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Diffstat (limited to 'editor/libeditor/HTMLEditUtils.h')
| -rw-r--r-- | editor/libeditor/HTMLEditUtils.h | 2788 |
1 files changed, 2788 insertions, 0 deletions
diff --git a/editor/libeditor/HTMLEditUtils.h b/editor/libeditor/HTMLEditUtils.h new file mode 100644 index 0000000000..115a329247 --- /dev/null +++ b/editor/libeditor/HTMLEditUtils.h @@ -0,0 +1,2788 @@ +/* -*- 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 HTMLEditUtils_h +#define HTMLEditUtils_h + +/** + * This header declares/defines static helper methods as members of + * HTMLEditUtils. If you want to create or look for helper trivial classes for + * HTMLEditor, see HTMLEditHelpers.h. + */ + +#include "EditorBase.h" +#include "EditorDOMPoint.h" +#include "EditorForwards.h" +#include "EditorUtils.h" +#include "HTMLEditHelpers.h" + +#include "mozilla/Attributes.h" +#include "mozilla/EnumSet.h" +#include "mozilla/IntegerRange.h" +#include "mozilla/Maybe.h" +#include "mozilla/Result.h" +#include "mozilla/dom/AbstractRange.h" +#include "mozilla/dom/AncestorIterator.h" +#include "mozilla/dom/Element.h" +#include "mozilla/dom/HTMLBRElement.h" +#include "mozilla/dom/Selection.h" +#include "mozilla/dom/Text.h" + +#include "nsContentUtils.h" +#include "nsCRT.h" +#include "nsGkAtoms.h" +#include "nsHTMLTags.h" +#include "nsTArray.h" + +class nsAtom; +class nsPresContext; + +namespace mozilla { + +enum class CollectChildrenOption { + // Ignore non-editable nodes + IgnoreNonEditableChildren, + // Ignore invisible text nodes + IgnoreInvisibleTextNodes, + // Collect list children too. + CollectListChildren, + // Collect table children too. + CollectTableChildren, +}; + +class HTMLEditUtils final { + using AbstractRange = dom::AbstractRange; + using Element = dom::Element; + using Selection = dom::Selection; + using Text = dom::Text; + + public: + static constexpr char16_t kNewLine = '\n'; + static constexpr char16_t kCarriageReturn = '\r'; + static constexpr char16_t kTab = '\t'; + static constexpr char16_t kSpace = ' '; + static constexpr char16_t kNBSP = 0x00A0; + static constexpr char16_t kGreaterThan = '>'; + + /** + * IsSimplyEditableNode() returns true when aNode is simply editable. + * This does NOT means that aNode can be removed from current parent nor + * aNode's data is editable. + */ + static bool IsSimplyEditableNode(const nsINode& aNode) { + return aNode.IsEditable(); + } + + /** + * Return true if inclusive flat tree ancestor has `inert` state. + */ + static bool ContentIsInert(const nsIContent& aContent); + + /** + * IsNeverContentEditableElementByUser() returns true if the element's content + * is never editable by user. E.g., the content is always replaced by + * native anonymous node or something. + */ + static bool IsNeverElementContentsEditableByUser(const nsIContent& aContent) { + return aContent.IsElement() && + (!HTMLEditUtils::IsContainerNode(aContent) || + aContent.IsAnyOfHTMLElements( + nsGkAtoms::applet, nsGkAtoms::colgroup, nsGkAtoms::frameset, + nsGkAtoms::head, nsGkAtoms::html, nsGkAtoms::iframe, + nsGkAtoms::meter, nsGkAtoms::progress, nsGkAtoms::select, + nsGkAtoms::textarea)); + } + + /** + * IsNonEditableReplacedContent() returns true when aContent is an inclusive + * descendant of a replaced element whose content shouldn't be editable by + * user's operation. + */ + static bool IsNonEditableReplacedContent(const nsIContent& aContent) { + for (Element* element : aContent.InclusiveAncestorsOfType<Element>()) { + if (element->IsAnyOfHTMLElements(nsGkAtoms::select, nsGkAtoms::option, + nsGkAtoms::optgroup)) { + return true; + } + } + return false; + } + + /* + * IsRemovalNode() returns true when parent of aContent is editable even + * if aContent isn't editable. + * This is a valid method to check it if you find the content from point + * of view of siblings or parents of aContent. + * Note that padding `<br>` element for empty editor and manual native + * anonymous content should be deletable even after `HTMLEditor` is destroyed + * because they are owned/managed by `HTMLEditor`. + */ + static bool IsRemovableNode(const nsIContent& aContent) { + return EditorUtils::IsPaddingBRElementForEmptyEditor(aContent) || + aContent.IsRootOfNativeAnonymousSubtree() || + (aContent.GetParentNode() && + aContent.GetParentNode()->IsEditable() && + &aContent != aContent.OwnerDoc()->GetBody() && + &aContent != aContent.OwnerDoc()->GetDocumentElement()); + } + + /** + * IsRemovableFromParentNode() returns true when aContent is editable, has a + * parent node and the parent node is also editable. + * This is a valid method to check it if you find the content from point + * of view of descendants of aContent. + * Note that padding `<br>` element for empty editor and manual native + * anonymous content should be deletable even after `HTMLEditor` is destroyed + * because they are owned/managed by `HTMLEditor`. + */ + static bool IsRemovableFromParentNode(const nsIContent& aContent) { + return EditorUtils::IsPaddingBRElementForEmptyEditor(aContent) || + aContent.IsRootOfNativeAnonymousSubtree() || + (aContent.IsEditable() && aContent.GetParentNode() && + aContent.GetParentNode()->IsEditable() && + &aContent != aContent.OwnerDoc()->GetBody() && + &aContent != aContent.OwnerDoc()->GetDocumentElement()); + } + + /** + * CanContentsBeJoined() returns true if aLeftContent and aRightContent can be + * joined. + */ + static bool CanContentsBeJoined(const nsIContent& aLeftContent, + const nsIContent& aRightContent); + + /** + * Returns true if aContent is an element and it should be treated as a block. + * + * @param aBlockInlineCheck + * - If UseHTMLDefaultStyle or `editor.block_inline_check.use_computed_style` + * pref is false, this returns true only for HTML elements which are defined + * as a block by the default style. I.e., non-HTML elements are always + * treated as inline. + * - If UseComputedDisplayOutsideStyle, this returns true for element nodes + * whose display-outside is not inline nor ruby. This is useful to get + * inclusive ancestor block element. + * - If UseComputedDisplayStyle, this returns true for element nodes whose + * display-outside is not inline or whose display-inside is flow-root and they + * do not appear as a form control. This is useful to check whether + * collapsible white-spaces at the element edges are visible or invisible or + * whether <br> element at end of the element is visible or invisible. + */ + [[nodiscard]] static bool IsBlockElement(const nsIContent& aContent, + BlockInlineCheck aBlockInlineCheck); + + /** + * This is designed to check elements or non-element nodes which are layed out + * as inline. Therefore, inline-block etc and ruby are treated as inline. + * Note that invisible non-element nodes like comment nodes are also treated + * as inline. + * + * @param aBlockInlineCheck UseComputedDisplayOutsideStyle and + * UseComputedDisplayStyle return same result for + * any elements. + */ + [[nodiscard]] static bool IsInlineContent(const nsIContent& aContent, + BlockInlineCheck aBlockInlineCheck); + + /** + * IsVisibleElementEvenIfLeafNode() returns true if aContent is an empty block + * element, a visible replaced element such as a form control. This does not + * check the layout information. + */ + static bool IsVisibleElementEvenIfLeafNode(const nsIContent& aContent); + + static bool IsInlineStyle(nsINode* aNode); + + /** + * IsDisplayOutsideInline() returns true if display-outside value is + * "inside". This does NOT flush the layout. + */ + [[nodiscard]] static bool IsDisplayOutsideInline(const Element& aElement); + + /** + * IsDisplayInsideFlowRoot() returns true if display-inline value of aElement + * is "flow-root". This does NOT flush the layout. + */ + [[nodiscard]] static bool IsDisplayInsideFlowRoot(const Element& aElement); + + /** + * Return true if aElement is a flex item or a grid item. This works only + * when aElement has a primary frame. + */ + [[nodiscard]] static bool IsFlexOrGridItem(const Element& aElement); + + /** + * IsRemovableInlineStyleElement() returns true if aElement is an inline + * element and can be removed or split to in order to modifying inline + * styles. + */ + static bool IsRemovableInlineStyleElement(Element& aElement); + + /** + * Return true if aTagName is one of the format element name of + * Document.execCommand("formatBlock"). + */ + [[nodiscard]] static bool IsFormatTagForFormatBlockCommand( + const nsStaticAtom& aTagName) { + return + // clang-format off + &aTagName == nsGkAtoms::address || + &aTagName == nsGkAtoms::article || + &aTagName == nsGkAtoms::aside || + &aTagName == nsGkAtoms::blockquote || + &aTagName == nsGkAtoms::dd || + &aTagName == nsGkAtoms::div || + &aTagName == nsGkAtoms::dl || + &aTagName == nsGkAtoms::dt || + &aTagName == nsGkAtoms::footer || + &aTagName == nsGkAtoms::h1 || + &aTagName == nsGkAtoms::h2 || + &aTagName == nsGkAtoms::h3 || + &aTagName == nsGkAtoms::h4 || + &aTagName == nsGkAtoms::h5 || + &aTagName == nsGkAtoms::h6 || + &aTagName == nsGkAtoms::header || + &aTagName == nsGkAtoms::hgroup || + &aTagName == nsGkAtoms::main || + &aTagName == nsGkAtoms::nav || + &aTagName == nsGkAtoms::p || + &aTagName == nsGkAtoms::pre || + &aTagName == nsGkAtoms::section; + // clang-format on + } + + /** + * Return true if aContent is a format element of + * Document.execCommand("formatBlock"). + */ + [[nodiscard]] static bool IsFormatElementForFormatBlockCommand( + const nsIContent& aContent) { + if (!aContent.IsHTMLElement() || + !aContent.NodeInfo()->NameAtom()->IsStatic()) { + return false; + } + const nsStaticAtom* tagName = aContent.NodeInfo()->NameAtom()->AsStatic(); + return IsFormatTagForFormatBlockCommand(*tagName); + } + + /** + * Return true if aTagName is one of the format element name of + * cmd_paragraphState. + */ + [[nodiscard]] static bool IsFormatTagForParagraphStateCommand( + const nsStaticAtom& aTagName) { + return + // clang-format off + &aTagName == nsGkAtoms::address || + &aTagName == nsGkAtoms::dd || + &aTagName == nsGkAtoms::dl || + &aTagName == nsGkAtoms::dt || + &aTagName == nsGkAtoms::h1 || + &aTagName == nsGkAtoms::h2 || + &aTagName == nsGkAtoms::h3 || + &aTagName == nsGkAtoms::h4 || + &aTagName == nsGkAtoms::h5 || + &aTagName == nsGkAtoms::h6 || + &aTagName == nsGkAtoms::p || + &aTagName == nsGkAtoms::pre; + // clang-format on + } + + /** + * Return true if aContent is a format element of cmd_paragraphState. + */ + [[nodiscard]] static bool IsFormatElementForParagraphStateCommand( + const nsIContent& aContent) { + if (!aContent.IsHTMLElement() || + !aContent.NodeInfo()->NameAtom()->IsStatic()) { + return false; + } + const nsStaticAtom* tagName = aContent.NodeInfo()->NameAtom()->AsStatic(); + return IsFormatTagForParagraphStateCommand(*tagName); + } + + static bool IsNodeThatCanOutdent(nsINode* aNode); + static bool IsHeader(nsINode& aNode); + static bool IsListItem(const nsINode* aNode); + static bool IsTable(nsINode* aNode); + static bool IsTableRow(nsINode* aNode); + static bool IsAnyTableElement(const nsINode* aNode); + static bool IsAnyTableElementButNotTable(nsINode* aNode); + static bool IsTableCell(const nsINode* aNode); + static bool IsTableCellOrCaption(nsINode& aNode); + static bool IsAnyListElement(const nsINode* aNode); + static bool IsPre(const nsINode* aNode); + static bool IsImage(nsINode* aNode); + static bool IsLink(const nsINode* aNode); + static bool IsNamedAnchor(const nsINode* aNode); + static bool IsMozDiv(nsINode* aNode); + static bool IsMailCite(const Element& aElement); + static bool IsFormWidget(const nsINode* aNode); + static bool SupportsAlignAttr(nsINode& aNode); + + static bool CanNodeContain(const nsINode& aParent, const nsIContent& aChild) { + switch (aParent.NodeType()) { + case nsINode::ELEMENT_NODE: + case nsINode::DOCUMENT_FRAGMENT_NODE: + return HTMLEditUtils::CanNodeContain(*aParent.NodeInfo()->NameAtom(), + aChild); + } + return false; + } + + static bool CanNodeContain(const nsINode& aParent, + const nsAtom& aChildNodeName) { + switch (aParent.NodeType()) { + case nsINode::ELEMENT_NODE: + case nsINode::DOCUMENT_FRAGMENT_NODE: + return HTMLEditUtils::CanNodeContain(*aParent.NodeInfo()->NameAtom(), + aChildNodeName); + } + return false; + } + + static bool CanNodeContain(const nsAtom& aParentNodeName, + const nsIContent& aChild) { + switch (aChild.NodeType()) { + case nsINode::TEXT_NODE: + case nsINode::COMMENT_NODE: + case nsINode::CDATA_SECTION_NODE: + case nsINode::ELEMENT_NODE: + case nsINode::DOCUMENT_FRAGMENT_NODE: + return HTMLEditUtils::CanNodeContain(aParentNodeName, + *aChild.NodeInfo()->NameAtom()); + } + return false; + } + + // XXX Only this overload does not check the node type. Therefore, only this + // handle Document and ProcessingInstructionTagName. + static bool CanNodeContain(const nsAtom& aParentNodeName, + const nsAtom& aChildNodeName) { + nsHTMLTag childTagEnum; + if (&aChildNodeName == nsGkAtoms::textTagName) { + childTagEnum = eHTMLTag_text; + } else if (&aChildNodeName == nsGkAtoms::commentTagName || + &aChildNodeName == nsGkAtoms::cdataTagName) { + childTagEnum = eHTMLTag_comment; + } else { + childTagEnum = + nsHTMLTags::AtomTagToId(const_cast<nsAtom*>(&aChildNodeName)); + } + + nsHTMLTag parentTagEnum = + nsHTMLTags::AtomTagToId(const_cast<nsAtom*>(&aParentNodeName)); + return HTMLEditUtils::CanNodeContain(parentTagEnum, childTagEnum); + } + + /** + * CanElementContainParagraph() returns true if aElement can have a <p> + * element as its child or its descendant. + */ + static bool CanElementContainParagraph(const Element& aElement) { + if (HTMLEditUtils::CanNodeContain(aElement, *nsGkAtoms::p)) { + return true; + } + + // Even if the element cannot have a <p> element as a child, it can contain + // <p> element as a descendant if it's one of the following elements. + if (aElement.IsAnyOfHTMLElements(nsGkAtoms::ol, nsGkAtoms::ul, + nsGkAtoms::dl, nsGkAtoms::table, + nsGkAtoms::thead, nsGkAtoms::tbody, + nsGkAtoms::tfoot, nsGkAtoms::tr)) { + return true; + } + + // XXX Otherwise, Chromium checks the CSS box is a block, but we don't do it + // for now. + return false; + } + + /** + * Return a point which can insert a node whose name is aTagName scanning + * from aPoint to its ancestor points. + */ + template <typename EditorDOMPointType> + static EditorDOMPoint GetInsertionPointInInclusiveAncestor( + const nsAtom& aTagName, const EditorDOMPointType& aPoint, + const Element* aAncestorLimit = nullptr) { + if (MOZ_UNLIKELY(!aPoint.IsInContentNode())) { + return EditorDOMPoint(); + } + Element* lastChild = nullptr; + for (Element* containerElement : + aPoint.template ContainerAs<nsIContent>() + ->template InclusiveAncestorsOfType<Element>()) { + if (!HTMLEditUtils::IsSimplyEditableNode(*containerElement)) { + return EditorDOMPoint(); + } + if (HTMLEditUtils::CanNodeContain(*containerElement, aTagName)) { + return lastChild ? EditorDOMPoint(lastChild) + : aPoint.template To<EditorDOMPoint>(); + } + if (containerElement == aAncestorLimit) { + return EditorDOMPoint(); + } + lastChild = containerElement; + } + return EditorDOMPoint(); + } + + /** + * IsContainerNode() returns true if aContent is a container node. + */ + static bool IsContainerNode(const nsIContent& aContent) { + nsHTMLTag tagEnum; + // XXX Should this handle #cdata-section too? + if (aContent.IsText()) { + tagEnum = eHTMLTag_text; + } else { + // XXX Why don't we use nsHTMLTags::AtomTagToId? Are there some + // difference? + tagEnum = nsHTMLTags::StringTagToId(aContent.NodeName()); + } + return HTMLEditUtils::IsContainerNode(tagEnum); + } + + /** + * IsSplittableNode() returns true if aContent can split. + */ + static bool IsSplittableNode(const nsIContent& aContent) { + if (!EditorUtils::IsEditableContent(aContent, + EditorUtils::EditorType::HTML) || + !HTMLEditUtils::IsRemovableFromParentNode(aContent)) { + return false; + } + if (aContent.IsElement()) { + // XXX Perhaps, instead of using container, we should have "splittable" + // information in the DB. E.g., `<template>`, `<script>` elements + // can have children, but shouldn't be split. + return HTMLEditUtils::IsContainerNode(aContent) && + !aContent.IsAnyOfHTMLElements(nsGkAtoms::body, nsGkAtoms::button, + nsGkAtoms::caption, nsGkAtoms::table, + nsGkAtoms::tbody, nsGkAtoms::tfoot, + nsGkAtoms::thead, nsGkAtoms::tr) && + !HTMLEditUtils::IsNeverElementContentsEditableByUser(aContent) && + !HTMLEditUtils::IsNonEditableReplacedContent(aContent); + } + return aContent.IsText() && aContent.Length() > 0; + } + + /** + * See execCommand spec: + * https://w3c.github.io/editing/execCommand.html#non-list-single-line-container + * https://w3c.github.io/editing/execCommand.html#single-line-container + */ + static bool IsNonListSingleLineContainer(const nsINode& aNode); + static bool IsSingleLineContainer(const nsINode& aNode); + + /** + * IsVisibleTextNode() returns true if aText has visible text. If it has + * only white-spaces and they are collapsed, returns false. + */ + [[nodiscard]] static bool IsVisibleTextNode(const Text& aText); + + /** + * IsInVisibleTextFrames() returns true if any text in aText is in visible + * text frames. Callers have to guarantee that there is no pending reflow. + */ + static bool IsInVisibleTextFrames(nsPresContext* aPresContext, + const Text& aText); + + /** + * IsVisibleBRElement() and IsInvisibleBRElement() return true if aContent is + * a visible HTML <br> element, i.e., not a padding <br> element for making + * last line in a block element visible, or an invisible <br> element. + */ + static bool IsVisibleBRElement(const nsIContent& aContent) { + if (const dom::HTMLBRElement* brElement = + dom::HTMLBRElement::FromNode(&aContent)) { + return IsVisibleBRElement(*brElement); + } + return false; + } + static bool IsVisibleBRElement(const dom::HTMLBRElement& aBRElement) { + // If followed by a block boundary without visible content, it's invisible + // <br> element. + return !HTMLEditUtils::GetElementOfImmediateBlockBoundary( + aBRElement, WalkTreeDirection::Forward); + } + static bool IsInvisibleBRElement(const nsIContent& aContent) { + if (const dom::HTMLBRElement* brElement = + dom::HTMLBRElement::FromNode(&aContent)) { + return IsInvisibleBRElement(*brElement); + } + return false; + } + static bool IsInvisibleBRElement(const dom::HTMLBRElement& aBRElement) { + return !HTMLEditUtils::IsVisibleBRElement(aBRElement); + } + + /** + * Return true if `display` of inclusive ancestor of aContent is `none`. + */ + static bool IsInclusiveAncestorCSSDisplayNone(const nsIContent& aContent); + + /** + * IsVisiblePreformattedNewLine() and IsInvisiblePreformattedNewLine() return + * true if the point is preformatted linefeed and it's visible or invisible. + * If linefeed is immediately before a block boundary, it's invisible. + * + * @param aFollowingBlockElement [out] If the node is followed by a block + * boundary, this is set to the element + * creating the block boundary. + */ + template <typename EditorDOMPointType> + static bool IsVisiblePreformattedNewLine( + const EditorDOMPointType& aPoint, + Element** aFollowingBlockElement = nullptr) { + if (aFollowingBlockElement) { + *aFollowingBlockElement = nullptr; + } + if (!aPoint.IsInTextNode() || aPoint.IsEndOfContainer() || + !aPoint.IsCharPreformattedNewLine()) { + return false; + } + // If there are some other characters in the text node, it's a visible + // linefeed. + if (!aPoint.IsAtLastContent()) { + if (EditorUtils::IsWhiteSpacePreformatted( + *aPoint.template ContainerAs<Text>())) { + return true; + } + const nsTextFragment& textFragment = + aPoint.template ContainerAs<Text>()->TextFragment(); + for (uint32_t offset = aPoint.Offset() + 1; + offset < textFragment.GetLength(); ++offset) { + char16_t ch = textFragment.CharAt(AssertedCast<int32_t>(offset)); + if (nsCRT::IsAsciiSpace(ch) && ch != HTMLEditUtils::kNewLine) { + continue; // ASCII white-space which is collapsed into the linefeed. + } + return true; // There is a visible character after it. + } + } + // If followed by a block boundary without visible content, it's invisible + // linefeed. + Element* followingBlockElement = + HTMLEditUtils::GetElementOfImmediateBlockBoundary( + *aPoint.template ContainerAs<Text>(), WalkTreeDirection::Forward); + if (aFollowingBlockElement) { + *aFollowingBlockElement = followingBlockElement; + } + return !followingBlockElement; + } + template <typename EditorDOMPointType> + static bool IsInvisiblePreformattedNewLine( + const EditorDOMPointType& aPoint, + Element** aFollowingBlockElement = nullptr) { + if (!aPoint.IsInTextNode() || aPoint.IsEndOfContainer() || + !aPoint.IsCharPreformattedNewLine()) { + if (aFollowingBlockElement) { + *aFollowingBlockElement = nullptr; + } + return false; + } + return !IsVisiblePreformattedNewLine(aPoint, aFollowingBlockElement); + } + + /** + * ShouldInsertLinefeedCharacter() returns true if the caller should insert + * a linefeed character instead of <br> element. + */ + static bool ShouldInsertLinefeedCharacter( + const EditorDOMPoint& aPointToInsert, const Element& aEditingHost); + + /** + * IsEmptyNode() returns false if aNode has some visible content nodes, + * list elements or table elements. + * + * @param aPresContext Must not be nullptr if + * EmptyCheckOption::SafeToAskLayout is set. + * @param aNode The node to check whether it's empty. + * @param aOptions You can specify which type of elements are visible + * and/or whether this can access layout information. + * @param aSeenBR [Out] Set to true if this meets an <br> element + * before meeting visible things. + */ + enum class EmptyCheckOption { + TreatSingleBRElementAsVisible, + TreatListItemAsVisible, + TreatTableCellAsVisible, + TreatNonEditableContentAsInvisible, + SafeToAskLayout, + }; + using EmptyCheckOptions = EnumSet<EmptyCheckOption, uint32_t>; + static bool IsEmptyNode(nsPresContext* aPresContext, const nsINode& aNode, + const EmptyCheckOptions& aOptions = {}, + bool* aSeenBR = nullptr); + static bool IsEmptyNode(const nsINode& aNode, + const EmptyCheckOptions& aOptions = {}, + bool* aSeenBR = nullptr) { + MOZ_ASSERT(!aOptions.contains(EmptyCheckOption::SafeToAskLayout)); + return IsEmptyNode(nullptr, aNode, aOptions, aSeenBR); + } + + /** + * IsEmptyInlineContainer() returns true if aContent is an inline element + * which can have children and does not have meaningful content. + */ + static bool IsEmptyInlineContainer(const nsIContent& aContent, + const EmptyCheckOptions& aOptions, + BlockInlineCheck aBlockInlineCheck) { + return HTMLEditUtils::IsInlineContent(aContent, aBlockInlineCheck) && + HTMLEditUtils::IsContainerNode(aContent) && + HTMLEditUtils::IsEmptyNode(aContent, aOptions); + } + + /** + * IsEmptyBlockElement() returns true if aElement is a block level element + * and it doesn't have any visible content. + */ + static bool IsEmptyBlockElement(const Element& aElement, + const EmptyCheckOptions& aOptions, + BlockInlineCheck aBlockInlineCheck) { + return HTMLEditUtils::IsBlockElement(aElement, aBlockInlineCheck) && + HTMLEditUtils::IsEmptyNode(aElement, aOptions); + } + + /** + * Return true if aListElement is completely empty or it has only one list + * item element which is empty. + */ + [[nodiscard]] static bool IsEmptyAnyListElement(const Element& aListElement) { + MOZ_ASSERT(HTMLEditUtils::IsAnyListElement(&aListElement)); + bool foundListItem = false; + for (nsIContent* child = aListElement.GetFirstChild(); child; + child = child->GetNextSibling()) { + if (HTMLEditUtils::IsListItem(child)) { + if (foundListItem) { + return false; // 2 list items found. + } + if (!IsEmptyNode(*child, {})) { + return false; // found non-empty list item. + } + foundListItem = true; + continue; + } + if (child->IsElement()) { + return false; // found sublist or illegal child. + } + if (child->IsText() && + HTMLEditUtils::IsVisibleTextNode(*child->AsText())) { + return false; // found illegal visible text node. + } + } + return true; + } + + /** + * Return true if aListElement does not have invalid child. + */ + enum class TreatSubListElementAs { Invalid, Valid }; + [[nodiscard]] static bool IsValidListElement( + const Element& aListElement, + TreatSubListElementAs aTreatSubListElementAs) { + MOZ_ASSERT(HTMLEditUtils::IsAnyListElement(&aListElement)); + for (nsIContent* child = aListElement.GetFirstChild(); child; + child = child->GetNextSibling()) { + if (HTMLEditUtils::IsAnyListElement(child)) { + if (aTreatSubListElementAs == TreatSubListElementAs::Invalid) { + return false; + } + continue; + } + if (child->IsHTMLElement(nsGkAtoms::li)) { + if (MOZ_UNLIKELY(!aListElement.IsAnyOfHTMLElements(nsGkAtoms::ol, + nsGkAtoms::ul))) { + return false; + } + continue; + } + if (child->IsAnyOfHTMLElements(nsGkAtoms::dt, nsGkAtoms::dd)) { + if (MOZ_UNLIKELY(!aListElement.IsAnyOfHTMLElements(nsGkAtoms::dl))) { + return false; + } + continue; + } + if (MOZ_UNLIKELY(child->IsElement())) { + return false; + } + if (MOZ_LIKELY(child->IsText())) { + if (MOZ_UNLIKELY(HTMLEditUtils::IsVisibleTextNode(*child->AsText()))) { + return false; + } + } + } + return true; + } + + /** + * IsEmptyOneHardLine() returns true if aArrayOfContents does not represent + * 2 or more lines and have meaningful content. + */ + static bool IsEmptyOneHardLine( + nsTArray<OwningNonNull<nsIContent>>& aArrayOfContents, + BlockInlineCheck aBlockInlineCheck) { + if (NS_WARN_IF(aArrayOfContents.IsEmpty())) { + return true; + } + + bool brElementHasFound = false; + for (OwningNonNull<nsIContent>& content : aArrayOfContents) { + if (!EditorUtils::IsEditableContent(content, + EditorUtils::EditorType::HTML)) { + continue; + } + if (content->IsHTMLElement(nsGkAtoms::br)) { + // If there are 2 or more `<br>` elements, it's not empty line since + // there may be only one `<br>` element in a hard line. + if (brElementHasFound) { + return false; + } + brElementHasFound = true; + continue; + } + if (!HTMLEditUtils::IsEmptyInlineContainer( + content, + {EmptyCheckOption::TreatSingleBRElementAsVisible, + EmptyCheckOption::TreatNonEditableContentAsInvisible}, + aBlockInlineCheck)) { + return false; + } + } + return true; + } + + /** + * IsPointAtEdgeOfLink() returns true if aPoint is at start or end of a + * link. + */ + template <typename PT, typename CT> + static bool IsPointAtEdgeOfLink(const EditorDOMPointBase<PT, CT>& aPoint, + Element** aFoundLinkElement = nullptr) { + if (aFoundLinkElement) { + *aFoundLinkElement = nullptr; + } + if (!aPoint.IsInContentNode()) { + return false; + } + if (!aPoint.IsStartOfContainer() && !aPoint.IsEndOfContainer()) { + return false; + } + // XXX Assuming it's not in an empty text node because it's unrealistic edge + // case. + bool maybeStartOfAnchor = aPoint.IsStartOfContainer(); + for (EditorRawDOMPoint point(aPoint.template ContainerAs<nsIContent>()); + point.IsSet() && (maybeStartOfAnchor ? point.IsStartOfContainer() + : point.IsAtLastContent()); + point = point.ParentPoint()) { + if (HTMLEditUtils::IsLink(point.GetContainer())) { + // Now, we're at start or end of <a href>. + if (aFoundLinkElement) { + *aFoundLinkElement = + do_AddRef(point.template ContainerAs<Element>()).take(); + } + return true; + } + } + return false; + } + + /** + * IsContentInclusiveDescendantOfLink() returns true if aContent is a + * descendant of a link element. + * Note that this returns true even if editing host of aContent is in a link + * element. + */ + static bool IsContentInclusiveDescendantOfLink( + nsIContent& aContent, Element** aFoundLinkElement = nullptr) { + if (aFoundLinkElement) { + *aFoundLinkElement = nullptr; + } + for (Element* element : aContent.InclusiveAncestorsOfType<Element>()) { + if (HTMLEditUtils::IsLink(element)) { + if (aFoundLinkElement) { + *aFoundLinkElement = do_AddRef(element).take(); + } + return true; + } + } + return false; + } + + /** + * IsRangeEntirelyInLink() returns true if aRange is entirely in a link + * element. + * Note that this returns true even if editing host of the range is in a link + * element. + */ + template <typename EditorDOMRangeType> + static bool IsRangeEntirelyInLink(const EditorDOMRangeType& aRange, + Element** aFoundLinkElement = nullptr) { + MOZ_ASSERT(aRange.IsPositionedAndValid()); + if (aFoundLinkElement) { + *aFoundLinkElement = nullptr; + } + nsINode* commonAncestorNode = + nsContentUtils::GetClosestCommonInclusiveAncestor( + aRange.StartRef().GetContainer(), aRange.EndRef().GetContainer()); + if (NS_WARN_IF(!commonAncestorNode) || !commonAncestorNode->IsContent()) { + return false; + } + return IsContentInclusiveDescendantOfLink(*commonAncestorNode->AsContent(), + aFoundLinkElement); + } + + /** + * Get adjacent content node of aNode if there is (even if one is in different + * parent element). + * + * @param aNode The node from which we start to walk the DOM + * tree. + * @param aOptions See WalkTreeOption for the detail. + * @param aBlockInlineCheck Whether considering block vs. inline with the + * computed style or the HTML default style. + * @param aAncestorLimiter Ancestor limiter element which these methods + * never cross its boundary. This is typically + * the editing host. + */ + enum class WalkTreeOption { + IgnoreNonEditableNode, // Ignore non-editable nodes and their children. + IgnoreDataNodeExceptText, // Ignore data nodes which are not text node. + IgnoreWhiteSpaceOnlyText, // Ignore text nodes having only white-spaces. + StopAtBlockBoundary, // Stop waking the tree at a block boundary. + }; + using WalkTreeOptions = EnumSet<WalkTreeOption>; + static nsIContent* GetPreviousContent( + const nsINode& aNode, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr) { + if (&aNode == aAncestorLimiter || + (aAncestorLimiter && + !aNode.IsInclusiveDescendantOf(aAncestorLimiter))) { + return nullptr; + } + return HTMLEditUtils::GetAdjacentContent(aNode, WalkTreeDirection::Backward, + aOptions, aBlockInlineCheck, + aAncestorLimiter); + } + static nsIContent* GetNextContent(const nsINode& aNode, + const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr) { + if (&aNode == aAncestorLimiter || + (aAncestorLimiter && + !aNode.IsInclusiveDescendantOf(aAncestorLimiter))) { + return nullptr; + } + return HTMLEditUtils::GetAdjacentContent(aNode, WalkTreeDirection::Forward, + aOptions, aBlockInlineCheck, + aAncestorLimiter); + } + + /** + * And another version that takes a point in DOM tree rather than a node. + */ + template <typename PT, typename CT> + static nsIContent* GetPreviousContent( + const EditorDOMPointBase<PT, CT>& aPoint, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr); + + /** + * And another version that takes a point in DOM tree rather than a node. + * + * Note that this may return the child at the offset. E.g., following code + * causes infinite loop. + * + * EditorRawDOMPoint point(aEditableNode); + * while (nsIContent* content = + * GetNextContent(point, {WalkTreeOption::IgnoreNonEditableNode})) { + * // Do something... + * point.Set(content); + * } + * + * Following code must be you expected: + * + * while (nsIContent* content = + * GetNextContent(point, {WalkTreeOption::IgnoreNonEditableNode}) { + * // Do something... + * DebugOnly<bool> advanced = point.Advanced(); + * MOZ_ASSERT(advanced); + * point.Set(point.GetChild()); + * } + */ + template <typename PT, typename CT> + static nsIContent* GetNextContent(const EditorDOMPointBase<PT, CT>& aPoint, + const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr); + + /** + * GetPreviousSibling() return the preceding sibling of aContent which matches + * with aOption. + * + * @param aBlockInlineCheck Can be Unused if aOptions does not contain + * StopAtBlockBoundary. + */ + static nsIContent* GetPreviousSibling( + const nsIContent& aContent, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused) { + for (nsIContent* sibling = aContent.GetPreviousSibling(); sibling; + sibling = sibling->GetPreviousSibling()) { + if (HTMLEditUtils::IsContentIgnored(*sibling, aOptions)) { + continue; + } + if (aOptions.contains(WalkTreeOption::StopAtBlockBoundary) && + HTMLEditUtils::IsBlockElement(*sibling, aBlockInlineCheck)) { + return nullptr; + } + return sibling; + } + return nullptr; + } + + /** + * GetNextSibling() return the following sibling of aContent which matches + * with aOption. + * + * @param aBlockInlineCheck Can be Unused if aOptions does not contain + * StopAtBlockBoundary. + */ + static nsIContent* GetNextSibling( + const nsIContent& aContent, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused) { + for (nsIContent* sibling = aContent.GetNextSibling(); sibling; + sibling = sibling->GetNextSibling()) { + if (HTMLEditUtils::IsContentIgnored(*sibling, aOptions)) { + continue; + } + if (aOptions.contains(WalkTreeOption::StopAtBlockBoundary) && + HTMLEditUtils::IsBlockElement(*sibling, aBlockInlineCheck)) { + return nullptr; + } + return sibling; + } + return nullptr; + } + + /** + * Return the last child of aNode which matches with aOption. + * + * @param aBlockInlineCheck Can be unused if aOptions does not contain + * StopAtBlockBoundary. + */ + static nsIContent* GetLastChild( + const nsINode& aNode, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused) { + for (nsIContent* child = aNode.GetLastChild(); child; + child = child->GetPreviousSibling()) { + if (HTMLEditUtils::IsContentIgnored(*child, aOptions)) { + continue; + } + if (aOptions.contains(WalkTreeOption::StopAtBlockBoundary) && + HTMLEditUtils::IsBlockElement(*child, aBlockInlineCheck)) { + return nullptr; + } + return child; + } + return nullptr; + } + + /** + * Return the first child of aNode which matches with aOption. + * + * @param aBlockInlineCheck Can be unused if aOptions does not contain + * StopAtBlockBoundary. + */ + static nsIContent* GetFirstChild( + const nsINode& aNode, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused) { + for (nsIContent* child = aNode.GetFirstChild(); child; + child = child->GetNextSibling()) { + if (HTMLEditUtils::IsContentIgnored(*child, aOptions)) { + continue; + } + if (aOptions.contains(WalkTreeOption::StopAtBlockBoundary) && + HTMLEditUtils::IsBlockElement(*child, aBlockInlineCheck)) { + return nullptr; + } + return child; + } + return nullptr; + } + + /** + * Return true if aContent is the last child of aNode with ignoring all + * children which do not match with aOption. + * + * @param aBlockInlineCheck Can be unused if aOptions does not contain + * StopAtBlockBoundary. + */ + static bool IsLastChild( + const nsIContent& aContent, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused) { + nsINode* parentNode = aContent.GetParentNode(); + if (!parentNode) { + return false; + } + return HTMLEditUtils::GetLastChild(*parentNode, aOptions, + aBlockInlineCheck) == &aContent; + } + + /** + * Return true if aContent is the first child of aNode with ignoring all + * children which do not match with aOption. + * + * @param aBlockInlineCheck Can be unused if aOptions does not contain + * StopAtBlockBoundary. + */ + static bool IsFirstChild( + const nsIContent& aContent, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused) { + nsINode* parentNode = aContent.GetParentNode(); + if (!parentNode) { + return false; + } + return HTMLEditUtils::GetFirstChild(*parentNode, aOptions, + aBlockInlineCheck) == &aContent; + } + + /** + * GetAdjacentContentToPutCaret() walks the DOM tree to find an editable node + * near aPoint where may be a good point to put caret and keep typing or + * deleting. + * + * @param aPoint The DOM point where to start to search from. + * @return If found, returns non-nullptr. Otherwise, nullptr. + * Note that if found node is in different table structure + * element, this returns nullptr. + */ + enum class WalkTreeDirection { Forward, Backward }; + template <typename PT, typename CT> + static nsIContent* GetAdjacentContentToPutCaret( + const EditorDOMPointBase<PT, CT>& aPoint, + WalkTreeDirection aWalkTreeDirection, const Element& aEditingHost) { + MOZ_ASSERT(aPoint.IsSetAndValid()); + + nsIContent* editableContent = nullptr; + if (aWalkTreeDirection == WalkTreeDirection::Backward) { + editableContent = HTMLEditUtils::GetPreviousContent( + aPoint, {WalkTreeOption::IgnoreNonEditableNode}, + BlockInlineCheck::UseComputedDisplayStyle, &aEditingHost); + if (!editableContent) { + return nullptr; // Not illegal. + } + } else { + editableContent = HTMLEditUtils::GetNextContent( + aPoint, {WalkTreeOption::IgnoreNonEditableNode}, + BlockInlineCheck::UseComputedDisplayStyle, &aEditingHost); + if (NS_WARN_IF(!editableContent)) { + // Perhaps, illegal because the node pointed by aPoint isn't editable + // and nobody of previous nodes is editable. + return nullptr; + } + } + + // scan in the right direction until we find an eligible text node, + // but don't cross any breaks, images, or table elements. + // XXX This comment sounds odd. editableContent may have already crossed + // breaks and/or images if they are non-editable. + while (editableContent && !editableContent->IsText() && + !editableContent->IsHTMLElement(nsGkAtoms::br) && + !HTMLEditUtils::IsImage(editableContent)) { + if (aWalkTreeDirection == WalkTreeDirection::Backward) { + editableContent = HTMLEditUtils::GetPreviousContent( + *editableContent, {WalkTreeOption::IgnoreNonEditableNode}, + BlockInlineCheck::UseComputedDisplayStyle, &aEditingHost); + if (NS_WARN_IF(!editableContent)) { + return nullptr; + } + } else { + editableContent = HTMLEditUtils::GetNextContent( + *editableContent, {WalkTreeOption::IgnoreNonEditableNode}, + BlockInlineCheck::UseComputedDisplayStyle, &aEditingHost); + if (NS_WARN_IF(!editableContent)) { + return nullptr; + } + } + } + + // don't cross any table elements + if ((!aPoint.IsInContentNode() && + !!HTMLEditUtils::GetInclusiveAncestorAnyTableElement( + *editableContent)) || + (HTMLEditUtils::GetInclusiveAncestorAnyTableElement(*editableContent) != + HTMLEditUtils::GetInclusiveAncestorAnyTableElement( + *aPoint.template ContainerAs<nsIContent>()))) { + return nullptr; + } + + // otherwise, ok, we have found a good spot to put the selection + return editableContent; + } + + enum class LeafNodeType { + // Even if there is a child block, keep scanning a leaf content in it. + OnlyLeafNode, + // If there is a child block, return it too. Note that this does not + // mean that block siblings are not treated as leaf nodes. + LeafNodeOrChildBlock, + // If there is a non-editable element if and only if scanning from editable + // node, return it too. + LeafNodeOrNonEditableNode, + // Ignore non-editable content at walking the tree. + OnlyEditableLeafNode, + }; + using LeafNodeTypes = EnumSet<LeafNodeType>; + + /** + * GetLastLeafContent() returns rightmost leaf content in aNode. It depends + * on aLeafNodeTypes whether this which types of nodes are treated as leaf + * nodes. + * + * @param aBlockInlineCheck Can be Unused if aLeafNodeTypes does not contain + * LeafNodeOrCHildBlock. + */ + static nsIContent* GetLastLeafContent( + const nsINode& aNode, const LeafNodeTypes& aLeafNodeTypes, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused, + const Element* aAncestorLimiter = nullptr) { + MOZ_ASSERT_IF( + aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + !aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode)); + // editor shouldn't touch child nodes which are replaced with native + // anonymous nodes. + if (aNode.IsElement() && + HTMLEditUtils::IsNeverElementContentsEditableByUser( + *aNode.AsElement())) { + return nullptr; + } + for (nsIContent* content = aNode.GetLastChild(); content;) { + if (aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode) && + !EditorUtils::IsEditableContent(*content, + EditorUtils::EditorType::HTML)) { + content = HTMLEditUtils::GetPreviousContent( + *content, {WalkTreeOption::IgnoreNonEditableNode}, + aBlockInlineCheck, aAncestorLimiter); + continue; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrChildBlock) && + HTMLEditUtils::IsBlockElement(*content, aBlockInlineCheck)) { + return content; + } + if (!content->HasChildren() || + HTMLEditUtils::IsNeverElementContentsEditableByUser(*content)) { + return content; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode) && + aNode.IsEditable() && !content->IsEditable()) { + return content; + } + content = content->GetLastChild(); + } + return nullptr; + } + + /** + * GetFirstLeafContent() returns leftmost leaf content in aNode. It depends + * on aLeafNodeTypes whether this scans into a block child or treat block as a + * leaf. + * + * @param aBlockInlineCheck Can be Unused if aLeafNodeTypes does not contain + * LeafNodeOrCHildBlock. + */ + static nsIContent* GetFirstLeafContent( + const nsINode& aNode, const LeafNodeTypes& aLeafNodeTypes, + BlockInlineCheck aBlockInlineCheck = BlockInlineCheck::Unused, + const Element* aAncestorLimiter = nullptr) { + MOZ_ASSERT_IF( + aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + !aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode)); + // editor shouldn't touch child nodes which are replaced with native + // anonymous nodes. + if (aNode.IsElement() && + HTMLEditUtils::IsNeverElementContentsEditableByUser( + *aNode.AsElement())) { + return nullptr; + } + for (nsIContent* content = aNode.GetFirstChild(); content;) { + if (aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode) && + !EditorUtils::IsEditableContent(*content, + EditorUtils::EditorType::HTML)) { + content = HTMLEditUtils::GetNextContent( + *content, {WalkTreeOption::IgnoreNonEditableNode}, + aBlockInlineCheck, aAncestorLimiter); + continue; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrChildBlock) && + HTMLEditUtils::IsBlockElement(*content, aBlockInlineCheck)) { + return content; + } + if (!content->HasChildren() || + HTMLEditUtils::IsNeverElementContentsEditableByUser(*content)) { + return content; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode) && + aNode.IsEditable() && !content->IsEditable()) { + return content; + } + content = content->GetFirstChild(); + } + return nullptr; + } + + /** + * GetNextLeafContentOrNextBlockElement() returns next leaf content or + * next block element of aStartContent inside aAncestorLimiter. + * Note that the result may be a contet outside aCurrentBlock if + * aStartContent equals aCurrentBlock. + * + * @param aStartContent The start content to scan next content. + * @param aCurrentBlock Must be ancestor of aStartContent. Dispite + * the name, inline content is allowed if + * aStartContent is in an inline editing host. + * @param aLeafNodeTypes See LeafNodeType. + * @param aAncestorLimiter Optional, setting this guarantees the + * result is in aAncestorLimiter unless + * aStartContent is not a descendant of this. + */ + static nsIContent* GetNextLeafContentOrNextBlockElement( + const nsIContent& aStartContent, const nsIContent& aCurrentBlock, + const LeafNodeTypes& aLeafNodeTypes, BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr) { + MOZ_ASSERT_IF( + aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + !aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode)); + + if (&aStartContent == aAncestorLimiter) { + return nullptr; + } + + nsIContent* nextContent = aStartContent.GetNextSibling(); + if (!nextContent) { + if (!aStartContent.GetParentElement()) { + NS_WARNING("Reached orphan node while climbing up the DOM tree"); + return nullptr; + } + for (Element* parentElement : aStartContent.AncestorsOfType<Element>()) { + if (parentElement == &aCurrentBlock) { + return nullptr; + } + if (parentElement == aAncestorLimiter) { + NS_WARNING("Reached editing host while climbing up the DOM tree"); + return nullptr; + } + nextContent = parentElement->GetNextSibling(); + if (nextContent) { + break; + } + if (!parentElement->GetParentElement()) { + NS_WARNING("Reached orphan node while climbing up the DOM tree"); + return nullptr; + } + } + MOZ_ASSERT(nextContent); + aBlockInlineCheck = IgnoreInsideBlockBoundary(aBlockInlineCheck); + } + + // We have a next content. If it's a block, return it. + if (HTMLEditUtils::IsBlockElement(*nextContent, aBlockInlineCheck)) { + return nextContent; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode) && + aStartContent.IsEditable() && !nextContent->IsEditable()) { + return nextContent; + } + if (HTMLEditUtils::IsContainerNode(*nextContent)) { + // Else if it's a container, get deep leftmost child + if (nsIContent* child = HTMLEditUtils::GetFirstLeafContent( + *nextContent, aLeafNodeTypes, aBlockInlineCheck)) { + return child; + } + } + // Else return the next content itself. + return nextContent; + } + + /** + * Similar to the above method, but take a DOM point to specify scan start + * point. + */ + template <typename PT, typename CT> + static nsIContent* GetNextLeafContentOrNextBlockElement( + const EditorDOMPointBase<PT, CT>& aStartPoint, + const nsIContent& aCurrentBlock, const LeafNodeTypes& aLeafNodeTypes, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr) { + MOZ_ASSERT(aStartPoint.IsSet()); + MOZ_ASSERT_IF( + aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + !aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode)); + NS_ASSERTION(!aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + "Not implemented yet"); + + if (!aStartPoint.IsInContentNode()) { + return nullptr; + } + if (aStartPoint.IsInTextNode()) { + return HTMLEditUtils::GetNextLeafContentOrNextBlockElement( + *aStartPoint.template ContainerAs<Text>(), aCurrentBlock, + aLeafNodeTypes, aBlockInlineCheck, aAncestorLimiter); + } + if (!HTMLEditUtils::IsContainerNode( + *aStartPoint.template ContainerAs<nsIContent>())) { + return HTMLEditUtils::GetNextLeafContentOrNextBlockElement( + *aStartPoint.template ContainerAs<nsIContent>(), aCurrentBlock, + aLeafNodeTypes, aBlockInlineCheck, aAncestorLimiter); + } + + nsCOMPtr<nsIContent> nextContent = aStartPoint.GetChild(); + if (!nextContent) { + if (aStartPoint.GetContainer() == &aCurrentBlock) { + // We are at end of the block. + return nullptr; + } + + // We are at end of non-block container + return HTMLEditUtils::GetNextLeafContentOrNextBlockElement( + *aStartPoint.template ContainerAs<nsIContent>(), aCurrentBlock, + aLeafNodeTypes, IgnoreInsideBlockBoundary(aBlockInlineCheck), + aAncestorLimiter); + } + + // We have a next node. If it's a block, return it. + if (HTMLEditUtils::IsBlockElement(*nextContent, aBlockInlineCheck)) { + return nextContent; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode) && + aStartPoint.GetContainer()->IsEditable() && + !nextContent->IsEditable()) { + return nextContent; + } + if (HTMLEditUtils::IsContainerNode(*nextContent)) { + // else if it's a container, get deep leftmost child + if (nsIContent* child = HTMLEditUtils::GetFirstLeafContent( + *nextContent, aLeafNodeTypes, + IgnoreInsideBlockBoundary(aBlockInlineCheck))) { + return child; + } + } + // Else return the node itself + return nextContent; + } + + /** + * GetPreviousLeafContentOrPreviousBlockElement() returns previous leaf + * content or previous block element of aStartContent inside + * aAncestorLimiter. + * Note that the result may be a content outside aCurrentBlock if + * aStartContent equals aCurrentBlock. + * + * @param aStartContent The start content to scan previous content. + * @param aCurrentBlock Must be ancestor of aStartContent. Despite + * the name, inline content is allowed if + * aStartContent is in an inline editing host. + * @param aLeafNodeTypes See LeafNodeType. + * @param aAncestorLimiter Optional, setting this guarantees the + * result is in aAncestorLimiter unless + * aStartContent is not a descendant of this. + */ + static nsIContent* GetPreviousLeafContentOrPreviousBlockElement( + const nsIContent& aStartContent, const nsIContent& aCurrentBlock, + const LeafNodeTypes& aLeafNodeTypes, BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr) { + MOZ_ASSERT_IF( + aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + !aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode)); + NS_ASSERTION(!aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + "Not implemented yet"); + + if (&aStartContent == aAncestorLimiter) { + return nullptr; + } + + nsIContent* previousContent = aStartContent.GetPreviousSibling(); + if (!previousContent) { + if (!aStartContent.GetParentElement()) { + NS_WARNING("Reached orphan node while climbing up the DOM tree"); + return nullptr; + } + for (Element* parentElement : aStartContent.AncestorsOfType<Element>()) { + if (parentElement == &aCurrentBlock) { + return nullptr; + } + if (parentElement == aAncestorLimiter) { + NS_WARNING("Reached editing host while climbing up the DOM tree"); + return nullptr; + } + previousContent = parentElement->GetPreviousSibling(); + if (previousContent) { + break; + } + if (!parentElement->GetParentElement()) { + NS_WARNING("Reached orphan node while climbing up the DOM tree"); + return nullptr; + } + } + MOZ_ASSERT(previousContent); + aBlockInlineCheck = IgnoreInsideBlockBoundary(aBlockInlineCheck); + } + + // We have a next content. If it's a block, return it. + if (HTMLEditUtils::IsBlockElement(*previousContent, aBlockInlineCheck)) { + return previousContent; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode) && + aStartContent.IsEditable() && !previousContent->IsEditable()) { + return previousContent; + } + if (HTMLEditUtils::IsContainerNode(*previousContent)) { + // Else if it's a container, get deep rightmost child + if (nsIContent* child = HTMLEditUtils::GetLastLeafContent( + *previousContent, aLeafNodeTypes, aBlockInlineCheck)) { + return child; + } + } + // Else return the next content itself. + return previousContent; + } + + /** + * Similar to the above method, but take a DOM point to specify scan start + * point. + */ + template <typename PT, typename CT> + static nsIContent* GetPreviousLeafContentOrPreviousBlockElement( + const EditorDOMPointBase<PT, CT>& aStartPoint, + const nsIContent& aCurrentBlock, const LeafNodeTypes& aLeafNodeTypes, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr) { + MOZ_ASSERT(aStartPoint.IsSet()); + MOZ_ASSERT_IF( + aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + !aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode)); + NS_ASSERTION(!aLeafNodeTypes.contains(LeafNodeType::OnlyEditableLeafNode), + "Not implemented yet"); + + if (!aStartPoint.IsInContentNode()) { + return nullptr; + } + if (aStartPoint.IsInTextNode()) { + return HTMLEditUtils::GetPreviousLeafContentOrPreviousBlockElement( + *aStartPoint.template ContainerAs<Text>(), aCurrentBlock, + aLeafNodeTypes, aBlockInlineCheck, aAncestorLimiter); + } + if (!HTMLEditUtils::IsContainerNode( + *aStartPoint.template ContainerAs<nsIContent>())) { + return HTMLEditUtils::GetPreviousLeafContentOrPreviousBlockElement( + *aStartPoint.template ContainerAs<nsIContent>(), aCurrentBlock, + aLeafNodeTypes, aBlockInlineCheck, aAncestorLimiter); + } + + if (aStartPoint.IsStartOfContainer()) { + if (aStartPoint.GetContainer() == &aCurrentBlock) { + // We are at start of the block. + return nullptr; + } + + // We are at start of non-block container + return HTMLEditUtils::GetPreviousLeafContentOrPreviousBlockElement( + *aStartPoint.template ContainerAs<nsIContent>(), aCurrentBlock, + aLeafNodeTypes, IgnoreInsideBlockBoundary(aBlockInlineCheck), + aAncestorLimiter); + } + + nsCOMPtr<nsIContent> previousContent = + aStartPoint.GetPreviousSiblingOfChild(); + if (NS_WARN_IF(!previousContent)) { + return nullptr; + } + + // We have a prior node. If it's a block, return it. + if (HTMLEditUtils::IsBlockElement(*previousContent, aBlockInlineCheck)) { + return previousContent; + } + if (aLeafNodeTypes.contains(LeafNodeType::LeafNodeOrNonEditableNode) && + aStartPoint.GetContainer()->IsEditable() && + !previousContent->IsEditable()) { + return previousContent; + } + if (HTMLEditUtils::IsContainerNode(*previousContent)) { + // Else if it's a container, get deep rightmost child + if (nsIContent* child = HTMLEditUtils::GetLastLeafContent( + *previousContent, aLeafNodeTypes, + IgnoreInsideBlockBoundary(aBlockInlineCheck))) { + return child; + } + } + // Else return the node itself + return previousContent; + } + + /** + * Returns a content node whose inline styles should be preserved after + * deleting content in a range. Typically, you should set aPoint to start + * boundary of the range to delete. + */ + template <typename EditorDOMPointType> + static nsIContent* GetContentToPreserveInlineStyles( + const EditorDOMPointType& aPoint, const Element& aEditingHost); + + /** + * Get previous/next editable point from start or end of aContent. + */ + enum class InvisibleWhiteSpaces { + Ignore, // Ignore invisible white-spaces, i.e., don't return middle of + // them. + Preserve, // Preserve invisible white-spaces, i.e., result may be start or + // end of a text node even if it begins or ends with invisible + // white-spaces. + }; + enum class TableBoundary { + Ignore, // May cross any table element boundary. + NoCrossTableElement, // Won't cross `<table>` element boundary. + NoCrossAnyTableElement, // Won't cross any table element boundary. + }; + template <typename EditorDOMPointType> + static EditorDOMPointType GetPreviousEditablePoint( + nsIContent& aContent, const Element* aAncestorLimiter, + InvisibleWhiteSpaces aInvisibleWhiteSpaces, + TableBoundary aHowToTreatTableBoundary); + template <typename EditorDOMPointType> + static EditorDOMPointType GetNextEditablePoint( + nsIContent& aContent, const Element* aAncestorLimiter, + InvisibleWhiteSpaces aInvisibleWhiteSpaces, + TableBoundary aHowToTreatTableBoundary); + + /** + * GetAncestorElement() and GetInclusiveAncestorElement() return + * (inclusive) block ancestor element of aContent whose time matches + * aAncestorTypes. + */ + enum class AncestorType { + ClosestBlockElement, + MostDistantInlineElementInBlock, + EditableElement, + IgnoreHRElement, // Ignore ancestor <hr> element since invalid structure + ButtonElement, + }; + using AncestorTypes = EnumSet<AncestorType>; + constexpr static AncestorTypes + ClosestEditableBlockElementOrInlineEditingHost = { + AncestorType::ClosestBlockElement, + AncestorType::MostDistantInlineElementInBlock, + AncestorType::EditableElement}; + constexpr static AncestorTypes ClosestBlockElement = { + AncestorType::ClosestBlockElement}; + constexpr static AncestorTypes ClosestEditableBlockElement = { + AncestorType::ClosestBlockElement, AncestorType::EditableElement}; + constexpr static AncestorTypes ClosestEditableBlockElementExceptHRElement = { + AncestorType::ClosestBlockElement, AncestorType::IgnoreHRElement, + AncestorType::EditableElement}; + constexpr static AncestorTypes ClosestEditableBlockElementOrButtonElement = { + AncestorType::ClosestBlockElement, AncestorType::EditableElement, + AncestorType::ButtonElement}; + static Element* GetAncestorElement(const nsIContent& aContent, + const AncestorTypes& aAncestorTypes, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr); + static Element* GetInclusiveAncestorElement( + const nsIContent& aContent, const AncestorTypes& aAncestorTypes, + BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr); + + /** + * GetClosestAncestorTableElement() returns the nearest inclusive ancestor + * <table> element of aContent. + */ + static Element* GetClosestAncestorTableElement(const nsIContent& aContent) { + // TODO: the method name and its documentation clash with the + // implementation. Split this method into + // `GetClosestAncestorTableElement` and + // `GetClosestInclusiveAncestorTableElement`. + if (!aContent.GetParent()) { + return nullptr; + } + for (Element* element : aContent.InclusiveAncestorsOfType<Element>()) { + if (HTMLEditUtils::IsTable(element)) { + return element; + } + } + return nullptr; + } + + static Element* GetInclusiveAncestorAnyTableElement( + const nsIContent& aContent) { + for (Element* parent : aContent.InclusiveAncestorsOfType<Element>()) { + if (HTMLEditUtils::IsAnyTableElement(parent)) { + return parent; + } + } + return nullptr; + } + + [[nodiscard]] static Element* GetClosestAncestorAnyListElement( + const nsIContent& aContent); + [[nodiscard]] static Element* GetClosestInclusiveAncestorAnyListElement( + const nsIContent& aContent); + + /** + * GetClosestAncestorListItemElement() returns a list item element if + * aContent or its ancestor in editing host is one. However, this won't + * cross table related element. + */ + static Element* GetClosestAncestorListItemElement( + const nsIContent& aContent, const Element* aAncestorLimit = nullptr) { + MOZ_ASSERT_IF(aAncestorLimit, + aContent.IsInclusiveDescendantOf(aAncestorLimit)); + + if (HTMLEditUtils::IsListItem(&aContent)) { + return const_cast<Element*>(aContent.AsElement()); + } + + for (Element* parentElement : aContent.AncestorsOfType<Element>()) { + if (HTMLEditUtils::IsAnyTableElement(parentElement)) { + return nullptr; + } + if (HTMLEditUtils::IsListItem(parentElement)) { + return parentElement; + } + if (parentElement == aAncestorLimit) { + return nullptr; + } + } + return nullptr; + } + + /** + * GetRangeSelectingAllContentInAllListItems() returns a range which selects + * from start of the first list item to end of the last list item of + * aListElement. Note that the result may be in different list element if + * aListElement has child list element(s) directly. + */ + template <typename EditorDOMRangeType> + static EditorDOMRangeType GetRangeSelectingAllContentInAllListItems( + const Element& aListElement) { + MOZ_ASSERT(HTMLEditUtils::IsAnyListElement(&aListElement)); + Element* firstListItem = + HTMLEditUtils::GetFirstListItemElement(aListElement); + Element* lastListItem = HTMLEditUtils::GetLastListItemElement(aListElement); + MOZ_ASSERT_IF(firstListItem, lastListItem); + MOZ_ASSERT_IF(!firstListItem, !lastListItem); + if (!firstListItem || !lastListItem) { + return EditorDOMRangeType(); + } + return EditorDOMRangeType( + typename EditorDOMRangeType::PointType(firstListItem, 0u), + EditorDOMRangeType::PointType::AtEndOf(*lastListItem)); + } + + /** + * GetFirstListItemElement() returns the first list item element in the + * pre-order tree traversal of the DOM. + */ + static Element* GetFirstListItemElement(const Element& aListElement) { + MOZ_ASSERT(HTMLEditUtils::IsAnyListElement(&aListElement)); + for (nsIContent* maybeFirstListItem = aListElement.GetFirstChild(); + maybeFirstListItem; + maybeFirstListItem = maybeFirstListItem->GetNextNode(&aListElement)) { + if (HTMLEditUtils::IsListItem(maybeFirstListItem)) { + return maybeFirstListItem->AsElement(); + } + } + return nullptr; + } + + /** + * GetLastListItemElement() returns the last list item element in the + * post-order tree traversal of the DOM. I.e., returns the last list + * element whose close tag appears at last. + */ + static Element* GetLastListItemElement(const Element& aListElement) { + MOZ_ASSERT(HTMLEditUtils::IsAnyListElement(&aListElement)); + for (nsIContent* maybeLastListItem = aListElement.GetLastChild(); + maybeLastListItem;) { + if (HTMLEditUtils::IsListItem(maybeLastListItem)) { + return maybeLastListItem->AsElement(); + } + if (maybeLastListItem->HasChildren()) { + maybeLastListItem = maybeLastListItem->GetLastChild(); + continue; + } + if (maybeLastListItem->GetPreviousSibling()) { + maybeLastListItem = maybeLastListItem->GetPreviousSibling(); + continue; + } + for (Element* parent = maybeLastListItem->GetParentElement(); parent; + parent = parent->GetParentElement()) { + maybeLastListItem = nullptr; + if (parent == &aListElement) { + return nullptr; + } + if (parent->GetPreviousSibling()) { + maybeLastListItem = parent->GetPreviousSibling(); + break; + } + } + } + return nullptr; + } + + /** + * GetFirstTableCellElementChild() and GetLastTableCellElementChild() + * return the first/last element child of <tr> element if it's a table + * cell element. + */ + static Element* GetFirstTableCellElementChild( + const Element& aTableRowElement) { + MOZ_ASSERT(aTableRowElement.IsHTMLElement(nsGkAtoms::tr)); + Element* firstElementChild = aTableRowElement.GetFirstElementChild(); + return firstElementChild && HTMLEditUtils::IsTableCell(firstElementChild) + ? firstElementChild + : nullptr; + } + static Element* GetLastTableCellElementChild( + const Element& aTableRowElement) { + MOZ_ASSERT(aTableRowElement.IsHTMLElement(nsGkAtoms::tr)); + Element* lastElementChild = aTableRowElement.GetLastElementChild(); + return lastElementChild && HTMLEditUtils::IsTableCell(lastElementChild) + ? lastElementChild + : nullptr; + } + + /** + * GetPreviousTableCellElementSibling() and GetNextTableCellElementSibling() + * return a table cell element of previous/next element sibling of given + * content node if and only if the element sibling is a table cell element. + */ + static Element* GetPreviousTableCellElementSibling( + const nsIContent& aChildOfTableRow) { + MOZ_ASSERT(aChildOfTableRow.GetParentNode()); + MOZ_ASSERT(aChildOfTableRow.GetParentNode()->IsHTMLElement(nsGkAtoms::tr)); + Element* previousElementSibling = + aChildOfTableRow.GetPreviousElementSibling(); + return previousElementSibling && + HTMLEditUtils::IsTableCell(previousElementSibling) + ? previousElementSibling + : nullptr; + } + static Element* GetNextTableCellElementSibling( + const nsIContent& aChildOfTableRow) { + MOZ_ASSERT(aChildOfTableRow.GetParentNode()); + MOZ_ASSERT(aChildOfTableRow.GetParentNode()->IsHTMLElement(nsGkAtoms::tr)); + Element* nextElementSibling = aChildOfTableRow.GetNextElementSibling(); + return nextElementSibling && HTMLEditUtils::IsTableCell(nextElementSibling) + ? nextElementSibling + : nullptr; + } + + /** + * GetMostDistantAncestorInlineElement() returns the most distant ancestor + * inline element between aContent and the aEditingHost. Even if aEditingHost + * is an inline element, this method never returns aEditingHost as the result. + * Optionally, you can specify ancestor limiter content node. This guarantees + * that the result is a descendant of aAncestorLimiter if aContent is a + * descendant of aAncestorLimiter. + */ + static nsIContent* GetMostDistantAncestorInlineElement( + const nsIContent& aContent, BlockInlineCheck aBlockInlineCheck, + const Element* aEditingHost = nullptr, + const nsIContent* aAncestorLimiter = nullptr) { + if (HTMLEditUtils::IsBlockElement(aContent, aBlockInlineCheck)) { + return nullptr; + } + + // If aNode is the editing host itself, there is no modifiable inline + // parent. + if (&aContent == aEditingHost || &aContent == aAncestorLimiter) { + return nullptr; + } + + // If aNode is outside of the <body> element, we don't support to edit + // such elements for now. + // XXX This should be MOZ_ASSERT after fixing bug 1413131 for avoiding + // calling this expensive method. + if (aEditingHost && !aContent.IsInclusiveDescendantOf(aEditingHost)) { + return nullptr; + } + + if (!aContent.GetParent()) { + return const_cast<nsIContent*>(&aContent); + } + + // Looks for the highest inline parent in the editing host. + nsIContent* topMostInlineContent = const_cast<nsIContent*>(&aContent); + for (Element* element : aContent.AncestorsOfType<Element>()) { + if (element == aEditingHost || element == aAncestorLimiter || + HTMLEditUtils::IsBlockElement(*element, aBlockInlineCheck)) { + break; + } + topMostInlineContent = element; + } + return topMostInlineContent; + } + + /** + * GetMostDistantAncestorEditableEmptyInlineElement() returns most distant + * ancestor which only has aEmptyContent or its ancestor, editable and + * inline element. + */ + static Element* GetMostDistantAncestorEditableEmptyInlineElement( + const nsIContent& aEmptyContent, BlockInlineCheck aBlockInlineCheck, + const Element* aEditingHost = nullptr, + const nsIContent* aAncestorLimiter = nullptr) { + if (&aEmptyContent == aEditingHost || &aEmptyContent == aAncestorLimiter) { + return nullptr; + } + nsIContent* lastEmptyContent = const_cast<nsIContent*>(&aEmptyContent); + for (Element* element : aEmptyContent.AncestorsOfType<Element>()) { + if (element == aEditingHost || element == aAncestorLimiter) { + break; + } + if (!HTMLEditUtils::IsInlineContent(*element, aBlockInlineCheck) || + !HTMLEditUtils::IsSimplyEditableNode(*element)) { + break; + } + if (element->GetChildCount() > 1) { + for (const nsIContent* child = element->GetFirstChild(); child; + child = child->GetNextSibling()) { + if (child == lastEmptyContent || child->IsComment()) { + continue; + } + return lastEmptyContent != &aEmptyContent + ? lastEmptyContent->AsElement() + : nullptr; + } + } + lastEmptyContent = element; + } + return lastEmptyContent != &aEmptyContent ? lastEmptyContent->AsElement() + : nullptr; + } + + /** + * GetElementIfOnlyOneSelected() returns an element if aRange selects only + * the element node (and its descendants). + */ + static Element* GetElementIfOnlyOneSelected(const AbstractRange& aRange) { + return GetElementIfOnlyOneSelected(EditorRawDOMRange(aRange)); + } + template <typename EditorDOMPointType> + static Element* GetElementIfOnlyOneSelected( + const EditorDOMRangeBase<EditorDOMPointType>& aRange) { + if (!aRange.IsPositioned() || aRange.Collapsed()) { + return nullptr; + } + const auto& start = aRange.StartRef(); + const auto& end = aRange.EndRef(); + if (NS_WARN_IF(!start.IsSetAndValid()) || + NS_WARN_IF(!end.IsSetAndValid()) || + start.GetContainer() != end.GetContainer()) { + return nullptr; + } + nsIContent* childAtStart = start.GetChild(); + if (!childAtStart || !childAtStart->IsElement()) { + return nullptr; + } + // If start child is not the last sibling and only if end child is its + // next sibling, the start child is selected. + if (childAtStart->GetNextSibling()) { + return childAtStart->GetNextSibling() == end.GetChild() + ? childAtStart->AsElement() + : nullptr; + } + // If start child is the last sibling and only if no child at the end, + // the start child is selected. + return !end.GetChild() ? childAtStart->AsElement() : nullptr; + } + + static Element* GetTableCellElementIfOnlyOneSelected( + const AbstractRange& aRange) { + Element* element = HTMLEditUtils::GetElementIfOnlyOneSelected(aRange); + return element && HTMLEditUtils::IsTableCell(element) ? element : nullptr; + } + + /** + * GetFirstSelectedTableCellElement() returns a table cell element (i.e., + * `<td>` or `<th>` if and only if first selection range selects only a + * table cell element. + */ + static Element* GetFirstSelectedTableCellElement( + const Selection& aSelection) { + if (!aSelection.RangeCount()) { + return nullptr; + } + const nsRange* firstRange = aSelection.GetRangeAt(0); + if (NS_WARN_IF(!firstRange) || NS_WARN_IF(!firstRange->IsPositioned())) { + return nullptr; + } + return GetTableCellElementIfOnlyOneSelected(*firstRange); + } + + /** + * GetInclusiveFirstChildWhichHasOneChild() returns the deepest element whose + * tag name is one of `aFirstElementName` and `aOtherElementNames...` if and + * only if the elements have only one child node. In other words, when + * this method meets an element which does not matches any of the tag name + * or it has no children or 2+ children. + * + * XXX This method must be implemented without treating edge cases. So, the + * behavior is odd. E.g., why can we ignore non-editable node at counting + * each children? Why do we dig non-editable aNode or first child of its + * descendants? + */ + template <typename FirstElementName, typename... OtherElementNames> + static Element* GetInclusiveDeepestFirstChildWhichHasOneChild( + const nsINode& aNode, const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck, FirstElementName aFirstElementName, + OtherElementNames... aOtherElementNames) { + if (!aNode.IsElement()) { + return nullptr; + } + Element* parentElement = nullptr; + for (nsIContent* content = const_cast<nsIContent*>(aNode.AsContent()); + content && content->IsElement() && + content->IsAnyOfHTMLElements(aFirstElementName, aOtherElementNames...); + // XXX Why do we scan only the first child of every element? If it's + // not editable, why do we ignore it when aOptions specifies so. + content = content->GetFirstChild()) { + if (HTMLEditUtils::CountChildren(*content, aOptions, aBlockInlineCheck) != + 1) { + return content->AsElement(); + } + parentElement = content->AsElement(); + } + return parentElement; + } + + /** + * Get the first <br> element in aElement. This scans only leaf nodes so + * if a <br> element has children illegally, it'll be ignored. + * + * @param aElement The element which may have a <br> element. + * @return First <br> element node in aElement if there is. + */ + static dom::HTMLBRElement* GetFirstBRElement(const dom::Element& aElement) { + for (nsIContent* content = HTMLEditUtils::GetFirstLeafContent( + aElement, {LeafNodeType::OnlyLeafNode}); + content; content = HTMLEditUtils::GetNextContent( + *content, + {WalkTreeOption::IgnoreDataNodeExceptText, + WalkTreeOption::IgnoreWhiteSpaceOnlyText}, + BlockInlineCheck::Unused, &aElement)) { + if (auto* brElement = dom::HTMLBRElement::FromNode(*content)) { + return brElement; + } + } + return nullptr; + } + + /** + * Return last <br> element or last text node ending with a preserved line + * break of/before aBlockElement. + */ + enum ScanLineBreak { + AtEndOfBlock, + BeforeBlock, + }; + static nsIContent* GetUnnecessaryLineBreakContent( + const Element& aBlockElement, ScanLineBreak aScanLineBreak); + + /** + * IsInTableCellSelectionMode() returns true when Gecko's editor thinks that + * selection is in a table cell selection mode. + * Note that Gecko's editor traditionally treats selection as in table cell + * selection mode when first range selects a table cell element. I.e., even + * if `nsFrameSelection` is not in table cell selection mode, this may return + * true. + */ + static bool IsInTableCellSelectionMode(const Selection& aSelection) { + return GetFirstSelectedTableCellElement(aSelection) != nullptr; + } + + static EditAction GetEditActionForInsert(const nsAtom& aTagName); + static EditAction GetEditActionForRemoveList(const nsAtom& aTagName); + static EditAction GetEditActionForInsert(const Element& aElement); + static EditAction GetEditActionForFormatText(const nsAtom& aProperty, + const nsAtom* aAttribute, + bool aToSetStyle); + static EditAction GetEditActionForAlignment(const nsAString& aAlignType); + + /** + * GetPreviousNonCollapsibleCharOffset() returns offset of previous + * character which is not collapsible white-space characters. + */ + enum class WalkTextOption { + TreatNBSPsCollapsible, + }; + using WalkTextOptions = EnumSet<WalkTextOption>; + static Maybe<uint32_t> GetPreviousNonCollapsibleCharOffset( + const EditorDOMPointInText& aPoint, + const WalkTextOptions& aWalkTextOptions = {}) { + MOZ_ASSERT(aPoint.IsSetAndValid()); + return GetPreviousNonCollapsibleCharOffset( + *aPoint.ContainerAs<Text>(), aPoint.Offset(), aWalkTextOptions); + } + static Maybe<uint32_t> GetPreviousNonCollapsibleCharOffset( + const Text& aTextNode, uint32_t aOffset, + const WalkTextOptions& aWalkTextOptions = {}) { + const bool isWhiteSpaceCollapsible = + !EditorUtils::IsWhiteSpacePreformatted(aTextNode); + const bool isNewLineCollapsible = + !EditorUtils::IsNewLinePreformatted(aTextNode); + const bool isNBSPCollapsible = + isWhiteSpaceCollapsible && + aWalkTextOptions.contains(WalkTextOption::TreatNBSPsCollapsible); + const nsTextFragment& textFragment = aTextNode.TextFragment(); + MOZ_ASSERT(aOffset <= textFragment.GetLength()); + for (uint32_t i = aOffset; i; i--) { + // TODO: Perhaps, nsTextFragment should have scanner methods because + // the text may be in per-one-byte storage or per-two-byte storage, + // and `CharAt` needs to check it everytime. + switch (textFragment.CharAt(i - 1)) { + case HTMLEditUtils::kSpace: + case HTMLEditUtils::kCarriageReturn: + case HTMLEditUtils::kTab: + if (!isWhiteSpaceCollapsible) { + return Some(i - 1); + } + break; + case HTMLEditUtils::kNewLine: + if (!isNewLineCollapsible) { + return Some(i - 1); + } + break; + case HTMLEditUtils::kNBSP: + if (!isNBSPCollapsible) { + return Some(i - 1); + } + break; + default: + MOZ_ASSERT(!nsCRT::IsAsciiSpace(textFragment.CharAt(i - 1))); + return Some(i - 1); + } + } + return Nothing(); + } + + /** + * GetNextNonCollapsibleCharOffset() returns offset of next character which is + * not collapsible white-space characters. + */ + static Maybe<uint32_t> GetNextNonCollapsibleCharOffset( + const EditorDOMPointInText& aPoint, + const WalkTextOptions& aWalkTextOptions = {}) { + MOZ_ASSERT(aPoint.IsSetAndValid()); + return GetNextNonCollapsibleCharOffset(*aPoint.ContainerAs<Text>(), + aPoint.Offset(), aWalkTextOptions); + } + static Maybe<uint32_t> GetNextNonCollapsibleCharOffset( + const Text& aTextNode, uint32_t aOffset, + const WalkTextOptions& aWalkTextOptions = {}) { + return GetInclusiveNextNonCollapsibleCharOffset(aTextNode, aOffset + 1, + aWalkTextOptions); + } + + /** + * GetInclusiveNextNonCollapsibleCharOffset() returns offset of inclusive next + * character which is not collapsible white-space characters. + */ + static Maybe<uint32_t> GetInclusiveNextNonCollapsibleCharOffset( + const EditorDOMPointInText& aPoint, + const WalkTextOptions& aWalkTextOptions = {}) { + MOZ_ASSERT(aPoint.IsSetAndValid()); + return GetInclusiveNextNonCollapsibleCharOffset( + *aPoint.ContainerAs<Text>(), aPoint.Offset(), aWalkTextOptions); + } + static Maybe<uint32_t> GetInclusiveNextNonCollapsibleCharOffset( + const Text& aTextNode, uint32_t aOffset, + const WalkTextOptions& aWalkTextOptions = {}) { + const bool isWhiteSpaceCollapsible = + !EditorUtils::IsWhiteSpacePreformatted(aTextNode); + const bool isNewLineCollapsible = + !EditorUtils::IsNewLinePreformatted(aTextNode); + const bool isNBSPCollapsible = + isWhiteSpaceCollapsible && + aWalkTextOptions.contains(WalkTextOption::TreatNBSPsCollapsible); + const nsTextFragment& textFragment = aTextNode.TextFragment(); + MOZ_ASSERT(aOffset <= textFragment.GetLength()); + for (uint32_t i = aOffset; i < textFragment.GetLength(); i++) { + // TODO: Perhaps, nsTextFragment should have scanner methods because + // the text may be in per-one-byte storage or per-two-byte storage, + // and `CharAt` needs to check it everytime. + switch (textFragment.CharAt(i)) { + case HTMLEditUtils::kSpace: + case HTMLEditUtils::kCarriageReturn: + case HTMLEditUtils::kTab: + if (!isWhiteSpaceCollapsible) { + return Some(i); + } + break; + case HTMLEditUtils::kNewLine: + if (!isNewLineCollapsible) { + return Some(i); + } + break; + case HTMLEditUtils::kNBSP: + if (!isNBSPCollapsible) { + return Some(i); + } + break; + default: + MOZ_ASSERT(!nsCRT::IsAsciiSpace(textFragment.CharAt(i))); + return Some(i); + } + } + return Nothing(); + } + + /** + * GetFirstWhiteSpaceOffsetCollapsedWith() returns first collapsible + * white-space offset which is collapsed with a white-space at the given + * position. I.e., the character at the position must be a collapsible + * white-space. + */ + static uint32_t GetFirstWhiteSpaceOffsetCollapsedWith( + const EditorDOMPointInText& aPoint, + const WalkTextOptions& aWalkTextOptions = {}) { + MOZ_ASSERT(aPoint.IsSetAndValid()); + MOZ_ASSERT(!aPoint.IsEndOfContainer()); + MOZ_ASSERT_IF( + aWalkTextOptions.contains(WalkTextOption::TreatNBSPsCollapsible), + aPoint.IsCharCollapsibleASCIISpaceOrNBSP()); + MOZ_ASSERT_IF( + !aWalkTextOptions.contains(WalkTextOption::TreatNBSPsCollapsible), + aPoint.IsCharCollapsibleASCIISpace()); + return GetFirstWhiteSpaceOffsetCollapsedWith( + *aPoint.ContainerAs<Text>(), aPoint.Offset(), aWalkTextOptions); + } + static uint32_t GetFirstWhiteSpaceOffsetCollapsedWith( + const Text& aTextNode, uint32_t aOffset, + const WalkTextOptions& aWalkTextOptions = {}) { + MOZ_ASSERT(aOffset < aTextNode.TextLength()); + MOZ_ASSERT_IF( + aWalkTextOptions.contains(WalkTextOption::TreatNBSPsCollapsible), + EditorRawDOMPoint(&aTextNode, aOffset) + .IsCharCollapsibleASCIISpaceOrNBSP()); + MOZ_ASSERT_IF( + !aWalkTextOptions.contains(WalkTextOption::TreatNBSPsCollapsible), + EditorRawDOMPoint(&aTextNode, aOffset).IsCharCollapsibleASCIISpace()); + if (!aOffset) { + return 0; + } + Maybe<uint32_t> previousVisibleCharOffset = + GetPreviousNonCollapsibleCharOffset(aTextNode, aOffset, + aWalkTextOptions); + return previousVisibleCharOffset.isSome() + ? previousVisibleCharOffset.value() + 1 + : 0; + } + + /** + * GetPreviousPreformattedNewLineInTextNode() returns a point which points + * previous preformatted linefeed if there is and aPoint is in a text node. + * If the node's linefeed characters are not preformatted or aPoint is not + * in a text node, this returns unset DOM point. + */ + template <typename EditorDOMPointType, typename ArgEditorDOMPointType> + static EditorDOMPointType GetPreviousPreformattedNewLineInTextNode( + const ArgEditorDOMPointType& aPoint) { + if (!aPoint.IsInTextNode() || aPoint.IsStartOfContainer() || + !EditorUtils::IsNewLinePreformatted( + *aPoint.template ContainerAs<Text>())) { + return EditorDOMPointType(); + } + Text* textNode = aPoint.template ContainerAs<Text>(); + const nsTextFragment& textFragment = textNode->TextFragment(); + MOZ_ASSERT(aPoint.Offset() <= textFragment.GetLength()); + for (uint32_t offset = aPoint.Offset(); offset; --offset) { + if (textFragment.CharAt(offset - 1) == HTMLEditUtils::kNewLine) { + return EditorDOMPointType(textNode, offset - 1); + } + } + return EditorDOMPointType(); + } + + /** + * GetInclusiveNextPreformattedNewLineInTextNode() returns a point which + * points inclusive next preformatted linefeed if there is and aPoint is in a + * text node. If the node's linefeed characters are not preformatted or aPoint + * is not in a text node, this returns unset DOM point. + */ + template <typename EditorDOMPointType, typename ArgEditorDOMPointType> + static EditorDOMPointType GetInclusiveNextPreformattedNewLineInTextNode( + const ArgEditorDOMPointType& aPoint) { + if (!aPoint.IsInTextNode() || aPoint.IsEndOfContainer() || + !EditorUtils::IsNewLinePreformatted( + *aPoint.template ContainerAs<Text>())) { + return EditorDOMPointType(); + } + Text* textNode = aPoint.template ContainerAs<Text>(); + const nsTextFragment& textFragment = textNode->TextFragment(); + for (uint32_t offset = aPoint.Offset(); offset < textFragment.GetLength(); + ++offset) { + if (textFragment.CharAt(offset) == HTMLEditUtils::kNewLine) { + return EditorDOMPointType(textNode, offset); + } + } + return EditorDOMPointType(); + } + + /** + * GetGoodCaretPointFor() returns a good point to collapse `Selection` + * after handling edit action with aDirectionAndAmount. + * + * @param aContent The content where you want to put caret + * around. + * @param aDirectionAndAmount Muse be one of eNext, eNextWord, eToEndOfLine, + * ePrevious, ePreviousWord and eToBeggingOfLine. + * Set the direction of handled edit action. + */ + template <typename EditorDOMPointType> + static EditorDOMPointType GetGoodCaretPointFor( + nsIContent& aContent, nsIEditor::EDirection aDirectionAndAmount) { + MOZ_ASSERT(nsIEditor::EDirectionIsValidExceptNone(aDirectionAndAmount)); + + // XXX Why don't we check whether the candidate position is enable or not? + // When the result is not editable point, caret will be enclosed in + // the non-editable content. + + // If we can put caret in aContent, return start or end in it. + if (aContent.IsText() || HTMLEditUtils::IsContainerNode(aContent) || + NS_WARN_IF(!aContent.GetParentNode())) { + return EditorDOMPointType( + &aContent, nsIEditor::DirectionIsDelete(aDirectionAndAmount) + ? 0 + : aContent.Length()); + } + + // If we are going forward, put caret at aContent itself. + if (nsIEditor::DirectionIsDelete(aDirectionAndAmount)) { + return EditorDOMPointType(&aContent); + } + + // If we are going backward, put caret to next node unless aContent is an + // invisible `<br>` element. + // XXX Shouldn't we put caret to first leaf of the next node? + if (!HTMLEditUtils::IsInvisibleBRElement(aContent)) { + EditorDOMPointType ret(EditorDOMPointType::After(aContent)); + NS_WARNING_ASSERTION(ret.IsSet(), "Failed to set after aContent"); + return ret; + } + + // Otherwise, we should put caret at the invisible `<br>` element. + return EditorDOMPointType(&aContent); + } + + /** + * GetBetterInsertionPointFor() returns better insertion point to insert + * aContentToInsert. + * + * @param aContentToInsert The content to insert. + * @param aPointToInsert A candidate point to insert the node. + * @param aEditingHost The editing host containing aPointToInsert. + * @return Better insertion point if next visible node + * is a <br> element and previous visible node + * is neither none, another <br> element nor + * different block level element. + */ + template <typename EditorDOMPointType, typename EditorDOMPointTypeInput> + static EditorDOMPointType GetBetterInsertionPointFor( + const nsIContent& aContentToInsert, + const EditorDOMPointTypeInput& aPointToInsert, + const Element& aEditingHost); + + /** + * GetBetterCaretPositionToInsertText() returns better point to put caret + * if aPoint is near a text node or in non-container node. + */ + template <typename EditorDOMPointType, typename EditorDOMPointTypeInput> + static EditorDOMPointType GetBetterCaretPositionToInsertText( + const EditorDOMPointTypeInput& aPoint, const Element& aEditingHost); + + /** + * ComputePointToPutCaretInElementIfOutside() returns a good point in aElement + * to put caret if aCurrentPoint is outside of aElement. + * + * @param aElement The result is a point in aElement. + * @param aCurrentPoint The current (candidate) caret point. Only if this + * is outside aElement, returns a point in aElement. + */ + template <typename EditorDOMPointType, typename EditorDOMPointTypeInput> + static Result<EditorDOMPointType, nsresult> + ComputePointToPutCaretInElementIfOutside( + const Element& aElement, const EditorDOMPointTypeInput& aCurrentPoint); + + /** + * Content-based query returns true if + * <mHTMLProperty mAttribute=mAttributeValue> effects aContent. If there is + * such a element, but another element whose attribute value does not match + * with mAttributeValue is closer ancestor of aContent, then the distant + * ancestor does not effect aContent. + * + * @param aContent The target of the query + * @param aStyle The style which queries a representing element. + * @param aValue Optional, the value of aStyle.mAttribute, example: blue + * in <font color="blue"> May be null. Ignored if + * aStyle.mAttribute is null. + * @param aOutValue [OUT] the value of the attribute, if returns true + * @return true if <mHTMLProperty mAttribute=mAttributeValue> + * effects aContent. + */ + [[nodiscard]] static bool IsInlineStyleSetByElement( + const nsIContent& aContent, const EditorInlineStyle& aStyle, + const nsAString* aValue, nsAString* aOutValue = nullptr); + + /** + * CollectAllChildren() collects all child nodes of aParentNode. + */ + static void CollectAllChildren( + const nsINode& aParentNode, + nsTArray<OwningNonNull<nsIContent>>& aOutArrayOfContents) { + MOZ_ASSERT(aOutArrayOfContents.IsEmpty()); + aOutArrayOfContents.SetCapacity(aParentNode.GetChildCount()); + for (nsIContent* childContent = aParentNode.GetFirstChild(); childContent; + childContent = childContent->GetNextSibling()) { + aOutArrayOfContents.AppendElement(*childContent); + } + } + + /** + * CollectChildren() collects child nodes of aNode (starting from + * first editable child, but may return non-editable children after it). + * + * @param aNode Parent node of retrieving children. + * @param aOutArrayOfContents [out] This method will inserts found children + * into this array. + * @param aIndexToInsertChildren Starting from this index, found + * children will be inserted to the array. + * @param aOptions Options to scan the children. + * @return Number of found children. + */ + static size_t CollectChildren( + const nsINode& aNode, + nsTArray<OwningNonNull<nsIContent>>& aOutArrayOfContents, + const CollectChildrenOptions& aOptions) { + return HTMLEditUtils::CollectChildren(aNode, aOutArrayOfContents, 0u, + aOptions); + } + static size_t CollectChildren( + const nsINode& aNode, + nsTArray<OwningNonNull<nsIContent>>& aOutArrayOfContents, + size_t aIndexToInsertChildren, const CollectChildrenOptions& aOptions); + + /** + * CollectEmptyInlineContainerDescendants() appends empty inline elements in + * aNode to aOutArrayOfContents. Although it's array of nsIContent, the + * instance will be elements. + * + * @param aNode The node whose descendants may have empty inline + * elements. + * @param aOutArrayOfContents [out] This method will append found descendants + * into this array. + * @param aOptions The option which element should be treated as + * empty. + * @param aBlockInlineCheck Whether use computed style or HTML default style + * when consider block vs. inline. + * @return Number of found elements. + */ + static size_t CollectEmptyInlineContainerDescendants( + const nsINode& aNode, + nsTArray<OwningNonNull<nsIContent>>& aOutArrayOfContents, + const EmptyCheckOptions& aOptions, BlockInlineCheck aBlockInlineCheck); + + /** + * Check whether aElement has attributes except the name aAttribute and + * "_moz_*" attributes. + */ + [[nodiscard]] static bool ElementHasAttribute(const Element& aElement) { + return ElementHasAttributeExcept(aElement, *nsGkAtoms::_empty, + *nsGkAtoms::empty, *nsGkAtoms::_empty); + } + [[nodiscard]] static bool ElementHasAttributeExcept( + const Element& aElement, const nsAtom& aAttribute) { + return ElementHasAttributeExcept(aElement, aAttribute, *nsGkAtoms::_empty, + *nsGkAtoms::empty); + } + [[nodiscard]] static bool ElementHasAttributeExcept( + const Element& aElement, const nsAtom& aAttribute1, + const nsAtom& aAttribute2) { + return ElementHasAttributeExcept(aElement, aAttribute1, aAttribute2, + *nsGkAtoms::empty); + } + [[nodiscard]] static bool ElementHasAttributeExcept( + const Element& aElement, const nsAtom& aAttribute1, + const nsAtom& aAttribute2, const nsAtom& aAttribute3); + + /** + * Returns EditorDOMPoint which points deepest editable start/end point of + * aNode. If a node is a container node and first/last child is editable, + * returns the child's start or last point recursively. + */ + enum class InvisibleText { Recognize, Skip }; + template <typename EditorDOMPointType> + [[nodiscard]] static EditorDOMPointType GetDeepestEditableStartPointOf( + const nsIContent& aContent, + InvisibleText aInvisibleText = InvisibleText::Recognize) { + if (NS_WARN_IF(!EditorUtils::IsEditableContent( + aContent, EditorBase::EditorType::HTML))) { + return EditorDOMPointType(); + } + EditorDOMPointType result(&aContent, 0u); + while (true) { + nsIContent* firstChild = result.GetContainer()->GetFirstChild(); + if (!firstChild) { + break; + } + // If the caller wants to skip invisible white-spaces, we should skip + // invisible text nodes. + if (aInvisibleText == InvisibleText::Skip && firstChild->IsText() && + EditorUtils::IsEditableContent(*firstChild, + EditorBase::EditorType::HTML) && + !HTMLEditUtils::IsVisibleTextNode(*firstChild->AsText())) { + for (nsIContent* nextSibling = firstChild->GetNextSibling(); + nextSibling; nextSibling = nextSibling->GetNextSibling()) { + if (!nextSibling->IsText() || + // We know its previous sibling is very start of a block. + // Therefore, we only need to scan the text here. + HTMLEditUtils::GetInclusiveNextNonCollapsibleCharOffset( + *firstChild->AsText(), 0u) + .isSome()) { + firstChild = nextSibling; + break; + } + } + } + if ((!firstChild->IsText() && + !HTMLEditUtils::IsContainerNode(*firstChild)) || + !EditorUtils::IsEditableContent(*firstChild, + EditorBase::EditorType::HTML)) { + break; + } + if (aInvisibleText == InvisibleText::Skip && firstChild->IsText()) { + result.Set(firstChild, + HTMLEditUtils::GetInclusiveNextNonCollapsibleCharOffset( + *firstChild->AsText(), 0u) + .valueOr(0u)); + break; + } + result.Set(firstChild, 0u); + } + return result; + } + template <typename EditorDOMPointType> + [[nodiscard]] static EditorDOMPointType GetDeepestEditableEndPointOf( + const nsIContent& aContent, + InvisibleText aInvisibleText = InvisibleText::Recognize) { + if (NS_WARN_IF(!EditorUtils::IsEditableContent( + aContent, EditorBase::EditorType::HTML))) { + return EditorDOMPointType(); + } + auto result = EditorDOMPointType::AtEndOf(aContent); + while (true) { + nsIContent* lastChild = result.GetContainer()->GetLastChild(); + if (!lastChild) { + break; + } + // If the caller wants to skip invisible white-spaces, we should skip + // invisible text nodes. + if (aInvisibleText == InvisibleText::Skip && lastChild->IsText() && + EditorUtils::IsEditableContent(*lastChild, + EditorBase::EditorType::HTML) && + !HTMLEditUtils::IsVisibleTextNode(*lastChild->AsText())) { + for (nsIContent* nextSibling = lastChild->GetPreviousSibling(); + nextSibling; nextSibling = nextSibling->GetPreviousSibling()) { + if (!nextSibling->IsText() || + // We know its previous sibling is very start of a block. + // Therefore, we only need to scan the text here. + HTMLEditUtils::GetPreviousNonCollapsibleCharOffset( + *lastChild->AsText(), lastChild->AsText()->TextDataLength()) + .isSome()) { + lastChild = nextSibling; + break; + } + } + } + if ((!lastChild->IsText() && + !HTMLEditUtils::IsContainerNode(*lastChild)) || + !EditorUtils::IsEditableContent(*lastChild, + EditorBase::EditorType::HTML)) { + break; + } + if (aInvisibleText == InvisibleText::Skip && lastChild->IsText()) { + Maybe<uint32_t> visibleCharOffset = + HTMLEditUtils::GetPreviousNonCollapsibleCharOffset( + *lastChild->AsText(), lastChild->AsText()->TextDataLength()); + if (visibleCharOffset.isNothing()) { + result = EditorDOMPointType::AtEndOf(*lastChild); + break; + } + result.Set(lastChild, visibleCharOffset.value() + 1u); + break; + } + result = EditorDOMPointType::AtEndOf(*lastChild); + } + return result; + } + + /** + * Get `#[0-9a-f]{6}` style HTML color value if aColorValue is valid value + * for color-specifying attribute. The result is useful to set attributes + * of HTML elements which take a color value. + * + * @param aColorValue [in] Should be one of `#[0-9a-fA-Z]{3}`, + * `#[0-9a-fA-Z]{3}` or a color name. + * @param aNormalizedValue [out] Set to `#[0-9a-f]{6}` style color code + * if this returns true. Otherwise, returns + * aColorValue as-is. + * @return true if aColorValue is valid. Otherwise, false. + */ + static bool GetNormalizedHTMLColorValue(const nsAString& aColorValue, + nsAString& aNormalizedValue); + + /** + * Return true if aColorValue may be a CSS specific color value or general + * keywords of CSS. + */ + [[nodiscard]] static bool MaybeCSSSpecificColorValue( + const nsAString& aColorValue); + + /** + * Return true if aColorValue can be specified to `color` value of <font>. + */ + [[nodiscard]] static bool CanConvertToHTMLColorValue( + const nsAString& aColorValue); + + /** + * Convert aColorValue to `#[0-9a-f]{6}` style HTML color value. + */ + static bool ConvertToNormalizedHTMLColorValue(const nsAString& aColorValue, + nsAString& aNormalizedValue); + + /** + * Get serialized color value (`rgb(...)` or `rgba(...)`) or "currentcolor" + * if aColorValue is valid. The result is useful to set CSS color property. + * + * @param aColorValue [in] Should be valid CSS color value. + * @param aZeroAlphaColor [in] If TransparentKeyword, aNormalizedValue is + * set to "transparent" if the alpha value is 0. + * Otherwise, `rgba(...)` value is set. + * @param aNormalizedValue [out] Serialized color value or "currentcolor". + * @return true if aColorValue is valid. Otherwise, false. + */ + enum class ZeroAlphaColor { RGBAValue, TransparentKeyword }; + static bool GetNormalizedCSSColorValue(const nsAString& aColorValue, + ZeroAlphaColor aZeroAlphaColor, + nsAString& aNormalizedValue); + + /** + * Check whether aColorA and aColorB are same color. + * + * @param aTransparentKeyword Whether allow to treat "transparent" keyword + * as a valid value or an invalid value. + * @return If aColorA and aColorB are valid values and + * mean same color, returns true. + */ + enum class TransparentKeyword { Invalid, Allowed }; + static bool IsSameHTMLColorValue(const nsAString& aColorA, + const nsAString& aColorB, + TransparentKeyword aTransparentKeyword); + + /** + * Check whether aColorA and aColorB are same color. + * + * @return If aColorA and aColorB are valid values and + * mean same color, returns true. + */ + template <typename CharType> + static bool IsSameCSSColorValue(const nsTSubstring<CharType>& aColorA, + const nsTSubstring<CharType>& aColorB); + + private: + static bool CanNodeContain(nsHTMLTag aParentTagId, nsHTMLTag aChildTagId); + static bool IsContainerNode(nsHTMLTag aTagId); + + static bool CanCrossContentBoundary(nsIContent& aContent, + TableBoundary aHowToTreatTableBoundary) { + const bool cannotCrossBoundary = + (aHowToTreatTableBoundary == TableBoundary::NoCrossAnyTableElement && + HTMLEditUtils::IsAnyTableElement(&aContent)) || + (aHowToTreatTableBoundary == TableBoundary::NoCrossTableElement && + aContent.IsHTMLElement(nsGkAtoms::table)); + return !cannotCrossBoundary; + } + + static bool IsContentIgnored(const nsIContent& aContent, + const WalkTreeOptions& aOptions) { + if (aOptions.contains(WalkTreeOption::IgnoreNonEditableNode) && + !EditorUtils::IsEditableContent(aContent, + EditorUtils::EditorType::HTML)) { + return true; + } + if (aOptions.contains(WalkTreeOption::IgnoreDataNodeExceptText) && + !EditorUtils::IsElementOrText(aContent)) { + return true; + } + if (aOptions.contains(WalkTreeOption::IgnoreWhiteSpaceOnlyText) && + aContent.IsText() && + const_cast<Text*>(aContent.AsText())->TextIsOnlyWhitespace()) { + return true; + } + return false; + } + + static uint32_t CountChildren(const nsINode& aNode, + const WalkTreeOptions& aOptions, + BlockInlineCheck aBlockInlineCheck) { + uint32_t count = 0; + for (nsIContent* child = aNode.GetFirstChild(); child; + child = child->GetNextSibling()) { + if (HTMLEditUtils::IsContentIgnored(*child, aOptions)) { + continue; + } + if (aOptions.contains(WalkTreeOption::StopAtBlockBoundary) && + HTMLEditUtils::IsBlockElement(*child, aBlockInlineCheck)) { + break; + } + ++count; + } + return count; + } + + /** + * Helper for GetPreviousContent() and GetNextContent(). + */ + static nsIContent* GetAdjacentLeafContent( + const nsINode& aNode, WalkTreeDirection aWalkTreeDirection, + const WalkTreeOptions& aOptions, BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr); + static nsIContent* GetAdjacentContent( + const nsINode& aNode, WalkTreeDirection aWalkTreeDirection, + const WalkTreeOptions& aOptions, BlockInlineCheck aBlockInlineCheck, + const Element* aAncestorLimiter = nullptr); + + /** + * GetElementOfImmediateBlockBoundary() returns a block element if its + * block boundary and aContent may be first visible thing before/after the + * boundary. And it may return a <br> element only when aContent is a + * text node and follows a <br> element because only in this case, the + * start white-spaces are invisible. So the <br> element works same as + * a block boundary. + */ + static Element* GetElementOfImmediateBlockBoundary( + const nsIContent& aContent, const WalkTreeDirection aDirection); +}; + +/** + * DefinitionListItemScanner() scans given `<dl>` element's children. + * Then, you can check whether `<dt>` and/or `<dd>` elements are in it. + */ +class MOZ_STACK_CLASS DefinitionListItemScanner final { + using Element = dom::Element; + + public: + DefinitionListItemScanner() = delete; + explicit DefinitionListItemScanner(Element& aDLElement) { + MOZ_ASSERT(aDLElement.IsHTMLElement(nsGkAtoms::dl)); + for (nsIContent* child = aDLElement.GetFirstChild(); child; + child = child->GetNextSibling()) { + if (child->IsHTMLElement(nsGkAtoms::dt)) { + mDTFound = true; + if (mDDFound) { + break; + } + continue; + } + if (child->IsHTMLElement(nsGkAtoms::dd)) { + mDDFound = true; + if (mDTFound) { + break; + } + continue; + } + } + } + + bool DTElementFound() const { return mDTFound; } + bool DDElementFound() const { return mDDFound; } + + private: + bool mDTFound = false; + bool mDDFound = false; +}; + +/** + * SelectedTableCellScanner() scans all table cell elements which are selected + * by each selection range. Note that if 2nd or later ranges do not select + * only one table cell element, the ranges are just ignored. + */ +class MOZ_STACK_CLASS SelectedTableCellScanner final { + using Element = dom::Element; + using Selection = dom::Selection; + + public: + SelectedTableCellScanner() = delete; + explicit SelectedTableCellScanner(const Selection& aSelection) { + Element* firstSelectedCellElement = + HTMLEditUtils::GetFirstSelectedTableCellElement(aSelection); + if (!firstSelectedCellElement) { + return; // We're not in table cell selection mode. + } + mSelectedCellElements.SetCapacity(aSelection.RangeCount()); + mSelectedCellElements.AppendElement(*firstSelectedCellElement); + const uint32_t rangeCount = aSelection.RangeCount(); + for (const uint32_t i : IntegerRange(1u, rangeCount)) { + MOZ_ASSERT(aSelection.RangeCount() == rangeCount); + nsRange* range = aSelection.GetRangeAt(i); + if (MOZ_UNLIKELY(NS_WARN_IF(!range)) || + MOZ_UNLIKELY(NS_WARN_IF(!range->IsPositioned()))) { + continue; // Shouldn't occur in normal conditions. + } + // Just ignore selection ranges which do not select only one table + // cell element. This is possible case if web apps sets multiple + // selections and first range selects a table cell element. + if (Element* selectedCellElement = + HTMLEditUtils::GetTableCellElementIfOnlyOneSelected(*range)) { + mSelectedCellElements.AppendElement(*selectedCellElement); + } + } + } + + explicit SelectedTableCellScanner(const AutoRangeArray& aRanges); + + bool IsInTableCellSelectionMode() const { + return !mSelectedCellElements.IsEmpty(); + } + + const nsTArray<OwningNonNull<Element>>& ElementsRef() const { + return mSelectedCellElements; + } + + /** + * GetFirstElement() and GetNextElement() are stateful iterator methods. + * This is useful to port legacy code which used old `nsITableEditor` API. + */ + Element* GetFirstElement() const { + MOZ_ASSERT(!mSelectedCellElements.IsEmpty()); + mIndex = 0; + return !mSelectedCellElements.IsEmpty() ? mSelectedCellElements[0].get() + : nullptr; + } + Element* GetNextElement() const { + MOZ_ASSERT(mIndex < mSelectedCellElements.Length()); + return ++mIndex < mSelectedCellElements.Length() + ? mSelectedCellElements[mIndex].get() + : nullptr; + } + + private: + AutoTArray<OwningNonNull<Element>, 16> mSelectedCellElements; + mutable size_t mIndex = 0; +}; + +} // namespace mozilla + +#endif // #ifndef HTMLEditUtils_h |