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path: root/editor/libeditor/EditorDOMPoint.h
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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#ifndef mozilla_EditorDOMPoint_h
#define mozilla_EditorDOMPoint_h

#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"
#include "mozilla/EditorForwards.h"
#include "mozilla/Maybe.h"
#include "mozilla/RangeBoundary.h"
#include "mozilla/ToString.h"
#include "mozilla/dom/AbstractRange.h"
#include "mozilla/dom/Element.h"
#include "mozilla/dom/Selection.h"  // for Selection::InterlinePosition
#include "mozilla/dom/Text.h"
#include "nsAtom.h"
#include "nsCOMPtr.h"
#include "nsContentUtils.h"
#include "nsCRT.h"
#include "nsGkAtoms.h"
#include "nsIContent.h"
#include "nsINode.h"
#include "nsStyledElement.h"

#include <type_traits>

namespace mozilla {

/**
 * EditorDOMPoint and EditorRawDOMPoint are simple classes which refers
 * a point in the DOM tree at creating the instance or initializing the
 * instance with calling Set().
 *
 * EditorDOMPoint refers container node (and child node if it's already set)
 * with nsCOMPtr.  EditorRawDOMPoint refers them with raw pointer.
 * So, EditorRawDOMPoint is useful when you access the nodes only before
 * changing DOM tree since increasing refcount may appear in micro benchmark
 * if it's in a hot path.  On the other hand, if you need to refer them even
 * after changing DOM tree, you must use EditorDOMPoint.
 *
 * When initializing an instance only with child node or offset,  the instance
 * starts to refer the child node or offset in the container.  In this case,
 * the other information hasn't been initialized due to performance reason.
 * When you retrieve the other information with calling Offset() or
 * GetChild(), the other information is computed with the current DOM tree.
 * Therefore, e.g., in the following case, the other information may be
 * different:
 *
 * EditorDOMPoint pointA(container1, childNode1);
 * EditorDOMPoint pointB(container1, childNode1);
 * Unused << pointA.Offset(); // The offset is computed now.
 * container1->RemoveChild(childNode1->GetPreviousSibling());
 * Unused << pointB.Offset(); // Now, pointB.Offset() equals pointA.Offset() - 1
 *
 * similarly:
 *
 * EditorDOMPoint pointA(container1, 5);
 * EditorDOMPoint pointB(container1, 5);
 * Unused << pointA.GetChild(); // The child is computed now.
 * container1->RemoveChild(childNode1->GetFirstChild());
 * Unused << pointB.GetChild(); // Now, pointB.GetChild() equals
 *                              // pointA.GetChild()->GetPreviousSibling().
 *
 * So, when you initialize an instance only with one information, you need to
 * be careful when you access the other information after changing the DOM tree.
 * When you need to lock the child node or offset and recompute the other
 * information with new DOM tree, you can use
 * AutoEditorDOMPointOffsetInvalidator and AutoEditorDOMPointChildInvalidator.
 */

// FYI: Don't make the following instantiating macros end with `;` because
//      using them without `;`, VSCode may be confused and cause wrong red-
//      wavy underlines in the following code of the macro.
#define NS_INSTANTIATE_EDITOR_DOM_POINT_METHOD(aResultType, aMethodName, ...) \
  template aResultType EditorDOMPoint::aMethodName(__VA_ARGS__);              \
  template aResultType EditorRawDOMPoint::aMethodName(__VA_ARGS__);           \
  template aResultType EditorDOMPointInText::aMethodName(__VA_ARGS__);        \
  template aResultType EditorRawDOMPointInText::aMethodName(__VA_ARGS__)

#define NS_INSTANTIATE_EDITOR_DOM_POINT_CONST_METHOD(aResultType, aMethodName, \
                                                     ...)                      \
  template aResultType EditorDOMPoint::aMethodName(__VA_ARGS__) const;         \
  template aResultType EditorRawDOMPoint::aMethodName(__VA_ARGS__) const;      \
  template aResultType EditorDOMPointInText::aMethodName(__VA_ARGS__) const;   \
  template aResultType EditorRawDOMPointInText::aMethodName(__VA_ARGS__) const

#define NS_INSTANTIATE_METHOD_RETURNING_ANY_EDITOR_DOM_POINT(aMethodName, ...) \
  template EditorDOMPoint aMethodName(__VA_ARGS__);                            \
  template EditorRawDOMPoint aMethodName(__VA_ARGS__);                         \
  template EditorDOMPointInText aMethodName(__VA_ARGS__);                      \
  template EditorRawDOMPointInText aMethodName(__VA_ARGS__)

#define NS_INSTANTIATE_CONST_METHOD_RETURNING_ANY_EDITOR_DOM_POINT( \
    aMethodName, ...)                                               \
  template EditorDOMPoint aMethodName(__VA_ARGS__) const;           \
  template EditorRawDOMPoint aMethodName(__VA_ARGS__) const;        \
  template EditorDOMPointInText aMethodName(__VA_ARGS__) const;     \
  template EditorRawDOMPointInText aMethodName(__VA_ARGS__) const

template <typename ParentType, typename ChildType>
class EditorDOMPointBase final {
  typedef EditorDOMPointBase<ParentType, ChildType> SelfType;

 public:
  using InterlinePosition = dom::Selection::InterlinePosition;

  EditorDOMPointBase() = default;

  template <typename ContainerType>
  EditorDOMPointBase(
      const ContainerType* aContainer, uint32_t aOffset,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined)
      : mParent(const_cast<ContainerType*>(aContainer)),
        mChild(nullptr),
        mOffset(Some(aOffset)),
        mInterlinePosition(aInterlinePosition) {
    NS_WARNING_ASSERTION(
        !mParent || mOffset.value() <= mParent->Length(),
        "The offset is larger than the length of aContainer or negative");
    if (!mParent) {
      mOffset.reset();
    }
  }

  template <typename ContainerType, template <typename> typename StrongPtr>
  EditorDOMPointBase(
      const StrongPtr<ContainerType>& aContainer, uint32_t aOffset,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined)
      : EditorDOMPointBase(aContainer.get(), aOffset, aInterlinePosition) {}

  template <typename ContainerType, template <typename> typename StrongPtr>
  EditorDOMPointBase(
      const StrongPtr<const ContainerType>& aContainer, uint32_t aOffset,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined)
      : EditorDOMPointBase(aContainer.get(), aOffset, aInterlinePosition) {}

  /**
   * Different from RangeBoundary, aPointedNode should be a child node
   * which you want to refer.
   */
  explicit EditorDOMPointBase(
      const nsINode* aPointedNode,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined)
      : mParent(aPointedNode && aPointedNode->IsContent()
                    ? aPointedNode->GetParentNode()
                    : nullptr),
        mChild(aPointedNode && aPointedNode->IsContent()
                   ? const_cast<nsIContent*>(aPointedNode->AsContent())
                   : nullptr),
        mInterlinePosition(aInterlinePosition) {
    mIsChildInitialized = aPointedNode && mChild;
    NS_WARNING_ASSERTION(IsSet(),
                         "The child is nullptr or doesn't have its parent");
    NS_WARNING_ASSERTION(mChild && mChild->GetParentNode() == mParent,
                         "Initializing RangeBoundary with invalid value");
  }

  EditorDOMPointBase(
      nsINode* aContainer, nsIContent* aPointedNode, uint32_t aOffset,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined)
      : mParent(aContainer),
        mChild(aPointedNode),
        mOffset(mozilla::Some(aOffset)),
        mInterlinePosition(aInterlinePosition),
        mIsChildInitialized(true) {
    MOZ_DIAGNOSTIC_ASSERT(
        aContainer, "This constructor shouldn't be used when pointing nowhere");
    MOZ_ASSERT(mOffset.value() <= mParent->Length());
    MOZ_ASSERT(mChild || mParent->Length() == mOffset.value() ||
               !mParent->IsContainerNode());
    MOZ_ASSERT(!mChild || mParent == mChild->GetParentNode());
    MOZ_ASSERT(mParent->GetChildAt_Deprecated(mOffset.value()) == mChild);
  }

  template <typename PT, typename CT>
  explicit EditorDOMPointBase(const RangeBoundaryBase<PT, CT>& aOther)
      : mParent(aOther.mParent),
        mChild(aOther.mRef ? aOther.mRef->GetNextSibling()
                           : (aOther.mParent ? aOther.mParent->GetFirstChild()
                                             : nullptr)),
        mOffset(aOther.mOffset),
        mIsChildInitialized(aOther.mRef || (aOther.mOffset.isSome() &&
                                            !aOther.mOffset.value())) {}

  void SetInterlinePosition(InterlinePosition aInterlinePosition) {
    MOZ_ASSERT(IsSet());
    mInterlinePosition = aInterlinePosition;
  }
  InterlinePosition GetInterlinePosition() const {
    return IsSet() ? mInterlinePosition : InterlinePosition::Undefined;
  }

  /**
   * GetContainer() returns the container node at the point.
   * GetContainerAs() returns the container node as specific type.
   */
  nsINode* GetContainer() const { return mParent; }
  template <typename ContentNodeType>
  ContentNodeType* GetContainerAs() const {
    return ContentNodeType::FromNodeOrNull(mParent);
  }

  /**
   * ContainerAs() returns the container node with just casting to the specific
   * type.  Therefore, callers need to guarantee that the result is not nullptr
   * nor wrong cast.
   */
  template <typename ContentNodeType>
  ContentNodeType* ContainerAs() const {
    MOZ_ASSERT(mParent);
    MOZ_DIAGNOSTIC_ASSERT(ContentNodeType::FromNode(mParent));
    return static_cast<ContentNodeType*>(GetContainer());
  }

  /**
   * GetContainerParent() returns parent of the container node at the point.
   */
  nsINode* GetContainerParent() const {
    return mParent ? mParent->GetParent() : nullptr;
  }
  template <typename ContentNodeType>
  ContentNodeType* GetContainerParentAs() const {
    return ContentNodeType::FromNodeOrNull(GetContainerParent());
  }
  template <typename ContentNodeType>
  ContentNodeType* ContainerParentAs() const {
    MOZ_DIAGNOSTIC_ASSERT(GetContainerParentAs<ContentNodeType>());
    return static_cast<ContentNodeType*>(GetContainerParent());
  }

  dom::Element* GetContainerOrContainerParentElement() const {
    if (MOZ_UNLIKELY(!mParent)) {
      return nullptr;
    }
    return mParent->IsElement() ? ContainerAs<dom::Element>()
                                : GetContainerParentAs<dom::Element>();
  }

  /**
   * CanContainerHaveChildren() returns true if the container node can have
   * child nodes.  Otherwise, e.g., when the container is a text node, returns
   * false.
   */
  bool CanContainerHaveChildren() const {
    return mParent && mParent->IsContainerNode();
  }

  /**
   * IsContainerEmpty() returns true if it has no children or its text is empty.
   */
  bool IsContainerEmpty() const { return mParent && !mParent->Length(); }

  /**
   * IsInContentNode() returns true if the container is a subclass of
   * nsIContent.
   */
  bool IsInContentNode() const { return mParent && mParent->IsContent(); }

  /**
   * IsInDataNode() returns true if the container node is a data node including
   * text node.
   */
  bool IsInDataNode() const { return mParent && mParent->IsCharacterData(); }

  /**
   * IsInTextNode() returns true if the container node is a text node.
   */
  bool IsInTextNode() const { return mParent && mParent->IsText(); }

  /**
   * IsInNativeAnonymousSubtree() returns true if the container is in
   * native anonymous subtree.
   */
  bool IsInNativeAnonymousSubtree() const {
    return mParent && mParent->IsInNativeAnonymousSubtree();
  }

  /**
   * IsContainerHTMLElement() returns true if the container node is an HTML
   * element node and its node name is aTag.
   */
  bool IsContainerHTMLElement(nsAtom* aTag) const {
    return mParent && mParent->IsHTMLElement(aTag);
  }

  /**
   * IsContainerAnyOfHTMLElements() returns true if the container node is an
   * HTML element node and its node name is one of the arguments.
   */
  template <typename First, typename... Args>
  bool IsContainerAnyOfHTMLElements(First aFirst, Args... aArgs) const {
    return mParent && mParent->IsAnyOfHTMLElements(aFirst, aArgs...);
  }

  /**
   * GetChild() returns a child node which is pointed by the instance.
   * If mChild hasn't been initialized yet, this computes the child node
   * from mParent and mOffset with *current* DOM tree.
   */
  nsIContent* GetChild() const {
    if (!mParent || !mParent->IsContainerNode()) {
      return nullptr;
    }
    if (mIsChildInitialized) {
      return mChild;
    }
    // Fix child node now.
    const_cast<SelfType*>(this)->EnsureChild();
    return mChild;
  }

  template <typename ContentNodeType>
  ContentNodeType* GetChildAs() const {
    return ContentNodeType::FromNodeOrNull(GetChild());
  }
  template <typename ContentNodeType>
  ContentNodeType* ChildAs() const {
    MOZ_DIAGNOSTIC_ASSERT(GetChildAs<ContentNodeType>());
    return static_cast<ContentNodeType*>(GetChild());
  }

  /**
   * GetCurrentChildAtOffset() returns current child at mOffset.
   * I.e., mOffset needs to be fixed before calling this.
   */
  nsIContent* GetCurrentChildAtOffset() const {
    MOZ_ASSERT(mOffset.isSome());
    if (mOffset.isNothing()) {
      return GetChild();
    }
    return mParent ? mParent->GetChildAt_Deprecated(*mOffset) : nullptr;
  }

  /**
   * GetChildOrContainerIfDataNode() returns the child content node,
   * or container content node if the container is a data node.
   */
  nsIContent* GetChildOrContainerIfDataNode() const {
    if (IsInDataNode()) {
      return ContainerAs<nsIContent>();
    }
    return GetChild();
  }

  /**
   * GetNextSiblingOfChild() returns next sibling of the child node.
   * If this refers after the last child or the container cannot have children,
   * this returns nullptr with warning.
   * If mChild hasn't been initialized yet, this computes the child node
   * from mParent and mOffset with *current* DOM tree.
   */
  nsIContent* GetNextSiblingOfChild() const {
    if (NS_WARN_IF(!mParent) || !mParent->IsContainerNode()) {
      return nullptr;
    }
    if (mIsChildInitialized) {
      return mChild ? mChild->GetNextSibling() : nullptr;
    }
    MOZ_ASSERT(mOffset.isSome());
    if (NS_WARN_IF(mOffset.value() > mParent->Length())) {
      // If this has been set only offset and now the offset is invalid,
      // let's just return nullptr.
      return nullptr;
    }
    // Fix child node now.
    const_cast<SelfType*>(this)->EnsureChild();
    return mChild ? mChild->GetNextSibling() : nullptr;
  }
  template <typename ContentNodeType>
  ContentNodeType* GetNextSiblingOfChildAs() const {
    return ContentNodeType::FromNodeOrNull(GetNextSiblingOfChild());
  }
  template <typename ContentNodeType>
  ContentNodeType* NextSiblingOfChildAs() const {
    MOZ_ASSERT(IsSet());
    MOZ_DIAGNOSTIC_ASSERT(GetNextSiblingOfChildAs<ContentNodeType>());
    return static_cast<ContentNodeType*>(GetNextSiblingOfChild());
  }

  /**
   * GetPreviousSiblingOfChild() returns previous sibling of a child
   * at offset.  If this refers the first child or the container cannot have
   * children, this returns nullptr with warning.
   * If mChild hasn't been initialized yet, this computes the child node
   * from mParent and mOffset with *current* DOM tree.
   */
  nsIContent* GetPreviousSiblingOfChild() const {
    if (NS_WARN_IF(!mParent) || !mParent->IsContainerNode()) {
      return nullptr;
    }
    if (mIsChildInitialized) {
      return mChild ? mChild->GetPreviousSibling() : mParent->GetLastChild();
    }
    MOZ_ASSERT(mOffset.isSome());
    if (NS_WARN_IF(mOffset.value() > mParent->Length())) {
      // If this has been set only offset and now the offset is invalid,
      // let's just return nullptr.
      return nullptr;
    }
    // Fix child node now.
    const_cast<SelfType*>(this)->EnsureChild();
    return mChild ? mChild->GetPreviousSibling() : mParent->GetLastChild();
  }
  template <typename ContentNodeType>
  ContentNodeType* GetPreviousSiblingOfChildAs() const {
    return ContentNodeType::FromNodeOrNull(GetPreviousSiblingOfChild());
  }
  template <typename ContentNodeType>
  ContentNodeType* PreviousSiblingOfChildAs() const {
    MOZ_ASSERT(IsSet());
    MOZ_DIAGNOSTIC_ASSERT(GetPreviousSiblingOfChildAs<ContentNodeType>());
    return static_cast<ContentNodeType*>(GetPreviousSiblingOfChild());
  }

  /**
   * Simple accessors of the character in dom::Text so that when you call
   * these methods, you need to guarantee that the container is a dom::Text.
   */
  MOZ_NEVER_INLINE_DEBUG char16_t Char() const {
    MOZ_ASSERT(IsSetAndValid());
    MOZ_ASSERT(!IsEndOfContainer());
    return ContainerAs<dom::Text>()->TextFragment().CharAt(mOffset.value());
  }
  MOZ_NEVER_INLINE_DEBUG bool IsCharASCIISpace() const {
    return nsCRT::IsAsciiSpace(Char());
  }
  MOZ_NEVER_INLINE_DEBUG bool IsCharNBSP() const { return Char() == 0x00A0; }
  MOZ_NEVER_INLINE_DEBUG bool IsCharASCIISpaceOrNBSP() const {
    char16_t ch = Char();
    return nsCRT::IsAsciiSpace(ch) || ch == 0x00A0;
  }
  MOZ_NEVER_INLINE_DEBUG bool IsCharNewLine() const { return Char() == '\n'; }
  MOZ_NEVER_INLINE_DEBUG bool IsCharPreformattedNewLine() const;
  MOZ_NEVER_INLINE_DEBUG bool
  IsCharPreformattedNewLineCollapsedWithWhiteSpaces() const;
  /**
   * IsCharCollapsibleASCIISpace(), IsCharCollapsibleNBSP() and
   * IsCharCollapsibleASCIISpaceOrNBSP() checks whether the white-space is
   * preformatted or collapsible with the style of the container text node
   * without flushing pending notifications.
   */
  bool IsCharCollapsibleASCIISpace() const;
  bool IsCharCollapsibleNBSP() const;
  bool IsCharCollapsibleASCIISpaceOrNBSP() const;

  MOZ_NEVER_INLINE_DEBUG bool IsCharHighSurrogateFollowedByLowSurrogate()
      const {
    MOZ_ASSERT(IsSetAndValid());
    MOZ_ASSERT(!IsEndOfContainer());
    return ContainerAs<dom::Text>()
        ->TextFragment()
        .IsHighSurrogateFollowedByLowSurrogateAt(mOffset.value());
  }
  MOZ_NEVER_INLINE_DEBUG bool IsCharLowSurrogateFollowingHighSurrogate() const {
    MOZ_ASSERT(IsSetAndValid());
    MOZ_ASSERT(!IsEndOfContainer());
    return ContainerAs<dom::Text>()
        ->TextFragment()
        .IsLowSurrogateFollowingHighSurrogateAt(mOffset.value());
  }

  MOZ_NEVER_INLINE_DEBUG char16_t PreviousChar() const {
    MOZ_ASSERT(IsSetAndValid());
    MOZ_ASSERT(!IsStartOfContainer());
    return ContainerAs<dom::Text>()->TextFragment().CharAt(mOffset.value() - 1);
  }
  MOZ_NEVER_INLINE_DEBUG bool IsPreviousCharASCIISpace() const {
    return nsCRT::IsAsciiSpace(PreviousChar());
  }
  MOZ_NEVER_INLINE_DEBUG bool IsPreviousCharNBSP() const {
    return PreviousChar() == 0x00A0;
  }
  MOZ_NEVER_INLINE_DEBUG bool IsPreviousCharASCIISpaceOrNBSP() const {
    char16_t ch = PreviousChar();
    return nsCRT::IsAsciiSpace(ch) || ch == 0x00A0;
  }
  MOZ_NEVER_INLINE_DEBUG bool IsPreviousCharNewLine() const {
    return PreviousChar() == '\n';
  }
  MOZ_NEVER_INLINE_DEBUG bool IsPreviousCharPreformattedNewLine() const;
  MOZ_NEVER_INLINE_DEBUG bool
  IsPreviousCharPreformattedNewLineCollapsedWithWhiteSpaces() const;
  /**
   * IsPreviousCharCollapsibleASCIISpace(), IsPreviousCharCollapsibleNBSP() and
   * IsPreviousCharCollapsibleASCIISpaceOrNBSP() checks whether the white-space
   * is preformatted or collapsible with the style of the container text node
   * without flushing pending notifications.
   */
  bool IsPreviousCharCollapsibleASCIISpace() const;
  bool IsPreviousCharCollapsibleNBSP() const;
  bool IsPreviousCharCollapsibleASCIISpaceOrNBSP() const;

  MOZ_NEVER_INLINE_DEBUG char16_t NextChar() const {
    MOZ_ASSERT(IsSetAndValid());
    MOZ_ASSERT(!IsAtLastContent() && !IsEndOfContainer());
    return ContainerAs<dom::Text>()->TextFragment().CharAt(mOffset.value() + 1);
  }
  MOZ_NEVER_INLINE_DEBUG bool IsNextCharASCIISpace() const {
    return nsCRT::IsAsciiSpace(NextChar());
  }
  MOZ_NEVER_INLINE_DEBUG bool IsNextCharNBSP() const {
    return NextChar() == 0x00A0;
  }
  MOZ_NEVER_INLINE_DEBUG bool IsNextCharASCIISpaceOrNBSP() const {
    char16_t ch = NextChar();
    return nsCRT::IsAsciiSpace(ch) || ch == 0x00A0;
  }
  MOZ_NEVER_INLINE_DEBUG bool IsNextCharNewLine() const {
    return NextChar() == '\n';
  }
  MOZ_NEVER_INLINE_DEBUG bool IsNextCharPreformattedNewLine() const;
  MOZ_NEVER_INLINE_DEBUG bool
  IsNextCharPreformattedNewLineCollapsedWithWhiteSpaces() const;
  /**
   * IsNextCharCollapsibleASCIISpace(), IsNextCharCollapsibleNBSP() and
   * IsNextCharCollapsibleASCIISpaceOrNBSP() checks whether the white-space is
   * preformatted or collapsible with the style of the container text node
   * without flushing pending notifications.
   */
  bool IsNextCharCollapsibleASCIISpace() const;
  bool IsNextCharCollapsibleNBSP() const;
  bool IsNextCharCollapsibleASCIISpaceOrNBSP() const;

  [[nodiscard]] bool HasOffset() const { return mOffset.isSome(); }
  uint32_t Offset() const {
    if (mOffset.isSome()) {
      MOZ_ASSERT(mOffset.isSome());
      return mOffset.value();
    }
    if (MOZ_UNLIKELY(!mParent)) {
      MOZ_ASSERT(!mChild);
      return 0u;
    }
    MOZ_ASSERT(mParent->IsContainerNode(),
               "If the container cannot have children, mOffset.isSome() should "
               "be true");
    if (!mChild) {
      // We're referring after the last child.  Fix offset now.
      const_cast<SelfType*>(this)->mOffset = mozilla::Some(mParent->Length());
      return mOffset.value();
    }
    MOZ_ASSERT(mChild->GetParentNode() == mParent);
    // Fix offset now.
    if (mChild == mParent->GetFirstChild()) {
      const_cast<SelfType*>(this)->mOffset = mozilla::Some(0u);
      return 0u;
    }
    const_cast<SelfType*>(this)->mOffset = mParent->ComputeIndexOf(mChild);
    MOZ_DIAGNOSTIC_ASSERT(mOffset.isSome());
    return mOffset.valueOr(0u);  // Avoid crash in Release/Beta
  }

  /**
   * Set() sets a point to aOffset or aChild.
   * If it's set with aOffset, mChild is invalidated.  If it's set with aChild,
   * mOffset may be invalidated.
   */
  template <typename ContainerType>
  void Set(ContainerType* aContainer, uint32_t aOffset) {
    mParent = aContainer;
    mChild = nullptr;
    mOffset = mozilla::Some(aOffset);
    mIsChildInitialized = false;
    mInterlinePosition = InterlinePosition::Undefined;
    NS_ASSERTION(!mParent || mOffset.value() <= mParent->Length(),
                 "The offset is out of bounds");
  }
  template <typename ContainerType, template <typename> typename StrongPtr>
  void Set(const StrongPtr<ContainerType>& aContainer, uint32_t aOffset) {
    Set(aContainer.get(), aOffset);
  }
  void Set(const nsINode* aChild) {
    MOZ_ASSERT(aChild);
    if (NS_WARN_IF(!aChild->IsContent())) {
      Clear();
      return;
    }
    mParent = aChild->GetParentNode();
    mChild = const_cast<nsIContent*>(aChild->AsContent());
    mOffset.reset();
    mIsChildInitialized = true;
    mInterlinePosition = InterlinePosition::Undefined;
  }

  /**
   * SetToEndOf() sets this to the end of aContainer.  Then, mChild is always
   * nullptr but marked as initialized and mOffset is always set.
   */
  template <typename ContainerType>
  MOZ_NEVER_INLINE_DEBUG void SetToEndOf(const ContainerType* aContainer) {
    MOZ_ASSERT(aContainer);
    mParent = const_cast<ContainerType*>(aContainer);
    mChild = nullptr;
    mOffset = mozilla::Some(mParent->Length());
    mIsChildInitialized = true;
    mInterlinePosition = InterlinePosition::Undefined;
  }
  template <typename ContainerType, template <typename> typename StrongPtr>
  MOZ_NEVER_INLINE_DEBUG void SetToEndOf(
      const StrongPtr<ContainerType>& aContainer) {
    SetToEndOf(aContainer.get());
  }
  template <typename ContainerType>
  MOZ_NEVER_INLINE_DEBUG static SelfType AtEndOf(
      const ContainerType& aContainer,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined) {
    SelfType point;
    point.SetToEndOf(&aContainer);
    point.mInterlinePosition = aInterlinePosition;
    return point;
  }
  template <typename ContainerType, template <typename> typename StrongPtr>
  MOZ_NEVER_INLINE_DEBUG static SelfType AtEndOf(
      const StrongPtr<ContainerType>& aContainer,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined) {
    MOZ_ASSERT(aContainer.get());
    return AtEndOf(*aContainer.get(), aInterlinePosition);
  }

  /**
   * SetAfter() sets mChild to next sibling of aChild.
   */
  void SetAfter(const nsINode* aChild) {
    MOZ_ASSERT(aChild);
    nsIContent* nextSibling = aChild->GetNextSibling();
    if (nextSibling) {
      Set(nextSibling);
      return;
    }
    nsINode* parentNode = aChild->GetParentNode();
    if (NS_WARN_IF(!parentNode)) {
      Clear();
      return;
    }
    SetToEndOf(parentNode);
  }
  template <typename ContainerType>
  static SelfType After(
      const ContainerType& aContainer,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined) {
    SelfType point;
    point.SetAfter(&aContainer);
    point.mInterlinePosition = aInterlinePosition;
    return point;
  }
  template <typename ContainerType, template <typename> typename StrongPtr>
  MOZ_NEVER_INLINE_DEBUG static SelfType After(
      const StrongPtr<ContainerType>& aContainer,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined) {
    MOZ_ASSERT(aContainer.get());
    return After(*aContainer.get(), aInterlinePosition);
  }
  template <typename PT, typename CT>
  MOZ_NEVER_INLINE_DEBUG static SelfType After(
      const EditorDOMPointBase<PT, CT>& aPoint,
      InterlinePosition aInterlinePosition = InterlinePosition::Undefined) {
    MOZ_ASSERT(aPoint.IsSet());
    if (aPoint.mChild) {
      return After(*aPoint.mChild, aInterlinePosition);
    }
    if (NS_WARN_IF(aPoint.IsEndOfContainer())) {
      return SelfType();
    }
    auto point = aPoint.NextPoint().template To<SelfType>();
    point.mInterlinePosition = aInterlinePosition;
    return point;
  }

  /**
   * ParentPoint() returns a point whose child is the container.
   */
  template <typename EditorDOMPointType = SelfType>
  EditorDOMPointType ParentPoint() const {
    MOZ_ASSERT(mParent);
    if (MOZ_UNLIKELY(!mParent) || !mParent->IsContent()) {
      return EditorDOMPointType();
    }
    return EditorDOMPointType(ContainerAs<nsIContent>());
  }

  /**
   * NextPoint() and PreviousPoint() returns next/previous DOM point in
   * the container.
   */
  template <typename EditorDOMPointType = SelfType>
  EditorDOMPointType NextPoint() const {
    NS_ASSERTION(!IsEndOfContainer(), "Should not be at end of the container");
    auto result = this->template To<EditorDOMPointType>();
    result.AdvanceOffset();
    return result;
  }
  template <typename EditorDOMPointType = SelfType>
  EditorDOMPointType PreviousPoint() const {
    NS_ASSERTION(!IsStartOfContainer(),
                 "Should not be at start of the container");
    EditorDOMPointType result = this->template To<EditorDOMPointType>();
    result.RewindOffset();
    return result;
  }

  /**
   * Clear() makes the instance not point anywhere.
   */
  void Clear() {
    mParent = nullptr;
    mChild = nullptr;
    mOffset.reset();
    mIsChildInitialized = false;
    mInterlinePosition = InterlinePosition::Undefined;
  }

  /**
   * AdvanceOffset() tries to refer next sibling of mChild and/of next offset.
   * If the container can have children and there is no next sibling or the
   * offset reached the length of the container, this outputs warning and does
   * nothing.  So, callers need to check if there is next sibling which you
   * need to refer.
   *
   * @return            true if there is a next DOM point to refer.
   */
  bool AdvanceOffset() {
    if (NS_WARN_IF(!mParent)) {
      return false;
    }
    // If only mOffset is available, just compute the offset.
    if ((mOffset.isSome() && !mIsChildInitialized) ||
        !mParent->IsContainerNode()) {
      MOZ_ASSERT(mOffset.isSome());
      MOZ_ASSERT(!mChild);
      if (NS_WARN_IF(mOffset.value() >= mParent->Length())) {
        // We're already referring the start of the container.
        return false;
      }
      mOffset = mozilla::Some(mOffset.value() + 1);
      mInterlinePosition = InterlinePosition::Undefined;
      return true;
    }

    MOZ_ASSERT(mIsChildInitialized);
    MOZ_ASSERT(!mOffset.isSome() || mOffset.isSome());
    if (NS_WARN_IF(!mParent->HasChildren()) || NS_WARN_IF(!mChild) ||
        NS_WARN_IF(mOffset.isSome() && mOffset.value() >= mParent->Length())) {
      // We're already referring the end of the container (or outside).
      return false;
    }

    if (mOffset.isSome()) {
      MOZ_ASSERT(mOffset.isSome());
      mOffset = mozilla::Some(mOffset.value() + 1);
    }
    mChild = mChild->GetNextSibling();
    mInterlinePosition = InterlinePosition::Undefined;
    return true;
  }

  /**
   * RewindOffset() tries to refer previous sibling of mChild and/or previous
   * offset.  If the container can have children and there is no next previous
   * or the offset is 0, this outputs warning and does nothing.  So, callers
   * need to check if there is previous sibling which you need to refer.
   *
   * @return            true if there is a previous DOM point to refer.
   */
  bool RewindOffset() {
    if (NS_WARN_IF(!mParent)) {
      return false;
    }
    // If only mOffset is available, just compute the offset.
    if ((mOffset.isSome() && !mIsChildInitialized) ||
        !mParent->IsContainerNode()) {
      MOZ_ASSERT(mOffset.isSome());
      MOZ_ASSERT(!mChild);
      if (NS_WARN_IF(!mOffset.value()) ||
          NS_WARN_IF(mOffset.value() > mParent->Length())) {
        // We're already referring the start of the container or
        // the offset is invalid since perhaps, the offset was set before
        // the last DOM tree change.
        NS_ASSERTION(false, "Failed to rewind offset");
        return false;
      }
      mOffset = mozilla::Some(mOffset.value() - 1);
      mInterlinePosition = InterlinePosition::Undefined;
      return true;
    }

    MOZ_ASSERT(mIsChildInitialized);
    MOZ_ASSERT(!mOffset.isSome() || mOffset.isSome());
    if (NS_WARN_IF(!mParent->HasChildren()) ||
        NS_WARN_IF(mChild && !mChild->GetPreviousSibling()) ||
        NS_WARN_IF(mOffset.isSome() && !mOffset.value())) {
      // We're already referring the start of the container (or the child has
      // been moved from the container?).
      return false;
    }

    nsIContent* previousSibling =
        mChild ? mChild->GetPreviousSibling() : mParent->GetLastChild();
    if (NS_WARN_IF(!previousSibling)) {
      // We're already referring the first child of the container.
      return false;
    }

    if (mOffset.isSome()) {
      mOffset = mozilla::Some(mOffset.value() - 1);
    }
    mChild = previousSibling;
    mInterlinePosition = InterlinePosition::Undefined;
    return true;
  }

  /**
   * GetNonAnonymousSubtreePoint() returns a DOM point which is NOT in
   * native-anonymous subtree.  If the instance isn't in native-anonymous
   * subtree, this returns same point.  Otherwise, climbs up until finding
   * non-native-anonymous parent and returns the point of it.  I.e.,
   * container is parent of the found non-anonymous-native node.
   */
  template <typename EditorDOMPointType>
  EditorDOMPointType GetNonAnonymousSubtreePoint() const {
    if (NS_WARN_IF(!IsSet())) {
      return EditorDOMPointType();
    }
    if (!IsInNativeAnonymousSubtree()) {
      return this->template To<EditorDOMPointType>();
    }
    nsINode* parent;
    for (parent = mParent->GetParentNode();
         parent && parent->IsInNativeAnonymousSubtree();
         parent = parent->GetParentNode()) {
    }
    if (!parent) {
      return EditorDOMPointType();
    }
    return EditorDOMPointType(parent);
  }

  bool IsSet() const {
    return mParent && (mIsChildInitialized || mOffset.isSome());
  }

  bool IsSetAndValid() const {
    if (!IsSet()) {
      return false;
    }

    if (mChild &&
        (mChild->GetParentNode() != mParent || mChild->IsBeingRemoved())) {
      return false;
    }
    if (mOffset.isSome() && mOffset.value() > mParent->Length()) {
      return false;
    }
    return true;
  }

  bool IsStartOfContainer() const {
    // If we're referring the first point in the container:
    //   If mParent is not a container like a text node, mOffset is 0.
    //   If mChild is initialized and it's first child of mParent.
    //   If mChild isn't initialized and the offset is 0.
    if (NS_WARN_IF(!mParent)) {
      return false;
    }
    if (!mParent->IsContainerNode()) {
      return !mOffset.value();
    }
    if (mIsChildInitialized) {
      if (mParent->GetFirstChild() == mChild) {
        NS_WARNING_ASSERTION(!mOffset.isSome() || !mOffset.value(),
                             "If mOffset was initialized, it should be 0");
        return true;
      }
      NS_WARNING_ASSERTION(!mOffset.isSome() || mParent->GetChildAt_Deprecated(
                                                    mOffset.value()) == mChild,
                           "mOffset and mChild are mismatched");
      return false;
    }
    MOZ_ASSERT(mOffset.isSome());
    return !mOffset.value();
  }

  bool IsEndOfContainer() const {
    // If we're referring after the last point of the container:
    //   If mParent is not a container like text node, mOffset is same as the
    //   length of the container.
    //   If mChild is initialized and it's nullptr.
    //   If mChild isn't initialized and mOffset is same as the length of the
    //   container.
    if (NS_WARN_IF(!mParent)) {
      return false;
    }
    if (!mParent->IsContainerNode()) {
      return mOffset.value() == mParent->Length();
    }
    if (mIsChildInitialized) {
      if (!mChild) {
        NS_WARNING_ASSERTION(
            !mOffset.isSome() || mOffset.value() == mParent->Length(),
            "If mOffset was initialized, it should be length of the container");
        return true;
      }
      NS_WARNING_ASSERTION(!mOffset.isSome() || mParent->GetChildAt_Deprecated(
                                                    mOffset.value()) == mChild,
                           "mOffset and mChild are mismatched");
      return false;
    }
    MOZ_ASSERT(mOffset.isSome());
    return mOffset.value() == mParent->Length();
  }

  /**
   * IsAtLastContent() returns true when it refers last child of the container
   * or last character offset of text node.
   */
  bool IsAtLastContent() const {
    if (NS_WARN_IF(!mParent)) {
      return false;
    }
    if (mParent->IsContainerNode() && mOffset.isSome()) {
      return mOffset.value() == mParent->Length() - 1;
    }
    if (mIsChildInitialized) {
      if (mChild && mChild == mParent->GetLastChild()) {
        NS_WARNING_ASSERTION(
            !mOffset.isSome() || mOffset.value() == mParent->Length() - 1,
            "If mOffset was initialized, it should be length - 1 of the "
            "container");
        return true;
      }
      NS_WARNING_ASSERTION(!mOffset.isSome() || mParent->GetChildAt_Deprecated(
                                                    mOffset.value()) == mChild,
                           "mOffset and mChild are mismatched");
      return false;
    }
    MOZ_ASSERT(mOffset.isSome());
    return mOffset.value() == mParent->Length() - 1;
  }

  bool IsBRElementAtEndOfContainer() const {
    if (NS_WARN_IF(!mParent)) {
      return false;
    }
    if (!mParent->IsContainerNode()) {
      return false;
    }
    const_cast<SelfType*>(this)->EnsureChild();
    if (!mChild || mChild->GetNextSibling()) {
      return false;
    }
    return mChild->IsHTMLElement(nsGkAtoms::br);
  }

  template <typename A, typename B>
  EditorDOMPointBase& operator=(const RangeBoundaryBase<A, B>& aOther) {
    mParent = aOther.mParent;
    mChild = aOther.mRef ? aOther.mRef->GetNextSibling()
                         : (aOther.mParent && aOther.mParent->IsContainerNode()
                                ? aOther.mParent->GetFirstChild()
                                : nullptr);
    mOffset = aOther.mOffset;
    mIsChildInitialized =
        aOther.mRef || (aOther.mParent && !aOther.mParent->IsContainerNode()) ||
        (aOther.mOffset.isSome() && !aOther.mOffset.value());
    mInterlinePosition = InterlinePosition::Undefined;
    return *this;
  }

  template <typename EditorDOMPointType>
  constexpr EditorDOMPointType To() const {
    // XXX Cannot specialize this method due to implicit instantiatation caused
    //     by the inline CC functions below.
    if (std::is_same<SelfType, EditorDOMPointType>::value) {
      return reinterpret_cast<const EditorDOMPointType&>(*this);
    }
    EditorDOMPointType result;
    result.mParent = mParent;
    result.mChild = mChild;
    result.mOffset = mOffset;
    result.mIsChildInitialized = mIsChildInitialized;
    result.mInterlinePosition = mInterlinePosition;
    return result;
  }

  /**
   * Don't compare mInterlinePosition.  If it's required to check, perhaps,
   * another compare operator like `===` should be created.
   */
  template <typename A, typename B>
  bool operator==(const EditorDOMPointBase<A, B>& aOther) const {
    if (mParent != aOther.mParent) {
      return false;
    }

    if (mOffset.isSome() && aOther.mOffset.isSome()) {
      // If both mOffset are set, we need to compare both mRef too because
      // the relation of mRef and mOffset have already broken by DOM tree
      // changes.
      if (mOffset != aOther.mOffset) {
        return false;
      }
      if (mChild == aOther.mChild) {
        return true;
      }
      if (NS_WARN_IF(mIsChildInitialized && aOther.mIsChildInitialized)) {
        // In this case, relation between mChild and mOffset of one of or both
        // of them doesn't match with current DOM tree since the DOM tree might
        // have been changed after computing mChild or mOffset.
        return false;
      }
      // If one of mChild hasn't been computed yet, we should compare them only
      // with mOffset.  Perhaps, we shouldn't copy mChild from non-nullptr one
      // to the other since if we copy it here, it may be unexpected behavior
      // for some callers.
      return true;
    }

    MOZ_ASSERT(mIsChildInitialized || aOther.mIsChildInitialized);

    if (mOffset.isSome() && !mIsChildInitialized && !aOther.mOffset.isSome() &&
        aOther.mIsChildInitialized) {
      // If this has only mOffset and the other has only mChild, this needs to
      // compute mChild now.
      const_cast<SelfType*>(this)->EnsureChild();
      return mChild == aOther.mChild;
    }

    if (!mOffset.isSome() && mIsChildInitialized && aOther.mOffset.isSome() &&
        !aOther.mIsChildInitialized) {
      // If this has only mChild and the other has only mOffset, the other needs
      // to compute mChild now.
      const_cast<EditorDOMPointBase<A, B>&>(aOther).EnsureChild();
      return mChild == aOther.mChild;
    }

    // If mOffset of one of them hasn't been computed from mChild yet, we should
    // compare only with mChild.  Perhaps, we shouldn't copy mOffset from being
    // some one to not being some one since if we copy it here, it may be
    // unexpected behavior for some callers.
    return mChild == aOther.mChild;
  }

  template <typename A, typename B>
  bool operator==(const RangeBoundaryBase<A, B>& aOther) const {
    // TODO: Optimize this with directly comparing with RangeBoundaryBase
    //       members.
    return *this == SelfType(aOther);
  }

  template <typename A, typename B>
  bool operator!=(const EditorDOMPointBase<A, B>& aOther) const {
    return !(*this == aOther);
  }

  template <typename A, typename B>
  bool operator!=(const RangeBoundaryBase<A, B>& aOther) const {
    return !(*this == aOther);
  }

  /**
   * This operator should be used if API of other modules take RawRangeBoundary,
   * e.g., methods of Selection and nsRange.
   */
  operator const RawRangeBoundary() const { return ToRawRangeBoundary(); }
  const RawRangeBoundary ToRawRangeBoundary() const {
    if (!IsSet() || NS_WARN_IF(!mIsChildInitialized && !mOffset.isSome())) {
      return RawRangeBoundary();
    }
    if (!mParent->IsContainerNode()) {
      MOZ_ASSERT(mOffset.value() <= mParent->Length());
      // If the container is a data node like a text node, we need to create
      // RangeBoundaryBase instance only with mOffset because mChild is always
      // nullptr.
      return RawRangeBoundary(mParent, mOffset.value());
    }
    if (mIsChildInitialized && mOffset.isSome()) {
      // If we've already set both child and offset, we should create
      // RangeBoundary with offset after validation.
#ifdef DEBUG
      if (mChild) {
        MOZ_ASSERT(mParent == mChild->GetParentNode());
        MOZ_ASSERT(mParent->GetChildAt_Deprecated(mOffset.value()) == mChild);
      } else {
        MOZ_ASSERT(mParent->Length() == mOffset.value());
      }
#endif  // #ifdef DEBUG
      return RawRangeBoundary(mParent, mOffset.value());
    }
    // Otherwise, we should create RangeBoundaryBase only with available
    // information.
    if (mOffset.isSome()) {
      return RawRangeBoundary(mParent, mOffset.value());
    }
    if (mChild) {
      return RawRangeBoundary(mParent, mChild->GetPreviousSibling());
    }
    return RawRangeBoundary(mParent, mParent->GetLastChild());
  }

  already_AddRefed<nsRange> CreateCollapsedRange(ErrorResult& aRv) const {
    const RawRangeBoundary boundary = ToRawRangeBoundary();
    RefPtr<nsRange> range = nsRange::Create(boundary, boundary, aRv);
    if (MOZ_UNLIKELY(aRv.Failed() || !range)) {
      return nullptr;
    }
    return range.forget();
  }

  EditorDOMPointInText GetAsInText() const {
    return IsInTextNode() ? EditorDOMPointInText(ContainerAs<dom::Text>(),
                                                 Offset(), mInterlinePosition)
                          : EditorDOMPointInText();
  }
  MOZ_NEVER_INLINE_DEBUG EditorDOMPointInText AsInText() const {
    MOZ_ASSERT(IsInTextNode());
    return EditorDOMPointInText(ContainerAs<dom::Text>(), Offset(),
                                mInterlinePosition);
  }

  template <typename A, typename B>
  bool IsBefore(const EditorDOMPointBase<A, B>& aOther) const {
    if (!IsSetAndValid() || !aOther.IsSetAndValid()) {
      return false;
    }
    Maybe<int32_t> comp = nsContentUtils::ComparePoints(
        ToRawRangeBoundary(), aOther.ToRawRangeBoundary());
    return comp.isSome() && comp.value() == -1;
  }

  template <typename A, typename B>
  bool EqualsOrIsBefore(const EditorDOMPointBase<A, B>& aOther) const {
    if (!IsSetAndValid() || !aOther.IsSetAndValid()) {
      return false;
    }
    Maybe<int32_t> comp = nsContentUtils::ComparePoints(
        ToRawRangeBoundary(), aOther.ToRawRangeBoundary());
    return comp.isSome() && comp.value() <= 0;
  }

  friend std::ostream& operator<<(std::ostream& aStream,
                                  const SelfType& aDOMPoint) {
    aStream << "{ mParent=" << aDOMPoint.GetContainer();
    if (aDOMPoint.mParent) {
      aStream << " (" << *aDOMPoint.mParent
              << ", Length()=" << aDOMPoint.mParent->Length() << ")";
    }
    aStream << ", mChild=" << static_cast<nsIContent*>(aDOMPoint.mChild);
    if (aDOMPoint.mChild) {
      aStream << " (" << *aDOMPoint.mChild << ")";
    }
    aStream << ", mOffset=" << aDOMPoint.mOffset << ", mIsChildInitialized="
            << (aDOMPoint.mIsChildInitialized ? "true" : "false")
            << ", mInterlinePosition=" << aDOMPoint.mInterlinePosition << " }";
    return aStream;
  }

 private:
  void EnsureChild() {
    if (mIsChildInitialized) {
      return;
    }
    if (!mParent) {
      MOZ_ASSERT(!mOffset.isSome());
      return;
    }
    MOZ_ASSERT(mOffset.isSome());
    MOZ_ASSERT(mOffset.value() <= mParent->Length());
    mIsChildInitialized = true;
    if (!mParent->IsContainerNode()) {
      return;
    }
    mChild = mParent->GetChildAt_Deprecated(mOffset.value());
    MOZ_ASSERT(mChild || mOffset.value() == mParent->Length());
  }

  ParentType mParent = nullptr;
  ChildType mChild = nullptr;

  Maybe<uint32_t> mOffset;
  InterlinePosition mInterlinePosition = InterlinePosition::Undefined;
  bool mIsChildInitialized = false;

  template <typename PT, typename CT>
  friend class EditorDOMPointBase;

  friend void ImplCycleCollectionTraverse(nsCycleCollectionTraversalCallback&,
                                          EditorDOMPoint&, const char*,
                                          uint32_t);
  friend void ImplCycleCollectionUnlink(EditorDOMPoint&);
};

inline void ImplCycleCollectionUnlink(EditorDOMPoint& aField) {
  ImplCycleCollectionUnlink(aField.mParent);
  ImplCycleCollectionUnlink(aField.mChild);
}

inline void ImplCycleCollectionTraverse(
    nsCycleCollectionTraversalCallback& aCallback, EditorDOMPoint& aField,
    const char* aName, uint32_t aFlags) {
  ImplCycleCollectionTraverse(aCallback, aField.mParent, "mParent", 0);
  ImplCycleCollectionTraverse(aCallback, aField.mChild, "mChild", 0);
}

/**
 * EditorDOMRangeBase class stores a pair of same EditorDOMPointBase type.
 * The instance must be created with valid DOM points and start must be
 * before or same as end.
 */
#define NS_INSTANTIATE_EDITOR_DOM_RANGE_METHOD(aResultType, aMethodName, ...) \
  template aResultType EditorDOMRange::aMethodName(__VA_ARGS__);              \
  template aResultType EditorRawDOMRange::aMethodName(__VA_ARGS__);           \
  template aResultType EditorDOMRangeInTexts::aMethodName(__VA_ARGS__);       \
  template aResultType EditorRawDOMRangeInTexts::aMethodName(__VA_ARGS__)

#define NS_INSTANTIATE_EDITOR_DOM_RANGE_CONST_METHOD(aResultType, aMethodName, \
                                                     ...)                      \
  template aResultType EditorDOMRange::aMethodName(__VA_ARGS__) const;         \
  template aResultType EditorRawDOMRange::aMethodName(__VA_ARGS__) const;      \
  template aResultType EditorDOMRangeInTexts::aMethodName(__VA_ARGS__) const;  \
  template aResultType EditorRawDOMRangeInTexts::aMethodName(__VA_ARGS__) const
template <typename EditorDOMPointType>
class EditorDOMRangeBase final {
 public:
  using PointType = EditorDOMPointType;

  EditorDOMRangeBase() = default;
  template <typename PT, typename CT>
  explicit EditorDOMRangeBase(const EditorDOMPointBase<PT, CT>& aStart)
      : mStart(aStart), mEnd(aStart) {
    MOZ_ASSERT(!mStart.IsSet() || mStart.IsSetAndValid());
  }
  template <typename StartPointType, typename EndPointType>
  explicit EditorDOMRangeBase(const StartPointType& aStart,
                              const EndPointType& aEnd)
      : mStart(aStart.template To<PointType>()),
        mEnd(aEnd.template To<PointType>()) {
    MOZ_ASSERT_IF(mStart.IsSet(), mStart.IsSetAndValid());
    MOZ_ASSERT_IF(mEnd.IsSet(), mEnd.IsSetAndValid());
    MOZ_ASSERT_IF(mStart.IsSet() && mEnd.IsSet(),
                  mStart.EqualsOrIsBefore(mEnd));
  }
  explicit EditorDOMRangeBase(EditorDOMPointType&& aStart,
                              EditorDOMPointType&& aEnd)
      : mStart(std::move(aStart)), mEnd(std::move(aEnd)) {
    MOZ_ASSERT_IF(mStart.IsSet(), mStart.IsSetAndValid());
    MOZ_ASSERT_IF(mEnd.IsSet(), mEnd.IsSetAndValid());
    MOZ_ASSERT_IF(mStart.IsSet() && mEnd.IsSet(),
                  mStart.EqualsOrIsBefore(mEnd));
  }
  template <typename OtherPointType>
  explicit EditorDOMRangeBase(const EditorDOMRangeBase<OtherPointType>& aOther)
      : mStart(aOther.StartRef().template To<PointType>()),
        mEnd(aOther.EndRef().template To<PointType>()) {
    MOZ_ASSERT_IF(mStart.IsSet(), mStart.IsSetAndValid());
    MOZ_ASSERT_IF(mEnd.IsSet(), mEnd.IsSetAndValid());
    MOZ_ASSERT(mStart.IsSet() == mEnd.IsSet());
  }
  explicit EditorDOMRangeBase(const dom::AbstractRange& aRange)
      : mStart(aRange.StartRef()), mEnd(aRange.EndRef()) {
    MOZ_ASSERT_IF(mStart.IsSet(), mStart.IsSetAndValid());
    MOZ_ASSERT_IF(mEnd.IsSet(), mEnd.IsSetAndValid());
    MOZ_ASSERT_IF(mStart.IsSet() && mEnd.IsSet(),
                  mStart.EqualsOrIsBefore(mEnd));
  }

  template <typename MaybeOtherPointType>
  void SetStart(const MaybeOtherPointType& aStart) {
    mStart = aStart.template To<PointType>();
  }
  void SetStart(PointType&& aStart) { mStart = std::move(aStart); }
  template <typename MaybeOtherPointType>
  void SetEnd(const MaybeOtherPointType& aEnd) {
    mEnd = aEnd.template To<PointType>();
  }
  void SetEnd(PointType&& aEnd) { mEnd = std::move(aEnd); }
  template <typename StartPointType, typename EndPointType>
  void SetStartAndEnd(const StartPointType& aStart, const EndPointType& aEnd) {
    MOZ_ASSERT_IF(aStart.IsSet() && aEnd.IsSet(),
                  aStart.EqualsOrIsBefore(aEnd));
    mStart = aStart.template To<PointType>();
    mEnd = aEnd.template To<PointType>();
  }
  template <typename StartPointType>
  void SetStartAndEnd(const StartPointType& aStart, PointType&& aEnd) {
    MOZ_ASSERT_IF(aStart.IsSet() && aEnd.IsSet(),
                  aStart.EqualsOrIsBefore(aEnd));
    mStart = aStart.template To<PointType>();
    mEnd = std::move(aEnd);
  }
  template <typename EndPointType>
  void SetStartAndEnd(PointType&& aStart, const EndPointType& aEnd) {
    MOZ_ASSERT_IF(aStart.IsSet() && aEnd.IsSet(),
                  aStart.EqualsOrIsBefore(aEnd));
    mStart = std::move(aStart);
    mEnd = aEnd.template To<PointType>();
  }
  void SetStartAndEnd(PointType&& aStart, PointType&& aEnd) {
    MOZ_ASSERT_IF(aStart.IsSet() && aEnd.IsSet(),
                  aStart.EqualsOrIsBefore(aEnd));
    mStart = std::move(aStart);
    mEnd = std::move(aEnd);
  }
  void Clear() {
    mStart.Clear();
    mEnd.Clear();
  }

  const PointType& StartRef() const { return mStart; }
  const PointType& EndRef() const { return mEnd; }

  bool Collapsed() const {
    MOZ_ASSERT(IsPositioned());
    return mStart == mEnd;
  }
  bool IsPositioned() const { return mStart.IsSet() && mEnd.IsSet(); }
  bool IsPositionedAndValid() const {
    return mStart.IsSetAndValid() && mEnd.IsSetAndValid() &&
           mStart.EqualsOrIsBefore(mEnd);
  }
  template <typename OtherPointType>
  MOZ_NEVER_INLINE_DEBUG bool Contains(const OtherPointType& aPoint) const {
    MOZ_ASSERT(aPoint.IsSetAndValid());
    return IsPositioned() && aPoint.IsSet() &&
           mStart.EqualsOrIsBefore(aPoint) && aPoint.IsBefore(mEnd);
  }
  [[nodiscard]] nsINode* GetClosestCommonInclusiveAncestor() const;
  bool InSameContainer() const {
    MOZ_ASSERT(IsPositioned());
    return IsPositioned() && mStart.GetContainer() == mEnd.GetContainer();
  }
  bool InAdjacentSiblings() const {
    MOZ_ASSERT(IsPositioned());
    return IsPositioned() &&
           mStart.GetContainer()->GetNextSibling() == mEnd.GetContainer();
  }
  bool IsInContentNodes() const {
    MOZ_ASSERT(IsPositioned());
    return IsPositioned() && mStart.IsInContentNode() && mEnd.IsInContentNode();
  }
  bool IsInTextNodes() const {
    MOZ_ASSERT(IsPositioned());
    return IsPositioned() && mStart.IsInTextNode() && mEnd.IsInTextNode();
  }
  template <typename OtherRangeType>
  bool operator==(const OtherRangeType& aOther) const {
    return (!IsPositioned() && !aOther.IsPositioned()) ||
           (mStart == aOther.mStart && mEnd == aOther.mEnd);
  }
  template <typename OtherRangeType>
  bool operator!=(const OtherRangeType& aOther) const {
    return !(*this == aOther);
  }

  EditorDOMRangeInTexts GetAsInTexts() const {
    return IsInTextNodes()
               ? EditorDOMRangeInTexts(mStart.AsInText(), mEnd.AsInText())
               : EditorDOMRangeInTexts();
  }
  MOZ_NEVER_INLINE_DEBUG EditorDOMRangeInTexts AsInTexts() const {
    MOZ_ASSERT(IsInTextNodes());
    return EditorDOMRangeInTexts(mStart.AsInText(), mEnd.AsInText());
  }

  bool EnsureNotInNativeAnonymousSubtree() {
    if (mStart.IsInNativeAnonymousSubtree()) {
      nsIContent* parent = nullptr;
      for (parent = mStart.template ContainerAs<nsIContent>()
                        ->GetClosestNativeAnonymousSubtreeRootParent();
           parent && parent->IsInNativeAnonymousSubtree();
           parent = parent->GetClosestNativeAnonymousSubtreeRootParent()) {
      }
      if (MOZ_UNLIKELY(!parent)) {
        return false;
      }
      mStart.Set(parent);
    }
    if (mEnd.IsInNativeAnonymousSubtree()) {
      nsIContent* parent = nullptr;
      for (parent = mEnd.template ContainerAs<nsIContent>()
                        ->GetClosestNativeAnonymousSubtreeRootParent();
           parent && parent->IsInNativeAnonymousSubtree();
           parent = parent->GetClosestNativeAnonymousSubtreeRootParent()) {
      }
      if (MOZ_UNLIKELY(!parent)) {
        return false;
      }
      mEnd.SetAfter(parent);
    }
    return true;
  }

  already_AddRefed<nsRange> CreateRange(ErrorResult& aRv) const {
    RefPtr<nsRange> range = nsRange::Create(mStart.ToRawRangeBoundary(),
                                            mEnd.ToRawRangeBoundary(), aRv);
    if (MOZ_UNLIKELY(aRv.Failed() || !range)) {
      return nullptr;
    }
    return range.forget();
  }

 private:
  EditorDOMPointType mStart;
  EditorDOMPointType mEnd;

  friend void ImplCycleCollectionTraverse(nsCycleCollectionTraversalCallback&,
                                          EditorDOMRange&, const char*,
                                          uint32_t);
  friend void ImplCycleCollectionUnlink(EditorDOMRange&);
};

inline void ImplCycleCollectionUnlink(EditorDOMRange& aField) {
  ImplCycleCollectionUnlink(aField.mStart);
  ImplCycleCollectionUnlink(aField.mEnd);
}

inline void ImplCycleCollectionTraverse(
    nsCycleCollectionTraversalCallback& aCallback, EditorDOMRange& aField,
    const char* aName, uint32_t aFlags) {
  ImplCycleCollectionTraverse(aCallback, aField.mStart, "mStart", 0);
  ImplCycleCollectionTraverse(aCallback, aField.mEnd, "mEnd", 0);
}

/**
 * AutoEditorDOMPointOffsetInvalidator is useful if DOM tree will be changed
 * when EditorDOMPoint instance is available and keeps referring same child
 * node.
 *
 * This class automatically guarantees that given EditorDOMPoint instance
 * stores the child node and invalidates its offset when the instance is
 * destroyed.  Additionally, users of this class can invalidate the offset
 * manually when they need.
 */
class MOZ_STACK_CLASS AutoEditorDOMPointOffsetInvalidator final {
 public:
  AutoEditorDOMPointOffsetInvalidator() = delete;
  AutoEditorDOMPointOffsetInvalidator(
      const AutoEditorDOMPointOffsetInvalidator&) = delete;
  AutoEditorDOMPointOffsetInvalidator(AutoEditorDOMPointOffsetInvalidator&&) =
      delete;
  const AutoEditorDOMPointOffsetInvalidator& operator=(
      const AutoEditorDOMPointOffsetInvalidator&) = delete;
  explicit AutoEditorDOMPointOffsetInvalidator(EditorDOMPoint& aPoint)
      : mPoint(aPoint), mCanceled(false) {
    MOZ_ASSERT(aPoint.IsSetAndValid());
    MOZ_ASSERT(mPoint.CanContainerHaveChildren());
    mChild = mPoint.GetChild();
  }

  ~AutoEditorDOMPointOffsetInvalidator() {
    if (!mCanceled) {
      InvalidateOffset();
    }
  }

  /**
   * Manually, invalidate offset of the given point.
   */
  void InvalidateOffset() {
    if (mChild) {
      mPoint.Set(mChild);
    } else {
      // If the point referred after the last child, let's keep referring
      // after current last node of the old container.
      mPoint.SetToEndOf(mPoint.GetContainer());
    }
  }

  /**
   * After calling Cancel(), mPoint won't be modified by the destructor.
   */
  void Cancel() { mCanceled = true; }

 private:
  EditorDOMPoint& mPoint;
  // Needs to store child node by ourselves because EditorDOMPoint stores
  // child node with mRef which is previous sibling of current child node.
  // Therefore, we cannot keep referring it if it's first child.
  nsCOMPtr<nsIContent> mChild;

  bool mCanceled;
};

class MOZ_STACK_CLASS AutoEditorDOMRangeOffsetsInvalidator final {
 public:
  explicit AutoEditorDOMRangeOffsetsInvalidator(EditorDOMRange& aRange)
      : mStartInvalidator(const_cast<EditorDOMPoint&>(aRange.StartRef())),
        mEndInvalidator(const_cast<EditorDOMPoint&>(aRange.EndRef())) {}

  void InvalidateOffsets() {
    mStartInvalidator.InvalidateOffset();
    mEndInvalidator.InvalidateOffset();
  }

  void Cancel() {
    mStartInvalidator.Cancel();
    mEndInvalidator.Cancel();
  }

 private:
  AutoEditorDOMPointOffsetInvalidator mStartInvalidator;
  AutoEditorDOMPointOffsetInvalidator mEndInvalidator;
};

/**
 * AutoEditorDOMPointChildInvalidator is useful if DOM tree will be changed
 * when EditorDOMPoint instance is available and keeps referring same container
 * and offset in it.
 *
 * This class automatically guarantees that given EditorDOMPoint instance
 * stores offset and invalidates its child node when the instance is destroyed.
 * Additionally, users of this class can invalidate the child manually when
 * they need.
 */
class MOZ_STACK_CLASS AutoEditorDOMPointChildInvalidator final {
 public:
  AutoEditorDOMPointChildInvalidator() = delete;
  AutoEditorDOMPointChildInvalidator(
      const AutoEditorDOMPointChildInvalidator&) = delete;
  AutoEditorDOMPointChildInvalidator(AutoEditorDOMPointChildInvalidator&&) =
      delete;
  const AutoEditorDOMPointChildInvalidator& operator=(
      const AutoEditorDOMPointChildInvalidator&) = delete;
  explicit AutoEditorDOMPointChildInvalidator(EditorDOMPoint& aPoint)
      : mPoint(aPoint), mCanceled(false) {
    MOZ_ASSERT(aPoint.IsSetAndValid());
    Unused << mPoint.Offset();
  }

  ~AutoEditorDOMPointChildInvalidator() {
    if (!mCanceled) {
      InvalidateChild();
    }
  }

  /**
   * Manually, invalidate child of the given point.
   */
  void InvalidateChild() { mPoint.Set(mPoint.GetContainer(), mPoint.Offset()); }

  /**
   * After calling Cancel(), mPoint won't be modified by the destructor.
   */
  void Cancel() { mCanceled = true; }

 private:
  EditorDOMPoint& mPoint;

  bool mCanceled;
};

class MOZ_STACK_CLASS AutoEditorDOMRangeChildrenInvalidator final {
 public:
  explicit AutoEditorDOMRangeChildrenInvalidator(EditorDOMRange& aRange)
      : mStartInvalidator(const_cast<EditorDOMPoint&>(aRange.StartRef())),
        mEndInvalidator(const_cast<EditorDOMPoint&>(aRange.EndRef())) {}

  void InvalidateChildren() {
    mStartInvalidator.InvalidateChild();
    mEndInvalidator.InvalidateChild();
  }

  void Cancel() {
    mStartInvalidator.Cancel();
    mEndInvalidator.Cancel();
  }

 private:
  AutoEditorDOMPointChildInvalidator mStartInvalidator;
  AutoEditorDOMPointChildInvalidator mEndInvalidator;
};

}  // namespace mozilla

#endif  // #ifndef mozilla_EditorDOMPoint_h