mirror of
https://github.com/mozilla/gecko-dev.git
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5599ddec3c
Differential Revision: https://phabricator.services.mozilla.com/D100102
423 lines
19 KiB
C++
423 lines
19 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef mozilla_ContentEventHandler_h_
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#define mozilla_ContentEventHandler_h_
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#include "mozilla/EventForwards.h"
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#include "mozilla/dom/Selection.h"
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#include "nsCOMPtr.h"
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#include "nsIFrame.h"
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#include "nsINode.h"
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class nsPresContext;
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class nsRange;
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struct nsRect;
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namespace mozilla {
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enum LineBreakType { LINE_BREAK_TYPE_NATIVE, LINE_BREAK_TYPE_XP };
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/*
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* Query Content Event Handler
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* ContentEventHandler is a helper class for EventStateManager.
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* The platforms request some content informations, e.g., the selected text,
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* the offset of the selected text and the text for specified range.
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* This class answers to NS_QUERY_* events from actual contents.
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*/
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class MOZ_STACK_CLASS ContentEventHandler {
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private:
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/**
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* RawRange is a helper class of ContentEventHandler class. The caller is
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* responsible for making sure the start/end nodes are in document order.
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* This is enforced by assertions in DEBUG builds.
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*/
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class MOZ_STACK_CLASS RawRange final {
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public:
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RawRange() = default;
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void Clear() {
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mRoot = nullptr;
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mStart = RangeBoundary();
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mEnd = RangeBoundary();
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}
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bool IsPositioned() const { return mStart.IsSet() && mEnd.IsSet(); }
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bool Collapsed() const { return mStart == mEnd && IsPositioned(); }
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nsINode* GetStartContainer() const { return mStart.Container(); }
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nsINode* GetEndContainer() const { return mEnd.Container(); }
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uint32_t StartOffset() const {
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return *mStart.Offset(
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RangeBoundary::OffsetFilter::kValidOrInvalidOffsets);
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}
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uint32_t EndOffset() const {
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return *mEnd.Offset(RangeBoundary::OffsetFilter::kValidOrInvalidOffsets);
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}
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nsIContent* StartRef() const { return mStart.Ref(); }
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nsIContent* EndRef() const { return mEnd.Ref(); }
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const RangeBoundary& Start() const { return mStart; }
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const RangeBoundary& End() const { return mEnd; }
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// XXX: Make these use RangeBoundaries...
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nsresult CollapseTo(const RawRangeBoundary& aBoundary) {
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return SetStartAndEnd(aBoundary, aBoundary);
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}
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nsresult SetStart(const RawRangeBoundary& aStart);
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nsresult SetEnd(const RawRangeBoundary& aEnd);
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// NOTE: These helpers can hide performance problems, as they perform a
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// search to find aStartOffset in aStartContainer.
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nsresult SetStart(nsINode* aStartContainer, uint32_t aStartOffset) {
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return SetStart(RawRangeBoundary(aStartContainer, aStartOffset));
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}
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nsresult SetEnd(nsINode* aEndContainer, uint32_t aEndOffset) {
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return SetEnd(RawRangeBoundary(aEndContainer, aEndOffset));
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}
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nsresult SetEndAfter(nsINode* aEndContainer);
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void SetStartAndEnd(const nsRange* aRange);
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nsresult SetStartAndEnd(const RawRangeBoundary& aStart,
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const RawRangeBoundary& aEnd);
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nsresult SelectNodeContents(nsINode* aNodeToSelectContents);
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private:
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inline void AssertStartIsBeforeOrEqualToEnd();
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nsCOMPtr<nsINode> mRoot;
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RangeBoundary mStart;
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RangeBoundary mEnd;
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};
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public:
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typedef dom::Selection Selection;
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explicit ContentEventHandler(nsPresContext* aPresContext);
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// Handle aEvent in the current process.
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MOZ_CAN_RUN_SCRIPT nsresult
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HandleQueryContentEvent(WidgetQueryContentEvent* aEvent);
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// eQuerySelectedText event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQuerySelectedText(WidgetQueryContentEvent* aEvent);
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// eQueryTextContent event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQueryTextContent(WidgetQueryContentEvent* aEvent);
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// eQueryCaretRect event handler
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MOZ_CAN_RUN_SCRIPT nsresult OnQueryCaretRect(WidgetQueryContentEvent* aEvent);
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// eQueryTextRect event handler
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MOZ_CAN_RUN_SCRIPT nsresult OnQueryTextRect(WidgetQueryContentEvent* aEvent);
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// eQueryTextRectArray event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQueryTextRectArray(WidgetQueryContentEvent* aEvent);
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// eQueryEditorRect event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQueryEditorRect(WidgetQueryContentEvent* aEvent);
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// eQueryContentState event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQueryContentState(WidgetQueryContentEvent* aEvent);
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// eQuerySelectionAsTransferable event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQuerySelectionAsTransferable(WidgetQueryContentEvent* aEvent);
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// eQueryCharacterAtPoint event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQueryCharacterAtPoint(WidgetQueryContentEvent* aEvent);
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// eQueryDOMWidgetHittest event handler
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MOZ_CAN_RUN_SCRIPT nsresult
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OnQueryDOMWidgetHittest(WidgetQueryContentEvent* aEvent);
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// NS_SELECTION_* event
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MOZ_CAN_RUN_SCRIPT nsresult OnSelectionEvent(WidgetSelectionEvent* aEvent);
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protected:
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RefPtr<dom::Document> mDocument;
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// mSelection is typically normal selection but if OnQuerySelectedText()
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// is called, i.e., handling eQuerySelectedText, it's the specified selection
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// by WidgetQueryContentEvent::mInput::mSelectionType.
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RefPtr<Selection> mSelection;
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// mFirstSelectedRawRange is initialized from the first range of mSelection,
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// if it exists. Otherwise, it is reset by Clear().
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RawRange mFirstSelectedRawRange;
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nsCOMPtr<nsIContent> mRootContent;
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MOZ_CAN_RUN_SCRIPT nsresult Init(WidgetQueryContentEvent* aEvent);
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MOZ_CAN_RUN_SCRIPT nsresult Init(WidgetSelectionEvent* aEvent);
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nsresult InitBasic(bool aRequireFlush = true);
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MOZ_CAN_RUN_SCRIPT nsresult
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InitCommon(SelectionType aSelectionType = SelectionType::eNormal,
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bool aRequireFlush = true);
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/**
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* InitRootContent() computes the root content of current focused editor.
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*
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* @param aNormalSelection This must be a Selection instance whose type is
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* SelectionType::eNormal.
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*/
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MOZ_CAN_RUN_SCRIPT nsresult InitRootContent(Selection* aNormalSelection);
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public:
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// FlatText means the text that is generated from DOM tree. The BR elements
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// are replaced to native linefeeds. Other elements are ignored.
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// NodePosition stores a pair of node and offset in the node.
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// When mNode is an element and mOffset is 0, the start position means after
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// the open tag of mNode.
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// This is useful to receive one or more sets of them instead of nsRange.
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// This type is intended to be used for short-lived operations, and is thus
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// marked MOZ_STACK_CLASS.
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struct MOZ_STACK_CLASS NodePosition : public RangeBoundary {
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// Only when mNode is an element node and mOffset is 0, mAfterOpenTag is
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// referred.
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bool mAfterOpenTag = true;
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NodePosition() = default;
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NodePosition(nsINode* aContainer, int32_t aOffset)
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: RangeBoundary(aContainer, aOffset) {}
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NodePosition(nsINode* aContainer, nsIContent* aRef)
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: RangeBoundary(aContainer, aRef) {}
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explicit NodePosition(const nsIFrame::ContentOffsets& aContentOffsets)
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: RangeBoundary(aContentOffsets.content, aContentOffsets.offset) {}
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public:
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bool operator==(const NodePosition& aOther) const {
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return RangeBoundary::operator==(aOther) &&
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mAfterOpenTag == aOther.mAfterOpenTag;
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}
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bool IsBeforeOpenTag() const {
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return IsSet() && Container()->IsElement() && !Ref() && !mAfterOpenTag;
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}
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bool IsImmediatelyAfterOpenTag() const {
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return IsSet() && Container()->IsElement() && !Ref() && mAfterOpenTag;
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}
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};
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// NodePositionBefore isn't good name if Container() isn't an element node nor
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// Offset() is not 0, though, when Container() is an element node and mOffset
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// is 0, this is treated as before the open tag of Container().
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struct NodePositionBefore final : public NodePosition {
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NodePositionBefore(nsINode* aContainer, int32_t aOffset)
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: NodePosition(aContainer, aOffset) {
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mAfterOpenTag = false;
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}
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NodePositionBefore(nsINode* aContainer, nsIContent* aRef)
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: NodePosition(aContainer, aRef) {
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mAfterOpenTag = false;
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}
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};
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// Get the flatten text length in the range.
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// @param aStartPosition Start node and offset in the node of the range.
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// @param aEndPosition End node and offset in the node of the range.
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// @param aRootContent The root content of the editor or document.
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// aRootContent won't cause any text including
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// line breaks.
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// @param aLength The result of the flatten text length of the
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// range.
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// @param aLineBreakType Whether this computes flatten text length with
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// native line breakers on the platform or
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// with XP line breaker (\n).
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// @param aIsRemovingNode Should be true only when this is called from
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// nsIMutationObserver::ContentRemoved().
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// When this is true, aStartPosition.mNode should
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// be the root node of removing nodes and mOffset
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// should be 0 and aEndPosition.mNode should be
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// same as aStartPosition.mNode and mOffset should
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// be number of the children of mNode.
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static nsresult GetFlatTextLengthInRange(const NodePosition& aStartPosition,
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const NodePosition& aEndPosition,
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nsIContent* aRootContent,
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uint32_t* aLength,
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LineBreakType aLineBreakType,
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bool aIsRemovingNode = false);
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// Computes the native text length between aStartOffset and aEndOffset of
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// aContent. aContent must be a text node.
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static uint32_t GetNativeTextLength(nsIContent* aContent,
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uint32_t aStartOffset,
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uint32_t aEndOffset);
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// Get the native text length of aContent. aContent must be a text node.
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static uint32_t GetNativeTextLength(nsIContent* aContent,
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uint32_t aMaxLength = UINT32_MAX);
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// Get the native text length which is inserted before aContent.
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// aContent should be an element.
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static uint32_t GetNativeTextLengthBefore(nsIContent* aContent,
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nsINode* aRootNode);
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protected:
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// Get the text length of aContent. aContent must be a text node.
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static uint32_t GetTextLength(nsIContent* aContent,
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LineBreakType aLineBreakType,
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uint32_t aMaxLength = UINT32_MAX);
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// Get the text length of a given range of a content node in
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// the given line break type.
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static uint32_t GetTextLengthInRange(nsIContent* aContent,
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uint32_t aXPStartOffset,
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uint32_t aXPEndOffset,
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LineBreakType aLineBreakType);
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// Get the contents in aContent (meaning all children of aContent) as plain
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// text. E.g., specifying mRootContent gets whole text in it.
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// Note that the result is not same as .textContent. The result is
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// optimized for native IMEs. For example, <br> element and some block
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// elements causes "\n" (or "\r\n"), see also ShouldBreakLineBefore().
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nsresult GenerateFlatTextContent(nsIContent* aContent, nsString& aString,
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LineBreakType aLineBreakType);
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// Get the contents of aRange as plain text.
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nsresult GenerateFlatTextContent(const RawRange& aRawRange, nsString& aString,
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LineBreakType aLineBreakType);
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// Get offset of start of aRange. Note that the result includes the length
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// of line breaker caused by the start of aContent because aRange never
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// includes the line breaker caused by its start node.
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nsresult GetStartOffset(const RawRange& aRawRange, uint32_t* aOffset,
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LineBreakType aLineBreakType);
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// Check if we should insert a line break before aContent.
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// This should return false only when aContent is an html element which
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// is typically used in a paragraph like <em>.
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static bool ShouldBreakLineBefore(nsIContent* aContent, nsINode* aRootNode);
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// Get the line breaker length.
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static inline uint32_t GetBRLength(LineBreakType aLineBreakType);
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static LineBreakType GetLineBreakType(WidgetQueryContentEvent* aEvent);
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static LineBreakType GetLineBreakType(WidgetSelectionEvent* aEvent);
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static LineBreakType GetLineBreakType(bool aUseNativeLineBreak);
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// Returns focused content (including its descendant documents).
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nsIContent* GetFocusedContent();
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// QueryContentRect() sets the rect of aContent's frame(s) to aEvent.
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nsresult QueryContentRect(nsIContent* aContent,
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WidgetQueryContentEvent* aEvent);
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// Initialize aRawRange from the offset of FlatText and the text length.
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// If aExpandToClusterBoundaries is true, the start offset and the end one are
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// expanded to nearest cluster boundaries.
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nsresult SetRawRangeFromFlatTextOffset(RawRange* aRawRange, uint32_t aOffset,
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uint32_t aLength,
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LineBreakType aLineBreakType,
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bool aExpandToClusterBoundaries,
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uint32_t* aNewOffset = nullptr,
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nsIContent** aLastTextNode = nullptr);
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// If the aCollapsedRawRange isn't in text node but next to a text node,
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// this method modifies it in the text node. Otherwise, not modified.
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nsresult AdjustCollapsedRangeMaybeIntoTextNode(RawRange& aCollapsedRawRange);
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// Convert the frame relative offset to be relative to the root frame of the
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// root presContext (but still measured in appUnits of aFrame's presContext).
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nsresult ConvertToRootRelativeOffset(nsIFrame* aFrame, nsRect& aRect);
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// Expand aXPOffset to the nearest offset in cluster boundary. aForward is
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// true, it is expanded to forward.
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nsresult ExpandToClusterBoundary(nsIContent* aContent, bool aForward,
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uint32_t* aXPOffset);
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typedef nsTArray<mozilla::FontRange> FontRangeArray;
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static void AppendFontRanges(FontRangeArray& aFontRanges,
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nsIContent* aContent, uint32_t aBaseOffset,
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uint32_t aXPStartOffset, uint32_t aXPEndOffset,
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LineBreakType aLineBreakType);
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nsresult GenerateFlatFontRanges(const RawRange& aRawRange,
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FontRangeArray& aFontRanges,
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uint32_t& aLength,
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LineBreakType aLineBreakType);
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nsresult QueryTextRectByRange(const RawRange& aRawRange,
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LayoutDeviceIntRect& aRect,
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WritingMode& aWritingMode);
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struct MOZ_STACK_CLASS FrameAndNodeOffset final {
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// mFrame is safe since this can live in only stack class and
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// ContentEventHandler doesn't modify layout after
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// ContentEventHandler::Init() flushes pending layout. In other words,
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// this struct shouldn't be used before calling
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// ContentEventHandler::Init().
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nsIFrame* mFrame;
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// offset in the node of mFrame
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int32_t mOffsetInNode;
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FrameAndNodeOffset() : mFrame(nullptr), mOffsetInNode(-1) {}
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FrameAndNodeOffset(nsIFrame* aFrame, int32_t aStartOffsetInNode)
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: mFrame(aFrame), mOffsetInNode(aStartOffsetInNode) {}
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nsIFrame* operator->() { return mFrame; }
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const nsIFrame* operator->() const { return mFrame; }
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operator nsIFrame*() { return mFrame; }
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operator const nsIFrame*() const { return mFrame; }
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bool IsValid() const { return mFrame && mOffsetInNode >= 0; }
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};
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// Get first frame after the start of the given range for computing text rect.
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// This returns invalid FrameAndNodeOffset if there is no content which
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// should affect to computing text rect in the range. mOffsetInNode is start
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// offset in the frame.
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FrameAndNodeOffset GetFirstFrameInRangeForTextRect(const RawRange& aRawRange);
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// Get last frame before the end of the given range for computing text rect.
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// This returns invalid FrameAndNodeOffset if there is no content which
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// should affect to computing text rect in the range. mOffsetInNode is end
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// offset in the frame.
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FrameAndNodeOffset GetLastFrameInRangeForTextRect(const RawRange& aRawRange);
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struct MOZ_STACK_CLASS FrameRelativeRect final {
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// mRect is relative to the mBaseFrame's position.
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nsRect mRect;
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nsIFrame* mBaseFrame;
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FrameRelativeRect() : mBaseFrame(nullptr) {}
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explicit FrameRelativeRect(nsIFrame* aBaseFrame) : mBaseFrame(aBaseFrame) {}
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FrameRelativeRect(const nsRect& aRect, nsIFrame* aBaseFrame)
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: mRect(aRect), mBaseFrame(aBaseFrame) {}
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bool IsValid() const { return mBaseFrame != nullptr; }
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// Returns an nsRect relative to aBaseFrame instead of mBaseFrame.
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nsRect RectRelativeTo(nsIFrame* aBaseFrame) const;
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};
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// Returns a rect for line breaker before the node of aFrame (If aFrame is
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// a <br> frame or a block level frame, it causes a line break at its
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// element's open tag, see also ShouldBreakLineBefore()). Note that this
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// doesn't check if aFrame should cause line break in non-debug build.
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FrameRelativeRect GetLineBreakerRectBefore(nsIFrame* aFrame);
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// Returns a line breaker rect after aTextContent as there is a line breaker
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// immediately after aTextContent. This is useful when following block
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// element causes a line break before it and it needs to compute the line
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// breaker's rect. For example, if there is |<p>abc</p><p>def</p>|, the
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// rect of 2nd <p>'s line breaker should be at right of "c" in the first
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// <p>, not the start of 2nd <p>. The result is relative to the last text
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// frame which represents the last character of aTextContent.
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FrameRelativeRect GuessLineBreakerRectAfter(nsIContent* aTextContent);
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// Returns a guessed first rect. I.e., it may be different from actual
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// caret when selection is collapsed at start of aFrame. For example, this
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// guess the caret rect only with the content box of aFrame and its font
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// height like:
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// +-aFrame----------------- (border box)
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// |
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// | +--------------------- (content box)
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// | | I
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// ^ guessed caret rect
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// However, actual caret is computed with more information like line-height,
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// child frames of aFrame etc. But this does not emulate actual caret
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// behavior exactly for simpler and faster code because it's difficult and
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// we're not sure it's worthwhile to do it with complicated implementation.
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FrameRelativeRect GuessFirstCaretRectIn(nsIFrame* aFrame);
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// Make aRect non-empty. If width and/or height is 0, these methods set them
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// to 1. Note that it doesn't set nsRect's width nor height to one device
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// pixel because using nsRect::ToOutsidePixels() makes actual width or height
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// to 2 pixels because x and y may not be aligned to device pixels.
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void EnsureNonEmptyRect(nsRect& aRect) const;
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void EnsureNonEmptyRect(LayoutDeviceIntRect& aRect) const;
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};
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} // namespace mozilla
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#endif // mozilla_ContentEventHandler_h_
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