacePreformatted(
*pointToInsert.ContainerAs<nsIContent>())) {
const bool isNewLineCollapsible =
!pointToInsert.IsInContentNode() ||
!EditorUtils::IsNewLinePreformatted(
*pointToInsert.ContainerAs<nsIContent>());
auto IsCollapsibleChar = [&isNewLineCollapsible](char16_t aChar) -> bool {
return nsCRT::IsAsciiSpace(aChar) &&
(isNewLineCollapsible || aChar != HTMLEditUtils::kNewLine);
};
if (IsCollapsibleChar(theString[0])) {
// If inserting string will follow some invisible leading white-spaces,
// the string needs to start with an NBSP.
if (isInvisibleLeadingWhiteSpaceRangeAtStartPositioned) {
theString.SetCharAt(HTMLEditUtils::kNBSP, 0);
}
// If inserting around visible white-spaces, check whether the previous
// character of insertion point is an NBSP or an ASCII white-space.
else if (pointPositionWithVisibleWhiteSpacesAtStart ==
PointPosition::MiddleOfFragment ||
pointPositionWithVisibleWhiteSpacesAtStart ==
PointPosition::EndOfFragment) {
const auto atPreviousChar =
textFragmentDataAtStart
.GetPreviousEditableCharPoint<EditorRawDOMPointInText>(
pointToInsert);
if (atPreviousChar.IsSet() && !atPreviousChar.IsEndOfContainer() &&
atPreviousChar.IsCharASCIISpace()) {
theString.SetCharAt(HTMLEditUtils::kNBSP, 0);
}
}
// If the insertion point is (was) before the start of text and it's
// immediately after a hard line break, the first ASCII white-space should
// be replaced with an NBSP for making it visible.
else if ((textFragmentDataAtStart.StartsFromHardLineBreak() ||
textFragmentDataAtStart
.StartsFromInlineEditingHostBoundary()) &&
isInsertionPointEqualsOrIsBeforeStartOfText) {
theString.SetCharAt(HTMLEditUtils::kNBSP, 0);
}
}
// Then the tail. Note that it may be the first character.
const uint32_t lastCharIndex = theString.Length() - 1;
if (IsCollapsibleChar(theString[lastCharIndex])) {
// If inserting string will be followed by some invisible trailing
// white-spaces, the string needs to end with an NBSP.
if (isInvisibleTrailingWhiteSpaceRangeAtEndPositioned) {
theString.SetCharAt(HTMLEditUtils::kNBSP, lastCharIndex);
}
// If inserting around visible white-spaces, check whether the inclusive
// next character of end of replaced range is an NBSP or an ASCII
// white-space.
if (pointPositionWithVisibleWhiteSpacesAtEnd ==
PointPosition::StartOfFragment ||
pointPositionWithVisibleWhiteSpacesAtEnd ==
PointPosition::MiddleOfFragment) {
const auto atNextChar =
textFragmentDataAtEnd
.GetInclusiveNextEditableCharPoint<EditorRawDOMPointInText>(
pointToInsert);
if (atNextChar.IsSet() && !atNextChar.IsEndOfContainer() &&
atNextChar.IsCharASCIISpace()) {
theString.SetCharAt(HTMLEditUtils::kNBSP, lastCharIndex);
}
}
// If the end of replacing range is (was) after the end of text and it's
// immediately before block boundary, the last ASCII white-space should
// be replaced with an NBSP for making it visible.
else if ((textFragmentDataAtEnd.EndsByBlockBoundary() ||
textFragmentDataAtEnd.EndsByInlineEditingHostBoundary()) &&
isInsertionPointEqualsOrAfterEndOfText) {
theString.SetCharAt(HTMLEditUtils::kNBSP, lastCharIndex);
}
}
// Next, scan string for adjacent ws and convert to nbsp/space combos
// MOOSE: don't need to convert tabs here since that is done by
// WillInsertText() before we are called. Eventually, all that logic will
// be pushed down into here and made more efficient.
enum class PreviousChar {
NonCollapsibleChar,
CollapsibleChar,
PreformattedNewLine,
};
PreviousChar previousChar = PreviousChar::NonCollapsibleChar;
for (uint32_t i = 0; i <= lastCharIndex; i++) {
if (IsCollapsibleChar(theString[i])) {
// If current char is collapsible and 2nd or latter character of
// collapsible characters, we need to make the previous character an
// NBSP for avoiding current character to be collapsed to it.
if (previousChar == PreviousChar::CollapsibleChar) {
MOZ_ASSERT(i > 0);
theString.SetCharAt(HTMLEditUtils::kNBSP, i - 1);
// Keep previousChar as PreviousChar::CollapsibleChar.
continue;
}
// If current character is a collapsbile white-space and the previous
// character is a preformatted linefeed, we need to replace the current
// character with an NBSP for avoiding collapsed with the previous
// linefeed.
if (previousChar == PreviousChar::PreformattedNewLine) {
MOZ_ASSERT(i > 0);
theString.SetCharAt(HTMLEditUtils::kNBSP, i);
previousChar = PreviousChar::NonCollapsibleChar;
continue;
}
previousChar = PreviousChar::CollapsibleChar;
continue;
}
if (theString[i] != HTMLEditUtils::kNewLine) {
previousChar = PreviousChar::NonCollapsibleChar;
continue;
}
// If current character is a preformatted linefeed and the previous
// character is collapbile white-space, the previous character will be
// collapsed into current linefeed. Therefore, we need to replace the
// previous character with an NBSP.
MOZ_ASSERT(!isNewLineCollapsible);
if (previousChar == PreviousChar::CollapsibleChar) {
MOZ_ASSERT(i > 0);
theString.SetCharAt(HTMLEditUtils::kNBSP, i - 1);
}
previousChar = PreviousChar::PreformattedNewLine;
}
}
// XXX If the point is not editable, InsertTextWithTransaction() returns
// error, but we keep handling it. But I think that it wastes the
// runtime cost. So, perhaps, we should return error code which couldn't
// modify it and make each caller of this method decide whether it should
// keep or stop handling the edit action.
if (MOZ_UNLIKELY(!aHTMLEditor.GetDocument())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::ReplaceText() lost proper document");
return Err(NS_ERROR_UNEXPECTED);
}
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
OwningNonNull<Document> document = *aHTMLEditor.GetDocument();
Result<InsertTextResult, nsresult> insertTextResult =
aHTMLEditor.InsertTextWithTransaction(document, theString, pointToInsert,
aInsertTextTo);
if (MOZ_UNLIKELY(insertTextResult.isErr())) {
NS_WARNING("HTMLEditor::InsertTextWithTransaction() failed");
return insertTextResult.propagateErr();
}
trackPointToPutCaret.FlushAndStopTracking();
if (insertTextResult.inspect().HasCaretPointSuggestion()) {
return insertTextResult;
}
return InsertTextResult(insertTextResult.unwrap(),
std::move(pointToPutCaret));
}
// static
Result<CaretPoint, nsresult>
WhiteSpaceVisibilityKeeper::DeletePreviousWhiteSpace(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPoint,
const Element& aEditingHost) {
TextFragmentData textFragmentDataAtDeletion(
aPoint, &aEditingHost, BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtDeletion.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
const EditorDOMPointInText atPreviousCharOfStart =
textFragmentDataAtDeletion.GetPreviousEditableCharPoint(aPoint);
if (!atPreviousCharOfStart.IsSet() ||
atPreviousCharOfStart.IsEndOfContainer()) {
return CaretPoint(EditorDOMPoint());
}
// If the char is a collapsible white-space or a non-collapsible new line
// but it can collapse adjacent white-spaces, we need to extend the range
// to delete all invisible white-spaces.
if (atPreviousCharOfStart.IsCharCollapsibleASCIISpace() ||
atPreviousCharOfStart
.IsCharPreformattedNewLineCollapsedWithWhiteSpaces()) {
auto startToDelete =
textFragmentDataAtDeletion
.GetFirstASCIIWhiteSpacePointCollapsedTo<EditorDOMPoint>(
atPreviousCharOfStart, nsIEditor::ePrevious);
auto endToDelete = textFragmentDataAtDeletion
.GetEndOfCollapsibleASCIIWhiteSpaces<EditorDOMPoint>(
atPreviousCharOfStart, nsIEditor::ePrevious);
EditorDOMPoint pointToPutCaret;
{
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints(
aHTMLEditor, &startToDelete, &endToDelete, aEditingHost);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints() "
"failed");
return caretPointOrError;
}
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
{
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
startToDelete, endToDelete,
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
return CaretPoint(std::move(pointToPutCaret));
}
if (atPreviousCharOfStart.IsCharCollapsibleNBSP()) {
auto startToDelete = atPreviousCharOfStart.To<EditorDOMPoint>();
auto endToDelete = startToDelete.NextPoint<EditorDOMPoint>();
EditorDOMPoint pointToPutCaret;
{
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints(
aHTMLEditor, &startToDelete, &endToDelete, aEditingHost);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints() "
"failed");
return caretPointOrError;
}
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
{
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
startToDelete, endToDelete,
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
return CaretPoint(std::move(pointToPutCaret));
}
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
atPreviousCharOfStart, atPreviousCharOfStart.NextPoint(),
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries);
NS_WARNING_ASSERTION(
caretPointOrError.isOk(),
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
// static
Result<CaretPoint, nsresult>
WhiteSpaceVisibilityKeeper::DeleteInclusiveNextWhiteSpace(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPoint,
const Element& aEditingHost) {
TextFragmentData textFragmentDataAtDeletion(
aPoint, &aEditingHost, BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtDeletion.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
auto atNextCharOfStart =
textFragmentDataAtDeletion
.GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(aPoint);
if (!atNextCharOfStart.IsSet() || atNextCharOfStart.IsEndOfContainer()) {
return CaretPoint(EditorDOMPoint());
}
// If the char is a collapsible white-space or a non-collapsible new line
// but it can collapse adjacent white-spaces, we need to extend the range
// to delete all invisible white-spaces.
if (atNextCharOfStart.IsCharCollapsibleASCIISpace() ||
atNextCharOfStart.IsCharPreformattedNewLineCollapsedWithWhiteSpaces()) {
auto startToDelete =
textFragmentDataAtDeletion
.GetFirstASCIIWhiteSpacePointCollapsedTo<EditorDOMPoint>(
atNextCharOfStart, nsIEditor::eNext);
auto endToDelete = textFragmentDataAtDeletion
.GetEndOfCollapsibleASCIIWhiteSpaces<EditorDOMPoint>(
atNextCharOfStart, nsIEditor::eNext);
EditorDOMPoint pointToPutCaret;
{
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints(
aHTMLEditor, &startToDelete, &endToDelete, aEditingHost);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints() "
"failed");
return caretPointOrError;
}
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
{
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
startToDelete, endToDelete,
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
return CaretPoint(std::move(pointToPutCaret));
}
if (atNextCharOfStart.IsCharCollapsibleNBSP()) {
auto startToDelete = atNextCharOfStart.To<EditorDOMPoint>();
auto endToDelete = startToDelete.NextPoint<EditorDOMPoint>();
EditorDOMPoint pointToPutCaret;
{
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints(
aHTMLEditor, &startToDelete, &endToDelete, aEditingHost);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::PrepareToDeleteRangeAndTrackPoints() "
"failed");
return caretPointOrError;
}
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
{
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
startToDelete, endToDelete,
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
return CaretPoint(std::move(pointToPutCaret));
}
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
atNextCharOfStart, atNextCharOfStart.NextPoint(),
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries);
NS_WARNING_ASSERTION(
caretPointOrError.isOk(),
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
// static
Result<CaretPoint, nsresult>
WhiteSpaceVisibilityKeeper::DeleteContentNodeAndJoinTextNodesAroundIt(
HTMLEditor& aHTMLEditor, nsIContent& aContentToDelete,
const EditorDOMPoint& aCaretPoint, const Element& aEditingHost) {
EditorDOMPoint atContent(&aContentToDelete);
if (!atContent.IsSet()) {
NS_WARNING("Deleting content node was an orphan node");
return Err(NS_ERROR_FAILURE);
}
if (!HTMLEditUtils::IsRemovableNode(aContentToDelete)) {
NS_WARNING("Deleting content node wasn't removable");
return Err(NS_ERROR_FAILURE);
}
EditorDOMPoint pointToPutCaret(aCaretPoint);
{
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::
MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange(
aHTMLEditor, EditorDOMRange(atContent, atContent.NextPoint()),
aEditingHost);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::"
"MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange() "
"failed");
return caretPointOrError;
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
nsCOMPtr<nsIContent> previousEditableSibling =
HTMLEditUtils::GetPreviousSibling(
aContentToDelete, {WalkTreeOption::IgnoreNonEditableNode});
// Delete the node, and join like nodes if appropriate
{
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
nsresult rv = aHTMLEditor.DeleteNodeWithTransaction(aContentToDelete);
if (NS_FAILED(rv)) {
NS_WARNING("EditorBase::DeleteNodeWithTransaction() failed");
return Err(rv);
}
}
// Are they both text nodes? If so, join them!
// XXX This may cause odd behavior if there is non-editable nodes
// around the atomic content.
if (!aCaretPoint.IsInTextNode() || !previousEditableSibling ||
!previousEditableSibling->IsText()) {
return CaretPoint(std::move(pointToPutCaret));
}
nsIContent* nextEditableSibling = HTMLEditUtils::GetNextSibling(
*previousEditableSibling, {WalkTreeOption::IgnoreNonEditableNode});
if (aCaretPoint.GetContainer() != nextEditableSibling) {
return CaretPoint(std::move(pointToPutCaret));
}
nsresult rv = aHTMLEditor.JoinNearestEditableNodesWithTransaction(
*previousEditableSibling, MOZ_KnownLive(*aCaretPoint.ContainerAs<Text>()),
&pointToPutCaret);
if (NS_FAILED(rv)) {
NS_WARNING("HTMLEditor::JoinNearestEditableNodesWithTransaction() failed");
return Err(rv);
}
if (!pointToPutCaret.IsSet()) {
NS_WARNING(
"HTMLEditor::JoinNearestEditableNodesWithTransaction() didn't return "
"right node position");
return Err(NS_ERROR_FAILURE);
}
return CaretPoint(std::move(pointToPutCaret));
}
template <typename PT, typename CT>
WSScanResult WSRunScanner::ScanPreviousVisibleNodeOrBlockBoundaryFrom(
const EditorDOMPointBase<PT, CT>& aPoint) const {
MOZ_ASSERT(aPoint.IsSet());
MOZ_ASSERT(aPoint.IsInComposedDoc());
if (MOZ_UNLIKELY(!aPoint.IsSet())) {
return WSScanResult::Error();
}
// We may not be able to check editable state in uncomposed tree as expected.
// For example, only some descendants in an editing host is temporarily
// removed from the tree, they are not editable unless nested contenteditable
// attribute is set to "true".
if (MOZ_UNLIKELY(!aPoint.IsInComposedDoc())) {
return WSScanResult(WSScanResult::ScanDirection::Backward,
*aPoint.template ContainerAs<nsIContent>(),
WSType::InUncomposedDoc, mBlockInlineCheck);
}
if (!TextFragmentDataAtStartRef().IsInitialized()) {
return WSScanResult::Error();
}
// If the range has visible text and start of the visible text is before
// aPoint, return previous character in the text.
const VisibleWhiteSpacesData& visibleWhiteSpaces =
TextFragmentDataAtStartRef().VisibleWhiteSpacesDataRef();
if (visibleWhiteSpaces.IsInitialized() &&
visibleWhiteSpaces.StartRef().IsBefore(aPoint)) {
// If the visible things are not editable, we shouldn't scan "editable"
// things now. Whether keep scanning editable things or not should be
// considered by the caller.
if (aPoint.GetChild() && !aPoint.GetChild()->IsEditable()) {
return WSScanResult(WSScanResult::ScanDirection::Backward,
*aPoint.GetChild(), WSType::SpecialContent,
mBlockInlineCheck);
}
const auto atPreviousChar =
GetPreviousEditableCharPoint<EditorRawDOMPointInText>(aPoint);
// When it's a non-empty text node, return it.
if (atPreviousChar.IsSet() && !atPreviousChar.IsContainerEmpty()) {
MOZ_ASSERT(!atPreviousChar.IsEndOfContainer());
return WSScanResult(WSScanResult::ScanDirection::Backward,
atPreviousChar.template NextPoint<EditorDOMPoint>(),
atPreviousChar.IsCharCollapsibleASCIISpaceOrNBSP()
? WSType::CollapsibleWhiteSpaces
: atPreviousChar.IsCharPreformattedNewLine()
? WSType::PreformattedLineBreak
: WSType::NonCollapsibleCharacters,
mBlockInlineCheck);
}
}
if (NS_WARN_IF(TextFragmentDataAtStartRef().StartRawReason() ==
WSType::UnexpectedError)) {
return WSScanResult::Error();
}
switch (TextFragmentDataAtStartRef().StartRawReason()) {
case WSType::CollapsibleWhiteSpaces:
case WSType::NonCollapsibleCharacters:
case WSType::PreformattedLineBreak:
MOZ_ASSERT(TextFragmentDataAtStartRef().StartRef().IsSet());
// XXX: If we find the character at last of a text node and we started
// scanning from following text node of it, some callers may work with the
// point in the following text node instead of end of the found text node.
return WSScanResult(WSScanResult::ScanDirection::Backward,
TextFragmentDataAtStartRef().StartRef(),
TextFragmentDataAtStartRef().StartRawReason(),
mBlockInlineCheck);
default:
break;
}
// Otherwise, return the start of the range.
if (TextFragmentDataAtStartRef().GetStartReasonContent() !=
TextFragmentDataAtStartRef().StartRef().GetContainer()) {
if (NS_WARN_IF(!TextFragmentDataAtStartRef().GetStartReasonContent())) {
return WSScanResult::Error();
}
// In this case, TextFragmentDataAtStartRef().StartRef().Offset() is not
// meaningful.
return WSScanResult(WSScanResult::ScanDirection::Backward,
*TextFragmentDataAtStartRef().GetStartReasonContent(),
TextFragmentDataAtStartRef().StartRawReason(),
mBlockInlineCheck);
}
if (NS_WARN_IF(!TextFragmentDataAtStartRef().StartRef().IsSet())) {
return WSScanResult::Error();
}
return WSScanResult(WSScanResult::ScanDirection::Backward,
TextFragmentDataAtStartRef().StartRef(),
TextFragmentDataAtStartRef().StartRawReason(),
mBlockInlineCheck);
}
template <typename PT, typename CT>
WSScanResult WSRunScanner::ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom(
const EditorDOMPointBase<PT, CT>& aPoint) const {
MOZ_ASSERT(aPoint.IsSet());
MOZ_ASSERT(aPoint.IsInComposedDoc());
if (MOZ_UNLIKELY(!aPoint.IsSet())) {
return WSScanResult::Error();
}
// We may not be able to check editable state in uncomposed tree as expected.
// For example, only some descendants in an editing host is temporarily
// removed from the tree, they are not editable unless nested contenteditable
// attribute is set to "true".
if (MOZ_UNLIKELY(!aPoint.IsInComposedDoc())) {
return WSScanResult(WSScanResult::ScanDirection::Forward,
*aPoint.template ContainerAs<nsIContent>(),
WSType::InUncomposedDoc, mBlockInlineCheck);
}
if (!TextFragmentDataAtStartRef().IsInitialized()) {
return WSScanResult::Error();
}
// If the range has visible text and aPoint equals or is before the end of the
// visible text, return inclusive next character in the text.
const VisibleWhiteSpacesData& visibleWhiteSpaces =
TextFragmentDataAtStartRef().VisibleWhiteSpacesDataRef();
if (visibleWhiteSpaces.IsInitialized() &&
aPoint.EqualsOrIsBefore(visibleWhiteSpaces.EndRef())) {
// If the visible things are not editable, we shouldn't scan "editable"
// things now. Whether keep scanning editable things or not should be
// considered by the caller.
if (aPoint.GetChild() && !aPoint.GetChild()->IsEditable()) {
return WSScanResult(WSScanResult::ScanDirection::Forward,
*aPoint.GetChild(), WSType::SpecialContent,
mBlockInlineCheck);
}
const auto atNextChar =
GetInclusiveNextEditableCharPoint<EditorDOMPoint>(aPoint);
// When it's a non-empty text node, return it.
if (atNextChar.IsSet() && !atNextChar.IsContainerEmpty()) {
return WSScanResult(WSScanResult::ScanDirection::Forward, atNextChar,
!atNextChar.IsEndOfContainer() &&
atNextChar.IsCharCollapsibleASCIISpaceOrNBSP()
? WSType::CollapsibleWhiteSpaces
: !atNextChar.IsEndOfContainer() &&
atNextChar.IsCharPreformattedNewLine()
? WSType::PreformattedLineBreak
: WSType::NonCollapsibleCharacters,
mBlockInlineCheck);
}
}
if (NS_WARN_IF(TextFragmentDataAtStartRef().EndRawReason() ==
WSType::UnexpectedError)) {
return WSScanResult::Error();
}
switch (TextFragmentDataAtStartRef().EndRawReason()) {
case WSType::CollapsibleWhiteSpaces:
case WSType::NonCollapsibleCharacters:
case WSType::PreformattedLineBreak:
MOZ_ASSERT(TextFragmentDataAtStartRef().StartRef().IsSet());
// XXX: If we find the character at start of a text node and we
// started scanning from preceding text node of it, some callers may want
// to work with the point at end of the preceding text node instead of
// start of the found text node.
return WSScanResult(WSScanResult::ScanDirection::Forward,
TextFragmentDataAtStartRef().EndRef(),
TextFragmentDataAtStartRef().EndRawReason(),
mBlockInlineCheck);
default:
break;
}
// Otherwise, return the end of the range.
if (TextFragmentDataAtStartRef().GetEndReasonContent() !=
TextFragmentDataAtStartRef().EndRef().GetContainer()) {
if (NS_WARN_IF(!TextFragmentDataAtStartRef().GetEndReasonContent())) {
return WSScanResult::Error();
}
// In this case, TextFragmentDataAtStartRef().EndRef().Offset() is not
// meaningful.
return WSScanResult(WSScanResult::ScanDirection::Forward,
*TextFragmentDataAtStartRef().GetEndReasonContent(),
TextFragmentDataAtStartRef().EndRawReason(),
mBlockInlineCheck);
}
if (NS_WARN_IF(!TextFragmentDataAtStartRef().EndRef().IsSet())) {
return WSScanResult::Error();
}
return WSScanResult(WSScanResult::ScanDirection::Forward,
TextFragmentDataAtStartRef().EndRef(),
TextFragmentDataAtStartRef().EndRawReason(),
mBlockInlineCheck);
}
template <typename EditorDOMPointType>
WSRunScanner::TextFragmentData::TextFragmentData(
const EditorDOMPointType& aPoint, const Element* aEditingHost,
BlockInlineCheck aBlockInlineCheck)
: mEditingHost(aEditingHost), mBlockInlineCheck(aBlockInlineCheck) {
if (!aPoint.IsSetAndValid()) {
NS_WARNING("aPoint was invalid");
return;
}
if (!aPoint.IsInContentNode()) {
NS_WARNING("aPoint was in Document or DocumentFragment");
// I.e., we're try to modify outside of root element. We don't need to
// support such odd case because web apps cannot append text nodes as
// direct child of Document node.
return;
}
mScanStartPoint = aPoint.template To<EditorDOMPoint>();
NS_ASSERTION(
EditorUtils::IsEditableContent(*mScanStartPoint.ContainerAs<nsIContent>(),
EditorType::HTML),
"Given content is not editable");
NS_ASSERTION(
mScanStartPoint.ContainerAs<nsIContent>()->GetAsElementOrParentElement(),
"Given content is not an element and an orphan node");
if (NS_WARN_IF(!EditorUtils::IsEditableContent(
*mScanStartPoint.ContainerAs<nsIContent>(), EditorType::HTML))) {
return;
}
const Element* editableBlockElementOrInlineEditingHost =
HTMLEditUtils::GetInclusiveAncestorElement(
*mScanStartPoint.ContainerAs<nsIContent>(),
HTMLEditUtils::ClosestEditableBlockElementOrInlineEditingHost,
aBlockInlineCheck);
if (!editableBlockElementOrInlineEditingHost) {
NS_WARNING(
"HTMLEditUtils::GetInclusiveAncestorElement(HTMLEditUtils::"
"ClosestEditableBlockElementOrInlineEditingHost) couldn't find "
"editing host");
return;
}
mStart = BoundaryData::ScanCollapsibleWhiteSpaceStartFrom(
mScanStartPoint, *editableBlockElementOrInlineEditingHost, mEditingHost,
&mNBSPData, aBlockInlineCheck);
MOZ_ASSERT_IF(mStart.IsNonCollapsibleCharacters(),
!mStart.PointRef().IsPreviousCharPreformattedNewLine());
MOZ_ASSERT_IF(mStart.IsPreformattedLineBreak(),
mStart.PointRef().IsPreviousCharPreformattedNewLine());
mEnd = BoundaryData::ScanCollapsibleWhiteSpaceEndFrom(
mScanStartPoint, *editableBlockElementOrInlineEditingHost, mEditingHost,
&mNBSPData, aBlockInlineCheck);
MOZ_ASSERT_IF(mEnd.IsNonCollapsibleCharacters(),
!mEnd.PointRef().IsCharPreformattedNewLine());
MOZ_ASSERT_IF(mEnd.IsPreformattedLineBreak(),
mEnd.PointRef().IsCharPreformattedNewLine());
}
// static
template <typename EditorDOMPointType>
Maybe<WSRunScanner::TextFragmentData::BoundaryData> WSRunScanner::
TextFragmentData::BoundaryData::ScanCollapsibleWhiteSpaceStartInTextNode(
const EditorDOMPointType& aPoint, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck) {
MOZ_ASSERT(aPoint.IsSetAndValid());
MOZ_DIAGNOSTIC_ASSERT(aPoint.IsInTextNode());
const bool isWhiteSpaceCollapsible = !EditorUtils::IsWhiteSpacePreformatted(
*aPoint.template ContainerAs<Text>());
const bool isNewLineCollapsible =
!EditorUtils::IsNewLinePreformatted(*aPoint.template ContainerAs<Text>());
const nsTextFragment& textFragment =
aPoint.template ContainerAs<Text>()->TextFragment();
for (uint32_t i = std::min(aPoint.Offset(), textFragment.GetLength()); i;
i--) {
WSType wsTypeOfNonCollapsibleChar;
switch (textFragment.CharAt(i - 1)) {
case HTMLEditUtils::kSpace:
case HTMLEditUtils::kCarriageReturn:
case HTMLEditUtils::kTab:
if (isWhiteSpaceCollapsible) {
continue; // collapsible white-space or invisible white-space.
}
// preformatted white-space.
wsTypeOfNonCollapsibleChar = WSType::NonCollapsibleCharacters;
break;
case HTMLEditUtils::kNewLine:
if (isNewLineCollapsible) {
continue; // collapsible linefeed.
}
// preformatted linefeed.
wsTypeOfNonCollapsibleChar = WSType::PreformattedLineBreak;
break;
case HTMLEditUtils::kNBSP:
if (isWhiteSpaceCollapsible) {
if (aNBSPData) {
aNBSPData->NotifyNBSP(
EditorDOMPointInText(aPoint.template ContainerAs<Text>(),
i - 1),
NoBreakingSpaceData::Scanning::Backward);
}
continue;
}
// NBSP is never converted from collapsible white-space/linefeed.
wsTypeOfNonCollapsibleChar = WSType::NonCollapsibleCharacters;
break;
default:
MOZ_ASSERT(!nsCRT::IsAsciiSpace(textFragment.CharAt(i - 1)));
wsTypeOfNonCollapsibleChar = WSType::NonCollapsibleCharacters;
break;
}
return Some(BoundaryData(
EditorDOMPoint(aPoint.template ContainerAs<Text>(), i),
*aPoint.template ContainerAs<Text>(), wsTypeOfNonCollapsibleChar));
}
return Nothing();
}
// static
template <typename EditorDOMPointType>
WSRunScanner::TextFragmentData::BoundaryData WSRunScanner::TextFragmentData::
BoundaryData::ScanCollapsibleWhiteSpaceStartFrom(
const EditorDOMPointType& aPoint,
const Element& aEditableBlockParentOrTopmostEditableInlineElement,
const Element* aEditingHost, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck) {
MOZ_ASSERT(aPoint.IsSetAndValid());
MOZ_ASSERT(aEditableBlockParentOrTopmostEditableInlineElement.IsEditable());
if (aPoint.IsInTextNode() && !aPoint.IsStartOfContainer()) {
Maybe<BoundaryData> startInTextNode =
BoundaryData::ScanCollapsibleWhiteSpaceStartInTextNode(
aPoint, aNBSPData, aBlockInlineCheck);
if (startInTextNode.isSome()) {
return startInTextNode.ref();
}
// The text node does not have visible character, let's keep scanning
// preceding nodes.
return BoundaryData::ScanCollapsibleWhiteSpaceStartFrom(
EditorDOMPoint(aPoint.template ContainerAs<Text>(), 0),
aEditableBlockParentOrTopmostEditableInlineElement, aEditingHost,
aNBSPData, aBlockInlineCheck);
}
// Then, we need to check previous leaf node.
nsIContent* previousLeafContentOrBlock =
HTMLEditUtils::GetPreviousLeafContentOrPreviousBlockElement(
aPoint, aEditableBlockParentOrTopmostEditableInlineElement,
{LeafNodeType::LeafNodeOrNonEditableNode}, aBlockInlineCheck,
aEditingHost);
if (!previousLeafContentOrBlock) {
// No previous content means that we reached
// aEditableBlockParentOrTopmostEditableInlineElement boundary.
return BoundaryData(aPoint,
const_cast<Element&>(
aEditableBlockParentOrTopmostEditableInlineElement),
HTMLEditUtils::IsBlockElement(
aEditableBlockParentOrTopmostEditableInlineElement,
aBlockInlineCheck)
? WSType::CurrentBlockBoundary
: WSType::InlineEditingHostBoundary);
}
if (HTMLEditUtils::IsBlockElement(*previousLeafContentOrBlock,
aBlockInlineCheck)) {
return BoundaryData(aPoint, *previousLeafContentOrBlock,
WSType::OtherBlockBoundary);
}
if (!previousLeafContentOrBlock->IsText() ||
!previousLeafContentOrBlock->IsEditable()) {
// it's a break or a special node, like <img>, that is not a block and
// not a break but still serves as a terminator to ws runs.
return BoundaryData(aPoint, *previousLeafContentOrBlock,
previousLeafContentOrBlock->IsHTMLElement(nsGkAtoms::br)
? WSType::BRElement
: WSType::SpecialContent);
}
if (!previousLeafContentOrBlock->AsText()->TextLength()) {
// If it's an empty text node, keep looking for its previous leaf content.
// Note that even if the empty text node is preformatted, we should keep
// looking for the previous one.
return BoundaryData::ScanCollapsibleWhiteSpaceStartFrom(
EditorDOMPointInText(previousLeafContentOrBlock->AsText(), 0),
aEditableBlockParentOrTopmostEditableInlineElement, aEditingHost,
aNBSPData, aBlockInlineCheck);
}
Maybe<BoundaryData> startInTextNode =
BoundaryData::ScanCollapsibleWhiteSpaceStartInTextNode(
EditorDOMPointInText::AtEndOf(*previousLeafContentOrBlock->AsText()),
aNBSPData, aBlockInlineCheck);
if (startInTextNode.isSome()) {
return startInTextNode.ref();
}
// The text node does not have visible character, let's keep scanning
// preceding nodes.
return BoundaryData::ScanCollapsibleWhiteSpaceStartFrom(
EditorDOMPointInText(previousLeafContentOrBlock->AsText(), 0),
aEditableBlockParentOrTopmostEditableInlineElement, aEditingHost,
aNBSPData, aBlockInlineCheck);
}
// static
template <typename EditorDOMPointType>
Maybe<WSRunScanner::TextFragmentData::BoundaryData> WSRunScanner::
TextFragmentData::BoundaryData::ScanCollapsibleWhiteSpaceEndInTextNode(
const EditorDOMPointType& aPoint, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck) {
MOZ_ASSERT(aPoint.IsSetAndValid());
MOZ_DIAGNOSTIC_ASSERT(aPoint.IsInTextNode());
const bool isWhiteSpaceCollapsible = !EditorUtils::IsWhiteSpacePreformatted(
*aPoint.template ContainerAs<Text>());
const bool isNewLineCollapsible =
!EditorUtils::IsNewLinePreformatted(*aPoint.template ContainerAs<Text>());
const nsTextFragment& textFragment =
aPoint.template ContainerAs<Text>()->TextFragment();
for (uint32_t i = aPoint.Offset(); i < textFragment.GetLength(); i++) {
WSType wsTypeOfNonCollapsibleChar;
switch (textFragment.CharAt(i)) {
case HTMLEditUtils::kSpace:
case HTMLEditUtils::kCarriageReturn:
case HTMLEditUtils::kTab:
if (isWhiteSpaceCollapsible) {
continue; // collapsible white-space or invisible white-space.
}
// preformatted white-space.
wsTypeOfNonCollapsibleChar = WSType::NonCollapsibleCharacters;
break;
case HTMLEditUtils::kNewLine:
if (isNewLineCollapsible) {
continue; // collapsible linefeed.
}
// preformatted linefeed.
wsTypeOfNonCollapsibleChar = WSType::PreformattedLineBreak;
break;
case HTMLEditUtils::kNBSP:
if (isWhiteSpaceCollapsible) {
if (aNBSPData) {
aNBSPData->NotifyNBSP(
EditorDOMPointInText(aPoint.template ContainerAs<Text>(), i),
NoBreakingSpaceData::Scanning::Forward);
}
continue;
}
// NBSP is never converted from collapsible white-space/linefeed.
wsTypeOfNonCollapsibleChar = WSType::NonCollapsibleCharacters;
break;
default:
MOZ_ASSERT(!nsCRT::IsAsciiSpace(textFragment.CharAt(i)));
wsTypeOfNonCollapsibleChar = WSType::NonCollapsibleCharacters;
break;
}
return Some(BoundaryData(
EditorDOMPoint(aPoint.template ContainerAs<Text>(), i),
*aPoint.template ContainerAs<Text>(), wsTypeOfNonCollapsibleChar));
}
return Nothing();
}
// static
template <typename EditorDOMPointType>
WSRunScanner::TextFragmentData::BoundaryData
WSRunScanner::TextFragmentData::BoundaryData::ScanCollapsibleWhiteSpaceEndFrom(
const EditorDOMPointType& aPoint,
const Element& aEditableBlockParentOrTopmostEditableInlineElement,
const Element* aEditingHost, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck) {
MOZ_ASSERT(aPoint.IsSetAndValid());
MOZ_ASSERT(aEditableBlockParentOrTopmostEditableInlineElement.IsEditable());
if (aPoint.IsInTextNode() && !aPoint.IsEndOfContainer()) {
Maybe<BoundaryData> endInTextNode =
BoundaryData::ScanCollapsibleWhiteSpaceEndInTextNode(aPoint, aNBSPData,
aBlockInlineCheck);
if (endInTextNode.isSome()) {
return endInTextNode.ref();
}
// The text node does not have visible character, let's keep scanning
// following nodes.
return BoundaryData::ScanCollapsibleWhiteSpaceEndFrom(
EditorDOMPointInText::AtEndOf(*aPoint.template ContainerAs<Text>()),
aEditableBlockParentOrTopmostEditableInlineElement, aEditingHost,
aNBSPData, aBlockInlineCheck);
}
// Then, we need to check next leaf node.
nsIContent* nextLeafContentOrBlock =
HTMLEditUtils::GetNextLeafContentOrNextBlockElement(
aPoint, aEditableBlockParentOrTopmostEditableInlineElement,
{LeafNodeType::LeafNodeOrNonEditableNode}, aBlockInlineCheck,
aEditingHost);
if (!nextLeafContentOrBlock) {
// No next content means that we reached
// aEditableBlockParentOrTopmostEditableInlineElement boundary.
return BoundaryData(aPoint.template To<EditorDOMPoint>(),
const_cast<Element&>(
aEditableBlockParentOrTopmostEditableInlineElement),
HTMLEditUtils::IsBlockElement(
aEditableBlockParentOrTopmostEditableInlineElement,
aBlockInlineCheck)
? WSType::CurrentBlockBoundary
: WSType::InlineEditingHostBoundary);
}
if (HTMLEditUtils::IsBlockElement(*nextLeafContentOrBlock,
aBlockInlineCheck)) {
// we encountered a new block. therefore no more ws.
return BoundaryData(aPoint, *nextLeafContentOrBlock,
WSType::OtherBlockBoundary);
}
if (!nextLeafContentOrBlock->IsText() ||
!nextLeafContentOrBlock->IsEditable()) {
// we encountered a break or a special node, like <img>,
// that is not a block and not a break but still
// serves as a terminator to ws runs.
return BoundaryData(aPoint, *nextLeafContentOrBlock,
nextLeafContentOrBlock->IsHTMLElement(nsGkAtoms::br)
? WSType::BRElement
: WSType::SpecialContent);
}
if (!nextLeafContentOrBlock->AsText()->TextFragment().GetLength()) {
// If it's an empty text node, keep looking for its next leaf content.
// Note that even if the empty text node is preformatted, we should keep
// looking for the next one.
return BoundaryData::ScanCollapsibleWhiteSpaceEndFrom(
EditorDOMPointInText(nextLeafContentOrBlock->AsText(), 0),
aEditableBlockParentOrTopmostEditableInlineElement, aEditingHost,
aNBSPData, aBlockInlineCheck);
}
Maybe<BoundaryData> endInTextNode =
BoundaryData::ScanCollapsibleWhiteSpaceEndInTextNode(
EditorDOMPointInText(nextLeafContentOrBlock->AsText(), 0), aNBSPData,
aBlockInlineCheck);
if (endInTextNode.isSome()) {
return endInTextNode.ref();
}
// The text node does not have visible character, let's keep scanning
// following nodes.
return BoundaryData::ScanCollapsibleWhiteSpaceEndFrom(
EditorDOMPointInText::AtEndOf(*nextLeafContentOrBlock->AsText()),
aEditableBlockParentOrTopmostEditableInlineElement, aEditingHost,
aNBSPData, aBlockInlineCheck);
}
const EditorDOMRange&
WSRunScanner::TextFragmentData::InvisibleLeadingWhiteSpaceRangeRef() const {
if (mLeadingWhiteSpaceRange.isSome()) {
return mLeadingWhiteSpaceRange.ref();
}
// If it's start of line, there is no invisible leading white-spaces.
if (!StartsFromHardLineBreak() && !StartsFromInlineEditingHostBoundary()) {
mLeadingWhiteSpaceRange.emplace();
return mLeadingWhiteSpaceRange.ref();
}
// If there is no NBSP, all of the given range is leading white-spaces.
// Note that this result may be collapsed if there is no leading white-spaces.
if (!mNBSPData.FoundNBSP()) {
MOZ_ASSERT(mStart.PointRef().IsSet() || mEnd.PointRef().IsSet());
mLeadingWhiteSpaceRange.emplace(mStart.PointRef(), mEnd.PointRef());
return mLeadingWhiteSpaceRange.ref();
}
MOZ_ASSERT(mNBSPData.LastPointRef().IsSetAndValid());
// Even if the first NBSP is the start, i.e., there is no invisible leading
// white-space, return collapsed range.
mLeadingWhiteSpaceRange.emplace(mStart.PointRef(), mNBSPData.FirstPointRef());
return mLeadingWhiteSpaceRange.ref();
}
const EditorDOMRange&
WSRunScanner::TextFragmentData::InvisibleTrailingWhiteSpaceRangeRef() const {
if (mTrailingWhiteSpaceRange.isSome()) {
return mTrailingWhiteSpaceRange.ref();
}
// If it's not immediately before a block boundary nor an invisible
// preformatted linefeed, there is no invisible trailing white-spaces. Note
// that collapsible white-spaces before a `<br>` element is visible.
if (!EndsByBlockBoundary() && !EndsByInlineEditingHostBoundary() &&
!EndsByInvisiblePreformattedLineBreak()) {
mTrailingWhiteSpaceRange.emplace();
return mTrailingWhiteSpaceRange.ref();
}
// If there is no NBSP, all of the given range is trailing white-spaces.
// Note that this result may be collapsed if there is no trailing white-
// spaces.
if (!mNBSPData.FoundNBSP()) {
MOZ_ASSERT(mStart.PointRef().IsSet() || mEnd.PointRef().IsSet());
mTrailingWhiteSpaceRange.emplace(mStart.PointRef(), mEnd.PointRef());
return mTrailingWhiteSpaceRange.ref();
}
MOZ_ASSERT(mNBSPData.LastPointRef().IsSetAndValid());
// If last NBSP is immediately before the end, there is no trailing white-
// spaces.
if (mEnd.PointRef().IsSet() &&
mNBSPData.LastPointRef().GetContainer() ==
mEnd.PointRef().GetContainer() &&
mNBSPData.LastPointRef().Offset() == mEnd.PointRef().Offset() - 1) {
mTrailingWhiteSpaceRange.emplace();
return mTrailingWhiteSpaceRange.ref();
}
// Otherwise, the may be some trailing white-spaces.
MOZ_ASSERT(!mNBSPData.LastPointRef().IsEndOfContainer());
mTrailingWhiteSpaceRange.emplace(mNBSPData.LastPointRef().NextPoint(),
mEnd.PointRef());
return mTrailingWhiteSpaceRange.ref();
}
EditorDOMRangeInTexts
WSRunScanner::TextFragmentData::GetNonCollapsedRangeInTexts(
const EditorDOMRange& aRange) const {
if (!aRange.IsPositioned()) {
return EditorDOMRangeInTexts();
}
if (aRange.Collapsed()) {
// If collapsed, we can do nothing.
return EditorDOMRangeInTexts();
}
if (aRange.IsInTextNodes()) {
// Note that this may return a range which don't include any invisible
// white-spaces due to empty text nodes.
return aRange.GetAsInTexts();
}
const auto firstPoint =
aRange.StartRef().IsInTextNode()
? aRange.StartRef().AsInText()
: GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(
aRange.StartRef());
if (!firstPoint.IsSet()) {
return EditorDOMRangeInTexts();
}
EditorDOMPointInText endPoint;
if (aRange.EndRef().IsInTextNode()) {
endPoint = aRange.EndRef().AsInText();
} else {
// FYI: GetPreviousEditableCharPoint() returns last character's point
// of preceding text node if it's not empty, but we need end of
// the text node here.
endPoint = GetPreviousEditableCharPoint(aRange.EndRef());
if (endPoint.IsSet() && endPoint.IsAtLastContent()) {
MOZ_ALWAYS_TRUE(endPoint.AdvanceOffset());
}
}
if (!endPoint.IsSet() || firstPoint == endPoint) {
return EditorDOMRangeInTexts();
}
return EditorDOMRangeInTexts(firstPoint, endPoint);
}
const WSRunScanner::VisibleWhiteSpacesData&
WSRunScanner::TextFragmentData::VisibleWhiteSpacesDataRef() const {
if (mVisibleWhiteSpacesData.isSome()) {
return mVisibleWhiteSpacesData.ref();
}
{
// If all things are obviously visible, we can return range for all of the
// things quickly.
const bool mayHaveInvisibleLeadingSpace =
!StartsFromNonCollapsibleCharacters() && !StartsFromSpecialContent();
const bool mayHaveInvisibleTrailingWhiteSpace =
!EndsByNonCollapsibleCharacters() && !EndsBySpecialContent() &&
!EndsByBRElement() && !EndsByInvisiblePreformattedLineBreak();
if (!mayHaveInvisibleLeadingSpace && !mayHaveInvisibleTrailingWhiteSpace) {
VisibleWhiteSpacesData visibleWhiteSpaces;
if (mStart.PointRef().IsSet()) {
visibleWhiteSpaces.SetStartPoint(mStart.PointRef());
}
visibleWhiteSpaces.SetStartFrom(mStart.RawReason());
if (mEnd.PointRef().IsSet()) {
visibleWhiteSpaces.SetEndPoint(mEnd.PointRef());
}
visibleWhiteSpaces.SetEndBy(mEnd.RawReason());
mVisibleWhiteSpacesData.emplace(visibleWhiteSpaces);
return mVisibleWhiteSpacesData.ref();
}
}
// If all of the range is invisible leading or trailing white-spaces,
// there is no visible content.
const EditorDOMRange& leadingWhiteSpaceRange =
InvisibleLeadingWhiteSpaceRangeRef();
const bool maybeHaveLeadingWhiteSpaces =
leadingWhiteSpaceRange.StartRef().IsSet() ||
leadingWhiteSpaceRange.EndRef().IsSet();
if (maybeHaveLeadingWhiteSpaces &&
leadingWhiteSpaceRange.StartRef() == mStart.PointRef() &&
leadingWhiteSpaceRange.EndRef() == mEnd.PointRef()) {
mVisibleWhiteSpacesData.emplace(VisibleWhiteSpacesData());
return mVisibleWhiteSpacesData.ref();
}
const EditorDOMRange& trailingWhiteSpaceRange =
InvisibleTrailingWhiteSpaceRangeRef();
const bool maybeHaveTrailingWhiteSpaces =
trailingWhiteSpaceRange.StartRef().IsSet() ||
trailingWhiteSpaceRange.EndRef().IsSet();
if (maybeHaveTrailingWhiteSpaces &&
trailingWhiteSpaceRange.StartRef() == mStart.PointRef() &&
trailingWhiteSpaceRange.EndRef() == mEnd.PointRef()) {
mVisibleWhiteSpacesData.emplace(VisibleWhiteSpacesData());
return mVisibleWhiteSpacesData.ref();
}
if (!StartsFromHardLineBreak() && !StartsFromInlineEditingHostBoundary()) {
VisibleWhiteSpacesData visibleWhiteSpaces;
if (mStart.PointRef().IsSet()) {
visibleWhiteSpaces.SetStartPoint(mStart.PointRef());
}
visibleWhiteSpaces.SetStartFrom(mStart.RawReason());
if (!maybeHaveTrailingWhiteSpaces) {
visibleWhiteSpaces.SetEndPoint(mEnd.PointRef());
visibleWhiteSpaces.SetEndBy(mEnd.RawReason());
mVisibleWhiteSpacesData = Some(visibleWhiteSpaces);
return mVisibleWhiteSpacesData.ref();
}
if (trailingWhiteSpaceRange.StartRef().IsSet()) {
visibleWhiteSpaces.SetEndPoint(trailingWhiteSpaceRange.StartRef());
}
visibleWhiteSpaces.SetEndByTrailingWhiteSpaces();
mVisibleWhiteSpacesData.emplace(visibleWhiteSpaces);
return mVisibleWhiteSpacesData.ref();
}
MOZ_ASSERT(StartsFromHardLineBreak() ||
StartsFromInlineEditingHostBoundary());
MOZ_ASSERT(maybeHaveLeadingWhiteSpaces);
VisibleWhiteSpacesData visibleWhiteSpaces;
if (leadingWhiteSpaceRange.EndRef().IsSet()) {
visibleWhiteSpaces.SetStartPoint(leadingWhiteSpaceRange.EndRef());
}
visibleWhiteSpaces.SetStartFromLeadingWhiteSpaces();
if (!EndsByBlockBoundary() && !EndsByInlineEditingHostBoundary()) {
// then no trailing ws. this normal run ends the overall ws run.
if (mEnd.PointRef().IsSet()) {
visibleWhiteSpaces.SetEndPoint(mEnd.PointRef());
}
visibleWhiteSpaces.SetEndBy(mEnd.RawReason());
mVisibleWhiteSpacesData.emplace(visibleWhiteSpaces);
return mVisibleWhiteSpacesData.ref();
}
MOZ_ASSERT(EndsByBlockBoundary() || EndsByInlineEditingHostBoundary());
if (!maybeHaveTrailingWhiteSpaces) {
// normal ws runs right up to adjacent block (nbsp next to block)
visibleWhiteSpaces.SetEndPoint(mEnd.PointRef());
visibleWhiteSpaces.SetEndBy(mEnd.RawReason());
mVisibleWhiteSpacesData.emplace(visibleWhiteSpaces);
return mVisibleWhiteSpacesData.ref();
}
if (trailingWhiteSpaceRange.StartRef().IsSet()) {
visibleWhiteSpaces.SetEndPoint(trailingWhiteSpaceRange.StartRef());
}
visibleWhiteSpaces.SetEndByTrailingWhiteSpaces();
mVisibleWhiteSpacesData.emplace(visibleWhiteSpaces);
return mVisibleWhiteSpacesData.ref();
}
// static
Result<CaretPoint, nsresult> WhiteSpaceVisibilityKeeper::
MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange(
HTMLEditor& aHTMLEditor, const EditorDOMRange& aRangeToDelete,
const Element& aEditingHost) {
if (NS_WARN_IF(!aRangeToDelete.IsPositionedAndValid()) ||
NS_WARN_IF(!aRangeToDelete.IsInContentNodes())) {
return Err(NS_ERROR_INVALID_ARG);
}
EditorDOMRange rangeToDelete(aRangeToDelete);
bool mayBecomeUnexpectedDOMTree = aHTMLEditor.MayHaveMutationEventListeners(
NS_EVENT_BITS_MUTATION_SUBTREEMODIFIED |
NS_EVENT_BITS_MUTATION_NODEREMOVED |
NS_EVENT_BITS_MUTATION_NODEREMOVEDFROMDOCUMENT |
NS_EVENT_BITS_MUTATION_CHARACTERDATAMODIFIED);
TextFragmentData textFragmentDataAtStart(
rangeToDelete.StartRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtStart.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
TextFragmentData textFragmentDataAtEnd(
rangeToDelete.EndRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtEnd.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
ReplaceRangeData replaceRangeDataAtEnd =
textFragmentDataAtEnd.GetReplaceRangeDataAtEndOfDeletionRange(
textFragmentDataAtStart);
EditorDOMPoint pointToPutCaret;
if (replaceRangeDataAtEnd.IsSet() && !replaceRangeDataAtEnd.Collapsed()) {
MOZ_ASSERT(rangeToDelete.EndRef().EqualsOrIsBefore(
replaceRangeDataAtEnd.EndRef()));
// If there is some text after deleting range, replacing range start must
// equal or be before end of the deleting range.
MOZ_ASSERT_IF(rangeToDelete.EndRef().IsInTextNode() &&
!rangeToDelete.EndRef().IsEndOfContainer(),
replaceRangeDataAtEnd.StartRef().EqualsOrIsBefore(
rangeToDelete.EndRef()));
// If the deleting range end is end of a text node, the replacing range
// should:
// - start with another node if the following text node starts with
// white-spaces.
// - start from prior point because end of the range may be in collapsible
// white-spaces.
MOZ_ASSERT_IF(rangeToDelete.EndRef().IsInTextNode() &&
rangeToDelete.EndRef().IsEndOfContainer(),
replaceRangeDataAtEnd.StartRef().EqualsOrIsBefore(
rangeToDelete.EndRef()) ||
replaceRangeDataAtEnd.StartRef().IsStartOfContainer());
MOZ_ASSERT(rangeToDelete.StartRef().EqualsOrIsBefore(
replaceRangeDataAtEnd.StartRef()));
if (!replaceRangeDataAtEnd.HasReplaceString()) {
EditorDOMPoint startToDelete(aRangeToDelete.StartRef());
EditorDOMPoint endToDelete(replaceRangeDataAtEnd.StartRef());
{
AutoEditorDOMPointChildInvalidator lockOffsetOfStart(startToDelete);
AutoEditorDOMPointChildInvalidator lockOffsetOfEnd(endToDelete);
AutoTrackDOMPoint trackStartToDelete(aHTMLEditor.RangeUpdaterRef(),
&startToDelete);
AutoTrackDOMPoint trackEndToDelete(aHTMLEditor.RangeUpdaterRef(),
&endToDelete);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
replaceRangeDataAtEnd.StartRef(),
replaceRangeDataAtEnd.EndRef(),
HTMLEditor::TreatEmptyTextNodes::
KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
if (mayBecomeUnexpectedDOMTree &&
(NS_WARN_IF(!startToDelete.IsSetAndValid()) ||
NS_WARN_IF(!endToDelete.IsSetAndValid()) ||
NS_WARN_IF(!startToDelete.EqualsOrIsBefore(endToDelete)))) {
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
MOZ_ASSERT(startToDelete.EqualsOrIsBefore(endToDelete));
rangeToDelete.SetStartAndEnd(startToDelete, endToDelete);
} else {
MOZ_ASSERT(replaceRangeDataAtEnd.RangeRef().IsInTextNodes());
EditorDOMPoint startToDelete(aRangeToDelete.StartRef());
EditorDOMPoint endToDelete(replaceRangeDataAtEnd.StartRef());
{
AutoTrackDOMPoint trackStartToDelete(aHTMLEditor.RangeUpdaterRef(),
&startToDelete);
AutoTrackDOMPoint trackEndToDelete(aHTMLEditor.RangeUpdaterRef(),
&endToDelete);
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
// FYI: ReplaceTextAndRemoveEmptyTextNodes() does not have any idea of
// new caret position.
nsresult rv =
WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes(
aHTMLEditor, replaceRangeDataAtEnd.RangeRef().AsInTexts(),
replaceRangeDataAtEnd.ReplaceStringRef());
if (NS_FAILED(rv)) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::"
"MakeSureToKeepVisibleStateOfWhiteSpacesAtEndOfDeletingRange() "
"failed");
return Err(rv);
}
}
if (mayBecomeUnexpectedDOMTree &&
(NS_WARN_IF(!startToDelete.IsSetAndValid()) ||
NS_WARN_IF(!endToDelete.IsSetAndValid()) ||
NS_WARN_IF(!startToDelete.EqualsOrIsBefore(endToDelete)))) {
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
MOZ_ASSERT(startToDelete.EqualsOrIsBefore(endToDelete));
rangeToDelete.SetStartAndEnd(startToDelete, endToDelete);
}
if (mayBecomeUnexpectedDOMTree) {
// If focus is changed by mutation event listeners, we should stop
// handling this edit action.
if (&aEditingHost != aHTMLEditor.ComputeEditingHost()) {
NS_WARNING("Active editing host was changed");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
if (!rangeToDelete.IsInContentNodes()) {
NS_WARNING("The modified range was not in content");
return Err(NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE);
}
// If the DOM tree might be changed by mutation event listeners, we
// should retrieve the latest data for avoiding to delete/replace
// unexpected range.
textFragmentDataAtStart =
TextFragmentData(rangeToDelete.StartRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
textFragmentDataAtEnd =
TextFragmentData(rangeToDelete.EndRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
}
}
ReplaceRangeData replaceRangeDataAtStart =
textFragmentDataAtStart.GetReplaceRangeDataAtStartOfDeletionRange(
textFragmentDataAtEnd);
if (!replaceRangeDataAtStart.IsSet() || replaceRangeDataAtStart.Collapsed()) {
return CaretPoint(std::move(pointToPutCaret));
}
if (!replaceRangeDataAtStart.HasReplaceString()) {
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
replaceRangeDataAtStart.StartRef(),
replaceRangeDataAtStart.EndRef(),
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries);
// XXX Should we validate the range for making this return
// NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE in this case?
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING("HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.propagateErr();
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
return CaretPoint(std::move(pointToPutCaret));
}
MOZ_ASSERT(replaceRangeDataAtStart.RangeRef().IsInTextNodes());
{
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
// FYI: ReplaceTextAndRemoveEmptyTextNodes() does not have any idea of
// new caret position.
nsresult rv =
WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes(
aHTMLEditor, replaceRangeDataAtStart.RangeRef().AsInTexts(),
replaceRangeDataAtStart.ReplaceStringRef());
// XXX Should we validate the range for making this return
// NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE in this case?
if (NS_FAILED(rv)) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::"
"MakeSureToKeepVisibleStateOfWhiteSpacesAtStartOfDeletingRange() "
"failed");
return Err(rv);
}
}
return CaretPoint(std::move(pointToPutCaret));
}
ReplaceRangeData
WSRunScanner::TextFragmentData::GetReplaceRangeDataAtEndOfDeletionRange(
const TextFragmentData& aTextFragmentDataAtStartToDelete) const {
const EditorDOMPoint& startToDelete =
aTextFragmentDataAtStartToDelete.ScanStartRef();
const EditorDOMPoint& endToDelete = mScanStartPoint;
MOZ_ASSERT(startToDelete.IsSetAndValid());
MOZ_ASSERT(endToDelete.IsSetAndValid());
MOZ_ASSERT(startToDelete.EqualsOrIsBefore(endToDelete));
if (EndRef().EqualsOrIsBefore(endToDelete)) {
return ReplaceRangeData();
}
// If deleting range is followed by invisible trailing white-spaces, we need
// to remove it for making them not visible.
const EditorDOMRange invisibleTrailingWhiteSpaceRangeAtEnd =
GetNewInvisibleTrailingWhiteSpaceRangeIfSplittingAt(endToDelete);
if (invisibleTrailingWhiteSpaceRangeAtEnd.IsPositioned()) {
if (invisibleTrailingWhiteSpaceRangeAtEnd.Collapsed()) {
return ReplaceRangeData();
}
// XXX Why don't we remove all invisible white-spaces?
MOZ_ASSERT(invisibleTrailingWhiteSpaceRangeAtEnd.StartRef() == endToDelete);
return ReplaceRangeData(invisibleTrailingWhiteSpaceRangeAtEnd, u""_ns);
}
// If end of the deleting range is followed by visible white-spaces which
// is not preformatted, we might need to replace the following ASCII
// white-spaces with an NBSP.
const VisibleWhiteSpacesData& nonPreformattedVisibleWhiteSpacesAtEnd =
VisibleWhiteSpacesDataRef();
if (!nonPreformattedVisibleWhiteSpacesAtEnd.IsInitialized()) {
return ReplaceRangeData();
}
const PointPosition pointPositionWithNonPreformattedVisibleWhiteSpacesAtEnd =
nonPreformattedVisibleWhiteSpacesAtEnd.ComparePoint(endToDelete);
if (pointPositionWithNonPreformattedVisibleWhiteSpacesAtEnd !=
PointPosition::StartOfFragment &&
pointPositionWithNonPreformattedVisibleWhiteSpacesAtEnd !=
PointPosition::MiddleOfFragment) {
return ReplaceRangeData();
}
// If start of deleting range follows white-spaces or end of delete
// will be start of a line, the following text cannot start with an
// ASCII white-space for keeping it visible.
if (!aTextFragmentDataAtStartToDelete
.FollowingContentMayBecomeFirstVisibleContent(startToDelete)) {
return ReplaceRangeData();
}
auto nextCharOfStartOfEnd =
GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(endToDelete);
if (!nextCharOfStartOfEnd.IsSet() ||
nextCharOfStartOfEnd.IsEndOfContainer() ||
!nextCharOfStartOfEnd.IsCharCollapsibleASCIISpace()) {
return ReplaceRangeData();
}
if (nextCharOfStartOfEnd.IsStartOfContainer() ||
nextCharOfStartOfEnd.IsPreviousCharCollapsibleASCIISpace()) {
nextCharOfStartOfEnd = aTextFragmentDataAtStartToDelete
.GetFirstASCIIWhiteSpacePointCollapsedTo(
nextCharOfStartOfEnd, nsIEditor::eNone);
}
const EditorDOMPointInText endOfCollapsibleASCIIWhiteSpaces =
aTextFragmentDataAtStartToDelete.GetEndOfCollapsibleASCIIWhiteSpaces(
nextCharOfStartOfEnd, nsIEditor::eNone);
return ReplaceRangeData(nextCharOfStartOfEnd,
endOfCollapsibleASCIIWhiteSpaces,
nsDependentSubstring(&HTMLEditUtils::kNBSP, 1));
}
ReplaceRangeData
WSRunScanner::TextFragmentData::GetReplaceRangeDataAtStartOfDeletionRange(
const TextFragmentData& aTextFragmentDataAtEndToDelete) const {
const EditorDOMPoint& startToDelete = mScanStartPoint;
const EditorDOMPoint& endToDelete =
aTextFragmentDataAtEndToDelete.ScanStartRef();
MOZ_ASSERT(startToDelete.IsSetAndValid());
MOZ_ASSERT(endToDelete.IsSetAndValid());
MOZ_ASSERT(startToDelete.EqualsOrIsBefore(endToDelete));
if (startToDelete.EqualsOrIsBefore(StartRef())) {
return ReplaceRangeData();
}
const EditorDOMRange invisibleLeadingWhiteSpaceRangeAtStart =
GetNewInvisibleLeadingWhiteSpaceRangeIfSplittingAt(startToDelete);
// If deleting range follows invisible leading white-spaces, we need to
// remove them for making them not visible.
if (invisibleLeadingWhiteSpaceRangeAtStart.IsPositioned()) {
if (invisibleLeadingWhiteSpaceRangeAtStart.Collapsed()) {
return ReplaceRangeData();
}
// XXX Why don't we remove all leading white-spaces?
return ReplaceRangeData(invisibleLeadingWhiteSpaceRangeAtStart, u""_ns);
}
// If start of the deleting range follows visible white-spaces which is not
// preformatted, we might need to replace previous ASCII white-spaces with
// an NBSP.
const VisibleWhiteSpacesData& nonPreformattedVisibleWhiteSpacesAtStart =
VisibleWhiteSpacesDataRef();
if (!nonPreformattedVisibleWhiteSpacesAtStart.IsInitialized()) {
return ReplaceRangeData();
}
const PointPosition
pointPositionWithNonPreformattedVisibleWhiteSpacesAtStart =
nonPreformattedVisibleWhiteSpacesAtStart.ComparePoint(startToDelete);
if (pointPositionWithNonPreformattedVisibleWhiteSpacesAtStart !=
PointPosition::MiddleOfFragment &&
pointPositionWithNonPreformattedVisibleWhiteSpacesAtStart !=
PointPosition::EndOfFragment) {
return ReplaceRangeData();
}
// If end of the deleting range is (was) followed by white-spaces or
// previous character of start of deleting range will be immediately
// before a block boundary, the text cannot ends with an ASCII white-space
// for keeping it visible.
if (!aTextFragmentDataAtEndToDelete.PrecedingContentMayBecomeInvisible(
endToDelete)) {
return ReplaceRangeData();
}
EditorDOMPointInText atPreviousCharOfStart =
GetPreviousEditableCharPoint(startToDelete);
if (!atPreviousCharOfStart.IsSet() ||
atPreviousCharOfStart.IsEndOfContainer() ||
!atPreviousCharOfStart.IsCharCollapsibleASCIISpace()) {
return ReplaceRangeData();
}
if (atPreviousCharOfStart.IsStartOfContainer() ||
atPreviousCharOfStart.IsPreviousCharASCIISpace()) {
atPreviousCharOfStart = GetFirstASCIIWhiteSpacePointCollapsedTo(
atPreviousCharOfStart, nsIEditor::eNone);
}
const EditorDOMPointInText endOfCollapsibleASCIIWhiteSpaces =
GetEndOfCollapsibleASCIIWhiteSpaces(atPreviousCharOfStart,
nsIEditor::eNone);
return ReplaceRangeData(atPreviousCharOfStart,
endOfCollapsibleASCIIWhiteSpaces,
nsDependentSubstring(&HTMLEditUtils::kNBSP, 1));
}
// static
nsresult
WhiteSpaceVisibilityKeeper::MakeSureToKeepVisibleWhiteSpacesVisibleAfterSplit(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPointToSplit) {
TextFragmentData textFragmentDataAtSplitPoint(
aPointToSplit, aHTMLEditor.ComputeEditingHost(),
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtSplitPoint.IsInitialized())) {
return NS_ERROR_FAILURE;
}
// used to prepare white-space sequence to be split across two blocks.
// The main issue here is make sure white-spaces around the split point
// doesn't end up becoming non-significant leading or trailing ws after
// the split.
const VisibleWhiteSpacesData& visibleWhiteSpaces =
textFragmentDataAtSplitPoint.VisibleWhiteSpacesDataRef();
if (!visibleWhiteSpaces.IsInitialized()) {
return NS_OK; // No visible white-space sequence.
}
PointPosition pointPositionWithVisibleWhiteSpaces =
visibleWhiteSpaces.ComparePoint(aPointToSplit);
// XXX If we split white-space sequence, the following code modify the DOM
// tree twice. This is not reasonable and the latter change may touch
// wrong position. We should do this once.
// If we insert block boundary to start or middle of the white-space sequence,
// the character at the insertion point needs to be an NBSP.
EditorDOMPoint pointToSplit(aPointToSplit);
if (pointPositionWithVisibleWhiteSpaces == PointPosition::StartOfFragment ||
pointPositionWithVisibleWhiteSpaces == PointPosition::MiddleOfFragment) {
EditorDOMPointInText atNextCharOfStart =
textFragmentDataAtSplitPoint.GetInclusiveNextEditableCharPoint(
pointToSplit);
if (atNextCharOfStart.IsSet() && !atNextCharOfStart.IsEndOfContainer() &&
atNextCharOfStart.IsCharCollapsibleASCIISpace()) {
// pointToSplit will be referred bellow so that we need to keep
// it a valid point.
AutoEditorDOMPointChildInvalidator forgetChild(pointToSplit);
AutoTrackDOMPoint trackSplitPoint(aHTMLEditor.RangeUpdaterRef(),
&pointToSplit);
if (atNextCharOfStart.IsStartOfContainer() ||
atNextCharOfStart.IsPreviousCharASCIISpace()) {
atNextCharOfStart = textFragmentDataAtSplitPoint
.GetFirstASCIIWhiteSpacePointCollapsedTo(
atNextCharOfStart, nsIEditor::eNone);
}
const EditorDOMPointInText endOfCollapsibleASCIIWhiteSpaces =
textFragmentDataAtSplitPoint.GetEndOfCollapsibleASCIIWhiteSpaces(
atNextCharOfStart, nsIEditor::eNone);
nsresult rv =
WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes(
aHTMLEditor,
EditorDOMRangeInTexts(atNextCharOfStart,
endOfCollapsibleASCIIWhiteSpaces),
nsDependentSubstring(&HTMLEditUtils::kNBSP, 1));
if (NS_FAILED(rv)) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes() "
"failed");
return rv;
}
}
}
// If we insert block boundary to middle of or end of the white-space
// sequence, the previous character at the insertion point needs to be an
// NBSP.
if (pointPositionWithVisibleWhiteSpaces == PointPosition::MiddleOfFragment ||
pointPositionWithVisibleWhiteSpaces == PointPosition::EndOfFragment) {
EditorDOMPointInText atPreviousCharOfStart =
textFragmentDataAtSplitPoint.GetPreviousEditableCharPoint(pointToSplit);
if (atPreviousCharOfStart.IsSet() &&
!atPreviousCharOfStart.IsEndOfContainer() &&
atPreviousCharOfStart.IsCharCollapsibleASCIISpace()) {
if (atPreviousCharOfStart.IsStartOfContainer() ||
atPreviousCharOfStart.IsPreviousCharASCIISpace()) {
atPreviousCharOfStart =
textFragmentDataAtSplitPoint
.GetFirstASCIIWhiteSpacePointCollapsedTo(atPreviousCharOfStart,
nsIEditor::eNone);
}
const EditorDOMPointInText endOfCollapsibleASCIIWhiteSpaces =
textFragmentDataAtSplitPoint.GetEndOfCollapsibleASCIIWhiteSpaces(
atPreviousCharOfStart, nsIEditor::eNone);
nsresult rv =
WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes(
aHTMLEditor,
EditorDOMRangeInTexts(atPreviousCharOfStart,
endOfCollapsibleASCIIWhiteSpaces),
nsDependentSubstring(&HTMLEditUtils::kNBSP, 1));
if (NS_FAILED(rv)) {
NS_WARNING(
"WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes() "
"failed");
return rv;
}
}
}
return NS_OK;
}
template <typename EditorDOMPointType, typename PT, typename CT>
EditorDOMPointType
WSRunScanner::TextFragmentData::GetInclusiveNextEditableCharPoint(
const EditorDOMPointBase<PT, CT>& aPoint) const {
MOZ_ASSERT(aPoint.IsSetAndValid());
if (NS_WARN_IF(!aPoint.IsInContentNode()) ||
NS_WARN_IF(!mScanStartPoint.IsInContentNode())) {
return EditorDOMPointType();
}
EditorRawDOMPoint point;
if (nsIContent* child =
aPoint.CanContainerHaveChildren() ? aPoint.GetChild() : nullptr) {
nsIContent* leafContent = child->HasChildren()
? HTMLEditUtils::GetFirstLeafContent(
*child, {LeafNodeType::OnlyLeafNode})
: child;
if (NS_WARN_IF(!leafContent)) {
return EditorDOMPointType();
}
point.Set(leafContent, 0);
} else {
point = aPoint.template To<EditorRawDOMPoint>();
}
// If it points a character in a text node, return it.
// XXX For the performance, this does not check whether the container
// is outside of our range.
if (point.IsInTextNode() && point.GetContainer()->IsEditable() &&
!point.IsEndOfContainer()) {
return EditorDOMPointType(point.ContainerAs<Text>(), point.Offset());
}
if (point.GetContainer() == GetEndReasonContent()) {
return EditorDOMPointType();
}
NS_ASSERTION(
EditorUtils::IsEditableContent(*mScanStartPoint.ContainerAs<nsIContent>(),
EditorType::HTML),
"Given content is not editable");
NS_ASSERTION(
mScanStartPoint.ContainerAs<nsIContent>()->GetAsElementOrParentElement(),
"Given content is not an element and an orphan node");
nsIContent* editableBlockElementOrInlineEditingHost =
mScanStartPoint.ContainerAs<nsIContent>() &&
EditorUtils::IsEditableContent(
*mScanStartPoint.ContainerAs<nsIContent>(), EditorType::HTML)
? HTMLEditUtils::GetInclusiveAncestorElement(
*mScanStartPoint.ContainerAs<nsIContent>(),
HTMLEditUtils::ClosestEditableBlockElementOrInlineEditingHost,
mBlockInlineCheck)
: nullptr;
if (NS_WARN_IF(!editableBlockElementOrInlineEditingHost)) {
// Meaning that the container of `mScanStartPoint` is not editable.
editableBlockElementOrInlineEditingHost =
mScanStartPoint.ContainerAs<nsIContent>();
}
for (nsIContent* nextContent =
HTMLEditUtils::GetNextLeafContentOrNextBlockElement(
*point.ContainerAs<nsIContent>(),
*editableBlockElementOrInlineEditingHost,
{LeafNodeType::LeafNodeOrNonEditableNode}, mBlockInlineCheck,
mEditingHost);
nextContent;
nextContent = HTMLEditUtils::GetNextLeafContentOrNextBlockElement(
*nextContent, *editableBlockElementOrInlineEditingHost,
{LeafNodeType::LeafNodeOrNonEditableNode}, mBlockInlineCheck,
mEditingHost)) {
if (!nextContent->IsText() || !nextContent->IsEditable()) {
if (nextContent == GetEndReasonContent()) {
break; // Reached end of current runs.
}
continue;
}
return EditorDOMPointType(nextContent->AsText(), 0);
}
return EditorDOMPointType();
}
template <typename EditorDOMPointType, typename PT, typename CT>
EditorDOMPointType WSRunScanner::TextFragmentData::GetPreviousEditableCharPoint(
const EditorDOMPointBase<PT, CT>& aPoint) const {
MOZ_ASSERT(aPoint.IsSetAndValid());
if (NS_WARN_IF(!aPoint.IsInContentNode()) ||
NS_WARN_IF(!mScanStartPoint.IsInContentNode())) {
return EditorDOMPointType();
}
EditorRawDOMPoint point;
if (nsIContent* previousChild = aPoint.CanContainerHaveChildren()
? aPoint.GetPreviousSiblingOfChild()
: nullptr) {
nsIContent* leafContent =
previousChild->HasChildren()
? HTMLEditUtils::GetLastLeafContent(*previousChild,
{LeafNodeType::OnlyLeafNode})
: previousChild;
if (NS_WARN_IF(!leafContent)) {
return EditorDOMPointType();
}
point.SetToEndOf(leafContent);
} else {
point = aPoint.template To<EditorRawDOMPoint>();
}
// If it points a character in a text node and it's not first character
// in it, return its previous point.
// XXX For the performance, this does not check whether the container
// is outside of our range.
if (point.IsInTextNode() && point.GetContainer()->IsEditable() &&
!point.IsStartOfContainer()) {
return EditorDOMPointType(point.ContainerAs<Text>(), point.Offset() - 1);
}
if (point.GetContainer() == GetStartReasonContent()) {
return EditorDOMPointType();
}
NS_ASSERTION(
EditorUtils::IsEditableContent(*mScanStartPoint.ContainerAs<nsIContent>(),
EditorType::HTML),
"Given content is not editable");
NS_ASSERTION(
mScanStartPoint.ContainerAs<nsIContent>()->GetAsElementOrParentElement(),
"Given content is not an element and an orphan node");
nsIContent* editableBlockElementOrInlineEditingHost =
mScanStartPoint.ContainerAs<nsIContent>() &&
EditorUtils::IsEditableContent(
*mScanStartPoint.ContainerAs<nsIContent>(), EditorType::HTML)
? HTMLEditUtils::GetInclusiveAncestorElement(
*mScanStartPoint.ContainerAs<nsIContent>(),
HTMLEditUtils::ClosestEditableBlockElementOrInlineEditingHost,
mBlockInlineCheck)
: nullptr;
if (NS_WARN_IF(!editableBlockElementOrInlineEditingHost)) {
// Meaning that the container of `mScanStartPoint` is not editable.
editableBlockElementOrInlineEditingHost =
mScanStartPoint.ContainerAs<nsIContent>();
}
for (nsIContent* previousContent =
HTMLEditUtils::GetPreviousLeafContentOrPreviousBlockElement(
*point.ContainerAs<nsIContent>(),
*editableBlockElementOrInlineEditingHost,
{LeafNodeType::LeafNodeOrNonEditableNode}, mBlockInlineCheck,
mEditingHost);
previousContent;
previousContent =
HTMLEditUtils::GetPreviousLeafContentOrPreviousBlockElement(
*previousContent, *editableBlockElementOrInlineEditingHost,
{LeafNodeType::LeafNodeOrNonEditableNode}, mBlockInlineCheck,
mEditingHost)) {
if (!previousContent->IsText() || !previousContent->IsEditable()) {
if (previousContent == GetStartReasonContent()) {
break; // Reached start of current runs.
}
continue;
}
return EditorDOMPointType(previousContent->AsText(),
previousContent->AsText()->TextLength()
? previousContent->AsText()->TextLength() - 1
: 0);
}
return EditorDOMPointType();
}
// static
template <typename EditorDOMPointType>
EditorDOMPointType WSRunScanner::GetAfterLastVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter) {
EditorDOMPoint atLastCharOfTextNode(
&aTextNode, AssertedCast<uint32_t>(std::max<int64_t>(
static_cast<int64_t>(aTextNode.Length()) - 1, 0)));
if (!atLastCharOfTextNode.IsContainerEmpty() &&
!atLastCharOfTextNode.IsCharCollapsibleASCIISpace()) {
return EditorDOMPointType::AtEndOf(aTextNode);
}
TextFragmentData textFragmentData(atLastCharOfTextNode, aAncestorLimiter,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentData.IsInitialized())) {
return EditorDOMPointType(); // TODO: Make here return error with Err.
}
const EditorDOMRange& invisibleWhiteSpaceRange =
textFragmentData.InvisibleTrailingWhiteSpaceRangeRef();
if (!invisibleWhiteSpaceRange.IsPositioned() ||
invisibleWhiteSpaceRange.Collapsed()) {
return EditorDOMPointType::AtEndOf(aTextNode);
}
return invisibleWhiteSpaceRange.StartRef().To<EditorDOMPointType>();
}
// static
template <typename EditorDOMPointType>
EditorDOMPointType WSRunScanner::GetFirstVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter) {
EditorDOMPoint atStartOfTextNode(&aTextNode, 0);
if (!atStartOfTextNode.IsContainerEmpty() &&
atStartOfTextNode.IsCharCollapsibleASCIISpace()) {
return atStartOfTextNode.To<EditorDOMPointType>();
}
TextFragmentData textFragmentData(atStartOfTextNode, aAncestorLimiter,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentData.IsInitialized())) {
return EditorDOMPointType(); // TODO: Make here return error with Err.
}
const EditorDOMRange& invisibleWhiteSpaceRange =
textFragmentData.InvisibleLeadingWhiteSpaceRangeRef();
if (!invisibleWhiteSpaceRange.IsPositioned() ||
invisibleWhiteSpaceRange.Collapsed()) {
return atStartOfTextNode.To<EditorDOMPointType>();
}
return invisibleWhiteSpaceRange.EndRef().To<EditorDOMPointType>();
}
template <typename EditorDOMPointType>
EditorDOMPointType
WSRunScanner::TextFragmentData::GetEndOfCollapsibleASCIIWhiteSpaces(
const EditorDOMPointInText& aPointAtASCIIWhiteSpace,
nsIEditor::EDirection aDirectionToDelete) const {
MOZ_ASSERT(aDirectionToDelete == nsIEditor::eNone ||
aDirectionToDelete == nsIEditor::eNext ||
aDirectionToDelete == nsIEditor::ePrevious);
MOZ_ASSERT(aPointAtASCIIWhiteSpace.IsSet());
MOZ_ASSERT(!aPointAtASCIIWhiteSpace.IsEndOfContainer());
MOZ_ASSERT_IF(!EditorUtils::IsNewLinePreformatted(
*aPointAtASCIIWhiteSpace.ContainerAs<Text>()),
aPointAtASCIIWhiteSpace.IsCharCollapsibleASCIISpace());
MOZ_ASSERT_IF(EditorUtils::IsNewLinePreformatted(
*aPointAtASCIIWhiteSpace.ContainerAs<Text>()),
aPointAtASCIIWhiteSpace.IsCharASCIISpace());
// If we're deleting text forward and the next visible character is first
// preformatted new line but white-spaces can be collapsed, we need to
// delete its following collapsible white-spaces too.
bool hasSeenPreformattedNewLine =
aPointAtASCIIWhiteSpace.IsCharPreformattedNewLine();
auto NeedToScanFollowingWhiteSpaces =
[&hasSeenPreformattedNewLine, &aDirectionToDelete](
const EditorDOMPointInText& aAtNextVisibleCharacter) -> bool {
MOZ_ASSERT(!aAtNextVisibleCharacter.IsEndOfContainer());
return !hasSeenPreformattedNewLine &&
aDirectionToDelete == nsIEditor::eNext &&
aAtNextVisibleCharacter
.IsCharPreformattedNewLineCollapsedWithWhiteSpaces();
};
auto ScanNextNonCollapsibleChar =
[&hasSeenPreformattedNewLine, &NeedToScanFollowingWhiteSpaces](
const EditorDOMPointInText& aPoint) -> EditorDOMPointInText {
Maybe<uint32_t> nextVisibleCharOffset =
HTMLEditUtils::GetNextNonCollapsibleCharOffset(aPoint);
if (!nextVisibleCharOffset.isSome()) {
return EditorDOMPointInText(); // Keep scanning following text nodes
}
EditorDOMPointInText atNextVisibleChar(aPoint.ContainerAs<Text>(),
nextVisibleCharOffset.value());
if (!NeedToScanFollowingWhiteSpaces(atNextVisibleChar)) {
return atNextVisibleChar;
}
hasSeenPreformattedNewLine |= atNextVisibleChar.IsCharPreformattedNewLine();
nextVisibleCharOffset =
HTMLEditUtils::GetNextNonCollapsibleCharOffset(atNextVisibleChar);
if (nextVisibleCharOffset.isSome()) {
MOZ_ASSERT(aPoint.ContainerAs<Text>() ==
atNextVisibleChar.ContainerAs<Text>());
return EditorDOMPointInText(atNextVisibleChar.ContainerAs<Text>(),
nextVisibleCharOffset.value());
}
return EditorDOMPointInText(); // Keep scanning following text nodes
};
// If it's not the last character in the text node, let's scan following
// characters in it.
if (!aPointAtASCIIWhiteSpace.IsAtLastContent()) {
const EditorDOMPointInText atNextVisibleChar(
ScanNextNonCollapsibleChar(aPointAtASCIIWhiteSpace));
if (atNextVisibleChar.IsSet()) {
return atNextVisibleChar.To<EditorDOMPointType>();
}
}
// Otherwise, i.e., the text node ends with ASCII white-space, keep scanning
// the following text nodes.
// XXX Perhaps, we should stop scanning if there is non-editable and visible
// content.
EditorDOMPointInText afterLastWhiteSpace = EditorDOMPointInText::AtEndOf(
*aPointAtASCIIWhiteSpace.ContainerAs<Text>());
for (EditorDOMPointInText atEndOfPreviousTextNode = afterLastWhiteSpace;;) {
const auto atStartOfNextTextNode =
GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(
atEndOfPreviousTextNode);
if (!atStartOfNextTextNode.IsSet()) {
// There is no more text nodes. Return end of the previous text node.
return afterLastWhiteSpace.To<EditorDOMPointType>();
}
// We can ignore empty text nodes (even if it's preformatted).
if (atStartOfNextTextNode.IsContainerEmpty()) {
atEndOfPreviousTextNode = atStartOfNextTextNode;
continue;
}
// If next node starts with non-white-space character or next node is
// preformatted, return end of previous text node. However, if it
// starts with a preformatted linefeed but white-spaces are collapsible,
// we need to scan following collapsible white-spaces when we're deleting
// text forward.
if (!atStartOfNextTextNode.IsCharCollapsibleASCIISpace() &&
!NeedToScanFollowingWhiteSpaces(atStartOfNextTextNode)) {
return afterLastWhiteSpace.To<EditorDOMPointType>();
}
// Otherwise, scan the text node.
const EditorDOMPointInText atNextVisibleChar(
ScanNextNonCollapsibleChar(atStartOfNextTextNode));
if (atNextVisibleChar.IsSet()) {
return atNextVisibleChar.To<EditorDOMPointType>();
}
// The next text nodes ends with white-space too. Try next one.
afterLastWhiteSpace = atEndOfPreviousTextNode =
EditorDOMPointInText::AtEndOf(
*atStartOfNextTextNode.ContainerAs<Text>());
}
}
template <typename EditorDOMPointType>
EditorDOMPointType
WSRunScanner::TextFragmentData::GetFirstASCIIWhiteSpacePointCollapsedTo(
const EditorDOMPointInText& aPointAtASCIIWhiteSpace,
nsIEditor::EDirection aDirectionToDelete) const {
MOZ_ASSERT(aDirectionToDelete == nsIEditor::eNone ||
aDirectionToDelete == nsIEditor::eNext ||
aDirectionToDelete == nsIEditor::ePrevious);
MOZ_ASSERT(aPointAtASCIIWhiteSpace.IsSet());
MOZ_ASSERT(!aPointAtASCIIWhiteSpace.IsEndOfContainer());
MOZ_ASSERT_IF(!EditorUtils::IsNewLinePreformatted(
*aPointAtASCIIWhiteSpace.ContainerAs<Text>()),
aPointAtASCIIWhiteSpace.IsCharCollapsibleASCIISpace());
MOZ_ASSERT_IF(EditorUtils::IsNewLinePreformatted(
*aPointAtASCIIWhiteSpace.ContainerAs<Text>()),
aPointAtASCIIWhiteSpace.IsCharASCIISpace());
// If we're deleting text backward and the previous visible character is first
// preformatted new line but white-spaces can be collapsed, we need to delete
// its preceding collapsible white-spaces too.
bool hasSeenPreformattedNewLine =
aPointAtASCIIWhiteSpace.IsCharPreformattedNewLine();
auto NeedToScanPrecedingWhiteSpaces =
[&hasSeenPreformattedNewLine, &aDirectionToDelete](
const EditorDOMPointInText& aAtPreviousVisibleCharacter) -> bool {
MOZ_ASSERT(!aAtPreviousVisibleCharacter.IsEndOfContainer());
return !hasSeenPreformattedNewLine &&
aDirectionToDelete == nsIEditor::ePrevious &&
aAtPreviousVisibleCharacter
.IsCharPreformattedNewLineCollapsedWithWhiteSpaces();
};
auto ScanPreviousNonCollapsibleChar =
[&hasSeenPreformattedNewLine, &NeedToScanPrecedingWhiteSpaces](
const EditorDOMPointInText& aPoint) -> EditorDOMPointInText {
Maybe<uint32_t> previousVisibleCharOffset =
HTMLEditUtils::GetPreviousNonCollapsibleCharOffset(aPoint);
if (previousVisibleCharOffset.isNothing()) {
return EditorDOMPointInText(); // Keep scanning preceding text nodes
}
EditorDOMPointInText atPreviousVisibleCharacter(
aPoint.ContainerAs<Text>(), previousVisibleCharOffset.value());
if (!NeedToScanPrecedingWhiteSpaces(atPreviousVisibleCharacter)) {
return atPreviousVisibleCharacter.NextPoint();
}
hasSeenPreformattedNewLine |=
atPreviousVisibleCharacter.IsCharPreformattedNewLine();
previousVisibleCharOffset =
HTMLEditUtils::GetPreviousNonCollapsibleCharOffset(
atPreviousVisibleCharacter);
if (previousVisibleCharOffset.isSome()) {
MOZ_ASSERT(aPoint.ContainerAs<Text>() ==
atPreviousVisibleCharacter.ContainerAs<Text>());
return EditorDOMPointInText(
atPreviousVisibleCharacter.ContainerAs<Text>(),
previousVisibleCharOffset.value() + 1);
}
return EditorDOMPointInText(); // Keep scanning preceding text nodes
};
// If there is some characters before it, scan it in the text node first.
if (!aPointAtASCIIWhiteSpace.IsStartOfContainer()) {
EditorDOMPointInText atFirstASCIIWhiteSpace(
ScanPreviousNonCollapsibleChar(aPointAtASCIIWhiteSpace));
if (atFirstASCIIWhiteSpace.IsSet()) {
return atFirstASCIIWhiteSpace.To<EditorDOMPointType>();
}
}
// Otherwise, i.e., the text node starts with ASCII white-space, keep scanning
// the preceding text nodes.
// XXX Perhaps, we should stop scanning if there is non-editable and visible
// content.
EditorDOMPointInText atLastWhiteSpace =
EditorDOMPointInText(aPointAtASCIIWhiteSpace.ContainerAs<Text>(), 0u);
for (EditorDOMPointInText atStartOfPreviousTextNode = atLastWhiteSpace;;) {
const EditorDOMPointInText atLastCharOfPreviousTextNode =
GetPreviousEditableCharPoint(atStartOfPreviousTextNode);
if (!atLastCharOfPreviousTextNode.IsSet()) {
// There is no more text nodes. Return end of last text node.
return atLastWhiteSpace.To<EditorDOMPointType>();
}
// We can ignore empty text nodes (even if it's preformatted).
if (atLastCharOfPreviousTextNode.IsContainerEmpty()) {
atStartOfPreviousTextNode = atLastCharOfPreviousTextNode;
continue;
}
// If next node ends with non-white-space character or next node is
// preformatted, return start of previous text node.
if (!atLastCharOfPreviousTextNode.IsCharCollapsibleASCIISpace() &&
!NeedToScanPrecedingWhiteSpaces(atLastCharOfPreviousTextNode)) {
return atLastWhiteSpace.To<EditorDOMPointType>();
}
// Otherwise, scan the text node.
const EditorDOMPointInText atFirstASCIIWhiteSpace(
ScanPreviousNonCollapsibleChar(atLastCharOfPreviousTextNode));
if (atFirstASCIIWhiteSpace.IsSet()) {
return atFirstASCIIWhiteSpace.To<EditorDOMPointType>();
}
// The next text nodes starts with white-space too. Try next one.
atLastWhiteSpace = atStartOfPreviousTextNode = EditorDOMPointInText(
atLastCharOfPreviousTextNode.ContainerAs<Text>(), 0u);
}
}
// static
nsresult WhiteSpaceVisibilityKeeper::ReplaceTextAndRemoveEmptyTextNodes(
HTMLEditor& aHTMLEditor, const EditorDOMRangeInTexts& aRangeToReplace,
const nsAString& aReplaceString) {
MOZ_ASSERT(aRangeToReplace.IsPositioned());
MOZ_ASSERT(aRangeToReplace.StartRef().IsSetAndValid());
MOZ_ASSERT(aRangeToReplace.EndRef().IsSetAndValid());
MOZ_ASSERT(aRangeToReplace.StartRef().IsBefore(aRangeToReplace.EndRef()));
{
Result<InsertTextResult, nsresult> caretPointOrError =
aHTMLEditor.ReplaceTextWithTransaction(
MOZ_KnownLive(*aRangeToReplace.StartRef().ContainerAs<Text>()),
aRangeToReplace.StartRef().Offset(),
aRangeToReplace.InSameContainer()
? aRangeToReplace.EndRef().Offset() -
aRangeToReplace.StartRef().Offset()
: aRangeToReplace.StartRef().ContainerAs<Text>()->TextLength() -
aRangeToReplace.StartRef().Offset(),
aReplaceString);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING("HTMLEditor::ReplaceTextWithTransaction() failed");
return caretPointOrError.unwrapErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
}
if (aRangeToReplace.InSameContainer()) {
return NS_OK;
}
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
EditorDOMPointInText::AtEndOf(
*aRangeToReplace.StartRef().ContainerAs<Text>()),
aRangeToReplace.EndRef(),
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING("HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.unwrapErr();
}
// Ignore caret suggestion because there was
// AutoTransactionsConserveSelection.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
return NS_OK;
}
char16_t WSRunScanner::GetCharAt(Text* aTextNode, uint32_t aOffset) const {
// return 0 if we can't get a char, for whatever reason
if (NS_WARN_IF(!aTextNode) ||
NS_WARN_IF(aOffset >= aTextNode->TextDataLength())) {
return 0;
}
return aTextNode->TextFragment().CharAt(aOffset);
}
// static
template <typename EditorDOMPointType>
nsresult WhiteSpaceVisibilityKeeper::NormalizeVisibleWhiteSpacesAt(
HTMLEditor& aHTMLEditor, const EditorDOMPointType& aPoint) {
MOZ_ASSERT(aPoint.IsInContentNode());
MOZ_ASSERT(EditorUtils::IsEditableContent(
*aPoint.template ContainerAs<nsIContent>(), EditorType::HTML));
Element* editingHost = aHTMLEditor.ComputeEditingHost();
TextFragmentData textFragmentData(aPoint, editingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentData.IsInitialized())) {
return NS_ERROR_FAILURE;
}
// this routine examines a run of ws and tries to get rid of some unneeded
// nbsp's, replacing them with regular ascii space if possible. Keeping
// things simple for now and just trying to fix up the trailing ws in the run.
if (!textFragmentData.FoundNoBreakingWhiteSpaces()) {
// nothing to do!
return NS_OK;
}
const VisibleWhiteSpacesData& visibleWhiteSpaces =
textFragmentData.VisibleWhiteSpacesDataRef();
if (!visibleWhiteSpaces.IsInitialized()) {
return NS_OK;
}
// Remove this block if we ship Blink-compat white-space normalization.
if (!StaticPrefs::editor_white_space_normalization_blink_compatible()) {
// now check that what is to the left of it is compatible with replacing
// nbsp with space
const EditorDOMPoint& atEndOfVisibleWhiteSpaces =
visibleWhiteSpaces.EndRef();
EditorDOMPointInText atPreviousCharOfEndOfVisibleWhiteSpaces =
textFragmentData.GetPreviousEditableCharPoint(
atEndOfVisibleWhiteSpaces);
if (!atPreviousCharOfEndOfVisibleWhiteSpaces.IsSet() ||
atPreviousCharOfEndOfVisibleWhiteSpaces.IsEndOfContainer() ||
// If the NBSP is never replaced from an ASCII white-space, we cannot
// replace it with an ASCII white-space.
!atPreviousCharOfEndOfVisibleWhiteSpaces.IsCharCollapsibleNBSP()) {
return NS_OK;
}
// now check that what is to the left of it is compatible with replacing
// nbsp with space
EditorDOMPointInText atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces =
textFragmentData.GetPreviousEditableCharPoint(
atPreviousCharOfEndOfVisibleWhiteSpaces);
bool isPreviousCharCollapsibleASCIIWhiteSpace =
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces.IsSet() &&
!atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces
.IsEndOfContainer() &&
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces
.IsCharCollapsibleASCIISpace();
const bool maybeNBSPFollowsVisibleContent =
(atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces.IsSet() &&
!isPreviousCharCollapsibleASCIIWhiteSpace) ||
(!atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces.IsSet() &&
(visibleWhiteSpaces.StartsFromNonCollapsibleCharacters() ||
visibleWhiteSpaces.StartsFromSpecialContent()));
bool followedByVisibleContent =
visibleWhiteSpaces.EndsByNonCollapsibleCharacters() ||
visibleWhiteSpaces.EndsBySpecialContent();
bool followedByBRElement = visibleWhiteSpaces.EndsByBRElement();
bool followedByPreformattedLineBreak =
visibleWhiteSpaces.EndsByPreformattedLineBreak();
// If the NBSP follows a visible content or a collapsible ASCII white-space,
// i.e., unless NBSP is first character and start of a block, we may need to
// insert <br> element and restore the NBSP to an ASCII white-space.
if (maybeNBSPFollowsVisibleContent ||
isPreviousCharCollapsibleASCIIWhiteSpace) {
// First, try to insert <br> element if NBSP is at end of a block.
// XXX We should stop this if there is a visible content.
if ((visibleWhiteSpaces.EndsByBlockBoundary() ||
visibleWhiteSpaces.EndsByInlineEditingHostBoundary()) &&
aPoint.IsInContentNode()) {
bool insertBRElement = HTMLEditUtils::IsBlockElement(
*aPoint.template ContainerAs<nsIContent>(),
BlockInlineCheck::UseComputedDisplayStyle);
if (!insertBRElement) {
NS_ASSERTION(
EditorUtils::IsEditableContent(
*aPoint.template ContainerAs<nsIContent>(), EditorType::HTML),
"Given content is not editable");
NS_ASSERTION(aPoint.template ContainerAs<nsIContent>()
->GetAsElementOrParentElement(),
"Given content is not an element and an orphan node");
const Element* editableBlockElement =
EditorUtils::IsEditableContent(
*aPoint.template ContainerAs<nsIContent>(), EditorType::HTML)
? HTMLEditUtils::GetInclusiveAncestorElement(
*aPoint.template ContainerAs<nsIContent>(),
HTMLEditUtils::ClosestEditableBlockElement,
BlockInlineCheck::UseComputedDisplayStyle)
: nullptr;
insertBRElement = !!editableBlockElement;
}
if (insertBRElement) {
// We are at a block boundary. Insert a <br>. Why? Well, first note
// that the br will have no visible effect since it is up against a
// block boundary. |foo<br><p>bar| renders like |foo<p>bar| and
// similarly |<p>foo<br></p>bar| renders like |<p>foo</p>bar|. What
// this <br> addition gets us is the ability to convert a trailing
// nbsp to a space. Consider: |<body>foo. '</body>|, where '
// represents selection. User types space attempting to put 2 spaces
// after the end of their sentence. We used to do this as:
// |<body>foo.  </body>| This caused problems with soft wrapping:
// the nbsp would wrap to the next line, which looked attrocious. If
// you try to do: |<body>foo.  </body>| instead, the trailing
// space is invisible because it is against a block boundary. If you
// do:
// |<body>foo.  </body>| then you get an even uglier soft
// wrapping problem, where foo is on one line until you type the final
// space, and then "foo " jumps down to the next line. Ugh. The
// best way I can find out of this is to throw in a harmless <br>
// here, which allows us to do: |<body>foo.  <br></body>|, which
// doesn't cause foo to jump lines, doesn't cause spaces to show up at
// the beginning of soft wrapped lines, and lets the user see 2 spaces
// when they type 2 spaces.
Result<CreateElementResult, nsresult> insertBRElementResult =
aHTMLEditor.InsertBRElement(WithTransaction::Yes,
atEndOfVisibleWhiteSpaces);
if (MOZ_UNLIKELY(insertBRElementResult.isErr())) {
NS_WARNING(
"HTMLEditor::InsertBRElement(WithTransaction::Yes) failed");
return insertBRElementResult.propagateErr();
}
MOZ_ASSERT(insertBRElementResult.inspect().GetNewNode());
// Ignore caret suggestion because the caller must want to restore
// `Selection` due to the purpose of this method.
insertBRElementResult.unwrap().IgnoreCaretPointSuggestion();
atPreviousCharOfEndOfVisibleWhiteSpaces =
textFragmentData.GetPreviousEditableCharPoint(
atEndOfVisibleWhiteSpaces);
if (NS_WARN_IF(!atPreviousCharOfEndOfVisibleWhiteSpaces.IsSet())) {
return NS_ERROR_EDITOR_UNEXPECTED_DOM_TREE;
}
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces =
textFragmentData.GetPreviousEditableCharPoint(
atPreviousCharOfEndOfVisibleWhiteSpaces);
isPreviousCharCollapsibleASCIIWhiteSpace =
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces.IsSet() &&
!atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces
.IsEndOfContainer() &&
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces
.IsCharCollapsibleASCIISpace();
followedByBRElement = true;
followedByVisibleContent = followedByPreformattedLineBreak = false;
}
}
// Once insert a <br>, the remaining work is only for normalizing
// white-space sequence in white-space collapsible text node.
// So, if the the text node's white-spaces are preformatted, we need
// to do nothing anymore.
if (EditorUtils::IsWhiteSpacePreformatted(
*atPreviousCharOfEndOfVisibleWhiteSpaces.ContainerAs<Text>())) {
return NS_OK;
}
// Next, replace the NBSP with an ASCII white-space if it's surrounded
// by visible contents (or immediately before a <br> element).
// However, if it follows or is followed by a preformatted linefeed,
// we shouldn't do this because an ASCII white-space will be collapsed
// **into** the linefeed.
if (maybeNBSPFollowsVisibleContent &&
(followedByVisibleContent || followedByBRElement) &&
!visibleWhiteSpaces.StartsFromPreformattedLineBreak()) {
MOZ_ASSERT(!followedByPreformattedLineBreak);
Result<InsertTextResult, nsresult> replaceTextResult =
aHTMLEditor.ReplaceTextWithTransaction(
MOZ_KnownLive(*atPreviousCharOfEndOfVisibleWhiteSpaces
.ContainerAs<Text>()),
atPreviousCharOfEndOfVisibleWhiteSpaces.Offset(), 1, u" "_ns);
if (MOZ_UNLIKELY(replaceTextResult.isErr())) {
NS_WARNING("HTMLEditor::ReplaceTextWithTransaction() failed");
return replaceTextResult.propagateErr();
}
// Ignore caret suggestion because the caller must want to restore
// `Selection` due to the purpose of this method.
replaceTextResult.unwrap().IgnoreCaretPointSuggestion();
return NS_OK;
}
}
// If the text node is not preformatted, and the NBSP is followed by a <br>
// element and following (maybe multiple) collapsible ASCII white-spaces,
// remove the NBSP, but inserts a NBSP before the spaces. This makes a line
// break opportunity to wrap the line.
// XXX This is different behavior from Blink. Blink generates pairs of
// an NBSP and an ASCII white-space, but put NBSP at the end of the
// sequence. We should follow the behavior for web-compat.
if (maybeNBSPFollowsVisibleContent ||
!isPreviousCharCollapsibleASCIIWhiteSpace ||
!(followedByVisibleContent || followedByBRElement) ||
EditorUtils::IsWhiteSpacePreformatted(
*atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces
.ContainerAs<Text>())) {
return NS_OK;
}
// Currently, we're at an NBSP following an ASCII space, and we need to
// replace them with `" "` for avoiding collapsing white-spaces.
MOZ_ASSERT(!atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces
.IsEndOfContainer());
const EditorDOMPointInText atFirstASCIIWhiteSpace =
textFragmentData.GetFirstASCIIWhiteSpacePointCollapsedTo(
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces,
nsIEditor::eNone);
uint32_t numberOfASCIIWhiteSpacesInStartNode =
atFirstASCIIWhiteSpace.ContainerAs<Text>() ==
atPreviousCharOfEndOfVisibleWhiteSpaces.ContainerAs<Text>()
? atPreviousCharOfEndOfVisibleWhiteSpaces.Offset() -
atFirstASCIIWhiteSpace.Offset()
: atFirstASCIIWhiteSpace.ContainerAs<Text>()->Length() -
atFirstASCIIWhiteSpace.Offset();
// Replace all preceding ASCII white-spaces **and** the NBSP.
uint32_t replaceLengthInStartNode =
numberOfASCIIWhiteSpacesInStartNode +
(atFirstASCIIWhiteSpace.ContainerAs<Text>() ==
atPreviousCharOfEndOfVisibleWhiteSpaces.ContainerAs<Text>()
? 1
: 0);
Result<InsertTextResult, nsresult> replaceTextResult =
aHTMLEditor.ReplaceTextWithTransaction(
MOZ_KnownLive(*atFirstASCIIWhiteSpace.ContainerAs<Text>()),
atFirstASCIIWhiteSpace.Offset(), replaceLengthInStartNode,
textFragmentData.StartsFromPreformattedLineBreak() &&
textFragmentData.EndsByPreformattedLineBreak()
? u"\x00A0\x00A0"_ns
: (textFragmentData.EndsByPreformattedLineBreak()
? u" \x00A0"_ns
: u"\x00A0 "_ns));
if (MOZ_UNLIKELY(replaceTextResult.isErr())) {
NS_WARNING("HTMLEditor::ReplaceTextWithTransaction() failed");
return replaceTextResult.propagateErr();
}
// Ignore caret suggestion because the caller must want to restore
// `Selection` due to the purpose of this method.
replaceTextResult.unwrap().IgnoreCaretPointSuggestion();
if (atFirstASCIIWhiteSpace.GetContainer() ==
atPreviousCharOfEndOfVisibleWhiteSpaces.GetContainer()) {
return NS_OK;
}
// We need to remove the following unnecessary ASCII white-spaces and
// NBSP at atPreviousCharOfEndOfVisibleWhiteSpaces because we collapsed them
// into the start node.
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
EditorDOMPointInText::AtEndOf(
*atFirstASCIIWhiteSpace.ContainerAs<Text>()),
atPreviousCharOfEndOfVisibleWhiteSpaces.NextPoint(),
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING("HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.propagateErr();
}
// Ignore caret suggestion because the caller must want to restore
// `Selection` due to the purpose of this method. }
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
return NS_OK;
}
// XXX This is called when top-level edit sub-action handling ends for
// 3 points at most. However, this is not compatible with Blink.
// Blink touches white-space sequence which includes new character
// or following white-space sequence of new <br> element or, if and
// only if deleting range is followed by white-space sequence (i.e.,
// not touched previous white-space sequence of deleting range).
// This should be done when we change to make each edit action
// handler directly normalize white-space sequence rather than
// OnEndHandlingTopLevelEditSucAction().
// First, check if the last character is an NBSP. Otherwise, we don't need
// to do nothing here.
const EditorDOMPoint& atEndOfVisibleWhiteSpaces = visibleWhiteSpaces.EndRef();
const EditorDOMPointInText atPreviousCharOfEndOfVisibleWhiteSpaces =
textFragmentData.GetPreviousEditableCharPoint(atEndOfVisibleWhiteSpaces);
if (!atPreviousCharOfEndOfVisibleWhiteSpaces.IsSet() ||
atPreviousCharOfEndOfVisibleWhiteSpaces.IsEndOfContainer() ||
!atPreviousCharOfEndOfVisibleWhiteSpaces.IsCharCollapsibleNBSP() ||
// If the next character of the NBSP is a preformatted linefeed, we
// shouldn't replace it with an ASCII white-space for avoiding collapsed
// into the linefeed.
visibleWhiteSpaces.EndsByPreformattedLineBreak()) {
return NS_OK;
}
// Next, consider the range to collapse ASCII white-spaces before there.
EditorDOMPointInText startToDelete, endToDelete;
const EditorDOMPointInText
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces =
textFragmentData.GetPreviousEditableCharPoint(
atPreviousCharOfEndOfVisibleWhiteSpaces);
// If there are some preceding ASCII white-spaces, we need to treat them
// as one white-space. I.e., we need to collapse them.
if (atPreviousCharOfEndOfVisibleWhiteSpaces.IsCharNBSP() &&
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces.IsSet() &&
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces
.IsCharCollapsibleASCIISpace()) {
startToDelete = textFragmentData.GetFirstASCIIWhiteSpacePointCollapsedTo(
atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces,
nsIEditor::eNone);
endToDelete = atPreviousCharOfPreviousCharOfEndOfVisibleWhiteSpaces;
}
// Otherwise, we don't need to remove any white-spaces, but we may need
// to normalize the white-space sequence containing the previous NBSP.
else {
startToDelete = endToDelete =
atPreviousCharOfEndOfVisibleWhiteSpaces.NextPoint();
}
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndNormalizeSurroundingWhiteSpaces(
startToDelete, endToDelete,
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries,
HTMLEditor::DeleteDirection::Forward);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING(
"HTMLEditor::DeleteTextAndNormalizeSurroundingWhiteSpace() failed");
return caretPointOrError.unwrapErr();
}
// Ignore caret suggestion because the caller must want to restore
// `Selection` due to the purpose of this method.
caretPointOrError.unwrap().IgnoreCaretPointSuggestion();
return NS_OK;
}
EditorDOMPointInText WSRunScanner::TextFragmentData::
GetPreviousNBSPPointIfNeedToReplaceWithASCIIWhiteSpace(
const EditorDOMPoint& aPointToInsert) const {
MOZ_ASSERT(aPointToInsert.IsSetAndValid());
MOZ_ASSERT(VisibleWhiteSpacesDataRef().IsInitialized());
NS_ASSERTION(VisibleWhiteSpacesDataRef().ComparePoint(aPointToInsert) ==
PointPosition::MiddleOfFragment ||
VisibleWhiteSpacesDataRef().ComparePoint(aPointToInsert) ==
PointPosition::EndOfFragment,
"Previous char of aPoint should be in the visible white-spaces");
// Try to change an NBSP to a space, if possible, just to prevent NBSP
// proliferation. This routine is called when we are about to make this
// point in the ws abut an inserted break or text, so we don't have to worry
// about what is after it. What is after it now will end up after the
// inserted object.
const EditorDOMPointInText atPreviousChar =
GetPreviousEditableCharPoint(aPointToInsert);
if (!atPreviousChar.IsSet() || atPreviousChar.IsEndOfContainer() ||
!atPreviousChar.IsCharNBSP() ||
EditorUtils::IsWhiteSpacePreformatted(
*atPreviousChar.ContainerAs<Text>())) {
return EditorDOMPointInText();
}
const EditorDOMPointInText atPreviousCharOfPreviousChar =
GetPreviousEditableCharPoint(atPreviousChar);
if (atPreviousCharOfPreviousChar.IsSet()) {
// If the previous char is in different text node and it's preformatted,
// we shouldn't touch it.
if (atPreviousChar.ContainerAs<Text>() !=
atPreviousCharOfPreviousChar.ContainerAs<Text>() &&
EditorUtils::IsWhiteSpacePreformatted(
*atPreviousCharOfPreviousChar.ContainerAs<Text>())) {
return EditorDOMPointInText();
}
// If the previous char of the NBSP at previous position of aPointToInsert
// is an ASCII white-space, we don't need to replace it with same character.
if (!atPreviousCharOfPreviousChar.IsEndOfContainer() &&
atPreviousCharOfPreviousChar.IsCharASCIISpace()) {
return EditorDOMPointInText();
}
return atPreviousChar;
}
// If previous content of the NBSP is block boundary, we cannot replace the
// NBSP with an ASCII white-space to keep it rendered.
const VisibleWhiteSpacesData& visibleWhiteSpaces =
VisibleWhiteSpacesDataRef();
if (!visibleWhiteSpaces.StartsFromNonCollapsibleCharacters() &&
!visibleWhiteSpaces.StartsFromSpecialContent()) {
return EditorDOMPointInText();
}
return atPreviousChar;
}
EditorDOMPointInText WSRunScanner::TextFragmentData::
GetInclusiveNextNBSPPointIfNeedToReplaceWithASCIIWhiteSpace(
const EditorDOMPoint& aPointToInsert) const {
MOZ_ASSERT(aPointToInsert.IsSetAndValid());
MOZ_ASSERT(VisibleWhiteSpacesDataRef().IsInitialized());
NS_ASSERTION(VisibleWhiteSpacesDataRef().ComparePoint(aPointToInsert) ==
PointPosition::StartOfFragment ||
VisibleWhiteSpacesDataRef().ComparePoint(aPointToInsert) ==
PointPosition::MiddleOfFragment,
"Inclusive next char of aPointToInsert should be in the visible "
"white-spaces");
// Try to change an nbsp to a space, if possible, just to prevent nbsp
// proliferation This routine is called when we are about to make this point
// in the ws abut an inserted text, so we don't have to worry about what is
// before it. What is before it now will end up before the inserted text.
auto atNextChar =
GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(aPointToInsert);
if (!atNextChar.IsSet() || NS_WARN_IF(atNextChar.IsEndOfContainer()) ||
!atNextChar.IsCharNBSP() ||
EditorUtils::IsWhiteSpacePreformatted(*atNextChar.ContainerAs<Text>())) {
return EditorDOMPointInText();
}
const auto atNextCharOfNextCharOfNBSP =
GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(
atNextChar.NextPoint<EditorRawDOMPointInText>());
if (atNextCharOfNextCharOfNBSP.IsSet()) {
// If the next char is in different text node and it's preformatted,
// we shouldn't touch it.
if (atNextChar.ContainerAs<Text>() !=
atNextCharOfNextCharOfNBSP.ContainerAs<Text>() &&
EditorUtils::IsWhiteSpacePreformatted(
*atNextCharOfNextCharOfNBSP.ContainerAs<Text>())) {
return EditorDOMPointInText();
}
// If following character of an NBSP is an ASCII white-space, we don't
// need to replace it with same character.
if (!atNextCharOfNextCharOfNBSP.IsEndOfContainer() &&
atNextCharOfNextCharOfNBSP.IsCharASCIISpace()) {
return EditorDOMPointInText();
}
return atNextChar;
}
// If the NBSP is last character in the hard line, we don't need to
// replace it because it's required to render multiple white-spaces.
const VisibleWhiteSpacesData& visibleWhiteSpaces =
VisibleWhiteSpacesDataRef();
if (!visibleWhiteSpaces.EndsByNonCollapsibleCharacters() &&
!visibleWhiteSpaces.EndsBySpecialContent() &&
!visibleWhiteSpaces.EndsByBRElement()) {
return EditorDOMPointInText();
}
return atNextChar;
}
// static
Result<CaretPoint, nsresult>
WhiteSpaceVisibilityKeeper::DeleteInvisibleASCIIWhiteSpaces(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPoint) {
MOZ_ASSERT(aPoint.IsSet());
Element* editingHost = aHTMLEditor.ComputeEditingHost();
TextFragmentData textFragmentData(aPoint, editingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentData.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
const EditorDOMRange& leadingWhiteSpaceRange =
textFragmentData.InvisibleLeadingWhiteSpaceRangeRef();
// XXX Getting trailing white-space range now must be wrong because
// mutation event listener may invalidate it.
const EditorDOMRange& trailingWhiteSpaceRange =
textFragmentData.InvisibleTrailingWhiteSpaceRangeRef();
EditorDOMPoint pointToPutCaret;
DebugOnly<bool> leadingWhiteSpacesDeleted = false;
if (leadingWhiteSpaceRange.IsPositioned() &&
!leadingWhiteSpaceRange.Collapsed()) {
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
leadingWhiteSpaceRange.StartRef(), leadingWhiteSpaceRange.EndRef(),
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING("HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError;
}
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
leadingWhiteSpacesDeleted = true;
}
if (trailingWhiteSpaceRange.IsPositioned() &&
!trailingWhiteSpaceRange.Collapsed() &&
leadingWhiteSpaceRange != trailingWhiteSpaceRange) {
NS_ASSERTION(!leadingWhiteSpacesDeleted,
"We're trying to remove trailing white-spaces with maybe "
"outdated range");
AutoTrackDOMPoint trackPointToPutCaret(aHTMLEditor.RangeUpdaterRef(),
&pointToPutCaret);
Result<CaretPoint, nsresult> caretPointOrError =
aHTMLEditor.DeleteTextAndTextNodesWithTransaction(
trailingWhiteSpaceRange.StartRef(),
trailingWhiteSpaceRange.EndRef(),
HTMLEditor::TreatEmptyTextNodes::KeepIfContainerOfRangeBoundaries);
if (MOZ_UNLIKELY(caretPointOrError.isErr())) {
NS_WARNING("HTMLEditor::DeleteTextAndTextNodesWithTransaction() failed");
return caretPointOrError.propagateErr();
}
trackPointToPutCaret.FlushAndStopTracking();
caretPointOrError.unwrap().MoveCaretPointTo(
pointToPutCaret, {SuggestCaret::OnlyIfHasSuggestion});
}
return CaretPoint(std::move(pointToPutCaret));
}
/*****************************************************************************
* Implementation for new white-space normalizer
*****************************************************************************/
// static
EditorDOMRangeInTexts
WSRunScanner::ComputeRangeInTextNodesContainingInvisibleWhiteSpaces(
const TextFragmentData& aStart, const TextFragmentData& aEnd) {
// Corresponding to handling invisible white-spaces part of
// `TextFragmentData::GetReplaceRangeDataAtEndOfDeletionRange()` and
// `TextFragmentData::GetReplaceRangeDataAtStartOfDeletionRange()`
MOZ_ASSERT(aStart.ScanStartRef().IsSetAndValid());
MOZ_ASSERT(aEnd.ScanStartRef().IsSetAndValid());
MOZ_ASSERT(aStart.ScanStartRef().EqualsOrIsBefore(aEnd.ScanStartRef()));
MOZ_ASSERT(aStart.ScanStartRef().IsInTextNode());
MOZ_ASSERT(aEnd.ScanStartRef().IsInTextNode());
// XXX `GetReplaceRangeDataAtEndOfDeletionRange()` and
// `GetReplaceRangeDataAtStartOfDeletionRange()` use
// `GetNewInvisibleLeadingWhiteSpaceRangeIfSplittingAt()` and
// `GetNewInvisibleTrailingWhiteSpaceRangeIfSplittingAt()`.
// However, they are really odd as mentioned with "XXX" comments
// in them. For the new white-space normalizer, we need to treat
// invisible white-spaces stricter because the legacy path handles
// white-spaces multiple times (e.g., calling `HTMLEditor::
// DeleteNodeIfInvisibleAndEditableTextNode()` later) and that hides
// the bug, but in the new path, we should stop doing same things
// multiple times for both performance and footprint. Therefore,
// even though the result might be different in some edge cases,
// we should use clean path for now. Perhaps, we should fix the odd
// cases before shipping `beforeinput` event in release channel.
const EditorDOMRange& invisibleLeadingWhiteSpaceRange =
aStart.InvisibleLeadingWhiteSpaceRangeRef();
const EditorDOMRange& invisibleTrailingWhiteSpaceRange =
aEnd.InvisibleTrailingWhiteSpaceRangeRef();
const bool hasInvisibleLeadingWhiteSpaces =
invisibleLeadingWhiteSpaceRange.IsPositioned() &&
!invisibleLeadingWhiteSpaceRange.Collapsed();
const bool hasInvisibleTrailingWhiteSpaces =
invisibleLeadingWhiteSpaceRange != invisibleTrailingWhiteSpaceRange &&
invisibleTrailingWhiteSpaceRange.IsPositioned() &&
!invisibleTrailingWhiteSpaceRange.Collapsed();
EditorDOMRangeInTexts result(aStart.ScanStartRef().AsInText(),
aEnd.ScanStartRef().AsInText());
MOZ_ASSERT(result.IsPositionedAndValid());
if (!hasInvisibleLeadingWhiteSpaces && !hasInvisibleTrailingWhiteSpaces) {
return result;
}
MOZ_ASSERT_IF(
hasInvisibleLeadingWhiteSpaces && hasInvisibleTrailingWhiteSpaces,
invisibleLeadingWhiteSpaceRange.StartRef().IsBefore(
invisibleTrailingWhiteSpaceRange.StartRef()));
const EditorDOMPoint& aroundFirstInvisibleWhiteSpace =
hasInvisibleLeadingWhiteSpaces
? invisibleLeadingWhiteSpaceRange.StartRef()
: invisibleTrailingWhiteSpaceRange.StartRef();
if (aroundFirstInvisibleWhiteSpace.IsBefore(result.StartRef())) {
if (aroundFirstInvisibleWhiteSpace.IsInTextNode()) {
result.SetStart(aroundFirstInvisibleWhiteSpace.AsInText());
MOZ_ASSERT(result.IsPositionedAndValid());
} else {
const auto atFirstInvisibleWhiteSpace =
hasInvisibleLeadingWhiteSpaces
? aStart.GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(
aroundFirstInvisibleWhiteSpace)
: aEnd.GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(
aroundFirstInvisibleWhiteSpace);
MOZ_ASSERT(atFirstInvisibleWhiteSpace.IsSet());
MOZ_ASSERT(
atFirstInvisibleWhiteSpace.EqualsOrIsBefore(result.StartRef()));
result.SetStart(atFirstInvisibleWhiteSpace);
MOZ_ASSERT(result.IsPositionedAndValid());
}
}
MOZ_ASSERT_IF(
hasInvisibleLeadingWhiteSpaces && hasInvisibleTrailingWhiteSpaces,
invisibleLeadingWhiteSpaceRange.EndRef().IsBefore(
invisibleTrailingWhiteSpaceRange.EndRef()));
const EditorDOMPoint& afterLastInvisibleWhiteSpace =
hasInvisibleTrailingWhiteSpaces
? invisibleTrailingWhiteSpaceRange.EndRef()
: invisibleLeadingWhiteSpaceRange.EndRef();
if (afterLastInvisibleWhiteSpace.EqualsOrIsBefore(result.EndRef())) {
MOZ_ASSERT(result.IsPositionedAndValid());
return result;
}
if (afterLastInvisibleWhiteSpace.IsInTextNode()) {
result.SetEnd(afterLastInvisibleWhiteSpace.AsInText());
MOZ_ASSERT(result.IsPositionedAndValid());
return result;
}
const auto atLastInvisibleWhiteSpace =
hasInvisibleTrailingWhiteSpaces
? aEnd.GetPreviousEditableCharPoint(afterLastInvisibleWhiteSpace)
: aStart.GetPreviousEditableCharPoint(afterLastInvisibleWhiteSpace);
MOZ_ASSERT(atLastInvisibleWhiteSpace.IsSet());
MOZ_ASSERT(atLastInvisibleWhiteSpace.IsContainerEmpty() ||
atLastInvisibleWhiteSpace.IsAtLastContent());
MOZ_ASSERT(result.EndRef().EqualsOrIsBefore(atLastInvisibleWhiteSpace));
result.SetEnd(atLastInvisibleWhiteSpace.IsEndOfContainer()
? atLastInvisibleWhiteSpace
: atLastInvisibleWhiteSpace.NextPoint());
MOZ_ASSERT(result.IsPositionedAndValid());
return result;
}
// static
Result<EditorDOMRangeInTexts, nsresult>
WSRunScanner::GetRangeInTextNodesToBackspaceFrom(const EditorDOMPoint& aPoint,
const Element& aEditingHost) {
// Corresponding to computing delete range part of
// `WhiteSpaceVisibilityKeeper::DeletePreviousWhiteSpace()`
MOZ_ASSERT(aPoint.IsSetAndValid());
TextFragmentData textFragmentDataAtCaret(
aPoint, &aEditingHost, BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtCaret.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
EditorDOMPointInText atPreviousChar =
textFragmentDataAtCaret.GetPreviousEditableCharPoint(aPoint);
if (!atPreviousChar.IsSet()) {
return EditorDOMRangeInTexts(); // There is no content in the block.
}
// XXX When previous char point is in an empty text node, we do nothing,
// but this must look odd from point of user view. We should delete
// something before aPoint.
if (atPreviousChar.IsEndOfContainer()) {
return EditorDOMRangeInTexts();
}
// Extend delete range if previous char is a low surrogate following
// a high surrogate.
EditorDOMPointInText atNextChar = atPreviousChar.NextPoint();
if (!atPreviousChar.IsStartOfContainer()) {
if (atPreviousChar.IsCharLowSurrogateFollowingHighSurrogate()) {
atPreviousChar = atPreviousChar.PreviousPoint();
}
// If caret is in middle of a surrogate pair, delete the surrogate pair
// (blink-compat).
else if (atPreviousChar.IsCharHighSurrogateFollowedByLowSurrogate()) {
atNextChar = atNextChar.NextPoint();
}
}
// If previous char is an collapsible white-spaces, delete all adjcent
// white-spaces which are collapsed together.
EditorDOMRangeInTexts rangeToDelete;
if (atPreviousChar.IsCharCollapsibleASCIISpace() ||
atPreviousChar.IsCharPreformattedNewLineCollapsedWithWhiteSpaces()) {
const EditorDOMPointInText startToDelete =
textFragmentDataAtCaret.GetFirstASCIIWhiteSpacePointCollapsedTo(
atPreviousChar, nsIEditor::ePrevious);
if (!startToDelete.IsSet()) {
NS_WARNING(
"WSRunScanner::GetFirstASCIIWhiteSpacePointCollapsedTo() failed");
return Err(NS_ERROR_FAILURE);
}
const EditorDOMPointInText endToDelete =
textFragmentDataAtCaret.GetEndOfCollapsibleASCIIWhiteSpaces(
atPreviousChar, nsIEditor::ePrevious);
if (!endToDelete.IsSet()) {
NS_WARNING("WSRunScanner::GetEndOfCollapsibleASCIIWhiteSpaces() failed");
return Err(NS_ERROR_FAILURE);
}
rangeToDelete = EditorDOMRangeInTexts(startToDelete, endToDelete);
}
// if previous char is not a collapsible white-space, remove it.
else {
rangeToDelete = EditorDOMRangeInTexts(atPreviousChar, atNextChar);
}
// If there is no removable and visible content, we should do nothing.
if (rangeToDelete.Collapsed()) {
return EditorDOMRangeInTexts();
}
// And also delete invisible white-spaces if they become visible.
TextFragmentData textFragmentDataAtStart =
rangeToDelete.StartRef() != aPoint
? TextFragmentData(rangeToDelete.StartRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle)
: textFragmentDataAtCaret;
TextFragmentData textFragmentDataAtEnd =
rangeToDelete.EndRef() != aPoint
? TextFragmentData(rangeToDelete.EndRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle)
: textFragmentDataAtCaret;
if (NS_WARN_IF(!textFragmentDataAtStart.IsInitialized()) ||
NS_WARN_IF(!textFragmentDataAtEnd.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
EditorDOMRangeInTexts extendedRangeToDelete =
WSRunScanner::ComputeRangeInTextNodesContainingInvisibleWhiteSpaces(
textFragmentDataAtStart, textFragmentDataAtEnd);
MOZ_ASSERT(extendedRangeToDelete.IsPositionedAndValid());
return extendedRangeToDelete.IsPositioned() ? extendedRangeToDelete
: rangeToDelete;
}
// static
Result<EditorDOMRangeInTexts, nsresult>
WSRunScanner::GetRangeInTextNodesToForwardDeleteFrom(
const EditorDOMPoint& aPoint, const Element& aEditingHost) {
// Corresponding to computing delete range part of
// `WhiteSpaceVisibilityKeeper::DeleteInclusiveNextWhiteSpace()`
MOZ_ASSERT(aPoint.IsSetAndValid());
TextFragmentData textFragmentDataAtCaret(
aPoint, &aEditingHost, BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtCaret.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
auto atCaret =
textFragmentDataAtCaret
.GetInclusiveNextEditableCharPoint<EditorDOMPointInText>(aPoint);
if (!atCaret.IsSet()) {
return EditorDOMRangeInTexts(); // There is no content in the block.
}
// If caret is in middle of a surrogate pair, we should remove next
// character (blink-compat).
if (!atCaret.IsEndOfContainer() &&
atCaret.IsCharLowSurrogateFollowingHighSurrogate()) {
atCaret = atCaret.NextPoint();
}
// XXX When next char point is in an empty text node, we do nothing,
// but this must look odd from point of user view. We should delete
// something after aPoint.
if (atCaret.IsEndOfContainer()) {
return EditorDOMRangeInTexts();
}
// Extend delete range if previous char is a low surrogate following
// a high surrogate.
EditorDOMPointInText atNextChar = atCaret.NextPoint();
if (atCaret.IsCharHighSurrogateFollowedByLowSurrogate()) {
atNextChar = atNextChar.NextPoint();
}
// If next char is a collapsible white-space, delete all adjcent white-spaces
// which are collapsed together.
EditorDOMRangeInTexts rangeToDelete;
if (atCaret.IsCharCollapsibleASCIISpace() ||
atCaret.IsCharPreformattedNewLineCollapsedWithWhiteSpaces()) {
const EditorDOMPointInText startToDelete =
textFragmentDataAtCaret.GetFirstASCIIWhiteSpacePointCollapsedTo(
atCaret, nsIEditor::eNext);
if (!startToDelete.IsSet()) {
NS_WARNING(
"WSRunScanner::GetFirstASCIIWhiteSpacePointCollapsedTo() failed");
return Err(NS_ERROR_FAILURE);
}
const EditorDOMPointInText endToDelete =
textFragmentDataAtCaret.GetEndOfCollapsibleASCIIWhiteSpaces(
atCaret, nsIEditor::eNext);
if (!endToDelete.IsSet()) {
NS_WARNING("WSRunScanner::GetEndOfCollapsibleASCIIWhiteSpaces() failed");
return Err(NS_ERROR_FAILURE);
}
rangeToDelete = EditorDOMRangeInTexts(startToDelete, endToDelete);
}
// if next char is not a collapsible white-space, remove it.
else {
rangeToDelete = EditorDOMRangeInTexts(atCaret, atNextChar);
}
// If there is no removable and visible content, we should do nothing.
if (rangeToDelete.Collapsed()) {
return EditorDOMRangeInTexts();
}
// And also delete invisible white-spaces if they become visible.
TextFragmentData textFragmentDataAtStart =
rangeToDelete.StartRef() != aPoint
? TextFragmentData(rangeToDelete.StartRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle)
: textFragmentDataAtCaret;
TextFragmentData textFragmentDataAtEnd =
rangeToDelete.EndRef() != aPoint
? TextFragmentData(rangeToDelete.EndRef(), &aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle)
: textFragmentDataAtCaret;
if (NS_WARN_IF(!textFragmentDataAtStart.IsInitialized()) ||
NS_WARN_IF(!textFragmentDataAtEnd.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
EditorDOMRangeInTexts extendedRangeToDelete =
WSRunScanner::ComputeRangeInTextNodesContainingInvisibleWhiteSpaces(
textFragmentDataAtStart, textFragmentDataAtEnd);
MOZ_ASSERT(extendedRangeToDelete.IsPositionedAndValid());
return extendedRangeToDelete.IsPositioned() ? extendedRangeToDelete
: rangeToDelete;
}
// static
EditorDOMRange WSRunScanner::GetRangesForDeletingAtomicContent(
Element* aEditingHost, const nsIContent& aAtomicContent) {
if (aAtomicContent.IsHTMLElement(nsGkAtoms::br)) {
// Preceding white-spaces should be preserved, but the following
// white-spaces should be invisible around `<br>` element.
TextFragmentData textFragmentDataAfterBRElement(
EditorDOMPoint::After(aAtomicContent), aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAfterBRElement.IsInitialized())) {
return EditorDOMRange(); // TODO: Make here return error with Err.
}
const EditorDOMRangeInTexts followingInvisibleWhiteSpaces =
textFragmentDataAfterBRElement.GetNonCollapsedRangeInTexts(
textFragmentDataAfterBRElement
.InvisibleLeadingWhiteSpaceRangeRef());
return followingInvisibleWhiteSpaces.IsPositioned() &&
!followingInvisibleWhiteSpaces.Collapsed()
? EditorDOMRange(
EditorDOMPoint(const_cast<nsIContent*>(&aAtomicContent)),
followingInvisibleWhiteSpaces.EndRef())
: EditorDOMRange(
EditorDOMPoint(const_cast<nsIContent*>(&aAtomicContent)),
EditorDOMPoint::After(aAtomicContent));
}
if (!HTMLEditUtils::IsBlockElement(
aAtomicContent, BlockInlineCheck::UseComputedDisplayStyle)) {
// Both preceding and following white-spaces around it should be preserved
// around inline elements like `<img>`.
return EditorDOMRange(
EditorDOMPoint(const_cast<nsIContent*>(&aAtomicContent)),
EditorDOMPoint::After(aAtomicContent));
}
// Both preceding and following white-spaces can be invisible around a
// block element.
TextFragmentData textFragmentDataBeforeAtomicContent(
EditorDOMPoint(const_cast<nsIContent*>(&aAtomicContent)), aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataBeforeAtomicContent.IsInitialized())) {
return EditorDOMRange(); // TODO: Make here return error with Err.
}
const EditorDOMRangeInTexts precedingInvisibleWhiteSpaces =
textFragmentDataBeforeAtomicContent.GetNonCollapsedRangeInTexts(
textFragmentDataBeforeAtomicContent
.InvisibleTrailingWhiteSpaceRangeRef());
TextFragmentData textFragmentDataAfterAtomicContent(
EditorDOMPoint::After(aAtomicContent), aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAfterAtomicContent.IsInitialized())) {
return EditorDOMRange(); // TODO: Make here return error with Err.
}
const EditorDOMRangeInTexts followingInvisibleWhiteSpaces =
textFragmentDataAfterAtomicContent.GetNonCollapsedRangeInTexts(
textFragmentDataAfterAtomicContent
.InvisibleLeadingWhiteSpaceRangeRef());
if (precedingInvisibleWhiteSpaces.StartRef().IsSet() &&
followingInvisibleWhiteSpaces.EndRef().IsSet()) {
return EditorDOMRange(precedingInvisibleWhiteSpaces.StartRef(),
followingInvisibleWhiteSpaces.EndRef());
}
if (precedingInvisibleWhiteSpaces.StartRef().IsSet()) {
return EditorDOMRange(precedingInvisibleWhiteSpaces.StartRef(),
EditorDOMPoint::After(aAtomicContent));
}
if (followingInvisibleWhiteSpaces.EndRef().IsSet()) {
return EditorDOMRange(
EditorDOMPoint(const_cast<nsIContent*>(&aAtomicContent)),
followingInvisibleWhiteSpaces.EndRef());
}
return EditorDOMRange(
EditorDOMPoint(const_cast<nsIContent*>(&aAtomicContent)),
EditorDOMPoint::After(aAtomicContent));
}
// static
EditorDOMRange WSRunScanner::GetRangeForDeletingBlockElementBoundaries(
const HTMLEditor& aHTMLEditor, const Element& aLeftBlockElement,
const Element& aRightBlockElement,
const EditorDOMPoint& aPointContainingTheOtherBlock) {
MOZ_ASSERT(&aLeftBlockElement != &aRightBlockElement);
MOZ_ASSERT_IF(
aPointContainingTheOtherBlock.IsSet(),
aPointContainingTheOtherBlock.GetContainer() == &aLeftBlockElement ||
aPointContainingTheOtherBlock.GetContainer() == &aRightBlockElement);
MOZ_ASSERT_IF(
aPointContainingTheOtherBlock.GetContainer() == &aLeftBlockElement,
aRightBlockElement.IsInclusiveDescendantOf(
aPointContainingTheOtherBlock.GetChild()));
MOZ_ASSERT_IF(
aPointContainingTheOtherBlock.GetContainer() == &aRightBlockElement,
aLeftBlockElement.IsInclusiveDescendantOf(
aPointContainingTheOtherBlock.GetChild()));
MOZ_ASSERT_IF(
!aPointContainingTheOtherBlock.IsSet(),
!aRightBlockElement.IsInclusiveDescendantOf(&aLeftBlockElement));
MOZ_ASSERT_IF(
!aPointContainingTheOtherBlock.IsSet(),
!aLeftBlockElement.IsInclusiveDescendantOf(&aRightBlockElement));
MOZ_ASSERT_IF(!aPointContainingTheOtherBlock.IsSet(),
EditorRawDOMPoint(const_cast<Element*>(&aLeftBlockElement))
.IsBefore(EditorRawDOMPoint(
const_cast<Element*>(&aRightBlockElement))));
const Element* editingHost = aHTMLEditor.ComputeEditingHost();
EditorDOMRange range;
// Include trailing invisible white-spaces in aLeftBlockElement.
TextFragmentData textFragmentDataAtEndOfLeftBlockElement(
aPointContainingTheOtherBlock.GetContainer() == &aLeftBlockElement
? aPointContainingTheOtherBlock
: EditorDOMPoint::AtEndOf(const_cast<Element&>(aLeftBlockElement)),
editingHost, BlockInlineCheck::UseComputedDisplayOutsideStyle);
if (NS_WARN_IF(!textFragmentDataAtEndOfLeftBlockElement.IsInitialized())) {
return EditorDOMRange(); // TODO: Make here return error with Err.
}
if (textFragmentDataAtEndOfLeftBlockElement.StartsFromInvisibleBRElement()) {
// If the left block element ends with an invisible `<br>` element,
// it'll be deleted (and it means there is no invisible trailing
// white-spaces). Therefore, the range should start from the invisible
// `<br>` element.
range.SetStart(EditorDOMPoint(
textFragmentDataAtEndOfLeftBlockElement.StartReasonBRElementPtr()));
} else {
const EditorDOMRange& trailingWhiteSpaceRange =
textFragmentDataAtEndOfLeftBlockElement
.InvisibleTrailingWhiteSpaceRangeRef();
if (trailingWhiteSpaceRange.StartRef().IsSet()) {
range.SetStart(trailingWhiteSpaceRange.StartRef());
} else {
range.SetStart(textFragmentDataAtEndOfLeftBlockElement.ScanStartRef());
}
}
// Include leading invisible white-spaces in aRightBlockElement.
TextFragmentData textFragmentDataAtStartOfRightBlockElement(
aPointContainingTheOtherBlock.GetContainer() == &aRightBlockElement &&
!aPointContainingTheOtherBlock.IsEndOfContainer()
? aPointContainingTheOtherBlock.NextPoint()
: EditorDOMPoint(const_cast<Element*>(&aRightBlockElement), 0u),
editingHost, BlockInlineCheck::UseComputedDisplayOutsideStyle);
if (NS_WARN_IF(!textFragmentDataAtStartOfRightBlockElement.IsInitialized())) {
return EditorDOMRange(); // TODO: Make here return error with Err.
}
const EditorDOMRange& leadingWhiteSpaceRange =
textFragmentDataAtStartOfRightBlockElement
.InvisibleLeadingWhiteSpaceRangeRef();
if (leadingWhiteSpaceRange.EndRef().IsSet()) {
range.SetEnd(leadingWhiteSpaceRange.EndRef());
} else {
range.SetEnd(textFragmentDataAtStartOfRightBlockElement.ScanStartRef());
}
return range;
}
// static
EditorDOMRange
WSRunScanner::GetRangeContainingInvisibleWhiteSpacesAtRangeBoundaries(
Element* aEditingHost, const EditorDOMRange& aRange) {
MOZ_ASSERT(aRange.IsPositionedAndValid());
MOZ_ASSERT(aRange.EndRef().IsSetAndValid());
MOZ_ASSERT(aRange.StartRef().IsSetAndValid());
EditorDOMRange result;
TextFragmentData textFragmentDataAtStart(
aRange.StartRef(), aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtStart.IsInitialized())) {
return EditorDOMRange(); // TODO: Make here return error with Err.
}
const EditorDOMRangeInTexts invisibleLeadingWhiteSpacesAtStart =
textFragmentDataAtStart.GetNonCollapsedRangeInTexts(
textFragmentDataAtStart.InvisibleLeadingWhiteSpaceRangeRef());
if (invisibleLeadingWhiteSpacesAtStart.IsPositioned() &&
!invisibleLeadingWhiteSpacesAtStart.Collapsed()) {
result.SetStart(invisibleLeadingWhiteSpacesAtStart.StartRef());
} else {
const EditorDOMRangeInTexts invisibleTrailingWhiteSpacesAtStart =
textFragmentDataAtStart.GetNonCollapsedRangeInTexts(
textFragmentDataAtStart.InvisibleTrailingWhiteSpaceRangeRef());
if (invisibleTrailingWhiteSpacesAtStart.IsPositioned() &&
!invisibleTrailingWhiteSpacesAtStart.Collapsed()) {
MOZ_ASSERT(
invisibleTrailingWhiteSpacesAtStart.StartRef().EqualsOrIsBefore(
aRange.StartRef()));
result.SetStart(invisibleTrailingWhiteSpacesAtStart.StartRef());
}
// If there is no invisible white-space and the line starts with a
// text node, shrink the range to start of the text node.
else if (!aRange.StartRef().IsInTextNode() &&
(textFragmentDataAtStart.StartsFromBlockBoundary() ||
textFragmentDataAtStart.StartsFromInlineEditingHostBoundary()) &&
textFragmentDataAtStart.EndRef().IsInTextNode()) {
result.SetStart(textFragmentDataAtStart.EndRef());
}
}
if (!result.StartRef().IsSet()) {
result.SetStart(aRange.StartRef());
}
TextFragmentData textFragmentDataAtEnd(
aRange.EndRef(), aEditingHost, BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtEnd.IsInitialized())) {
return EditorDOMRange(); // TODO: Make here return error with Err.
}
const EditorDOMRangeInTexts invisibleLeadingWhiteSpacesAtEnd =
textFragmentDataAtEnd.GetNonCollapsedRangeInTexts(
textFragmentDataAtEnd.InvisibleTrailingWhiteSpaceRangeRef());
if (invisibleLeadingWhiteSpacesAtEnd.IsPositioned() &&
!invisibleLeadingWhiteSpacesAtEnd.Collapsed()) {
result.SetEnd(invisibleLeadingWhiteSpacesAtEnd.EndRef());
} else {
const EditorDOMRangeInTexts invisibleLeadingWhiteSpacesAtEnd =
textFragmentDataAtEnd.GetNonCollapsedRangeInTexts(
textFragmentDataAtEnd.InvisibleLeadingWhiteSpaceRangeRef());
if (invisibleLeadingWhiteSpacesAtEnd.IsPositioned() &&
!invisibleLeadingWhiteSpacesAtEnd.Collapsed()) {
MOZ_ASSERT(aRange.EndRef().EqualsOrIsBefore(
invisibleLeadingWhiteSpacesAtEnd.EndRef()));
result.SetEnd(invisibleLeadingWhiteSpacesAtEnd.EndRef());
}
// If there is no invisible white-space and the line ends with a text
// node, shrink the range to end of the text node.
else if (!aRange.EndRef().IsInTextNode() &&
(textFragmentDataAtEnd.EndsByBlockBoundary() ||
textFragmentDataAtEnd.EndsByInlineEditingHostBoundary()) &&
textFragmentDataAtEnd.StartRef().IsInTextNode()) {
result.SetEnd(EditorDOMPoint::AtEndOf(
*textFragmentDataAtEnd.StartRef().ContainerAs<Text>()));
}
}
if (!result.EndRef().IsSet()) {
result.SetEnd(aRange.EndRef());
}
MOZ_ASSERT(result.IsPositionedAndValid());
return result;
}
/******************************************************************************
* Utilities for other things.
******************************************************************************/
// static
Result<bool, nsresult>
WSRunScanner::ShrinkRangeIfStartsFromOrEndsAfterAtomicContent(
const HTMLEditor& aHTMLEditor, nsRange& aRange,
const Element* aEditingHost) {
MOZ_ASSERT(aRange.IsPositioned());
MOZ_ASSERT(!aRange.IsInAnySelection(),
"Changing range in selection may cause running script");
if (NS_WARN_IF(!aRange.GetStartContainer()) ||
NS_WARN_IF(!aRange.GetEndContainer())) {
return Err(NS_ERROR_FAILURE);
}
if (!aRange.GetStartContainer()->IsContent() ||
!aRange.GetEndContainer()->IsContent()) {
return false;
}
// If the range crosses a block boundary, we should do nothing for now
// because it hits a bug of inserting a padding `<br>` element after
// joining the blocks.
if (HTMLEditUtils::GetInclusiveAncestorElement(
*aRange.GetStartContainer()->AsContent(),
HTMLEditUtils::ClosestEditableBlockElementExceptHRElement,
BlockInlineCheck::UseComputedDisplayStyle) !=
HTMLEditUtils::GetInclusiveAncestorElement(
*aRange.GetEndContainer()->AsContent(),
HTMLEditUtils::ClosestEditableBlockElementExceptHRElement,
BlockInlineCheck::UseComputedDisplayStyle)) {
return false;
}
nsIContent* startContent = nullptr;
if (aRange.GetStartContainer() && aRange.GetStartContainer()->IsText() &&
aRange.GetStartContainer()->AsText()->Length() == aRange.StartOffset()) {
// If next content is a visible `<br>` element, special inline content
// (e.g., `<img>`, non-editable text node, etc) or a block level void
// element like `<hr>`, the range should start with it.
TextFragmentData textFragmentDataAtStart(
EditorRawDOMPoint(aRange.StartRef()), aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtStart.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
if (textFragmentDataAtStart.EndsByVisibleBRElement()) {
startContent = textFragmentDataAtStart.EndReasonBRElementPtr();
} else if (textFragmentDataAtStart.EndsBySpecialContent() ||
(textFragmentDataAtStart.EndsByOtherBlockElement() &&
!HTMLEditUtils::IsContainerNode(
*textFragmentDataAtStart
.EndReasonOtherBlockElementPtr()))) {
startContent = textFragmentDataAtStart.GetEndReasonContent();
}
}
nsIContent* endContent = nullptr;
if (aRange.GetEndContainer() && aRange.GetEndContainer()->IsText() &&
!aRange.EndOffset()) {
// If previous content is a visible `<br>` element, special inline content
// (e.g., `<img>`, non-editable text node, etc) or a block level void
// element like `<hr>`, the range should end after it.
TextFragmentData textFragmentDataAtEnd(
EditorRawDOMPoint(aRange.EndRef()), aEditingHost,
BlockInlineCheck::UseComputedDisplayStyle);
if (NS_WARN_IF(!textFragmentDataAtEnd.IsInitialized())) {
return Err(NS_ERROR_FAILURE);
}
if (textFragmentDataAtEnd.StartsFromVisibleBRElement()) {
endContent = textFragmentDataAtEnd.StartReasonBRElementPtr();
} else if (textFragmentDataAtEnd.StartsFromSpecialContent() ||
(textFragmentDataAtEnd.StartsFromOtherBlockElement() &&
!HTMLEditUtils::IsContainerNode(
*textFragmentDataAtEnd
.StartReasonOtherBlockElementPtr()))) {
endContent = textFragmentDataAtEnd.GetStartReasonContent();
}
}
if (!startContent && !endContent) {
return false;
}
nsresult rv = aRange.SetStartAndEnd(
startContent ? RangeBoundary(
startContent->GetParentNode(),
startContent->GetPreviousSibling()) // at startContent
: aRange.StartRef(),
endContent ? RangeBoundary(endContent->GetParentNode(),
endContent) // after endContent
: aRange.EndRef());
if (NS_FAILED(rv)) {
NS_WARNING("nsRange::SetStartAndEnd() failed");
return Err(rv);
}
return true;
}
} // namespace mozilla