gecko-dev/editor/libeditor/EditorBase.h

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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef mozilla_EditorBase_h
#define mozilla_EditorBase_h
#include "mozilla/Assertions.h" // for MOZ_ASSERT, etc.
#include "mozilla/EditorDOMPoint.h" // for EditorDOMPoint
#include "mozilla/Maybe.h" // for Maybe
#include "mozilla/OwningNonNull.h" // for OwningNonNull
#include "mozilla/PresShell.h" // for PresShell
#include "mozilla/RangeBoundary.h" // for RawRangeBoundary, RangeBoundary
#include "mozilla/SelectionState.h" // for RangeUpdater, etc.
#include "mozilla/StyleSheet.h" // for StyleSheet
#include "mozilla/TextEditRules.h" // for TextEditRules
#include "mozilla/TransactionManager.h" // for TransactionManager
#include "mozilla/WeakPtr.h" // for WeakPtr
#include "mozilla/dom/Selection.h"
#include "mozilla/dom/Text.h"
#include "nsCOMPtr.h" // for already_AddRefed, nsCOMPtr
#include "nsCycleCollectionParticipant.h"
#include "nsGkAtoms.h"
#include "nsIDocument.h" // for nsIDocument
#include "nsIEditor.h" // for nsIEditor, etc.
#include "nsIObserver.h" // for NS_DECL_NSIOBSERVER, etc.
#include "nsIPlaintextEditor.h" // for nsIPlaintextEditor, etc.
#include "nsISelectionController.h" // for nsISelectionController constants
#include "nsISelectionListener.h" // for nsISelectionListener
#include "nsISupportsImpl.h" // for EditorBase::Release, etc.
#include "nsIWeakReferenceUtils.h" // for nsWeakPtr
#include "nsLiteralString.h" // for NS_LITERAL_STRING
#include "nsString.h" // for nsCString
#include "nsTArray.h" // for nsTArray and nsAutoTArray
#include "nsWeakReference.h" // for nsSupportsWeakReference
#include "nscore.h" // for nsresult, nsAString, etc.
class mozInlineSpellChecker;
class nsAtom;
class nsIContent;
class nsIDOMDocument;
class nsIDOMNode;
class nsIDocumentStateListener;
class nsIEditActionListener;
class nsIEditorObserver;
class nsINode;
class nsIPresShell;
class nsISupports;
class nsITransaction;
class nsITransactionListener;
class nsIWidget;
class nsRange;
namespace mozilla {
class AddStyleSheetTransaction;
class AutoRules;
class AutoSelectionRestorer;
class AutoTransactionsConserveSelection;
class ChangeAttributeTransaction;
class CompositionTransaction;
class CreateElementTransaction;
class DeleteNodeTransaction;
class DeleteTextTransaction;
class EditAggregateTransaction;
class EditorEventListener;
class EditTransactionBase;
class ErrorResult;
class HTMLEditor;
class IMEContentObserver;
class InsertNodeTransaction;
class InsertTextTransaction;
class JoinNodeTransaction;
class PlaceholderTransaction;
class RemoveStyleSheetTransaction;
class SplitNodeResult;
class SplitNodeTransaction;
class TextComposition;
class TextEditor;
class TextInputListener;
class TextServicesDocument;
enum class EditAction : int32_t;
namespace dom {
class DataTransfer;
class DragEvent;
class Element;
class EventTarget;
class Text;
} // namespace dom
namespace widget {
struct IMEState;
} // namespace widget
/**
* CachedWeakPtr stores a pointer to a class which inherits nsIWeakReference.
* If the instance of the class has already been destroyed, this returns
* nullptr. Otherwise, returns cached pointer.
* If class T inherits nsISupports a lot, specify Base explicitly for avoiding
* ambiguous conversion to nsISupports.
*/
template<class T, class Base = nsISupports>
class CachedWeakPtr final
{
public:
CachedWeakPtr<T, Base>()
: mCache(nullptr)
{
}
explicit CachedWeakPtr<T, Base>(T* aObject)
{
mWeakPtr = do_GetWeakReference(static_cast<Base*>(aObject));
mCache = aObject;
}
explicit CachedWeakPtr<T, Base>(const nsCOMPtr<T>& aOther)
{
mWeakPtr = do_GetWeakReference(static_cast<Base*>(aOther.get()));
mCache = aOther;
}
explicit CachedWeakPtr<T, Base>(already_AddRefed<T>& aOther)
{
RefPtr<T> other = aOther;
mWeakPtr = do_GetWeakReference(static_cast<Base*>(other.get()));
mCache = other;
}
CachedWeakPtr<T, Base>& operator=(T* aObject)
{
mWeakPtr = do_GetWeakReference(static_cast<Base*>(aObject));
mCache = aObject;
return *this;
}
CachedWeakPtr<T, Base>& operator=(const nsCOMPtr<T>& aOther)
{
mWeakPtr = do_GetWeakReference(static_cast<Base*>(aOther.get()));
mCache = aOther;
return *this;
}
CachedWeakPtr<T, Base>& operator=(already_AddRefed<T>& aOther)
{
RefPtr<T> other = aOther;
mWeakPtr = do_GetWeakReference(static_cast<Base*>(other.get()));
mCache = other;
return *this;
}
bool IsAlive() const { return mWeakPtr && mWeakPtr->IsAlive(); }
explicit operator bool() const { return mWeakPtr; }
operator T*() const { return get(); }
T* get() const
{
if (mCache && !mWeakPtr->IsAlive()) {
const_cast<CachedWeakPtr<T, Base>*>(this)->mCache = nullptr;
}
return mCache;
}
private:
nsWeakPtr mWeakPtr;
T* MOZ_NON_OWNING_REF mCache;
};
#define kMOZEditorBogusNodeAttrAtom nsGkAtoms::mozeditorbogusnode
#define kMOZEditorBogusNodeValue NS_LITERAL_STRING("TRUE")
/**
* SplitAtEdges is for EditorBase::SplitNodeDeepWithTransaction(),
* HTMLEditor::InsertNodeAtPoint()
*/
enum class SplitAtEdges
{
// EditorBase::SplitNodeDeepWithTransaction() won't split container element
// nodes at their edges. I.e., when split point is start or end of
// container, it won't be split.
eDoNotCreateEmptyContainer,
// EditorBase::SplitNodeDeepWithTransaction() always splits containers even
// if the split point is at edge of a container. E.g., if split point is
// start of an inline element, empty inline element is created as a new left
// node.
eAllowToCreateEmptyContainer,
};
/**
* Implementation of an editor object. it will be the controller/focal point
* for the main editor services. i.e. the GUIManager, publishing, transaction
* manager, event interfaces. the idea for the event interfaces is to have them
* delegate the actual commands to the editor independent of the XPFE
* implementation.
*/
class EditorBase : public nsIEditor
, public nsISelectionListener
, public nsSupportsWeakReference
{
public:
typedef dom::Element Element;
typedef dom::Selection Selection;
typedef dom::Text Text;
enum IterDirection
{
kIterForward,
kIterBackward
};
/**
* The default constructor. This should suffice. the setting of the
* interfaces is done after the construction of the editor class.
*/
EditorBase();
protected:
/**
* The default destructor. This should suffice. Should this be pure virtual
* for someone to derive from the EditorBase later? I don't believe so.
*/
virtual ~EditorBase();
public:
NS_DECL_CYCLE_COLLECTING_ISUPPORTS
NS_DECL_CYCLE_COLLECTION_CLASS_AMBIGUOUS(EditorBase, nsIEditor)
/**
* Init is to tell the implementation of nsIEditor to begin its services
* @param aDoc The dom document interface being observed
* @param aRoot This is the root of the editable section of this
* document. If it is null then we get root
* from document body.
* @param aSelCon this should be used to get the selection location
* (will be null for HTML editors)
* @param aFlags A bitmask of flags for specifying the behavior
* of the editor.
*/
virtual nsresult Init(nsIDocument& doc,
Element* aRoot,
nsISelectionController* aSelCon,
uint32_t aFlags,
const nsAString& aInitialValue);
bool IsInitialized() const { return !!mDocument; }
already_AddRefed<nsIDOMDocument> GetDOMDocument();
nsIDocument* GetDocument() const { return mDocument; }
nsIPresShell* GetPresShell() const
{
return mDocument ? mDocument->GetShell() : nullptr;
}
nsPresContext* GetPresContext() const
{
nsIPresShell* presShell = GetPresShell();
return presShell ? presShell->GetPresContext() : nullptr;
}
already_AddRefed<nsIWidget> GetWidget();
nsISelectionController* GetSelectionController() const
{
if (mSelectionController) {
return mSelectionController;
}
if (!mDocument) {
return nullptr;
}
nsIPresShell* presShell = mDocument->GetShell();
if (!presShell) {
return nullptr;
}
nsISelectionController* sc = static_cast<PresShell*>(presShell);
return sc;
}
enum NotificationForEditorObservers
{
eNotifyEditorObserversOfEnd,
eNotifyEditorObserversOfBefore,
eNotifyEditorObserversOfCancel
};
void NotifyEditorObservers(NotificationForEditorObservers aNotification);
// nsIEditor methods
NS_DECL_NSIEDITOR
// nsISelectionListener method
NS_DECL_NSISELECTIONLISTENER
/**
* Set or unset TextInputListener. If setting non-nullptr when the editor
* already has a TextInputListener, this will crash in debug build.
*/
void SetTextInputListener(TextInputListener* aTextInputListener);
/**
* Set or unset IMEContentObserver. If setting non-nullptr when the editor
* already has an IMEContentObserver, this will crash in debug build.
*/
void SetIMEContentObserver(IMEContentObserver* aIMEContentObserver);
public:
virtual bool IsModifiableNode(nsINode* aNode);
/**
* InsertTextWithTransaction() inserts aStringToInsert to aPointToInsert or
* better insertion point around it. If aPointToInsert isn't in a text node,
* this method looks for the nearest point in a text node with
* FindBetterInsertionPoint(). If there is no text node, this creates
* new text node and put aStringToInsert to it.
*
* @param aDocument The document of this editor.
* @param aStringToInsert The string to insert.
* @param aPointToInser The point to insert aStringToInsert.
* Must be valid DOM point.
* @param aPointAfterInsertedString
* The point after inserted aStringToInsert.
* So, when this method actually inserts string,
* this is set to a point in the text node.
* Otherwise, this may be set to aPointToInsert.
* @return When this succeeds to insert the string or
* does nothing during composition, returns NS_OK.
* Otherwise, an error code.
*/
virtual nsresult
InsertTextWithTransaction(nsIDocument& aDocument,
const nsAString& aStringToInsert,
const EditorRawDOMPoint& aPointToInsert,
EditorRawDOMPoint* aPointAfterInsertedString =
nullptr);
/**
* InsertTextIntoTextNodeWithTransaction() inserts aStringToInsert into
* aOffset of aTextNode with transaction.
*
* @param aStringToInsert String to be inserted.
* @param aTextNode Text node to contain aStringToInsert.
* @param aOffset Offset at insertion point in aTextNode.
* @param aSuppressIME true if it's not a part of IME composition.
* E.g., adjusting whitespaces during composition.
* false, otherwise.
*/
nsresult
InsertTextIntoTextNodeWithTransaction(const nsAString& aStringToInsert,
Text& aTextNode, int32_t aOffset,
bool aSuppressIME = false);
nsresult SetTextImpl(Selection& aSelection,
const nsAString& aString,
Text& aTextNode);
/**
* DeleteNodeWithTransaction() removes aNode from the DOM tree.
*
* @param aNode The node which will be removed form the DOM tree.
*/
nsresult DeleteNodeWithTransaction(nsINode& aNode);
/**
* InsertNodeWithTransaction() inserts aContentToInsert before the child
* specified by aPointToInsert.
*
* @param aContentToInsert The node to be inserted.
* @param aPointToInsert The insertion point of aContentToInsert.
* If this refers end of the container, the
* transaction will append the node to the
* container. Otherwise, will insert the node
* before child node referred by this.
*/
template<typename PT, typename CT>
nsresult
InsertNodeWithTransaction(nsIContent& aContentToInsert,
const EditorDOMPointBase<PT, CT>& aPointToInsert);
/**
* ReplaceContainerWithTransaction() creates new element whose name is
* aTagName, moves all children in aOldContainer to the new element, then,
* removes aOldContainer from the DOM tree.
*
* @param aOldContainer The element node which should be replaced
* with new element.
* @param aTagName The name of new element node.
*/
already_AddRefed<Element>
ReplaceContainerWithTransaction(Element& aOldContainer,
nsAtom& aTagName)
{
return ReplaceContainerWithTransactionInternal(aOldContainer, aTagName,
*nsGkAtoms::_empty,
EmptyString(), false);
}
/**
* ReplaceContainerAndCloneAttributesWithTransaction() creates new element
* whose name is aTagName, copies all attributes from aOldContainer to the
* new element, moves all children in aOldContainer to the new element, then,
* removes aOldContainer from the DOM tree.
*
* @param aOldContainer The element node which should be replaced
* with new element.
* @param aTagName The name of new element node.
*/
already_AddRefed<Element>
ReplaceContainerAndCloneAttributesWithTransaction(Element& aOldContainer,
nsAtom& aTagName)
{
return ReplaceContainerWithTransactionInternal(aOldContainer, aTagName,
*nsGkAtoms::_empty,
EmptyString(), true);
}
/**
* ReplaceContainerWithTransaction() creates new element whose name is
* aTagName, sets aAttributes of the new element to aAttributeValue, moves
* all children in aOldContainer to the new element, then, removes
* aOldContainer from the DOM tree.
*
* @param aOldContainer The element node which should be replaced
* with new element.
* @param aTagName The name of new element node.
* @param aAttribute Attribute name to be set to the new element.
* @param aAttributeValue Attribute value to be set to aAttribute.
*/
already_AddRefed<Element>
ReplaceContainerWithTransaction(Element& aOldContainer,
nsAtom& aTagName,
nsAtom& aAttribute,
const nsAString& aAttributeValue)
{
return ReplaceContainerWithTransactionInternal(aOldContainer, aTagName,
aAttribute,
aAttributeValue, false);
}
/**
* CloneAttributesWithTransaction() clones all attributes from
* aSourceElement to aDestElement after removing all attributes in
* aDestElement.
*/
void CloneAttributesWithTransaction(Element& aDestElement,
Element& aSourceElement);
/**
* RemoveContainerWithTransaction() removes aElement from the DOM tree and
* moves all its children to the parent of aElement.
*
* @param aElement The element to be removed.
*/
nsresult RemoveContainerWithTransaction(Element& aElement);
/**
* InsertContainerWithTransaction() creates new element whose name is
* aTagName, moves aContent into the new element, then, inserts the new
* element into where aContent was.
* Note that this method does not check if aContent is valid child of
* the new element. So, callers need to guarantee it.
*
* @param aContent The content which will be wrapped with new
* element.
* @param aTagName Element name of new element which will wrap
* aContent and be inserted into where aContent
* was.
* @return The new element.
*/
already_AddRefed<Element>
InsertContainerWithTransaction(nsIContent& aContent, nsAtom& aTagName)
{
return InsertContainerWithTransactionInternal(aContent, aTagName,
*nsGkAtoms::_empty,
EmptyString());
}
/**
* InsertContainerWithTransaction() creates new element whose name is
* aTagName, sets its aAttribute to aAttributeValue, moves aContent into the
* new element, then, inserts the new element into where aContent was.
* Note that this method does not check if aContent is valid child of
* the new element. So, callers need to guarantee it.
*
* @param aContent The content which will be wrapped with new
* element.
* @param aTagName Element name of new element which will wrap
* aContent and be inserted into where aContent
* was.
* @param aAttribute Attribute which should be set to the new
* element.
* @param aAttributeValue Value to be set to aAttribute.
* @return The new element.
*/
already_AddRefed<Element>
InsertContainerWithTransaction(nsIContent& aContent, nsAtom& aTagName,
nsAtom& aAttribute,
const nsAString& aAttributeValue)
{
return InsertContainerWithTransactionInternal(aContent, aTagName,
aAttribute, aAttributeValue);
}
/**
* SplitNodeWithTransaction() creates a transaction to create a new node
* (left node) identical to an existing node (right node), and split the
* contents between the same point in both nodes, then, execute the
* transaction.
*
* @param aStartOfRightNode The point to split. Its container will be
* the right node, i.e., become the new node's
* next sibling. And the point will be start
* of the right node.
* @param aError If succeed, returns no error. Otherwise, an
* error.
*/
template<typename PT, typename CT>
already_AddRefed<nsIContent>
SplitNodeWithTransaction(const EditorDOMPointBase<PT, CT>& aStartOfRightNode,
ErrorResult& aResult);
/**
* JoinNodesWithTransaction() joins aLeftNode and aRightNode. Content of
* aLeftNode will be merged into aRightNode. Actual implemenation of this
* method is JoinNodesImpl(). So, see its explanation for the detail.
*
* @param aLeftNode Will be removed from the DOM tree.
* @param aRightNode The node which will be new container of the content of
* aLeftNode.
*/
nsresult JoinNodesWithTransaction(nsINode& aLeftNode, nsINode& aRightNode);
/**
* MoveNodeWithTransaction() moves aContent to aPointToInsert.
*
* @param aContent The node to be moved.
*/
template<typename PT, typename CT>
nsresult
MoveNodeWithTransaction(nsIContent& aContent,
const EditorDOMPointBase<PT, CT>& aPointToInsert);
/**
* MoveNodeToEndWithTransaction() moves aContent to end of aNewContainer.
*
* @param aContent The node to be moved.
* @param aNewContainer The new container which will contain aContent as
* its last child.
*/
nsresult
MoveNodeToEndWithTransaction(nsIContent& aContent,
nsINode& aNewContainer)
{
EditorRawDOMPoint pointToInsert;
pointToInsert.SetToEndOf(&aNewContainer);
return MoveNodeWithTransaction(aContent, pointToInsert);
}
/**
* MoveAllChildren() moves all children of aContainer to before
* aPointToInsert.GetChild().
* See explanation of MoveChildren() for the detail of the behavior.
*
* @param aContainer The container node whose all children should
* be moved.
* @param aPointToInsert The insertion point. The container must not
* be a data node like a text node.
* @param aError The result. If this succeeds to move children,
* returns NS_OK. Otherwise, an error.
*/
void MoveAllChildren(nsINode& aContainer,
const EditorRawDOMPoint& aPointToInsert,
ErrorResult& aError);
/**
* MovePreviousSiblings() moves all siblings before aChild (i.e., aChild
* won't be moved) to before aPointToInsert.GetChild().
* See explanation of MoveChildren() for the detail of the behavior.
*
* @param aChild The node which is next sibling of the last
* node to be moved.
* @param aPointToInsert The insertion point. The container must not
* be a data node like a text node.
* @param aError The result. If this succeeds to move children,
* returns NS_OK. Otherwise, an error.
*/
void MovePreviousSiblings(nsIContent& aChild,
const EditorRawDOMPoint& aPointToInsert,
ErrorResult& aError);
/**
* MoveChildren() moves all children between aFirstChild and aLastChild to
* before aPointToInsert.GetChild().
* If some children are moved to different container while this method
* moves other children, they are just ignored.
* If the child node referred by aPointToInsert is moved to different
* container while this method moves children, returns error.
*
* @param aFirstChild The first child which should be moved to
* aPointToInsert.
* @param aLastChild The last child which should be moved. This
* must be a sibling of aFirstChild and it should
* be positioned after aFirstChild in the DOM tree
* order.
* @param aPointToInsert The insertion point. The container must not
* be a data node like a text node.
* @param aError The result. If this succeeds to move children,
* returns NS_OK. Otherwise, an error.
*/
void MoveChildren(nsIContent& aFirstChild,
nsIContent& aLastChild,
const EditorRawDOMPoint& aPointToInsert,
ErrorResult& aError);
/**
* CloneAttributeWithTransaction() copies aAttribute of aSourceElement to
* aDestElement. If aSourceElement doesn't have aAttribute, this removes
* aAttribute from aDestElement.
*
* @param aAttribute Attribute name to be cloned.
* @param aDestElement Element node which will be set aAttribute or
* whose aAttribute will be removed.
* @param aSourceElement Element node which provides the value of
* aAttribute in aDestElement.
*/
nsresult CloneAttributeWithTransaction(nsAtom& aAttribute,
Element& aDestElement,
Element& aSourceElement);
/**
* RemoveAttributeWithTransaction() removes aAttribute from aElement.
*
* @param aElement Element node which will lose aAttribute.
* @param aAttribute Attribute name to be removed from aElement.
*/
nsresult RemoveAttributeWithTransaction(Element& aElement,
nsAtom& aAttribute);
virtual nsresult RemoveAttributeOrEquivalent(Element* aElement,
nsAtom* aAttribute,
bool aSuppressTransaction) = 0;
/**
* SetAttributeWithTransaction() sets aAttribute of aElement to aValue.
*
* @param aElement Element node which will have aAttribute.
* @param aAttribute Attribute name to be set.
* @param aValue Attribute value be set to aAttribute.
*/
nsresult SetAttributeWithTransaction(Element& aElement,
nsAtom& aAttribute,
const nsAString& aValue);
virtual nsresult SetAttributeOrEquivalent(Element* aElement,
nsAtom* aAttribute,
const nsAString& aValue,
bool aSuppressTransaction) = 0;
/**
* Method to replace certain CreateElementNS() calls.
*
* @param aTag Tag you want.
*/
already_AddRefed<Element> CreateHTMLContent(nsAtom* aTag);
/**
* Creates text node which is marked as "maybe modified frequently".
*/
static already_AddRefed<nsTextNode> CreateTextNode(nsIDocument& aDocument,
const nsAString& aData);
/**
* Get preferred IME status of current widget.
*/
virtual nsresult GetPreferredIMEState(widget::IMEState* aState);
/**
* Commit composition if there is.
* Note that when there is a composition, this requests to commit composition
* to native IME. Therefore, when there is composition, this can do anything.
* For example, the editor instance, the widget or the process itself may
* be destroyed.
*/
nsresult CommitComposition();
void SwitchTextDirectionTo(uint32_t aDirection);
RangeUpdater& RangeUpdaterRef() { return mRangeUpdater; }
/**
* Finalizes selection and caret for the editor.
*/
nsresult FinalizeSelection();
protected:
nsresult DetermineCurrentDirection();
void FireInputEvent();
/**
* Create an element node whose name is aTag at before aPointToInsert. When
* this succeed to create an element node, this sets aPointToInsert to the
* new element because the relation of child and offset may be broken.
* If the caller needs to collapse the selection to next to the new element
* node, it should call |aPointToInsert.AdvanceOffset()| after calling this.
*
* @param aTag The element name to create.
* @param aPointToInsert The insertion point of new element. If this refers
* end of the container or after, the transaction
* will append the element to the container.
* Otherwise, will insert the element before the
* child node referred by this.
* @return The created new element node.
*/
template<typename PT, typename CT>
already_AddRefed<Element>
CreateNodeWithTransaction(nsAtom& aTag,
const EditorDOMPointBase<PT, CT>& aPointToInsert);
/**
* Create an aggregate transaction for delete selection. The result may
* include DeleteNodeTransactions and/or DeleteTextTransactions as its
* children.
*
* @param aAction The action caused removing the selection.
* @param aRemovingNode The node to be removed.
* @param aOffset The start offset of the range in aRemovingNode.
* @param aLength The length of the range in aRemovingNode.
* @return If it can remove the selection, returns an
* aggregate transaction which has some
* DeleteNodeTransactions and/or
* DeleteTextTransactions as its children.
*/
already_AddRefed<EditAggregateTransaction>
CreateTxnForDeleteSelection(EDirection aAction,
nsINode** aNode,
int32_t* aOffset,
int32_t* aLength);
/**
* Create a transaction for removing the nodes and/or text in aRange.
*
* @param aRangeToDelete The range to be removed.
* @param aAction The action caused removing the range.
* @param aRemovingNode The node to be removed.
* @param aOffset The start offset of the range in aRemovingNode.
* @param aLength The length of the range in aRemovingNode.
* @return The transaction to remove the range. Its type
* is DeleteNodeTransaction or
* DeleteTextTransaction.
*/
already_AddRefed<EditTransactionBase>
CreateTxnForDeleteRange(nsRange* aRangeToDelete,
EDirection aAction,
nsINode** aRemovingNode,
int32_t* aOffset,
int32_t* aLength);
/**
* DeleteTextWithTransaction() removes text in the range from aCharData.
*
* @param aCharData The data node which should be modified.
* @param aOffset Start offset of removing text in aCharData.
* @param aLength Length of removing text.
*/
nsresult DeleteTextWithTransaction(dom::CharacterData& aCharacterData,
uint32_t aOffset, uint32_t aLength);
/**
* ReplaceContainerWithTransactionInternal() is implementation of
* ReplaceContainerWithTransaction() and
* ReplaceContainerAndCloneAttributesWithTransaction().
*
* @param aOldContainer The element which will be replaced with new
* element.
* @param aTagName The name of new element node.
* @param aAttribute Attribute name which will be set to the new
* element. This will be ignored if
* aCloneAllAttributes is set to true.
* @param aAttributeValue Attribute value which will be set to
* aAttribute.
* @param aCloneAllAttributes If true, all attributes of aOldContainer will
* be copied to the new element.
*/
already_AddRefed<Element>
ReplaceContainerWithTransactionInternal(Element& aElement,
nsAtom& aTagName,
nsAtom& aAttribute,
const nsAString& aAttributeValue,
bool aCloneAllAttributes);
/**
* InsertContainerWithTransactionInternal() creates new element whose name is
* aTagName, moves aContent into the new element, then, inserts the new
* element into where aContent was. If aAttribute is not nsGkAtoms::_empty,
* aAttribute of the new element will be set to aAttributeValue.
*
* @param aContent The content which will be wrapped with new
* element.
* @param aTagName Element name of new element which will wrap
* aContent and be inserted into where aContent
* was.
* @param aAttribute Attribute which should be set to the new
* element. If this is nsGkAtoms::_empty,
* this does not set any attributes to the new
* element.
* @param aAttributeValue Value to be set to aAttribute.
* @return The new element.
*/
already_AddRefed<Element>
InsertContainerWithTransactionInternal(nsIContent& aContent,
nsAtom& aTagName,
nsAtom& aAttribute,
const nsAString& aAttributeValue);
/**
* Called after a transaction is done successfully.
*/
void DoAfterDoTransaction(nsITransaction *aTxn);
/**
* Called after a transaction is undone successfully.
*/
void DoAfterUndoTransaction();
/**
* Called after a transaction is redone successfully.
*/
void DoAfterRedoTransaction();
// Note that aSelection is optional and can be nullptr.
nsresult DoTransaction(Selection* aSelection,
nsITransaction* aTxn);
enum TDocumentListenerNotification
{
eDocumentCreated,
eDocumentToBeDestroyed,
eDocumentStateChanged
};
/**
* Tell the doc state listeners that the doc state has changed.
*/
nsresult NotifyDocumentListeners(
TDocumentListenerNotification aNotificationType);
/**
* Make the given selection span the entire document.
*/
virtual nsresult SelectEntireDocument(Selection* aSelection);
/**
* Helper method for scrolling the selection into view after
* an edit operation. aScrollToAnchor should be true if you
* want to scroll to the point where the selection was started.
* If false, it attempts to scroll the end of the selection into view.
*
* Editor methods *should* call this method instead of the versions
* in the various selection interfaces, since this version makes sure
* that the editor's sync/async settings for reflowing, painting, and
* scrolling match.
*/
nsresult ScrollSelectionIntoView(bool aScrollToAnchor);
virtual bool IsBlockNode(nsINode* aNode);
/**
* Helper for GetPreviousNodeInternal() and GetNextNodeInternal().
*/
nsIContent* FindNextLeafNode(nsINode* aCurrentNode,
bool aGoForward,
bool bNoBlockCrossing);
nsIContent* FindNode(nsINode* aCurrentNode,
bool aGoForward,
bool aEditableNode,
bool aFindAnyDataNode,
bool bNoBlockCrossing);
/**
* Get the node immediately previous node of aNode.
* @param atNode The node from which we start the search.
* @param aFindEditableNode If true, only return an editable node.
* @param aFindAnyDataNode If true, may return invisible data node
* like Comment.
* @param aNoBlockCrossing If true, don't move across "block" nodes,
* whatever that means.
* @return The node that occurs before aNode in
* the tree, skipping non-editable nodes if
* aFindEditableNode is true. If there is no
* previous node, returns nullptr.
*/
nsIContent* GetPreviousNodeInternal(nsINode& aNode,
bool aFindEditableNode,
bool aFindAnyDataNode,
bool aNoBlockCrossing);
/**
* And another version that takes a point in DOM tree rather than a node.
*/
nsIContent* GetPreviousNodeInternal(const EditorRawDOMPoint& aPoint,
bool aFindEditableNode,
bool aFindAnyDataNode,
bool aNoBlockCrossing);
/**
* Get the node immediately next node of aNode.
* @param aNode The node from which we start the search.
* @param aFindEditableNode If true, only return an editable node.
* @param aFindAnyDataNode If true, may return invisible data node
* like Comment.
* @param aNoBlockCrossing If true, don't move across "block" nodes,
* whatever that means.
* @return The node that occurs after aNode in the
* tree, skipping non-editable nodes if
* aFindEditableNode is true. If there is no
* next node, returns nullptr.
*/
nsIContent* GetNextNodeInternal(nsINode& aNode,
bool aFindEditableNode,
bool aFindAnyDataNode,
bool bNoBlockCrossing);
/**
* And another version that takes a point in DOM tree rather than a node.
*/
nsIContent* GetNextNodeInternal(const EditorRawDOMPoint& aPoint,
bool aFindEditableNode,
bool aFindAnyDataNode,
bool aNoBlockCrossing);
virtual nsresult InstallEventListeners();
virtual void CreateEventListeners();
virtual void RemoveEventListeners();
/**
* Return true if spellchecking should be enabled for this editor.
*/
bool GetDesiredSpellCheckState();
bool CanEnableSpellCheck()
{
// Check for password/readonly/disabled, which are not spellchecked
// regardless of DOM. Also, check to see if spell check should be skipped
// or not.
return !IsPasswordEditor() && !IsReadonly() && !IsDisabled() &&
!ShouldSkipSpellCheck();
}
nsresult GetSelection(SelectionType aSelectionType,
Selection** aSelection);
/**
* (Begin|End)PlaceholderTransaction() are called by AutoPlaceholderBatch.
* This set of methods are similar to the (Begin|End)Transaction(), but do
* not use the transaction managers batching feature. Instead we use a
* placeholder transaction to wrap up any further transaction while the
* batch is open. The advantage of this is that placeholder transactions
* can later merge, if needed. Merging is unavailable between transaction
* manager batches.
*/
void BeginPlaceholderTransaction(nsAtom* aTransactionName);
void EndPlaceholderTransaction();
/**
* InitializeSelectionAncestorLimit() is called by InitializeSelection().
* When this is called, each implementation has to call
* aSelection.SetAncestorLimiter() with aAnotherLimit.
*
* @param aSelection The selection.
* @param aAncestorLimit New ancestor limit of aSelection. This always
* has parent node. So, it's always safe to
* call SetAncestorLimit() with this node.
*/
virtual void InitializeSelectionAncestorLimit(Selection& aSelection,
nsIContent& aAncestorLimit);
public:
/**
* PostCreate should be called after Init, and is the time that the editor
* tells its documentStateObservers that the document has been created.
*/
nsresult PostCreate();
/**
* All editor operations which alter the doc should be prefaced
* with a call to StartOperation, naming the action and direction.
*/
virtual nsresult StartOperation(EditAction opID,
nsIEditor::EDirection aDirection);
/**
* All editor operations which alter the doc should be followed
* with a call to EndOperation.
*/
virtual nsresult EndOperation();
/**
* Routines for managing the preservation of selection across
* various editor actions.
*/
bool ArePreservingSelection();
void PreserveSelectionAcrossActions(Selection* aSel);
nsresult RestorePreservedSelection(Selection* aSel);
void StopPreservingSelection();
/**
* DoSplitNode() creates a new node (left node) identical to an existing
* node (right node), and split the contents between the same point in both
* nodes.
*
* @param aStartOfRightNode The point to split. Its container will be
* the right node, i.e., become the new node's
* next sibling. And the point will be start
* of the right node.
* @param aNewLeftNode The new node called as left node, so, this
* becomes the container of aPointToSplit's
* previous sibling.
* @param aError Must have not already failed.
* If succeed to insert aLeftNode before the
* right node and remove unnecessary contents
* (and collapse selection at end of the left
* node if necessary), returns no error.
* Otherwise, an error.
*/
void DoSplitNode(const EditorDOMPoint& aStartOfRightNode,
nsIContent& aNewLeftNode,
ErrorResult& aError);
/**
* DoJoinNodes() merges contents in aNodeToJoin to aNodeToKeep and remove
* aNodeToJoin from the DOM tree. aNodeToJoin and aNodeToKeep must have
* same parent, aParent. Additionally, if one of aNodeToJoin or aNodeToKeep
* is a text node, the other must be a text node.
*
* @param aNodeToKeep The node that will remain after the join.
* @param aNodeToJoin The node that will be joined with aNodeToKeep.
* There is no requirement that the two nodes be of the
* same type.
* @param aParent The parent of aNodeToKeep
*/
nsresult DoJoinNodes(nsINode* aNodeToKeep,
nsINode* aNodeToJoin,
nsINode* aParent);
/**
* Return the offset of aChild in aParent. Asserts fatally if parent or
* child is null, or parent is not child's parent.
* FYI: aChild must not be being removed from aParent. In such case, these
* methods may return wrong index if aChild doesn't have previous
* sibling or next sibling.
*/
static int32_t GetChildOffset(nsIDOMNode* aChild,
nsIDOMNode* aParent);
static int32_t GetChildOffset(nsINode* aChild,
nsINode* aParent);
/**
* Set outOffset to the offset of aChild in the parent.
* Returns the parent of aChild.
*/
static nsINode* GetNodeLocation(nsINode* aChild, int32_t* aOffset);
/**
* Get the previous node.
*/
nsIContent* GetPreviousNode(const EditorRawDOMPoint& aPoint)
{
return GetPreviousNodeInternal(aPoint, false, true, false);
}
nsIContent* GetPreviousElementOrText(const EditorRawDOMPoint& aPoint)
{
return GetPreviousNodeInternal(aPoint, false, false, false);
}
nsIContent* GetPreviousEditableNode(const EditorRawDOMPoint& aPoint)
{
return GetPreviousNodeInternal(aPoint, true, true, false);
}
nsIContent* GetPreviousNodeInBlock(const EditorRawDOMPoint& aPoint)
{
return GetPreviousNodeInternal(aPoint, false, true, true);
}
nsIContent* GetPreviousElementOrTextInBlock(const EditorRawDOMPoint& aPoint)
{
return GetPreviousNodeInternal(aPoint, false, false, true);
}
nsIContent* GetPreviousEditableNodeInBlock(
const EditorRawDOMPoint& aPoint)
{
return GetPreviousNodeInternal(aPoint, true, true, true);
}
nsIContent* GetPreviousNode(nsINode& aNode)
{
return GetPreviousNodeInternal(aNode, false, true, false);
}
nsIContent* GetPreviousElementOrText(nsINode& aNode)
{
return GetPreviousNodeInternal(aNode, false, false, false);
}
nsIContent* GetPreviousEditableNode(nsINode& aNode)
{
return GetPreviousNodeInternal(aNode, true, true, false);
}
nsIContent* GetPreviousNodeInBlock(nsINode& aNode)
{
return GetPreviousNodeInternal(aNode, false, true, true);
}
nsIContent* GetPreviousElementOrTextInBlock(nsINode& aNode)
{
return GetPreviousNodeInternal(aNode, false, false, true);
}
nsIContent* GetPreviousEditableNodeInBlock(nsINode& aNode)
{
return GetPreviousNodeInternal(aNode, true, true, true);
}
/**
* Get the next node.
*
* Note that methods taking EditorRawDOMPoint behavior includes the
* child at offset as search target. E.g., following code causes infinite
* loop.
*
* EditorRawDOMPoint point(aEditableNode);
* while (nsIContent* content = GetNextEditableNode(point)) {
* // Do something...
* point.Set(content);
* }
*
* Following code must be you expected:
*
* while (nsIContent* content = GetNextEditableNode(point)) {
* // Do something...
* DebugOnly<bool> advanced = point.Advanced();
* MOZ_ASSERT(advanced);
* point.Set(point.GetChild());
* }
*
* On the other hand, the methods taking nsINode behavior must be what
* you want. They start to search the result from next node of the given
* node.
*/
template<typename PT, typename CT>
nsIContent* GetNextNode(const EditorDOMPointBase<PT, CT>& aPoint)
{
return GetNextNodeInternal(aPoint, false, true, false);
}
template<typename PT, typename CT>
nsIContent* GetNextElementOrText(const EditorDOMPointBase<PT, CT>& aPoint)
{
return GetNextNodeInternal(aPoint, false, false, false);
}
template<typename PT, typename CT>
nsIContent* GetNextEditableNode(const EditorDOMPointBase<PT, CT>& aPoint)
{
return GetNextNodeInternal(aPoint, true, true, false);
}
template<typename PT, typename CT>
nsIContent* GetNextNodeInBlock(const EditorDOMPointBase<PT, CT>& aPoint)
{
return GetNextNodeInternal(aPoint, false, true, true);
}
template<typename PT, typename CT>
nsIContent* GetNextElementOrTextInBlock(
const EditorDOMPointBase<PT, CT>& aPoint)
{
return GetNextNodeInternal(aPoint, false, false, true);
}
template<typename PT, typename CT>
nsIContent* GetNextEditableNodeInBlock(
const EditorDOMPointBase<PT, CT>& aPoint)
{
return GetNextNodeInternal(aPoint, true, true, true);
}
nsIContent* GetNextNode(nsINode& aNode)
{
return GetNextNodeInternal(aNode, false, true, false);
}
nsIContent* GetNextElementOrText(nsINode& aNode)
{
return GetNextNodeInternal(aNode, false, false, false);
}
nsIContent* GetNextEditableNode(nsINode& aNode)
{
return GetNextNodeInternal(aNode, true, true, false);
}
nsIContent* GetNextNodeInBlock(nsINode& aNode)
{
return GetNextNodeInternal(aNode, false, true, true);
}
nsIContent* GetNextElementOrTextInBlock(nsINode& aNode)
{
return GetNextNodeInternal(aNode, false, false, true);
}
nsIContent* GetNextEditableNodeInBlock(nsINode& aNode)
{
return GetNextNodeInternal(aNode, true, true, true);
}
/**
* Get the rightmost child of aCurrentNode;
* return nullptr if aCurrentNode has no children.
*/
nsIContent* GetRightmostChild(nsINode* aCurrentNode,
bool bNoBlockCrossing = false);
/**
* Get the leftmost child of aCurrentNode;
* return nullptr if aCurrentNode has no children.
*/
nsIContent* GetLeftmostChild(nsINode *aCurrentNode,
bool bNoBlockCrossing = false);
/**
* Returns true if aNode is of the type implied by aTag.
*/
static inline bool NodeIsType(nsIDOMNode* aNode, nsAtom* aTag)
{
return GetTag(aNode) == aTag;
}
/**
* Returns true if aParent can contain a child of type aTag.
*/
bool CanContain(nsINode& aParent, nsIContent& aChild) const;
bool CanContainTag(nsINode& aParent, nsAtom& aTag) const;
bool TagCanContain(nsAtom& aParentTag, nsIContent& aChild) const;
virtual bool TagCanContainTag(nsAtom& aParentTag, nsAtom& aChildTag) const;
/**
* Returns true if aNode is our root node.
*/
bool IsRoot(nsIDOMNode* inNode);
bool IsRoot(nsINode* inNode);
bool IsEditorRoot(nsINode* aNode);
/**
* Returns true if aNode is a descendant of our root node.
*/
bool IsDescendantOfRoot(nsIDOMNode* inNode);
bool IsDescendantOfRoot(nsINode* inNode);
bool IsDescendantOfEditorRoot(nsINode* aNode);
/**
* Returns true if aNode is a container.
*/
virtual bool IsContainer(nsINode* aNode);
/**
* returns true if aNode is an editable node.
*/
bool IsEditable(nsIDOMNode* aNode);
bool IsEditable(nsINode* aNode)
{
NS_ENSURE_TRUE(aNode, false);
if (!aNode->IsContent() || IsMozEditorBogusNode(aNode) ||
!IsModifiableNode(aNode)) {
return false;
}
switch (aNode->NodeType()) {
case nsINode::ELEMENT_NODE:
// In HTML editors, if we're dealing with an element, then ask it
// whether it's editable.
return mIsHTMLEditorClass ? aNode->IsEditable() : true;
case nsINode::TEXT_NODE:
// Text nodes are considered to be editable by both typed of editors.
return true;
default:
return false;
}
}
/**
* Returns true if aNode is a usual element node (not bogus node) or
* a text node. In other words, returns true if aNode is a usual element
* node or visible data node.
*/
bool IsElementOrText(const nsINode& aNode) const
{
if (!aNode.IsContent() || IsMozEditorBogusNode(&aNode)) {
return false;
}
return aNode.NodeType() == nsINode::ELEMENT_NODE ||
aNode.NodeType() == nsINode::TEXT_NODE;
}
/**
* Returns true if selection is in an editable element and both the range
* start and the range end are editable. E.g., even if the selection range
* includes non-editable elements, returns true when one of common ancestors
* of the range start and the range end is editable. Otherwise, false.
*/
bool IsSelectionEditable();
/**
* Returns true if aNode is a MozEditorBogus node.
*/
bool IsMozEditorBogusNode(const nsINode* aNode) const
{
return aNode && aNode->IsElement() &&
aNode->AsElement()->AttrValueIs(kNameSpaceID_None,
kMOZEditorBogusNodeAttrAtom, kMOZEditorBogusNodeValue,
eCaseMatters);
}
/**
* Counts number of editable child nodes.
*/
uint32_t CountEditableChildren(nsINode* aNode);
/**
* Find the deep first and last children.
*/
nsINode* GetFirstEditableNode(nsINode* aRoot);
/**
* Returns current composition.
*/
TextComposition* GetComposition() const;
/**
* Returns true if there is composition string and not fixed.
*/
bool IsIMEComposing() const;
/**
* Returns true when inserting text should be a part of current composition.
*/
bool ShouldHandleIMEComposition() const;
/**
* Returns number of undo or redo items.
*/
size_t NumberOfUndoItems() const
{
return mTransactionManager ? mTransactionManager->NumberOfUndoItems() : 0;
}
size_t NumberOfRedoItems() const
{
return mTransactionManager ? mTransactionManager->NumberOfRedoItems() : 0;
}
/**
* Returns true if this editor can store transactions for undo/redo.
*/
bool IsUndoRedoEnabled() const
{
return !!mTransactionManager;
}
/**
* Return true if it's possible to undo/redo right now.
*/
bool CanUndo() const
{
return IsUndoRedoEnabled() && NumberOfUndoItems() > 0;
}
bool CanRedo() const
{
return IsUndoRedoEnabled() && NumberOfRedoItems() > 0;
}
/**
* Enables or disables undo/redo feature. Returns true if it succeeded,
* otherwise, e.g., we're undoing or redoing, returns false.
*/
bool EnableUndoRedo(int32_t aMaxTransactionCount = -1)
{
if (!mTransactionManager) {
mTransactionManager = new TransactionManager();
}
return mTransactionManager->EnableUndoRedo(aMaxTransactionCount);
}
bool DisableUndoRedo()
{
if (!mTransactionManager) {
return true;
}
// XXX Even we clear the transaction manager, IsUndoRedoEnabled() keep
// returning true...
return mTransactionManager->DisableUndoRedo();
}
bool ClearUndoRedo()
{
if (!mTransactionManager) {
return true;
}
return mTransactionManager->ClearUndoRedo();
}
/**
* Adds or removes transaction listener to or from the transaction manager.
* Note that TransactionManager does not check if the listener is in the
* array. So, caller of AddTransactionListener() needs to manage if it's
* already been registered to the transaction manager.
*/
bool AddTransactionListener(nsITransactionListener& aListener)
{
if (!mTransactionManager) {
return false;
}
return mTransactionManager->AddTransactionListener(aListener);
}
bool RemoveTransactionListener(nsITransactionListener& aListener)
{
if (!mTransactionManager) {
return false;
}
return mTransactionManager->RemoveTransactionListener(aListener);
}
/**
* From html rules code - migration in progress.
*/
static nsAtom* GetTag(nsIDOMNode* aNode);
virtual bool AreNodesSameType(nsIContent* aNode1, nsIContent* aNode2);
static bool IsTextNode(nsIDOMNode* aNode);
static bool IsTextNode(nsINode* aNode)
{
return aNode->NodeType() == nsINode::TEXT_NODE;
}
/**
* GetNodeAtRangeOffsetPoint() returns the node at this position in a range,
* assuming that the container is the node itself if it's a text node, or
* the node's parent otherwise.
*/
static nsIContent* GetNodeAtRangeOffsetPoint(nsINode* aContainer,
int32_t aOffset)
{
return GetNodeAtRangeOffsetPoint(RawRangeBoundary(aContainer, aOffset));
}
static nsIContent* GetNodeAtRangeOffsetPoint(const RawRangeBoundary& aPoint);
static EditorRawDOMPoint GetStartPoint(Selection* aSelection);
static EditorRawDOMPoint GetEndPoint(Selection* aSelection);
static nsresult GetEndChildNode(Selection* aSelection,
nsIContent** aEndNode);
Selection* GetSelection(SelectionType aSelectionType =
SelectionType::eNormal)
{
nsISelectionController* sc = GetSelectionController();
if (!sc) {
return nullptr;
}
Selection* selection = sc->GetSelection(ToRawSelectionType(aSelectionType));
return selection;
}
/**
* CollapseSelectionToEnd() collapses the selection to the end of the editor.
*/
nsresult CollapseSelectionToEnd(Selection* aSelection);
/**
* Helpers to add a node to the selection.
* Used by table cell selection methods.
*/
nsresult CreateRange(nsINode* aStartContainer, int32_t aStartOffset,
nsINode* aEndContainer, int32_t aEndOffset,
nsRange** aRange);
/**
* Creates a range with just the supplied node and appends that to the
* selection.
*/
nsresult AppendNodeToSelectionAsRange(nsINode* aNode);
/**
* When you are using AppendNodeToSelectionAsRange(), call this first to
* start a new selection.
*/
nsresult ClearSelection();
static bool IsPreformatted(nsINode* aNode);
/**
* SplitNodeDeepWithTransaction() splits aMostAncestorToSplit deeply.
*
* @param aMostAncestorToSplit The most ancestor node which should be
* split.
* @param aStartOfDeepestRightNode The start point of deepest right node.
* This point must be descendant of
* aMostAncestorToSplit.
* @param aSplitAtEdges Whether the caller allows this to
* create empty container element when
* split point is start or end of an
* element.
* @return SplitPoint() returns split point in
* aMostAncestorToSplit. The point must
* be good to insert something if the
* caller want to do it.
*/
template<typename PT, typename CT>
SplitNodeResult
SplitNodeDeepWithTransaction(
nsIContent& aMostAncestorToSplit,
const EditorDOMPointBase<PT, CT>& aDeepestStartOfRightNode,
SplitAtEdges aSplitAtEdges);
/**
* JoinNodesDeepWithTransaction() joins aLeftNode and aRightNode "deeply".
* First, they are joined simply, then, new right node is assumed as the
* child at length of the left node before joined and new left node is
* assumed as its previous sibling. Then, they will be joined again.
* And then, these steps are repeated.
*
* @param aLeftNode The node which will be removed form the tree.
* @param aRightNode The node which will be inserted the contents of
* aLeftNode.
* @return The point of the first child of the last right node.
*/
EditorDOMPoint JoinNodesDeepWithTransaction(nsIContent& aLeftNode,
nsIContent& aRightNode);
nsresult GetString(const nsAString& name, nsAString& value);
void BeginUpdateViewBatch();
virtual nsresult EndUpdateViewBatch();
bool GetShouldTxnSetSelection();
virtual nsresult HandleKeyPressEvent(WidgetKeyboardEvent* aKeyboardEvent);
nsresult HandleInlineSpellCheck(EditAction action,
Selection& aSelection,
nsINode* previousSelectedNode,
uint32_t previousSelectedOffset,
nsINode* aStartContainer,
uint32_t aStartOffset,
nsINode* aEndContainer,
uint32_t aEndOffset);
virtual dom::EventTarget* GetDOMEventTarget() = 0;
/**
* Fast non-refcounting editor root element accessor
*/
Element* GetRoot() const { return mRootElement; }
/**
* Likewise, but gets the editor's root instead, which is different for HTML
* editors.
*/
virtual Element* GetEditorRoot();
/**
* Likewise, but gets the text control element instead of the root for
* plaintext editors.
*/
Element* GetExposedRoot();
/**
* Accessor methods to flags.
*/
uint32_t Flags() const { return mFlags; }
nsresult AddFlags(uint32_t aFlags)
{
const uint32_t kOldFlags = Flags();
const uint32_t kNewFlags = (kOldFlags | aFlags);
if (kNewFlags == kOldFlags) {
return NS_OK;
}
return SetFlags(kNewFlags); // virtual call and may be expensive.
}
nsresult RemoveFlags(uint32_t aFlags)
{
const uint32_t kOldFlags = Flags();
const uint32_t kNewFlags = (kOldFlags & ~aFlags);
if (kNewFlags == kOldFlags) {
return NS_OK;
}
return SetFlags(kNewFlags); // virtual call and may be expensive.
}
nsresult AddAndRemoveFlags(uint32_t aAddingFlags, uint32_t aRemovingFlags)
{
MOZ_ASSERT(!(aAddingFlags & aRemovingFlags),
"Same flags are specified both adding and removing");
const uint32_t kOldFlags = Flags();
const uint32_t kNewFlags = ((kOldFlags | aAddingFlags) & ~aRemovingFlags);
if (kNewFlags == kOldFlags) {
return NS_OK;
}
return SetFlags(kNewFlags); // virtual call and may be expensive.
}
bool IsPlaintextEditor() const
{
return (mFlags & nsIPlaintextEditor::eEditorPlaintextMask) != 0;
}
bool IsSingleLineEditor() const
{
return (mFlags & nsIPlaintextEditor::eEditorSingleLineMask) != 0;
}
bool IsPasswordEditor() const
{
return (mFlags & nsIPlaintextEditor::eEditorPasswordMask) != 0;
}
// FYI: Both IsRightToLeft() and IsLeftToRight() may return false if
// the editor inherits the content node's direction.
bool IsRightToLeft() const
{
return (mFlags & nsIPlaintextEditor::eEditorRightToLeft) != 0;
}
bool IsLeftToRight() const
{
return (mFlags & nsIPlaintextEditor::eEditorLeftToRight) != 0;
}
bool IsReadonly() const
{
return (mFlags & nsIPlaintextEditor::eEditorReadonlyMask) != 0;
}
bool IsDisabled() const
{
return (mFlags & nsIPlaintextEditor::eEditorDisabledMask) != 0;
}
bool IsInputFiltered() const
{
return (mFlags & nsIPlaintextEditor::eEditorFilterInputMask) != 0;
}
bool IsMailEditor() const
{
return (mFlags & nsIPlaintextEditor::eEditorMailMask) != 0;
}
bool IsWrapHackEnabled() const
{
return (mFlags & nsIPlaintextEditor::eEditorEnableWrapHackMask) != 0;
}
bool IsFormWidget() const
{
return (mFlags & nsIPlaintextEditor::eEditorWidgetMask) != 0;
}
bool NoCSS() const
{
return (mFlags & nsIPlaintextEditor::eEditorNoCSSMask) != 0;
}
bool IsInteractionAllowed() const
{
return (mFlags & nsIPlaintextEditor::eEditorAllowInteraction) != 0;
}
bool DontEchoPassword() const
{
return (mFlags & nsIPlaintextEditor::eEditorDontEchoPassword) != 0;
}
bool ShouldSkipSpellCheck() const
{
return (mFlags & nsIPlaintextEditor::eEditorSkipSpellCheck) != 0;
}
bool IsTabbable() const
{
return IsSingleLineEditor() || IsPasswordEditor() || IsFormWidget() ||
IsInteractionAllowed();
}
bool HasIndependentSelection() const
{
return !!mSelectionController;
}
bool IsModifiable() const
{
return !IsReadonly();
}
/**
* IsInEditAction() return true while the instance is handling an edit action.
* Otherwise, false.
*/
bool IsInEditAction() const { return mIsInEditAction; }
/**
* SuppressDispatchingInputEvent() suppresses or unsuppresses dispatching
* "input" event.
*/
void SuppressDispatchingInputEvent(bool aSuppress)
{
mDispatchInputEvent = !aSuppress;
}
/**
* IsSuppressingDispatchingInputEvent() returns true if the editor stops
* dispatching input event. Otherwise, false.
*/
bool IsSuppressingDispatchingInputEvent() const
{
return !mDispatchInputEvent;
}
bool Destroyed() const
{
return mDidPreDestroy;
}
/**
* Returns true if markNodeDirty() has any effect. Returns false if
* markNodeDirty() is a no-op.
*/
bool OutputsMozDirty() const
{
// Return true for Composer (!IsInteractionAllowed()) or mail
// (IsMailEditor()), but false for webpages.
return !IsInteractionAllowed() || IsMailEditor();
}
/**
* Get the input event target. This might return null.
*/
virtual already_AddRefed<nsIContent> GetInputEventTargetContent() = 0;
/**
* Get the focused content, if we're focused. Returns null otherwise.
*/
virtual nsIContent* GetFocusedContent();
/**
* Get the focused content for the argument of some IMEStateManager's
* methods.
*/
virtual already_AddRefed<nsIContent> GetFocusedContentForIME();
/**
* Whether the editor is active on the DOM window. Note that when this
* returns true but GetFocusedContent() returns null, it means that this editor was
* focused when the DOM window was active.
*/
virtual bool IsActiveInDOMWindow();
/**
* Whether the aGUIEvent should be handled by this editor or not. When this
* returns false, The aGUIEvent shouldn't be handled on this editor,
* i.e., The aGUIEvent should be handled by another inner editor or ancestor
* elements.
*/
virtual bool IsAcceptableInputEvent(WidgetGUIEvent* aGUIEvent);
/**
* FindSelectionRoot() returns a selection root of this editor when aNode
* gets focus. aNode must be a content node or a document node. When the
* target isn't a part of this editor, returns nullptr. If this is for
* designMode, you should set the document node to aNode except that an
* element in the document has focus.
*/
virtual already_AddRefed<nsIContent> FindSelectionRoot(nsINode* aNode);
/**
* Initializes selection and caret for the editor. If aEventTarget isn't
* a host of the editor, i.e., the editor doesn't get focus, this does
* nothing.
*/
nsresult InitializeSelection(dom::EventTarget* aFocusEventTarget);
/**
* This method has to be called by EditorEventListener::Focus.
* All actions that have to be done when the editor is focused needs to be
* added here.
*/
void OnFocus(dom::EventTarget* aFocusEventTarget);
/**
* Used to insert content from a data transfer into the editable area.
* This is called for each item in the data transfer, with the index of
* each item passed as aIndex.
*/
virtual nsresult InsertFromDataTransfer(dom::DataTransfer* aDataTransfer,
int32_t aIndex,
nsIDocument* aSourceDoc,
nsINode* aDestinationNode,
int32_t aDestOffset,
bool aDoDeleteSelection) = 0;
virtual nsresult InsertFromDrop(dom::DragEvent* aDropEvent) = 0;
/**
* GetIMESelectionStartOffsetIn() returns the start offset of IME selection in
* the aTextNode. If there is no IME selection, returns -1.
*/
int32_t GetIMESelectionStartOffsetIn(nsINode* aTextNode);
/**
* FindBetterInsertionPoint() tries to look for better insertion point which
* is typically the nearest text node and offset in it.
*
* @param aPoint Insertion point which the callers found.
* @return Better insertion point if there is. If not returns
* same point as aPoint.
*/
EditorRawDOMPoint FindBetterInsertionPoint(const EditorRawDOMPoint& aPoint);
/**
* HideCaret() hides caret with nsCaret::AddForceHide() or may show carent
* with nsCaret::RemoveForceHide(). This does NOT set visibility of
* nsCaret. Therefore, this is stateless.
*/
void HideCaret(bool aHide);
/** Resyncs spellchecking state (enabled/disabled). This should be called
* when anything that affects spellchecking state changes, such as the
* spellcheck attribute value.
*/
void SyncRealTimeSpell();
private:
nsCOMPtr<nsISelectionController> mSelectionController;
nsCOMPtr<nsIDocument> mDocument;
protected:
enum Tristate
{
eTriUnset,
eTriFalse,
eTriTrue
};
// MIME type of the doc we are editing.
nsCString mContentMIMEType;
RefPtr<mozInlineSpellChecker> mInlineSpellChecker;
// Reference to text services document for mInlineSpellChecker.
RefPtr<TextServicesDocument> mTextServicesDocument;
RefPtr<TransactionManager> mTransactionManager;
// Cached root node.
RefPtr<Element> mRootElement;
// The form field as an event receiver.
nsCOMPtr<dom::EventTarget> mEventTarget;
RefPtr<EditorEventListener> mEventListener;
// Strong reference to placeholder for begin/end batch purposes.
RefPtr<PlaceholderTransaction> mPlaceholderTransaction;
// Name of placeholder transaction.
nsAtom* mPlaceholderName;
// Saved selection state for placeholder transaction batching.
mozilla::Maybe<SelectionState> mSelState;
// IME composition this is not null between compositionstart and
// compositionend.
RefPtr<TextComposition> mComposition;
RefPtr<TextEditRules> mRules;
RefPtr<TextInputListener> mTextInputListener;
RefPtr<IMEContentObserver> mIMEContentObserver;
// Listens to all low level actions on the doc.
typedef AutoTArray<OwningNonNull<nsIEditActionListener>, 5>
AutoActionListenerArray;
AutoActionListenerArray mActionListeners;
// Just notify once per high level change.
typedef AutoTArray<OwningNonNull<nsIEditorObserver>, 3>
AutoEditorObserverArray;
AutoEditorObserverArray mEditorObservers;
// Listen to overall doc state (dirty or not, just created, etc.).
typedef AutoTArray<OwningNonNull<nsIDocumentStateListener>, 1>
AutoDocumentStateListenerArray;
AutoDocumentStateListenerArray mDocStateListeners;
// Cached selection for AutoSelectionRestorer.
SelectionState mSavedSel;
// Utility class object for maintaining preserved ranges.
RangeUpdater mRangeUpdater;
// Number of modifications (for undo/redo stack).
uint32_t mModCount;
// Behavior flags. See nsIPlaintextEditor.idl for the flags we use.
uint32_t mFlags;
int32_t mUpdateCount;
// Nesting count for batching.
int32_t mPlaceholderBatch;
// The current editor action.
EditAction mAction;
// The current direction of editor action.
EDirection mDirection;
// -1 = not initialized
int8_t mDocDirtyState;
// A Tristate value.
uint8_t mSpellcheckCheckboxState;
// Turn off for conservative selection adjustment by transactions.
bool mShouldTxnSetSelection;
// Whether PreDestroy has been called.
bool mDidPreDestroy;
// Whether PostCreate has been called.
bool mDidPostCreate;
bool mDispatchInputEvent;
// True while the instance is handling an edit action.
bool mIsInEditAction;
// Whether caret is hidden forcibly.
bool mHidingCaret;
// Whether spellchecker dictionary is initialized after focused.
bool mSpellCheckerDictionaryUpdated;
// Whether we are an HTML editor class.
bool mIsHTMLEditorClass;
friend bool NSCanUnload(nsISupports* serviceMgr);
friend class AutoPlaceholderBatch;
friend class AutoRules;
friend class AutoSelectionRestorer;
friend class AutoTransactionsConserveSelection;
friend class RangeUpdater;
friend class nsIEditor;
};
} // namespace mozilla
mozilla::EditorBase*
nsIEditor::AsEditorBase()
{
return static_cast<mozilla::EditorBase*>(this);
}
const mozilla::EditorBase*
nsIEditor::AsEditorBase() const
{
return static_cast<const mozilla::EditorBase*>(this);
}
#endif // #ifndef mozilla_EditorBase_h