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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
#ifndef WSRunObject_h
#define WSRunObject_h
#include "EditAction.h"
#include "EditorBase.h"
#include "EditorForwards.h"
#include "EditorDOMPoint.h" // for EditorDOMPoint
#include "EditorUtils.h" // for CaretPoint
#include "HTMLEditHelpers.h"
#include "HTMLEditor.h"
#include "HTMLEditUtils.h"
#include "mozilla/Assertions.h"
#include "mozilla/Maybe.h"
#include "mozilla/Result.h"
#include "mozilla/dom/Element.h"
#include "mozilla/dom/HTMLBRElement.h"
#include "mozilla/dom/Text.h"
#include "nsCOMPtr.h"
#include "nsIContent.h"
namespace mozilla {
using namespace dom;
/**
* WSScanResult is result of ScanNextVisibleNodeOrBlockBoundaryFrom(),
* ScanPreviousVisibleNodeOrBlockBoundaryFrom(), and their static wrapper
* methods. This will have information of found visible content (and its
* position) or reached block element or topmost editable content at the
* start of scanner.
*/
class MOZ_STACK_CLASS WSScanResult final {
private:
enum class WSType : uint8_t {
NotInitialized,
// Could be the DOM tree is broken as like crash tests.
UnexpectedError,
// The scanner cannot work in uncomposed tree, but tried to scan in it.
InUncomposedDoc,
// The run is maybe collapsible white-spaces at start of a hard line.
LeadingWhiteSpaces,
// The run is maybe collapsible white-spaces at end of a hard line.
TrailingWhiteSpaces,
// Collapsible, but visible white-spaces.
CollapsibleWhiteSpaces,
// Visible characters except collapsible white-spaces.
NonCollapsibleCharacters,
// Special content such as `<img>`, etc.
SpecialContent,
// <br> element.
BRElement,
// A linefeed which is preformatted.
PreformattedLineBreak,
// Other block's boundary (child block of current block, maybe).
OtherBlockBoundary,
// Current block's boundary.
CurrentBlockBoundary,
// Inline editing host boundary.
InlineEditingHostBoundary,
};
friend std::ostream& operator<<(std::ostream& aStream, const WSType& aType) {
switch (aType) {
case WSType::NotInitialized:
return aStream << "WSType::NotInitialized";
case WSType::UnexpectedError:
return aStream << "WSType::UnexpectedError";
case WSType::InUncomposedDoc:
return aStream << "WSType::InUncomposedDoc";
case WSType::LeadingWhiteSpaces:
return aStream << "WSType::LeadingWhiteSpaces";
case WSType::TrailingWhiteSpaces:
return aStream << "WSType::TrailingWhiteSpaces";
case WSType::CollapsibleWhiteSpaces:
return aStream << "WSType::CollapsibleWhiteSpaces";
case WSType::NonCollapsibleCharacters:
return aStream << "WSType::NonCollapsibleCharacters";
case WSType::SpecialContent:
return aStream << "WSType::SpecialContent";
case WSType::BRElement:
return aStream << "WSType::BRElement";
case WSType::PreformattedLineBreak:
return aStream << "WSType::PreformattedLineBreak";
case WSType::OtherBlockBoundary:
return aStream << "WSType::OtherBlockBoundary";
case WSType::CurrentBlockBoundary:
return aStream << "WSType::CurrentBlockBoundary";
case WSType::InlineEditingHostBoundary:
return aStream << "WSType::InlineEditingHostBoundary";
}
return aStream << "<Illegal value>";
}
friend class WSRunScanner; // Because of WSType.
explicit WSScanResult(WSType aReason) : mReason(aReason) {
MOZ_ASSERT(mReason == WSType::UnexpectedError ||
mReason == WSType::NotInitialized);
}
public:
WSScanResult() = delete;
enum class ScanDirection : bool { Backward, Forward };
MOZ_NEVER_INLINE_DEBUG WSScanResult(ScanDirection aScanDirection,
nsIContent& aContent, WSType aReason,
BlockInlineCheck aBlockInlineCheck)
: mContent(&aContent), mReason(aReason), mDirection(aScanDirection) {
MOZ_ASSERT(aReason != WSType::CollapsibleWhiteSpaces &&
aReason != WSType::NonCollapsibleCharacters &&
aReason != WSType::PreformattedLineBreak);
AssertIfInvalidData(aBlockInlineCheck);
}
MOZ_NEVER_INLINE_DEBUG WSScanResult(ScanDirection aScanDirection,
const EditorDOMPoint& aPoint,
WSType aReason,
BlockInlineCheck aBlockInlineCheck)
: mContent(aPoint.GetContainerAs<nsIContent>()),
mOffset(Some(aPoint.Offset())),
mReason(aReason),
mDirection(aScanDirection) {
AssertIfInvalidData(aBlockInlineCheck);
}
static WSScanResult Error() { return WSScanResult(WSType::UnexpectedError); }
MOZ_NEVER_INLINE_DEBUG void AssertIfInvalidData(
BlockInlineCheck aBlockInlineCheck) const {
#ifdef DEBUG
MOZ_ASSERT(mReason == WSType::UnexpectedError ||
mReason == WSType::InUncomposedDoc ||
mReason == WSType::NonCollapsibleCharacters ||
mReason == WSType::CollapsibleWhiteSpaces ||
mReason == WSType::BRElement ||
mReason == WSType::PreformattedLineBreak ||
mReason == WSType::SpecialContent ||
mReason == WSType::CurrentBlockBoundary ||
mReason == WSType::OtherBlockBoundary ||
mReason == WSType::InlineEditingHostBoundary);
MOZ_ASSERT_IF(mReason == WSType::UnexpectedError, !mContent);
MOZ_ASSERT_IF(mReason != WSType::UnexpectedError, mContent);
MOZ_ASSERT_IF(mReason == WSType::InUncomposedDoc,
!mContent->IsInComposedDoc());
MOZ_ASSERT_IF(mContent && !mContent->IsInComposedDoc(),
mReason == WSType::InUncomposedDoc);
MOZ_ASSERT_IF(mReason == WSType::NonCollapsibleCharacters ||
mReason == WSType::CollapsibleWhiteSpaces ||
mReason == WSType::PreformattedLineBreak,
mContent->IsText());
MOZ_ASSERT_IF(mReason == WSType::NonCollapsibleCharacters ||
mReason == WSType::CollapsibleWhiteSpaces ||
mReason == WSType::PreformattedLineBreak,
mOffset.isSome());
MOZ_ASSERT_IF(mReason == WSType::NonCollapsibleCharacters ||
mReason == WSType::CollapsibleWhiteSpaces ||
mReason == WSType::PreformattedLineBreak,
mContent->AsText()->TextDataLength() > 0);
MOZ_ASSERT_IF(mDirection == ScanDirection::Backward &&
(mReason == WSType::NonCollapsibleCharacters ||
mReason == WSType::CollapsibleWhiteSpaces ||
mReason == WSType::PreformattedLineBreak),
*mOffset > 0);
MOZ_ASSERT_IF(mDirection == ScanDirection::Forward &&
(mReason == WSType::NonCollapsibleCharacters ||
mReason == WSType::CollapsibleWhiteSpaces ||
mReason == WSType::PreformattedLineBreak),
*mOffset < mContent->AsText()->TextDataLength());
MOZ_ASSERT_IF(mReason == WSType::BRElement,
mContent->IsHTMLElement(nsGkAtoms::br));
MOZ_ASSERT_IF(mReason == WSType::PreformattedLineBreak,
EditorUtils::IsNewLinePreformatted(*mContent));
MOZ_ASSERT_IF(
mReason == WSType::SpecialContent,
(mContent->IsText() && !mContent->IsEditable()) ||
(!mContent->IsHTMLElement(nsGkAtoms::br) &&
!HTMLEditUtils::IsBlockElement(*mContent, aBlockInlineCheck)));
MOZ_ASSERT_IF(mReason == WSType::OtherBlockBoundary,
HTMLEditUtils::IsBlockElement(*mContent, aBlockInlineCheck));
MOZ_ASSERT_IF(mReason == WSType::CurrentBlockBoundary,
mContent->IsElement());
MOZ_ASSERT_IF(mReason == WSType::CurrentBlockBoundary,
mContent->IsEditable());
MOZ_ASSERT_IF(mReason == WSType::CurrentBlockBoundary,
HTMLEditUtils::IsBlockElement(*mContent, aBlockInlineCheck));
MOZ_ASSERT_IF(mReason == WSType::InlineEditingHostBoundary,
mContent->IsElement());
MOZ_ASSERT_IF(mReason == WSType::InlineEditingHostBoundary,
mContent->IsEditable());
MOZ_ASSERT_IF(mReason == WSType::InlineEditingHostBoundary,
!HTMLEditUtils::IsBlockElement(*mContent, aBlockInlineCheck));
MOZ_ASSERT_IF(mReason == WSType::InlineEditingHostBoundary,
!mContent->GetParentElement() ||
!mContent->GetParentElement()->IsEditable());
#endif // #ifdef DEBUG
}
bool Failed() const {
return mReason == WSType::NotInitialized ||
mReason == WSType::UnexpectedError;
}
/**
* GetContent() returns found visible and editable content/element.
* See MOZ_ASSERT_IF()s in AssertIfInvalidData() for the detail.
*/
nsIContent* GetContent() const { return mContent; }
[[nodiscard]] bool ContentIsElement() const {
return mContent && mContent->IsElement();
}
[[nodiscard]] bool ContentIsText() const {
return mContent && mContent->IsText();
}
/**
* The following accessors makes it easier to understand each callers.
*/
MOZ_NEVER_INLINE_DEBUG Element* ElementPtr() const {
MOZ_DIAGNOSTIC_ASSERT(mContent->IsElement());
return mContent->AsElement();
}
MOZ_NEVER_INLINE_DEBUG HTMLBRElement* BRElementPtr() const {
MOZ_DIAGNOSTIC_ASSERT(mContent->IsHTMLElement(nsGkAtoms::br));
return static_cast<HTMLBRElement*>(mContent.get());
}
MOZ_NEVER_INLINE_DEBUG Text* TextPtr() const {
MOZ_DIAGNOSTIC_ASSERT(mContent->IsText());
return mContent->AsText();
}
/**
* Returns true if found or reached content is editable.
*/
bool IsContentEditable() const { return mContent && mContent->IsEditable(); }
/**
* Offset_Deprecated() returns meaningful value only when
* InVisibleOrCollapsibleCharacters() returns true or the scanner reached to
* start or end of its scanning range and that is same as start or end
* container which are specified when the scanner is initialized. If it's
* result of scanning backward, this offset means the point of the found
* point. Otherwise, i.e., scanning forward, this offset means next point
* of the found point. E.g., if it reaches a collapsible white-space, this
* offset is at the first non-collapsible character after it.
*/
MOZ_NEVER_INLINE_DEBUG uint32_t Offset_Deprecated() const {
NS_ASSERTION(mOffset.isSome(), "Retrieved non-meaningful offset");
return mOffset.valueOr(0);
}
/**
* Point_Deprecated() returns the position in found visible node or reached
* block boundary. So, this returns meaningful point only when
* Offset_Deprecated() returns meaningful value.
*/
template <typename EditorDOMPointType>
EditorDOMPointType Point_Deprecated() const {
NS_ASSERTION(mOffset.isSome(), "Retrieved non-meaningful point");
return EditorDOMPointType(mContent, mOffset.valueOr(0));
}
/**
* PointAtReachedContent() returns the position of found visible content or
* reached block element.
*/
template <typename EditorDOMPointType>
EditorDOMPointType PointAtReachedContent() const {
MOZ_ASSERT(mContent);
switch (mReason) {
case WSType::CollapsibleWhiteSpaces:
case WSType::NonCollapsibleCharacters:
case WSType::PreformattedLineBreak:
MOZ_DIAGNOSTIC_ASSERT(mOffset.isSome());
return mDirection == ScanDirection::Forward
? EditorDOMPointType(mContent, mOffset.valueOr(0))
: EditorDOMPointType(mContent,
std::max(mOffset.valueOr(1), 1u) - 1);
default:
return EditorDOMPointType(mContent);
}
}
/**
* PointAfterReachedContent() returns the next position of found visible
* content or reached block element.
*/
template <typename EditorDOMPointType>
EditorDOMPointType PointAfterReachedContent() const {
MOZ_ASSERT(mContent);
return PointAtReachedContent<EditorDOMPointType>()
.template NextPointOrAfterContainer<EditorDOMPointType>();
}
/**
* The scanner reached <img> or something which is inline and is not a
* container.
*/
bool ReachedSpecialContent() const {
return mReason == WSType::SpecialContent;
}
/**
* The point is in visible characters or collapsible white-spaces.
*/
bool InVisibleOrCollapsibleCharacters() const {
return mReason == WSType::CollapsibleWhiteSpaces ||
mReason == WSType::NonCollapsibleCharacters;
}
/**
* The point is in collapsible white-spaces.
*/
bool InCollapsibleWhiteSpaces() const {
return mReason == WSType::CollapsibleWhiteSpaces;
}
/**
* The point is in visible non-collapsible characters.
*/
bool InNonCollapsibleCharacters() const {
return mReason == WSType::NonCollapsibleCharacters;
}
/**
* The scanner reached a <br> element.
*/
bool ReachedBRElement() const { return mReason == WSType::BRElement; }
bool ReachedVisibleBRElement() const {
return ReachedBRElement() &&
HTMLEditUtils::IsVisibleBRElement(*BRElementPtr());
}
bool ReachedInvisibleBRElement() const {
return ReachedBRElement() &&
HTMLEditUtils::IsInvisibleBRElement(*BRElementPtr());
}
bool ReachedPreformattedLineBreak() const {
return mReason == WSType::PreformattedLineBreak;
}
/**
* The scanner reached a <hr> element.
*/
bool ReachedHRElement() const {
return mContent && mContent->IsHTMLElement(nsGkAtoms::hr);
}
/**
* The scanner reached current block boundary or other block element.
*/
bool ReachedBlockBoundary() const {
return mReason == WSType::CurrentBlockBoundary ||
mReason == WSType::OtherBlockBoundary;
}
/**
* The scanner reached current block element boundary.
*/
bool ReachedCurrentBlockBoundary() const {
return mReason == WSType::CurrentBlockBoundary;
}
/**
* The scanner reached other block element.
*/
bool ReachedOtherBlockElement() const {
return mReason == WSType::OtherBlockBoundary;
}
/**
* The scanner reached other block element that isn't editable
*/
bool ReachedNonEditableOtherBlockElement() const {
return ReachedOtherBlockElement() && !GetContent()->IsEditable();
}
/**
* The scanner reached inline editing host boundary.
*/
[[nodiscard]] bool ReachedInlineEditingHostBoundary() const {
return mReason == WSType::InlineEditingHostBoundary;
}
/**
* The scanner reached something non-text node.
*/
bool ReachedSomethingNonTextContent() const {
return !InVisibleOrCollapsibleCharacters();
}
private:
nsCOMPtr<nsIContent> mContent;
Maybe<uint32_t> mOffset;
WSType mReason;
ScanDirection mDirection = ScanDirection::Backward;
};
class MOZ_STACK_CLASS WSRunScanner final {
public:
using WSType = WSScanResult::WSType;
template <typename EditorDOMPointType>
WSRunScanner(const Element* aEditingHost,
const EditorDOMPointType& aScanStartPoint,
BlockInlineCheck aBlockInlineCheck)
: mScanStartPoint(aScanStartPoint.template To<EditorDOMPoint>()),
mEditingHost(const_cast<Element*>(aEditingHost)),
mTextFragmentDataAtStart(mScanStartPoint, mEditingHost,
aBlockInlineCheck),
mBlockInlineCheck(aBlockInlineCheck) {}
// ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom() returns the first visible
// node at or after aPoint. If there is no visible nodes after aPoint,
// returns topmost editable inline ancestor at end of current block. See
// comments around WSScanResult for the detail. When you reach a character,
// this returns WSScanResult both whose Point_Deprecated() and
// PointAtReachedContent() return the found character position.
template <typename PT, typename CT>
WSScanResult ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom(
const EditorDOMPointBase<PT, CT>& aPoint) const;
template <typename PT, typename CT>
static WSScanResult ScanInclusiveNextVisibleNodeOrBlockBoundary(
const Element* aEditingHost, const EditorDOMPointBase<PT, CT>& aPoint,
BlockInlineCheck aBlockInlineCheck) {
return WSRunScanner(aEditingHost, aPoint, aBlockInlineCheck)
.ScanInclusiveNextVisibleNodeOrBlockBoundaryFrom(aPoint);
}
// ScanPreviousVisibleNodeOrBlockBoundaryFrom() returns the first visible node
// before aPoint. If there is no visible nodes before aPoint, returns topmost
// editable inline ancestor at start of current block. See comments around
// WSScanResult for the detail. When you reach a character, this returns
// WSScanResult whose Point_Deprecated() returns next point of the found
// character and PointAtReachedContent() returns the point at found character.
template <typename PT, typename CT>
WSScanResult ScanPreviousVisibleNodeOrBlockBoundaryFrom(
const EditorDOMPointBase<PT, CT>& aPoint) const;
template <typename PT, typename CT>
static WSScanResult ScanPreviousVisibleNodeOrBlockBoundary(
const Element* aEditingHost, const EditorDOMPointBase<PT, CT>& aPoint,
BlockInlineCheck aBlockInlineCheck) {
return WSRunScanner(aEditingHost, aPoint, aBlockInlineCheck)
.ScanPreviousVisibleNodeOrBlockBoundaryFrom(aPoint);
}
/**
* GetInclusiveNextEditableCharPoint() returns a point in a text node which
* is at current editable character or next editable character if aPoint
* does not points an editable character.
*/
template <typename EditorDOMPointType = EditorDOMPointInText, typename PT,
typename CT>
static EditorDOMPointType GetInclusiveNextEditableCharPoint(
Element* aEditingHost, const EditorDOMPointBase<PT, CT>& aPoint,
BlockInlineCheck aBlockInlineCheck) {
if (aPoint.IsInTextNode() && !aPoint.IsEndOfContainer() &&
HTMLEditUtils::IsSimplyEditableNode(
*aPoint.template ContainerAs<Text>())) {
return EditorDOMPointType(aPoint.template ContainerAs<Text>(),
aPoint.Offset());
}
return WSRunScanner(aEditingHost, aPoint, aBlockInlineCheck)
.GetInclusiveNextEditableCharPoint<EditorDOMPointType>(aPoint);
}
/**
* GetPreviousEditableCharPoint() returns a point in a text node which
* is at previous editable character.
*/
template <typename EditorDOMPointType = EditorDOMPointInText, typename PT,
typename CT>
static EditorDOMPointType GetPreviousEditableCharPoint(
Element* aEditingHost, const EditorDOMPointBase<PT, CT>& aPoint,
BlockInlineCheck aBlockInlineCheck) {
if (aPoint.IsInTextNode() && !aPoint.IsStartOfContainer() &&
HTMLEditUtils::IsSimplyEditableNode(
*aPoint.template ContainerAs<Text>())) {
return EditorDOMPointType(aPoint.template ContainerAs<Text>(),
aPoint.Offset() - 1);
}
return WSRunScanner(aEditingHost, aPoint, aBlockInlineCheck)
.GetPreviousEditableCharPoint<EditorDOMPointType>(aPoint);
}
/**
* Scan aTextNode from end or start to find last or first visible things.
* I.e., this returns a point immediately before or after invisible
* white-spaces of aTextNode if aTextNode ends or begins with some invisible
* white-spaces.
* Note that the result may not be in different text node if aTextNode has
* only invisible white-spaces and there is previous or next text node.
*/
template <typename EditorDOMPointType>
static EditorDOMPointType GetAfterLastVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter);
template <typename EditorDOMPointType>
static EditorDOMPointType GetFirstVisiblePoint(
Text& aTextNode, const Element* aAncestorLimiter);
/**
* GetRangeInTextNodesToForwardDeleteFrom() returns the range to remove
* text when caret is at aPoint.
*/
static Result<EditorDOMRangeInTexts, nsresult>
GetRangeInTextNodesToForwardDeleteFrom(const EditorDOMPoint& aPoint,
const Element& aEditingHost);
/**
* GetRangeInTextNodesToBackspaceFrom() returns the range to remove text
* when caret is at aPoint.
*/
static Result<EditorDOMRangeInTexts, nsresult>
GetRangeInTextNodesToBackspaceFrom(const EditorDOMPoint& aPoint,
const Element& aEditingHost);
/**
* GetRangesForDeletingAtomicContent() returns the range to delete
* aAtomicContent. If it's followed by invisible white-spaces, they will
* be included into the range.
*/
static EditorDOMRange GetRangesForDeletingAtomicContent(
Element* aEditingHost, const nsIContent& aAtomicContent);
/**
* GetRangeForDeleteBlockElementBoundaries() returns a range starting from end
* of aLeftBlockElement to start of aRightBlockElement and extend invisible
* white-spaces around them.
*
* @param aHTMLEditor The HTML editor.
* @param aLeftBlockElement The block element which will be joined with
* aRightBlockElement.
* @param aRightBlockElement The block element which will be joined with
* aLeftBlockElement. This must be an element
* after aLeftBlockElement.
* @param aPointContainingTheOtherBlock
* When aRightBlockElement is an ancestor of
* aLeftBlockElement, this must be set and the
* container must be aRightBlockElement.
* When aLeftBlockElement is an ancestor of
* aRightBlockElement, this must be set and the
* container must be aLeftBlockElement.
* Otherwise, must not be set.
*/
static EditorDOMRange GetRangeForDeletingBlockElementBoundaries(
const HTMLEditor& aHTMLEditor, const Element& aLeftBlockElement,
const Element& aRightBlockElement,
const EditorDOMPoint& aPointContainingTheOtherBlock);
/**
* ShrinkRangeIfStartsFromOrEndsAfterAtomicContent() may shrink aRange if it
* starts and/or ends with an atomic content, but the range boundary
* is in adjacent text nodes. Returns true if this modifies the range.
*/
static Result<bool, nsresult> ShrinkRangeIfStartsFromOrEndsAfterAtomicContent(
const HTMLEditor& aHTMLEditor, nsRange& aRange,
const Element* aEditingHost);
/**
* GetRangeContainingInvisibleWhiteSpacesAtRangeBoundaries() returns
* extended range if range boundaries of aRange are in invisible white-spaces.
*/
static EditorDOMRange GetRangeContainingInvisibleWhiteSpacesAtRangeBoundaries(
Element* aEditingHost, const EditorDOMRange& aRange);
/**
* GetPrecedingBRElementUnlessVisibleContentFound() scans a `<br>` element
* backward, but stops scanning it if the scanner finds visible character
* or something. In other words, this method ignores only invisible
* white-spaces between `<br>` element and aPoint.
*/
template <typename EditorDOMPointType>
MOZ_NEVER_INLINE_DEBUG static HTMLBRElement*
GetPrecedingBRElementUnlessVisibleContentFound(
Element* aEditingHost, const EditorDOMPointType& aPoint,
BlockInlineCheck aBlockInlineCheck) {
MOZ_ASSERT(aPoint.IsSetAndValid());
// XXX This method behaves differently even in similar point.
// If aPoint is in a text node following `<br>` element, reaches the
// `<br>` element when all characters between the `<br>` and
// aPoint are ASCII whitespaces.
// But if aPoint is not in a text node, e.g., at start of an inline
// element which is immediately after a `<br>` element, returns the
// `<br>` element even if there is no invisible white-spaces.
if (aPoint.IsStartOfContainer()) {
return nullptr;
}
// TODO: Scan for end boundary is redundant in this case, we should optimize
// it.
TextFragmentData textFragmentData(aPoint, aEditingHost, aBlockInlineCheck);
return textFragmentData.StartsFromBRElement()
? textFragmentData.StartReasonBRElementPtr()
: nullptr;
}
const EditorDOMPoint& ScanStartRef() const { return mScanStartPoint; }
/**
* GetStartReasonContent() and GetEndReasonContent() return a node which
* was found by scanning from mScanStartPoint backward or forward. If there
* was white-spaces or text from the point, returns the text node. Otherwise,
* returns an element which is explained by the following methods. Note that
* when the reason is WSType::CurrentBlockBoundary, In most cases, it's
* current block element which is editable, but also may be non-element and/or
* non-editable. See MOZ_ASSERT_IF()s in WSScanResult::AssertIfInvalidData()
* for the detail.
*/
nsIContent* GetStartReasonContent() const {
return TextFragmentDataAtStartRef().GetStartReasonContent();
}
nsIContent* GetEndReasonContent() const {
return TextFragmentDataAtStartRef().GetEndReasonContent();
}
bool StartsFromNonCollapsibleCharacters() const {
return TextFragmentDataAtStartRef().StartsFromNonCollapsibleCharacters();
}
bool StartsFromSpecialContent() const {
return TextFragmentDataAtStartRef().StartsFromSpecialContent();
}
bool StartsFromBRElement() const {
return TextFragmentDataAtStartRef().StartsFromBRElement();
}
bool StartsFromVisibleBRElement() const {
return TextFragmentDataAtStartRef().StartsFromVisibleBRElement();
}
bool StartsFromInvisibleBRElement() const {
return TextFragmentDataAtStartRef().StartsFromInvisibleBRElement();
}
bool StartsFromPreformattedLineBreak() const {
return TextFragmentDataAtStartRef().StartsFromPreformattedLineBreak();
}
bool StartsFromCurrentBlockBoundary() const {
return TextFragmentDataAtStartRef().StartsFromCurrentBlockBoundary();
}
bool StartsFromOtherBlockElement() const {
return TextFragmentDataAtStartRef().StartsFromOtherBlockElement();
}
bool StartsFromBlockBoundary() const {
return TextFragmentDataAtStartRef().StartsFromBlockBoundary();
}
bool StartsFromInlineEditingHostBoundary() const {
return TextFragmentDataAtStartRef().StartsFromInlineEditingHostBoundary();
}
bool StartsFromHardLineBreak() const {
return TextFragmentDataAtStartRef().StartsFromHardLineBreak();
}
bool EndsByNonCollapsibleCharacters() const {
return TextFragmentDataAtStartRef().EndsByNonCollapsibleCharacters();
}
bool EndsBySpecialContent() const {
return TextFragmentDataAtStartRef().EndsBySpecialContent();
}
bool EndsByBRElement() const {
return TextFragmentDataAtStartRef().EndsByBRElement();
}
bool EndsByVisibleBRElement() const {
return TextFragmentDataAtStartRef().EndsByVisibleBRElement();
}
bool EndsByInvisibleBRElement() const {
return TextFragmentDataAtStartRef().EndsByInvisibleBRElement();
}
bool EndsByPreformattedLineBreak() const {
return TextFragmentDataAtStartRef().EndsByPreformattedLineBreak();
}
bool EndsByCurrentBlockBoundary() const {
return TextFragmentDataAtStartRef().EndsByCurrentBlockBoundary();
}
bool EndsByOtherBlockElement() const {
return TextFragmentDataAtStartRef().EndsByOtherBlockElement();
}
bool EndsByBlockBoundary() const {
return TextFragmentDataAtStartRef().EndsByBlockBoundary();
}
bool EndsByInlineEditingHostBoundary() const {
return TextFragmentDataAtStartRef().EndsByInlineEditingHostBoundary();
}
MOZ_NEVER_INLINE_DEBUG Element* StartReasonOtherBlockElementPtr() const {
return TextFragmentDataAtStartRef().StartReasonOtherBlockElementPtr();
}
MOZ_NEVER_INLINE_DEBUG HTMLBRElement* StartReasonBRElementPtr() const {
return TextFragmentDataAtStartRef().StartReasonBRElementPtr();
}
MOZ_NEVER_INLINE_DEBUG Element* EndReasonOtherBlockElementPtr() const {
return TextFragmentDataAtStartRef().EndReasonOtherBlockElementPtr();
}
MOZ_NEVER_INLINE_DEBUG HTMLBRElement* EndReasonBRElementPtr() const {
return TextFragmentDataAtStartRef().EndReasonBRElementPtr();
}
/**
* Active editing host when this instance is created.
*/
Element* GetEditingHost() const { return mEditingHost; }
protected:
using EditorType = EditorBase::EditorType;
class TextFragmentData;
// VisibleWhiteSpacesData represents 0 or more visible white-spaces.
class MOZ_STACK_CLASS VisibleWhiteSpacesData final {
public:
bool IsInitialized() const {
return mLeftWSType != WSType::NotInitialized ||
mRightWSType != WSType::NotInitialized;
}
EditorDOMPoint StartRef() const { return mStartPoint; }
EditorDOMPoint EndRef() const { return mEndPoint; }
/**
* Information why the white-spaces start from (i.e., this indicates the
* previous content type of the fragment).
*/
bool StartsFromNonCollapsibleCharacters() const {
return mLeftWSType == WSType::NonCollapsibleCharacters;
}
bool StartsFromSpecialContent() const {
return mLeftWSType == WSType::SpecialContent;
}
bool StartsFromPreformattedLineBreak() const {
return mLeftWSType == WSType::PreformattedLineBreak;
}
/**
* Information why the white-spaces end by (i.e., this indicates the
* next content type of the fragment).
*/
bool EndsByNonCollapsibleCharacters() const {
return mRightWSType == WSType::NonCollapsibleCharacters;
}
bool EndsByTrailingWhiteSpaces() const {
return mRightWSType == WSType::TrailingWhiteSpaces;
}
bool EndsBySpecialContent() const {
return mRightWSType == WSType::SpecialContent;
}
bool EndsByBRElement() const { return mRightWSType == WSType::BRElement; }
bool EndsByPreformattedLineBreak() const {
return mRightWSType == WSType::PreformattedLineBreak;
}
bool EndsByBlockBoundary() const {
return mRightWSType == WSType::CurrentBlockBoundary ||
mRightWSType == WSType::OtherBlockBoundary;
}
bool EndsByInlineEditingHostBoundary() const {
return mRightWSType == WSType::InlineEditingHostBoundary;
}
/**
* ComparePoint() compares aPoint with the white-spaces.
*/
enum class PointPosition {
BeforeStartOfFragment,
StartOfFragment,
MiddleOfFragment,
EndOfFragment,
AfterEndOfFragment,
NotInSameDOMTree,
};
template <typename EditorDOMPointType>
PointPosition ComparePoint(const EditorDOMPointType& aPoint) const {
MOZ_ASSERT(aPoint.IsSetAndValid());
if (StartRef() == aPoint) {
return PointPosition::StartOfFragment;
}
if (EndRef() == aPoint) {
return PointPosition::EndOfFragment;
}
const bool startIsBeforePoint = StartRef().IsBefore(aPoint);
const bool pointIsBeforeEnd = aPoint.IsBefore(EndRef());
if (startIsBeforePoint && pointIsBeforeEnd) {
return PointPosition::MiddleOfFragment;
}
if (startIsBeforePoint) {
return PointPosition::AfterEndOfFragment;
}
if (pointIsBeforeEnd) {
return PointPosition::BeforeStartOfFragment;
}
return PointPosition::NotInSameDOMTree;
}
private:
// Initializers should be accessible only from `TextFragmentData`.
friend class WSRunScanner::TextFragmentData;
VisibleWhiteSpacesData()
: mLeftWSType(WSType::NotInitialized),
mRightWSType(WSType::NotInitialized) {}
template <typename EditorDOMPointType>
void SetStartPoint(const EditorDOMPointType& aStartPoint) {
mStartPoint = aStartPoint;
}
template <typename EditorDOMPointType>
void SetEndPoint(const EditorDOMPointType& aEndPoint) {
mEndPoint = aEndPoint;
}
void SetStartFrom(WSType aLeftWSType) { mLeftWSType = aLeftWSType; }
void SetStartFromLeadingWhiteSpaces() {
mLeftWSType = WSType::LeadingWhiteSpaces;
}
void SetEndBy(WSType aRightWSType) { mRightWSType = aRightWSType; }
void SetEndByTrailingWhiteSpaces() {
mRightWSType = WSType::TrailingWhiteSpaces;
}
EditorDOMPoint mStartPoint;
EditorDOMPoint mEndPoint;
WSType mLeftWSType, mRightWSType;
};
using PointPosition = VisibleWhiteSpacesData::PointPosition;
/**
* GetInclusiveNextEditableCharPoint() returns aPoint if it points a character
* in an editable text node, or start of next editable text node otherwise.
* FYI: For the performance, this does not check whether given container
* is not after mStart.mReasonContent or not.
*/
template <typename EditorDOMPointType = EditorDOMPointInText, typename PT,
typename CT>
EditorDOMPointType GetInclusiveNextEditableCharPoint(
const EditorDOMPointBase<PT, CT>& aPoint) const {
return TextFragmentDataAtStartRef()
.GetInclusiveNextEditableCharPoint<EditorDOMPointType>(aPoint);
}
/**
* GetPreviousEditableCharPoint() returns previous editable point in a
* text node. Note that this returns last character point when it meets
* non-empty text node, otherwise, returns a point in an empty text node.
* FYI: For the performance, this does not check whether given container
* is not before mEnd.mReasonContent or not.
*/
template <typename EditorDOMPointType = EditorDOMPointInText, typename PT,
typename CT>
EditorDOMPointType GetPreviousEditableCharPoint(
const EditorDOMPointBase<PT, CT>& aPoint) const {
return TextFragmentDataAtStartRef()
.GetPreviousEditableCharPoint<EditorDOMPointType>(aPoint);
}
/**
* GetEndOfCollapsibleASCIIWhiteSpaces() returns the next visible char
* (meaning a character except ASCII white-spaces) point or end of last text
* node scanning from aPointAtASCIIWhiteSpace.
* Note that this may return different text node from the container of
* aPointAtASCIIWhiteSpace.
*/
template <typename EditorDOMPointType = EditorDOMPointInText>
EditorDOMPointType GetEndOfCollapsibleASCIIWhiteSpaces(
const EditorDOMPointInText& aPointAtASCIIWhiteSpace,
nsIEditor::EDirection aDirectionToDelete) const {
MOZ_ASSERT(aDirectionToDelete == nsIEditor::eNone ||
aDirectionToDelete == nsIEditor::eNext ||
aDirectionToDelete == nsIEditor::ePrevious);
return TextFragmentDataAtStartRef()
.GetEndOfCollapsibleASCIIWhiteSpaces<EditorDOMPointType>(
aPointAtASCIIWhiteSpace, aDirectionToDelete);
}
/**
* GetFirstASCIIWhiteSpacePointCollapsedTo() returns the first ASCII
* white-space which aPointAtASCIIWhiteSpace belongs to. In other words,
* the white-space at aPointAtASCIIWhiteSpace should be collapsed into
* the result.
* Note that this may return different text node from the container of
* aPointAtASCIIWhiteSpace.
*/
template <typename EditorDOMPointType = EditorDOMPointInText>
EditorDOMPointType GetFirstASCIIWhiteSpacePointCollapsedTo(
const EditorDOMPointInText& aPointAtASCIIWhiteSpace,
nsIEditor::EDirection aDirectionToDelete) const {
MOZ_ASSERT(aDirectionToDelete == nsIEditor::eNone ||
aDirectionToDelete == nsIEditor::eNext ||
aDirectionToDelete == nsIEditor::ePrevious);
return TextFragmentDataAtStartRef()
.GetFirstASCIIWhiteSpacePointCollapsedTo<EditorDOMPointType>(
aPointAtASCIIWhiteSpace, aDirectionToDelete);
}
EditorDOMPointInText GetPreviousCharPointFromPointInText(
const EditorDOMPointInText& aPoint) const;
char16_t GetCharAt(Text* aTextNode, uint32_t aOffset) const;
/**
* TextFragmentData stores the information of white-space sequence which
* contains `aPoint` of the constructor.
*/
class MOZ_STACK_CLASS TextFragmentData final {
private:
class NoBreakingSpaceData;
class MOZ_STACK_CLASS BoundaryData final {
public:
using NoBreakingSpaceData =
WSRunScanner::TextFragmentData::NoBreakingSpaceData;
/**
* ScanCollapsibleWhiteSpaceStartFrom() returns start boundary data of
* white-spaces containing aPoint. When aPoint is in a text node and
* points a non-white-space character or the text node is preformatted,
* this returns the data at aPoint.
*
* @param aPoint Scan start point.
* @param aEditableBlockParentOrTopmostEditableInlineElement
* Nearest editable block parent element of
* aPoint if there is. Otherwise, inline editing
* host.
* @param aEditingHost Active editing host.
* @param aNBSPData Optional. If set, this recodes first and last
* NBSP positions.
*/
template <typename EditorDOMPointType>
static BoundaryData ScanCollapsibleWhiteSpaceStartFrom(
const EditorDOMPointType& aPoint,
const Element& aEditableBlockParentOrTopmostEditableInlineElement,
const Element* aEditingHost, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck);
/**
* ScanCollapsibleWhiteSpaceEndFrom() returns end boundary data of
* white-spaces containing aPoint. When aPoint is in a text node and
* points a non-white-space character or the text node is preformatted,
* this returns the data at aPoint.
*
* @param aPoint Scan start point.
* @param aEditableBlockParentOrTopmostEditableInlineElement
* Nearest editable block parent element of
* aPoint if there is. Otherwise, inline editing
* host.
* @param aEditingHost Active editing host.
* @param aNBSPData Optional. If set, this recodes first and last
* NBSP positions.
*/
template <typename EditorDOMPointType>
static BoundaryData ScanCollapsibleWhiteSpaceEndFrom(
const EditorDOMPointType& aPoint,
const Element& aEditableBlockParentOrTopmostEditableInlineElement,
const Element* aEditingHost, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck);
BoundaryData() = default;
template <typename EditorDOMPointType>
BoundaryData(const EditorDOMPointType& aPoint, nsIContent& aReasonContent,
WSType aReason)
: mReasonContent(&aReasonContent),
mPoint(aPoint.template To<EditorDOMPoint>()),
mReason(aReason) {}
bool Initialized() const { return mReasonContent && mPoint.IsSet(); }
nsIContent* GetReasonContent() const { return mReasonContent; }
const EditorDOMPoint& PointRef() const { return mPoint; }
WSType RawReason() const { return mReason; }
bool IsNonCollapsibleCharacters() const {
return mReason == WSType::NonCollapsibleCharacters;
}
bool IsSpecialContent() const {
return mReason == WSType::SpecialContent;
}
bool IsBRElement() const { return mReason == WSType::BRElement; }
bool IsPreformattedLineBreak() const {
return mReason == WSType::PreformattedLineBreak;
}
bool IsCurrentBlockBoundary() const {
return mReason == WSType::CurrentBlockBoundary;
}
bool IsOtherBlockBoundary() const {
return mReason == WSType::OtherBlockBoundary;
}
bool IsBlockBoundary() const {
return mReason == WSType::CurrentBlockBoundary ||
mReason == WSType::OtherBlockBoundary;
}
bool IsInlineEditingHostBoundary() const {
return mReason == WSType::InlineEditingHostBoundary;
}
bool IsHardLineBreak() const {
return mReason == WSType::CurrentBlockBoundary ||
mReason == WSType::OtherBlockBoundary ||
mReason == WSType::BRElement ||
mReason == WSType::PreformattedLineBreak;
}
MOZ_NEVER_INLINE_DEBUG Element* OtherBlockElementPtr() const {
MOZ_DIAGNOSTIC_ASSERT(mReasonContent->IsElement());
return mReasonContent->AsElement();
}
MOZ_NEVER_INLINE_DEBUG HTMLBRElement* BRElementPtr() const {
MOZ_DIAGNOSTIC_ASSERT(mReasonContent->IsHTMLElement(nsGkAtoms::br));
return static_cast<HTMLBRElement*>(mReasonContent.get());
}
private:
/**
* Helper methods of ScanCollapsibleWhiteSpaceStartFrom() and
* ScanCollapsibleWhiteSpaceEndFrom() when they need to scan in a text
* node.
*/
template <typename EditorDOMPointType>
static Maybe<BoundaryData> ScanCollapsibleWhiteSpaceStartInTextNode(
const EditorDOMPointType& aPoint, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck);
template <typename EditorDOMPointType>
static Maybe<BoundaryData> ScanCollapsibleWhiteSpaceEndInTextNode(
const EditorDOMPointType& aPoint, NoBreakingSpaceData* aNBSPData,
BlockInlineCheck aBlockInlineCheck);
nsCOMPtr<nsIContent> mReasonContent;
EditorDOMPoint mPoint;
// Must be one of WSType::NotInitialized,
// WSType::NonCollapsibleCharacters, WSType::SpecialContent,
// WSType::BRElement, WSType::CurrentBlockBoundary,
// WSType::OtherBlockBoundary or WSType::InlineEditingHostBoundary.
WSType mReason = WSType::NotInitialized;
};
class MOZ_STACK_CLASS NoBreakingSpaceData final {
public:
enum class Scanning { Forward, Backward };
void NotifyNBSP(const EditorDOMPointInText& aPoint,
Scanning aScanningDirection) {
MOZ_ASSERT(aPoint.IsSetAndValid());
MOZ_ASSERT(aPoint.IsCharNBSP());
if (!mFirst.IsSet() || aScanningDirection == Scanning::Backward) {
mFirst = aPoint;
}
if (!mLast.IsSet() || aScanningDirection == Scanning::Forward) {
mLast = aPoint;
}
}
const EditorDOMPointInText& FirstPointRef() const { return mFirst; }
const EditorDOMPointInText& LastPointRef() const { return mLast; }
bool FoundNBSP() const {
MOZ_ASSERT(mFirst.IsSet() == mLast.IsSet());
return mFirst.IsSet();
}
private:
EditorDOMPointInText mFirst;
EditorDOMPointInText mLast;
};
public:
TextFragmentData() = delete;
template <typename EditorDOMPointType>
TextFragmentData(const WSRunScanner& aWSRunScanner,
const EditorDOMPointType& aPoint)
: TextFragmentData(aPoint, aWSRunScanner.mEditingHost,
aWSRunScanner.mBlockInlineCheck) {}
template <typename EditorDOMPointType>
TextFragmentData(const EditorDOMPointType& aPoint,
const Element* aEditingHost,
BlockInlineCheck aBlockInlineCheck);
bool IsInitialized() const {
return mStart.Initialized() && mEnd.Initialized();
}
nsIContent* GetStartReasonContent() const {
return mStart.GetReasonContent();
}
nsIContent* GetEndReasonContent() const { return mEnd.GetReasonContent(); }
bool StartsFromNonCollapsibleCharacters() const {
return mStart.IsNonCollapsibleCharacters();
}
bool StartsFromSpecialContent() const { return mStart.IsSpecialContent(); }
bool StartsFromBRElement() const { return mStart.IsBRElement(); }
bool StartsFromVisibleBRElement() const {
return StartsFromBRElement() &&
HTMLEditUtils::IsVisibleBRElement(*GetStartReasonContent());
}
bool StartsFromInvisibleBRElement() const {
return StartsFromBRElement() &&
HTMLEditUtils::IsInvisibleBRElement(*GetStartReasonContent());
}
bool StartsFromPreformattedLineBreak() const {
return mStart.IsPreformattedLineBreak();
}
bool StartsFromCurrentBlockBoundary() const {
return mStart.IsCurrentBlockBoundary();
}
bool StartsFromOtherBlockElement() const {
return mStart.IsOtherBlockBoundary();
}
bool StartsFromBlockBoundary() const { return mStart.IsBlockBoundary(); }
bool StartsFromInlineEditingHostBoundary() const {
return mStart.IsInlineEditingHostBoundary();
}
bool StartsFromHardLineBreak() const { return mStart.IsHardLineBreak(); }
bool EndsByNonCollapsibleCharacters() const {
return mEnd.IsNonCollapsibleCharacters();
}
bool EndsBySpecialContent() const { return mEnd.IsSpecialContent(); }
bool EndsByBRElement() const { return mEnd.IsBRElement(); }
bool EndsByVisibleBRElement() const {
return EndsByBRElement() &&
HTMLEditUtils::IsVisibleBRElement(*GetEndReasonContent());
}
bool EndsByInvisibleBRElement() const {
return EndsByBRElement() &&
HTMLEditUtils::IsInvisibleBRElement(*GetEndReasonContent());
}
bool EndsByPreformattedLineBreak() const {
return mEnd.IsPreformattedLineBreak();
}
bool EndsByInvisiblePreformattedLineBreak() const {
return mEnd.IsPreformattedLineBreak() &&
HTMLEditUtils::IsInvisiblePreformattedNewLine(mEnd.PointRef());
}
bool EndsByCurrentBlockBoundary() const {
return mEnd.IsCurrentBlockBoundary();
}
bool EndsByOtherBlockElement() const { return mEnd.IsOtherBlockBoundary(); }
bool EndsByBlockBoundary() const { return mEnd.IsBlockBoundary(); }
bool EndsByInlineEditingHostBoundary() const {
return mEnd.IsInlineEditingHostBoundary();
}
WSType StartRawReason() const { return mStart.RawReason(); }
WSType EndRawReason() const { return mEnd.RawReason(); }
MOZ_NEVER_INLINE_DEBUG Element* StartReasonOtherBlockElementPtr() const {
return mStart.OtherBlockElementPtr();
}
MOZ_NEVER_INLINE_DEBUG HTMLBRElement* StartReasonBRElementPtr() const {
return mStart.BRElementPtr();
}
MOZ_NEVER_INLINE_DEBUG Element* EndReasonOtherBlockElementPtr() const {
return mEnd.OtherBlockElementPtr();
}
MOZ_NEVER_INLINE_DEBUG HTMLBRElement* EndReasonBRElementPtr() const {
return mEnd.BRElementPtr();
}
const EditorDOMPoint& StartRef() const { return mStart.PointRef(); }
const EditorDOMPoint& EndRef() const { return mEnd.PointRef(); }
const EditorDOMPoint& ScanStartRef() const { return mScanStartPoint; }
bool FoundNoBreakingWhiteSpaces() const { return mNBSPData.FoundNBSP(); }
const EditorDOMPointInText& FirstNBSPPointRef() const {
return mNBSPData.FirstPointRef();
}
const EditorDOMPointInText& LastNBSPPointRef() const {
return mNBSPData.LastPointRef();
}
template <typename EditorDOMPointType = EditorDOMPointInText, typename PT,
typename CT>
EditorDOMPointType GetInclusiveNextEditableCharPoint(
const EditorDOMPointBase<PT, CT>& aPoint) const;
template <typename EditorDOMPointType = EditorDOMPointInText, typename PT,
typename CT>
EditorDOMPointType GetPreviousEditableCharPoint(
const EditorDOMPointBase<PT, CT>& aPoint) const;
template <typename EditorDOMPointType = EditorDOMPointInText>
EditorDOMPointType GetEndOfCollapsibleASCIIWhiteSpaces(
const EditorDOMPointInText& aPointAtASCIIWhiteSpace,
nsIEditor::EDirection aDirectionToDelete) const;
template <typename EditorDOMPointType = EditorDOMPointInText>
EditorDOMPointType GetFirstASCIIWhiteSpacePointCollapsedTo(
const EditorDOMPointInText& aPointAtASCIIWhiteSpace,
nsIEditor::EDirection aDirectionToDelete) const;
/**
* GetNonCollapsedRangeInTexts() returns non-empty range in texts which
* is the largest range in aRange if there is some text nodes.
*/
EditorDOMRangeInTexts GetNonCollapsedRangeInTexts(
const EditorDOMRange& aRange) const;
/**
* InvisibleLeadingWhiteSpaceRangeRef() retruns reference to two DOM points,
* start of the line and first visible point or end of the hard line. When
* this returns non-positioned range or positioned but collapsed range,
* there is no invisible leading white-spaces.
* Note that if there are only invisible white-spaces in a hard line,
* this returns all of the white-spaces.
*/
const EditorDOMRange& InvisibleLeadingWhiteSpaceRangeRef() const;
/**
* InvisibleTrailingWhiteSpaceRangeRef() returns reference to two DOM
* points, first invisible white-space and end of the hard line. When this
* returns non-positioned range or positioned but collapsed range,
* there is no invisible trailing white-spaces.
* Note that if there are only invisible white-spaces in a hard line,
* this returns all of the white-spaces.
*/
const EditorDOMRange& InvisibleTrailingWhiteSpaceRangeRef() const;
/**
* GetNewInvisibleLeadingWhiteSpaceRangeIfSplittingAt() returns new
* invisible leading white-space range which should be removed if
* splitting invisible white-space sequence at aPointToSplit creates
* new invisible leading white-spaces in the new line.
* Note that the result may be collapsed range if the point is around
* invisible white-spaces.
*/
template <typename EditorDOMPointType>
EditorDOMRange GetNewInvisibleLeadingWhiteSpaceRangeIfSplittingAt(
const EditorDOMPointType& aPointToSplit) const {
// If there are invisible trailing white-spaces and some or all of them
// become invisible leading white-spaces in the new line, although we
// don't need to delete them, but for aesthetically and backward
// compatibility, we should remove them.
const EditorDOMRange& trailingWhiteSpaceRange =
InvisibleTrailingWhiteSpaceRangeRef();
// XXX Why don't we check leading white-spaces too?
if (!trailingWhiteSpaceRange.IsPositioned()) {
return trailingWhiteSpaceRange;
}
// If the point is before the trailing white-spaces, the new line won't
// start with leading white-spaces.
if (aPointToSplit.IsBefore(trailingWhiteSpaceRange.StartRef())) {
return EditorDOMRange();
}
// If the point is in the trailing white-spaces, the new line may
// start with some leading white-spaces. Returning collapsed range
// is intentional because the caller may want to know whether the
// point is in trailing white-spaces or not.
if (aPointToSplit.EqualsOrIsBefore(trailingWhiteSpaceRange.EndRef())) {
return EditorDOMRange(trailingWhiteSpaceRange.StartRef(),
aPointToSplit);
}
// Otherwise, if the point is after the trailing white-spaces, it may
// be just outside of the text node. E.g., end of parent element.
// This is possible case but the validation cost is not worthwhile
// due to the runtime cost in the worst case. Therefore, we should just
// return collapsed range at the end of trailing white-spaces. Then,
// callers can know the point is immediately after the trailing
// white-spaces.
return EditorDOMRange(trailingWhiteSpaceRange.EndRef());
}
/**
* GetNewInvisibleTrailingWhiteSpaceRangeIfSplittingAt() returns new
* invisible trailing white-space range which should be removed if
* splitting invisible white-space sequence at aPointToSplit creates
* new invisible trailing white-spaces in the new line.
* Note that the result may be collapsed range if the point is around
* invisible white-spaces.
*/
template <typename EditorDOMPointType>
EditorDOMRange GetNewInvisibleTrailingWhiteSpaceRangeIfSplittingAt(
const EditorDOMPointType& aPointToSplit) const {
// If there are invisible leading white-spaces and some or all of them
// become end of current line, they will become visible. Therefore, we
// need to delete the invisible leading white-spaces before insertion
// point.
const EditorDOMRange& leadingWhiteSpaceRange =
InvisibleLeadingWhiteSpaceRangeRef();
if (!leadingWhiteSpaceRange.IsPositioned()) {
return leadingWhiteSpaceRange;
}
// If the point equals or is after the leading white-spaces, the line
// will end without trailing white-spaces.
if (leadingWhiteSpaceRange.EndRef().IsBefore(aPointToSplit)) {
return EditorDOMRange();
}
// If the point is in the leading white-spaces, the line may
// end with some trailing white-spaces. Returning collapsed range
// is intentional because the caller may want to know whether the
// point is in leading white-spaces or not.
if (leadingWhiteSpaceRange.StartRef().EqualsOrIsBefore(aPointToSplit)) {
return EditorDOMRange(aPointToSplit, leadingWhiteSpaceRange.EndRef());
}
// Otherwise, if the point is before the leading white-spaces, it may
// be just outside of the text node. E.g., start of parent element.
// This is possible case but the validation cost is not worthwhile
// due to the runtime cost in the worst case. Therefore, we should
// just return collapsed range at start of the leading white-spaces.
// Then, callers can know the point is immediately before the leading
// white-spaces.
return EditorDOMRange(leadingWhiteSpaceRange.StartRef());
}
/**
* FollowingContentMayBecomeFirstVisibleContent() returns true if some
* content may be first visible content after removing content after aPoint.
* Note that it's completely broken what this does. Don't use this method
* with new code.
*/
template <typename EditorDOMPointType>
bool FollowingContentMayBecomeFirstVisibleContent(
const EditorDOMPointType& aPoint) const {
MOZ_ASSERT(aPoint.IsSetAndValid());
if (!mStart.IsHardLineBreak() && !mStart.IsInlineEditingHostBoundary()) {
return false;
}
// If the point is before start of text fragment, that means that the
// point may be at the block boundary or inline element boundary.
if (aPoint.EqualsOrIsBefore(mStart.PointRef())) {
return true;
}
// VisibleWhiteSpacesData is marked as start of line only when it
// represents leading white-spaces.
const EditorDOMRange& leadingWhiteSpaceRange =
InvisibleLeadingWhiteSpaceRangeRef();
if (!leadingWhiteSpaceRange.StartRef().IsSet()) {
return false;
}
if (aPoint.EqualsOrIsBefore(leadingWhiteSpaceRange.StartRef())) {
return true;
}
if (!leadingWhiteSpaceRange.EndRef().IsSet()) {
return false;
}
return aPoint.EqualsOrIsBefore(leadingWhiteSpaceRange.EndRef());
}
/**
* PrecedingContentMayBecomeInvisible() returns true if end of preceding
* content is collapsed (when ends with an ASCII white-space).
* Note that it's completely broken what this does. Don't use this method
* with new code.
*/
template <typename EditorDOMPointType>
bool PrecedingContentMayBecomeInvisible(
const EditorDOMPointType& aPoint) const {
MOZ_ASSERT(aPoint.IsSetAndValid());
// If this fragment is ends by block boundary, always the caller needs
// additional check.
if (mEnd.IsBlockBoundary() || mEnd.IsInlineEditingHostBoundary()) {
return true;
}
// If the point is in visible white-spaces and ends with an ASCII
// white-space, it may be collapsed even if it won't be end of line.
const VisibleWhiteSpacesData& visibleWhiteSpaces =
VisibleWhiteSpacesDataRef();
if (!visibleWhiteSpaces.IsInitialized()) {
return false;
}
// XXX Odd case, but keep traditional behavior of `FindNearestRun()`.
if (!visibleWhiteSpaces.StartRef().IsSet()) {
return true;
}
if (!visibleWhiteSpaces.StartRef().EqualsOrIsBefore(aPoint)) {
return false;
}
// XXX Odd case, but keep traditional behavior of `FindNearestRun()`.
if (visibleWhiteSpaces.EndsByTrailingWhiteSpaces()) {
return true;
}
// XXX Must be a bug. This claims that the caller needs additional
// check even when there is no white-spaces.
if (visibleWhiteSpaces.StartRef() == visibleWhiteSpaces.EndRef()) {
return true;
}
return aPoint.IsBefore(visibleWhiteSpaces.EndRef());
}
/**
* GetPreviousNBSPPointIfNeedToReplaceWithASCIIWhiteSpace() may return an
* NBSP point which should be replaced with an ASCII white-space when we're
* inserting text into aPointToInsert. Note that this is a helper method for
* the traditional white-space normalizer. Don't use this with the new
* white-space normalizer.
* Must be called only when VisibleWhiteSpacesDataRef() returns initialized
* instance and previous character of aPointToInsert is in the range.
*/
EditorDOMPointInText GetPreviousNBSPPointIfNeedToReplaceWithASCIIWhiteSpace(
const EditorDOMPoint& aPointToInsert) const;
/**
* GetInclusiveNextNBSPPointIfNeedToReplaceWithASCIIWhiteSpace() may return
* an NBSP point which should be replaced with an ASCII white-space when
* the caller inserts text into aPointToInsert.
* Note that this is a helper method for the traditional white-space
* normalizer. Don't use this with the new white-space normalizer.
* Must be called only when VisibleWhiteSpacesDataRef() returns initialized
* instance, and inclusive next char of aPointToInsert is in the range.
*/
EditorDOMPointInText
GetInclusiveNextNBSPPointIfNeedToReplaceWithASCIIWhiteSpace(
const EditorDOMPoint& aPointToInsert) const;
/**
* GetReplaceRangeDataAtEndOfDeletionRange() and
* GetReplaceRangeDataAtStartOfDeletionRange() return delete range if
* end or start of deleting range splits invisible trailing/leading
* white-spaces and it may become visible, or return replace range if
* end or start of deleting range splits visible white-spaces and it
* causes some ASCII white-spaces become invisible unless replacing
* with an NBSP.
*/
ReplaceRangeData GetReplaceRangeDataAtEndOfDeletionRange(
const TextFragmentData& aTextFragmentDataAtStartToDelete) const;
ReplaceRangeData GetReplaceRangeDataAtStartOfDeletionRange(
const TextFragmentData& aTextFragmentDataAtEndToDelete) const;
/**
* VisibleWhiteSpacesDataRef() returns reference to visible white-spaces
* data. That is zero or more white-spaces which are visible.
* Note that when there is no visible content, it's not initialized.
* Otherwise, even if there is no white-spaces, it's initialized and
* the range is collapsed in such case.
*/
const VisibleWhiteSpacesData& VisibleWhiteSpacesDataRef() const;
private:
EditorDOMPoint mScanStartPoint;
BoundaryData mStart;
BoundaryData mEnd;
NoBreakingSpaceData mNBSPData;
RefPtr<const Element> mEditingHost;
mutable Maybe<EditorDOMRange> mLeadingWhiteSpaceRange;
mutable Maybe<EditorDOMRange> mTrailingWhiteSpaceRange;
mutable Maybe<VisibleWhiteSpacesData> mVisibleWhiteSpacesData;
BlockInlineCheck mBlockInlineCheck;
};
const TextFragmentData& TextFragmentDataAtStartRef() const {
return mTextFragmentDataAtStart;
}
// The node passed to our constructor.
EditorDOMPoint mScanStartPoint;
// Together, the above represent the point at which we are building up ws
// info.
// The editing host when the instance is created.
RefPtr<Element> mEditingHost;
private:
/**
* ComputeRangeInTextNodesContainingInvisibleWhiteSpaces() returns range
* containing invisible white-spaces if deleting between aStart and aEnd
* causes them become visible.
*
* @param aStart TextFragmentData at start of deleting range.
* This must be initialized with DOM point in a text node.
* @param aEnd TextFragmentData at end of deleting range.
* This must be initialized with DOM point in a text node.
*/
static EditorDOMRangeInTexts
ComputeRangeInTextNodesContainingInvisibleWhiteSpaces(
const TextFragmentData& aStart, const TextFragmentData& aEnd);
TextFragmentData mTextFragmentDataAtStart;
const BlockInlineCheck mBlockInlineCheck;
friend class WhiteSpaceVisibilityKeeper;
};
/**
* WhiteSpaceVisibilityKeeper class helps `HTMLEditor` modifying the DOM tree
* with keeps white-space sequence visibility automatically. E.g., invisible
* leading/trailing white-spaces becomes visible, this class members delete
* them. E.g., when splitting visible-white-space sequence, this class may
* replace ASCII white-spaces at split edges with NBSPs.
*/
class WhiteSpaceVisibilityKeeper final {
private:
using AutoTransactionsConserveSelection =
EditorBase::AutoTransactionsConserveSelection;
using EditorType = EditorBase::EditorType;
using PointPosition = WSRunScanner::PointPosition;
using TextFragmentData = WSRunScanner::TextFragmentData;
using VisibleWhiteSpacesData = WSRunScanner::VisibleWhiteSpacesData;
public:
using InsertTextTo = EditorBase::InsertTextTo;
WhiteSpaceVisibilityKeeper() = delete;
explicit WhiteSpaceVisibilityKeeper(
const WhiteSpaceVisibilityKeeper& aOther) = delete;
WhiteSpaceVisibilityKeeper(WhiteSpaceVisibilityKeeper&& aOther) = delete;
/**
* Remove invisible leading white-spaces and trailing white-spaces if there
* are around aPoint.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
DeleteInvisibleASCIIWhiteSpaces(HTMLEditor& aHTMLEditor,
const EditorDOMPoint& aPoint);
/**
* Fix up white-spaces before aStartPoint and after aEndPoint in preparation
* for content to keep the white-spaces visibility after the range is deleted.
* Note that the nodes and offsets are adjusted in response to any dom changes
* we make while adjusting white-spaces.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
PrepareToDeleteRangeAndTrackPoints(HTMLEditor& aHTMLEditor,
EditorDOMPoint* aStartPoint,
EditorDOMPoint* aEndPoint,
const Element& aEditingHost) {
MOZ_ASSERT(aStartPoint->IsSetAndValid());
MOZ_ASSERT(aEndPoint->IsSetAndValid());
AutoTrackDOMPoint trackerStart(aHTMLEditor.RangeUpdaterRef(), aStartPoint);
AutoTrackDOMPoint trackerEnd(aHTMLEditor.RangeUpdaterRef(), aEndPoint);
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::PrepareToDeleteRange(
aHTMLEditor, EditorDOMRange(*aStartPoint, *aEndPoint),
aEditingHost);
NS_WARNING_ASSERTION(
caretPointOrError.isOk(),
"WhiteSpaceVisibilityKeeper::PrepareToDeleteRange() failed");
return caretPointOrError;
}
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
PrepareToDeleteRange(HTMLEditor& aHTMLEditor,
const EditorDOMPoint& aStartPoint,
const EditorDOMPoint& aEndPoint,
const Element& aEditingHost) {
MOZ_ASSERT(aStartPoint.IsSetAndValid());
MOZ_ASSERT(aEndPoint.IsSetAndValid());
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::PrepareToDeleteRange(
aHTMLEditor, EditorDOMRange(aStartPoint, aEndPoint), aEditingHost);
NS_WARNING_ASSERTION(
caretPointOrError.isOk(),
"WhiteSpaceVisibilityKeeper::PrepareToDeleteRange() failed");
return caretPointOrError;
}
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
PrepareToDeleteRange(HTMLEditor& aHTMLEditor, const EditorDOMRange& aRange,
const Element& aEditingHost) {
MOZ_ASSERT(aRange.IsPositionedAndValid());
Result<CaretPoint, nsresult> caretPointOrError =
WhiteSpaceVisibilityKeeper::
MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange(
aHTMLEditor, aRange, aEditingHost);
NS_WARNING_ASSERTION(
caretPointOrError.isOk(),
"WhiteSpaceVisibilityKeeper::"
"MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange() failed");
return caretPointOrError;
}
/**
* PrepareToSplitBlockElement() makes sure that the invisible white-spaces
* not to become visible and returns splittable point.
*
* @param aHTMLEditor The HTML editor.
* @param aPointToSplit The splitting point in aSplittingBlockElement.
* @param aSplittingBlockElement A block element which will be split.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<EditorDOMPoint, nsresult>
PrepareToSplitBlockElement(HTMLEditor& aHTMLEditor,
const EditorDOMPoint& aPointToSplit,
const Element& aSplittingBlockElement);
/**
* MergeFirstLineOfRightBlockElementIntoDescendantLeftBlockElement() merges
* first line in aRightBlockElement into end of aLeftBlockElement which
* is a descendant of aRightBlockElement.
*
* @param aHTMLEditor The HTML editor.
* @param aLeftBlockElement The content will be merged into end of
* this element.
* @param aRightBlockElement The first line in this element will be
* moved to aLeftBlockElement.
* @param aAtRightBlockChild At a child of aRightBlockElement and inclusive
* ancestor of aLeftBlockElement.
* @param aListElementTagName Set some if aRightBlockElement is a list
* element and it'll be merged with another
* list element.
* @param aEditingHost The editing host.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<MoveNodeResult, nsresult>
MergeFirstLineOfRightBlockElementIntoDescendantLeftBlockElement(
HTMLEditor& aHTMLEditor, Element& aLeftBlockElement,
Element& aRightBlockElement, const EditorDOMPoint& aAtRightBlockChild,
const Maybe<nsAtom*>& aListElementTagName,
const HTMLBRElement* aPrecedingInvisibleBRElement,
const Element& aEditingHost);
/**
* MergeFirstLineOfRightBlockElementIntoAncestorLeftBlockElement() merges
* first line in aRightBlockElement into end of aLeftBlockElement which
* is an ancestor of aRightBlockElement, then, removes aRightBlockElement
* if it becomes empty.
*
* @param aHTMLEditor The HTML editor.
* @param aLeftBlockElement The content will be merged into end of
* this element.
* @param aRightBlockElement The first line in this element will be
* moved to aLeftBlockElement and maybe
* removed when this becomes empty.
* @param aAtLeftBlockChild At a child of aLeftBlockElement and inclusive
* ancestor of aRightBlockElement.
* @param aLeftContentInBlock The content whose inclusive ancestor is
* aLeftBlockElement.
* @param aListElementTagName Set some if aRightBlockElement is a list
* element and it'll be merged with another
* list element.
* @param aEditingHost The editing host.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<MoveNodeResult, nsresult>
MergeFirstLineOfRightBlockElementIntoAncestorLeftBlockElement(
HTMLEditor& aHTMLEditor, Element& aLeftBlockElement,
Element& aRightBlockElement, const EditorDOMPoint& aAtLeftBlockChild,
nsIContent& aLeftContentInBlock,
const Maybe<nsAtom*>& aListElementTagName,
const HTMLBRElement* aPrecedingInvisibleBRElement,
const Element& aEditingHost);
/**
* MergeFirstLineOfRightBlockElementIntoLeftBlockElement() merges first
* line in aRightBlockElement into end of aLeftBlockElement and removes
* aRightBlockElement when it has only one line.
*
* @param aHTMLEditor The HTML editor.
* @param aLeftBlockElement The content will be merged into end of
* this element.
* @param aRightBlockElement The first line in this element will be
* moved to aLeftBlockElement and maybe
* removed when this becomes empty.
* @param aListElementTagName Set some if aRightBlockElement is a list
* element and its type needs to be changed.
* @param aEditingHost The editing host.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<MoveNodeResult, nsresult>
MergeFirstLineOfRightBlockElementIntoLeftBlockElement(
HTMLEditor& aHTMLEditor, Element& aLeftBlockElement,
Element& aRightBlockElement, const Maybe<nsAtom*>& aListElementTagName,
const HTMLBRElement* aPrecedingInvisibleBRElement,
const Element& aEditingHost);
/**
* InsertBRElement() inserts a <br> node at (before) aPointToInsert and delete
* unnecessary white-spaces around there and/or replaces white-spaces with
* non-breaking spaces. Note that if the point is in a text node, the
* text node will be split and insert new <br> node between the left node
* and the right node.
*
* @param aPointToInsert The point to insert new <br> element. Note that
* it'll be inserted before this point. I.e., the
* point will be the point of new <br>.
* @return If succeeded, returns the new <br> element and
* point to put caret.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CreateElementResult, nsresult>
InsertBRElement(HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPointToInsert,
const Element& aEditingHost);
/**
* Insert aStringToInsert to aPointToInsert and makes any needed adjustments
* to white-spaces around the insertion point.
*
* @param aStringToInsert The string to insert.
* @param aRangeToBeReplaced The range to be replaced.
* @param aInsertTextTo Whether forcibly creates a new `Text` node in
* specific condition or use existing `Text` if
* available.
*/
template <typename EditorDOMPointType>
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<InsertTextResult, nsresult>
InsertText(HTMLEditor& aHTMLEditor, const nsAString& aStringToInsert,
const EditorDOMPointType& aPointToInsert,
InsertTextTo aInsertTextTo, const Element& aEditingHost) {
return WhiteSpaceVisibilityKeeper::ReplaceText(
aHTMLEditor, aStringToInsert, EditorDOMRange(aPointToInsert),
aInsertTextTo, aEditingHost);
}
/**
* Replace aRangeToReplace with aStringToInsert and makes any needed
* adjustments to white-spaces around both start of the range and end of the
* range.
*
* @param aStringToInsert The string to insert.
* @param aRangeToBeReplaced The range to be replaced.
* @param aInsertTextTo Whether forcibly creates a new `Text` node in
* specific condition or use existing `Text` if
* available.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<InsertTextResult, nsresult>
ReplaceText(HTMLEditor& aHTMLEditor, const nsAString& aStringToInsert,
const EditorDOMRange& aRangeToBeReplaced,
InsertTextTo aInsertTextTo, const Element& aEditingHost);
/**
* Delete previous white-space of aPoint. This automatically keeps visibility
* of white-spaces around aPoint. E.g., may remove invisible leading
* white-spaces.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
DeletePreviousWhiteSpace(HTMLEditor& aHTMLEditor,
const EditorDOMPoint& aPoint,
const Element& aEditingHost);
/**
* Delete inclusive next white-space of aPoint. This automatically keeps
* visiblity of white-spaces around aPoint. E.g., may remove invisible
* trailing white-spaces.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
DeleteInclusiveNextWhiteSpace(HTMLEditor& aHTMLEditor,
const EditorDOMPoint& aPoint,
const Element& aEditingHost);
/**
* Delete aContentToDelete and may remove/replace white-spaces around it.
* Then, if deleting content makes 2 text nodes around it are adjacent
* siblings, this joins them and put selection at the joined point.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
DeleteContentNodeAndJoinTextNodesAroundIt(HTMLEditor& aHTMLEditor,
nsIContent& aContentToDelete,
const EditorDOMPoint& aCaretPoint,
const Element& aEditingHost);
/**
* Try to normalize visible white-space sequence around aPoint.
* This may collapse `Selection` after replaced text. Therefore, the callers
* of this need to restore `Selection` by themselves (this does not do it for
* performance reason of multiple calls).
*/
template <typename EditorDOMPointType>
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static nsresult
NormalizeVisibleWhiteSpacesAt(HTMLEditor& aHTMLEditor,
const EditorDOMPointType& aPoint);
private:
/**
* Maybe delete invisible white-spaces for keeping make them invisible and/or
* may replace ASCII white-spaces with NBSPs for making visible white-spaces
* to keep visible.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static Result<CaretPoint, nsresult>
MakeSureToKeepVisibleStateOfWhiteSpacesAroundDeletingRange(
HTMLEditor& aHTMLEditor, const EditorDOMRange& aRangeToDelete,
const Element& aEditingHost);
/**
* MakeSureToKeepVisibleWhiteSpacesVisibleAfterSplit() replaces ASCII white-
* spaces which becomes invisible after split with NBSPs.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static nsresult
MakeSureToKeepVisibleWhiteSpacesVisibleAfterSplit(
HTMLEditor& aHTMLEditor, const EditorDOMPoint& aPointToSplit);
/**
* ReplaceTextAndRemoveEmptyTextNodes() replaces the range between
* aRangeToReplace with aReplaceString simply. Additionally, removes
* empty text nodes in the range.
*
* @param aRangeToReplace Range to replace text.
* @param aReplaceString The new string. Empty string is allowed.
*/
[[nodiscard]] MOZ_CAN_RUN_SCRIPT static nsresult
ReplaceTextAndRemoveEmptyTextNodes(
HTMLEditor& aHTMLEditor, const EditorDOMRangeInTexts& aRangeToReplace,
const nsAString& aReplaceString);
};
} // namespace mozilla
#endif // #ifndef WSRunObject_h