/* -*- 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 _AccEvent_H_ #define _AccEvent_H_ #include "nsIAccessibleEvent.h" #include "mozilla/a11y/Accessible.h" namespace mozilla { namespace dom { class Selection; } namespace a11y { class DocAccessible; // Constants used to point whether the event is from user input. enum EIsFromUserInput { // eNoUserInput: event is not from user input eNoUserInput = 0, // eFromUserInput: event is from user input eFromUserInput = 1, // eAutoDetect: the value should be obtained from event state manager eAutoDetect = -1 }; /** * Generic accessible event. */ class AccEvent { public: // Rule for accessible events. // The rule will be applied when flushing pending events. enum EEventRule { // eAllowDupes : More than one event of the same type is allowed. // This event will always be emitted. This flag is used for events that // don't support coalescence. eAllowDupes, // eCoalesceReorder : For reorder events from the same subtree or the same // node, only the umbrella event on the ancestor will be emitted. eCoalesceReorder, // eCoalesceMutationTextChange : coalesce text change events caused by // tree mutations of the same tree level. eCoalesceMutationTextChange, // eCoalesceOfSameType : For events of the same type, only the newest event // will be processed. eCoalesceOfSameType, // eCoalesceSelectionChange: coalescence of selection change events. eCoalesceSelectionChange, // eCoalesceStateChange: coalesce state change events. eCoalesceStateChange, // eCoalesceTextSelChange: coalescence of text selection change events. eCoalesceTextSelChange, // eRemoveDupes : For repeat events, only the newest event in queue // will be emitted. eRemoveDupes, // eDoNotEmit : This event is confirmed as a duplicate, do not emit it. eDoNotEmit }; // Initialize with an accessible. AccEvent(uint32_t aEventType, Accessible* aAccessible, EIsFromUserInput aIsFromUserInput = eAutoDetect, EEventRule aEventRule = eRemoveDupes); // AccEvent uint32_t GetEventType() const { return mEventType; } EEventRule GetEventRule() const { return mEventRule; } bool IsFromUserInput() const { return mIsFromUserInput; } EIsFromUserInput FromUserInput() const { return static_cast(mIsFromUserInput); } Accessible* GetAccessible() const { return mAccessible; } DocAccessible* GetDocAccessible() const { return mAccessible->Document(); } /** * Down casting. */ enum EventGroup { eGenericEvent, eStateChangeEvent, eTextChangeEvent, eMutationEvent, eReorderEvent, eHideEvent, eShowEvent, eCaretMoveEvent, eTextSelChangeEvent, eSelectionChangeEvent, eTableChangeEvent, eVirtualCursorChangeEvent, eObjectAttrChangedEvent }; static const EventGroup kEventGroup = eGenericEvent; virtual unsigned int GetEventGroups() const { return 1U << eGenericEvent; } /** * Reference counting and cycle collection. */ NS_INLINE_DECL_CYCLE_COLLECTING_NATIVE_REFCOUNTING(AccEvent) NS_DECL_CYCLE_COLLECTION_NATIVE_CLASS(AccEvent) protected: virtual ~AccEvent() {} bool mIsFromUserInput; uint32_t mEventType; EEventRule mEventRule; RefPtr mAccessible; friend class EventQueue; friend class AccReorderEvent; }; /** * Accessible state change event. */ class AccStateChangeEvent: public AccEvent { public: AccStateChangeEvent(Accessible* aAccessible, uint64_t aState, bool aIsEnabled, EIsFromUserInput aIsFromUserInput = eAutoDetect) : AccEvent(nsIAccessibleEvent::EVENT_STATE_CHANGE, aAccessible, aIsFromUserInput, eCoalesceStateChange), mState(aState), mIsEnabled(aIsEnabled) { } AccStateChangeEvent(Accessible* aAccessible, uint64_t aState) : AccEvent(::nsIAccessibleEvent::EVENT_STATE_CHANGE, aAccessible, eAutoDetect, eCoalesceStateChange), mState(aState) { mIsEnabled = (mAccessible->State() & mState) != 0; } // AccEvent static const EventGroup kEventGroup = eStateChangeEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eStateChangeEvent); } // AccStateChangeEvent uint64_t GetState() const { return mState; } bool IsStateEnabled() const { return mIsEnabled; } private: uint64_t mState; bool mIsEnabled; friend class EventQueue; }; /** * Accessible text change event. */ class AccTextChangeEvent: public AccEvent { public: AccTextChangeEvent(Accessible* aAccessible, int32_t aStart, const nsAString& aModifiedText, bool aIsInserted, EIsFromUserInput aIsFromUserInput = eAutoDetect); // AccEvent static const EventGroup kEventGroup = eTextChangeEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eTextChangeEvent); } // AccTextChangeEvent int32_t GetStartOffset() const { return mStart; } uint32_t GetLength() const { return mModifiedText.Length(); } bool IsTextInserted() const { return mIsInserted; } void GetModifiedText(nsAString& aModifiedText) { aModifiedText = mModifiedText; } const nsString& ModifiedText() const { return mModifiedText; } private: int32_t mStart; bool mIsInserted; nsString mModifiedText; friend class EventQueue; friend class AccReorderEvent; }; /** * Base class for show and hide accessible events. */ class AccMutationEvent: public AccEvent { public: AccMutationEvent(uint32_t aEventType, Accessible* aTarget) : AccEvent(aEventType, aTarget, eAutoDetect, eCoalesceMutationTextChange) { // Don't coalesce these since they are coalesced by reorder event. Coalesce // contained text change events. mParent = mAccessible->Parent(); } virtual ~AccMutationEvent() { } // Event static const EventGroup kEventGroup = eMutationEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eMutationEvent); } // MutationEvent bool IsShow() const { return mEventType == nsIAccessibleEvent::EVENT_SHOW; } bool IsHide() const { return mEventType == nsIAccessibleEvent::EVENT_HIDE; } Accessible* Parent() const { return mParent; } protected: nsCOMPtr mNode; RefPtr mParent; RefPtr mTextChangeEvent; friend class EventQueue; }; /** * Accessible hide event. */ class AccHideEvent: public AccMutationEvent { public: explicit AccHideEvent(Accessible* aTarget, bool aNeedsShutdown = true); // Event static const EventGroup kEventGroup = eHideEvent; virtual unsigned int GetEventGroups() const override { return AccMutationEvent::GetEventGroups() | (1U << eHideEvent); } // AccHideEvent Accessible* TargetParent() const { return mParent; } Accessible* TargetNextSibling() const { return mNextSibling; } Accessible* TargetPrevSibling() const { return mPrevSibling; } bool NeedsShutdown() const { return mNeedsShutdown; } protected: bool mNeedsShutdown; RefPtr mNextSibling; RefPtr mPrevSibling; friend class EventQueue; }; /** * Accessible show event. */ class AccShowEvent: public AccMutationEvent { public: explicit AccShowEvent(Accessible* aTarget); // Event static const EventGroup kEventGroup = eShowEvent; virtual unsigned int GetEventGroups() const override { return AccMutationEvent::GetEventGroups() | (1U << eShowEvent); } }; /** * Class for reorder accessible event. Takes care about */ class AccReorderEvent : public AccEvent { public: explicit AccReorderEvent(Accessible* aTarget) : AccEvent(::nsIAccessibleEvent::EVENT_REORDER, aTarget, eAutoDetect, eCoalesceReorder) { } virtual ~AccReorderEvent() { } // Event static const EventGroup kEventGroup = eReorderEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eReorderEvent); } /** * Get connected with mutation event. */ void AddSubMutationEvent(AccMutationEvent* aEvent) { mDependentEvents.AppendElement(aEvent); } /** * Do not emit the reorder event and its connected mutation events. */ void DoNotEmitAll() { mEventRule = AccEvent::eDoNotEmit; uint32_t eventsCount = mDependentEvents.Length(); for (uint32_t idx = 0; idx < eventsCount; idx++) mDependentEvents[idx]->mEventRule = AccEvent::eDoNotEmit; } /** * Return true if the given accessible is a target of connected mutation * event. */ uint32_t IsShowHideEventTarget(const Accessible* aTarget) const; protected: /** * Show and hide events causing this reorder event. */ nsTArray mDependentEvents; friend class EventQueue; }; /** * Accessible caret move event. */ class AccCaretMoveEvent: public AccEvent { public: AccCaretMoveEvent(Accessible* aAccessible, int32_t aCaretOffset, EIsFromUserInput aIsFromUserInput = eAutoDetect) : AccEvent(::nsIAccessibleEvent::EVENT_TEXT_CARET_MOVED, aAccessible, aIsFromUserInput), mCaretOffset(aCaretOffset) { } virtual ~AccCaretMoveEvent() { } // AccEvent static const EventGroup kEventGroup = eCaretMoveEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eCaretMoveEvent); } // AccCaretMoveEvent int32_t GetCaretOffset() const { return mCaretOffset; } private: int32_t mCaretOffset; }; /** * Accessible text selection change event. */ class AccTextSelChangeEvent : public AccEvent { public: AccTextSelChangeEvent(HyperTextAccessible* aTarget, dom::Selection* aSelection, int32_t aReason); virtual ~AccTextSelChangeEvent(); // AccEvent static const EventGroup kEventGroup = eTextSelChangeEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eTextSelChangeEvent); } // AccTextSelChangeEvent /** * Return true if the text selection change wasn't caused by pure caret move. */ bool IsCaretMoveOnly() const; private: RefPtr mSel; int32_t mReason; friend class EventQueue; friend class SelectionManager; }; /** * Accessible widget selection change event. */ class AccSelChangeEvent : public AccEvent { public: enum SelChangeType { eSelectionAdd, eSelectionRemove }; AccSelChangeEvent(Accessible* aWidget, Accessible* aItem, SelChangeType aSelChangeType); virtual ~AccSelChangeEvent() { } // AccEvent static const EventGroup kEventGroup = eSelectionChangeEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eSelectionChangeEvent); } // AccSelChangeEvent Accessible* Widget() const { return mWidget; } private: RefPtr mWidget; RefPtr mItem; SelChangeType mSelChangeType; uint32_t mPreceedingCount; AccSelChangeEvent* mPackedEvent; friend class EventQueue; }; /** * Accessible table change event. */ class AccTableChangeEvent : public AccEvent { public: AccTableChangeEvent(Accessible* aAccessible, uint32_t aEventType, int32_t aRowOrColIndex, int32_t aNumRowsOrCols); // AccEvent static const EventGroup kEventGroup = eTableChangeEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eTableChangeEvent); } // AccTableChangeEvent uint32_t GetIndex() const { return mRowOrColIndex; } uint32_t GetCount() const { return mNumRowsOrCols; } private: uint32_t mRowOrColIndex; // the start row/column after which the rows are inserted/deleted. uint32_t mNumRowsOrCols; // the number of inserted/deleted rows/columns }; /** * Accessible virtual cursor change event. */ class AccVCChangeEvent : public AccEvent { public: AccVCChangeEvent(Accessible* aAccessible, Accessible* aOldAccessible, int32_t aOldStart, int32_t aOldEnd, int16_t aReason, EIsFromUserInput aIsFromUserInput = eFromUserInput); virtual ~AccVCChangeEvent() { } // AccEvent static const EventGroup kEventGroup = eVirtualCursorChangeEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eVirtualCursorChangeEvent); } // AccTableChangeEvent Accessible* OldAccessible() const { return mOldAccessible; } int32_t OldStartOffset() const { return mOldStart; } int32_t OldEndOffset() const { return mOldEnd; } int32_t Reason() const { return mReason; } private: RefPtr mOldAccessible; int32_t mOldStart; int32_t mOldEnd; int16_t mReason; }; /** * Accessible object attribute changed event. */ class AccObjectAttrChangedEvent: public AccEvent { public: AccObjectAttrChangedEvent(Accessible* aAccessible, nsIAtom* aAttribute) : AccEvent(::nsIAccessibleEvent::EVENT_OBJECT_ATTRIBUTE_CHANGED, aAccessible), mAttribute(aAttribute) { } // AccEvent static const EventGroup kEventGroup = eObjectAttrChangedEvent; virtual unsigned int GetEventGroups() const override { return AccEvent::GetEventGroups() | (1U << eObjectAttrChangedEvent); } // AccObjectAttrChangedEvent nsIAtom* GetAttribute() const { return mAttribute; } private: nsCOMPtr mAttribute; virtual ~AccObjectAttrChangedEvent() { } }; /** * Downcast the generic accessible event object to derived type. */ class downcast_accEvent { public: explicit downcast_accEvent(AccEvent* e) : mRawPtr(e) { } template operator Destination*() { if (!mRawPtr) return nullptr; return mRawPtr->GetEventGroups() & (1U << Destination::kEventGroup) ? static_cast(mRawPtr) : nullptr; } private: AccEvent* mRawPtr; }; /** * Return a new xpcom accessible event for the given internal one. */ already_AddRefed MakeXPCEvent(AccEvent* aEvent); } // namespace a11y } // namespace mozilla #endif