/* -*- 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 nsXBLPrototypeHandler_h__ #define nsXBLPrototypeHandler_h__ #include "nsIAtom.h" #include "nsString.h" #include "nsCOMPtr.h" #include "nsIController.h" #include "nsAutoPtr.h" #include "nsXBLEventHandler.h" #include "nsIWeakReference.h" #include "nsCycleCollectionParticipant.h" #include "js/TypeDecls.h" class nsIDOMEvent; class nsIContent; class nsIDOMUIEvent; class nsIDOMKeyEvent; class nsIDOMMouseEvent; class nsIObjectInputStream; class nsIObjectOutputStream; class nsXBLPrototypeBinding; namespace mozilla { namespace dom { class AutoJSAPI; class EventTarget; } } #define NS_HANDLER_TYPE_XBL_JS (1 << 0) #define NS_HANDLER_TYPE_XBL_COMMAND (1 << 1) #define NS_HANDLER_TYPE_XUL (1 << 2) #define NS_HANDLER_HAS_ALLOW_UNTRUSTED_ATTR (1 << 4) #define NS_HANDLER_ALLOW_UNTRUSTED (1 << 5) #define NS_HANDLER_TYPE_SYSTEM (1 << 6) #define NS_HANDLER_TYPE_PREVENTDEFAULT (1 << 7) // XXX Use nsIDOMEvent:: codes? #define NS_PHASE_CAPTURING 1 #define NS_PHASE_TARGET 2 #define NS_PHASE_BUBBLING 3 class nsXBLPrototypeHandler { public: // This constructor is used by XBL handlers (both the JS and command shorthand variety) nsXBLPrototypeHandler(const char16_t* aEvent, const char16_t* aPhase, const char16_t* aAction, const char16_t* aCommand, const char16_t* aKeyCode, const char16_t* aCharCode, const char16_t* aModifiers, const char16_t* aButton, const char16_t* aClickCount, const char16_t* aGroup, const char16_t* aPreventDefault, const char16_t* aAllowUntrusted, nsXBLPrototypeBinding* aBinding, uint32_t aLineNumber); // This constructor is used only by XUL key handlers (e.g., ) explicit nsXBLPrototypeHandler(nsIContent* aKeyElement); // This constructor is used for handlers loaded from the cache explicit nsXBLPrototypeHandler(nsXBLPrototypeBinding* aBinding); ~nsXBLPrototypeHandler(); // if aCharCode is not zero, it is used instead of the charCode of aKeyEvent. bool KeyEventMatched(nsIDOMKeyEvent* aKeyEvent, uint32_t aCharCode = 0, bool aIgnoreShiftKey = false); inline bool KeyEventMatched(nsIAtom* aEventType, nsIDOMKeyEvent* aEvent, uint32_t aCharCode = 0, bool aIgnoreShiftKey = false) { if (aEventType != mEventName) return false; return KeyEventMatched(aEvent, aCharCode, aIgnoreShiftKey); } bool MouseEventMatched(nsIDOMMouseEvent* aMouseEvent); inline bool MouseEventMatched(nsIAtom* aEventType, nsIDOMMouseEvent* aEvent) { if (aEventType != mEventName) return false; return MouseEventMatched(aEvent); } already_AddRefed GetHandlerElement(); void AppendHandlerText(const nsAString& aText); uint8_t GetPhase() { return mPhase; } uint8_t GetType() { return mType; } nsXBLPrototypeHandler* GetNextHandler() { return mNextHandler; } void SetNextHandler(nsXBLPrototypeHandler* aHandler) { mNextHandler = aHandler; } nsresult ExecuteHandler(mozilla::dom::EventTarget* aTarget, nsIDOMEvent* aEvent); already_AddRefed GetEventName(); void SetEventName(nsIAtom* aName) { mEventName = aName; } nsXBLEventHandler* GetEventHandler() { if (!mHandler) { NS_NewXBLEventHandler(this, mEventName, getter_AddRefs(mHandler)); // XXX Need to signal out of memory? } return mHandler; } nsXBLEventHandler* GetCachedEventHandler() { return mHandler; } bool HasAllowUntrustedAttr() { return (mType & NS_HANDLER_HAS_ALLOW_UNTRUSTED_ATTR) != 0; } // This returns a valid value only if HasAllowUntrustedEventsAttr returns // true. bool AllowUntrustedEvents() { return (mType & NS_HANDLER_ALLOW_UNTRUSTED) != 0; } nsresult Read(nsIObjectInputStream* aStream); nsresult Write(nsIObjectOutputStream* aStream); public: static uint32_t gRefCnt; protected: void Init() { ++gRefCnt; if (gRefCnt == 1) // Get the primary accelerator key. InitAccessKeys(); } already_AddRefed GetController(mozilla::dom::EventTarget* aTarget); inline int32_t GetMatchingKeyCode(const nsAString& aKeyName); void ConstructPrototype(nsIContent* aKeyElement, const char16_t* aEvent=nullptr, const char16_t* aPhase=nullptr, const char16_t* aAction=nullptr, const char16_t* aCommand=nullptr, const char16_t* aKeyCode=nullptr, const char16_t* aCharCode=nullptr, const char16_t* aModifiers=nullptr, const char16_t* aButton=nullptr, const char16_t* aClickCount=nullptr, const char16_t* aGroup=nullptr, const char16_t* aPreventDefault=nullptr, const char16_t* aAllowUntrusted=nullptr); void ReportKeyConflict(const char16_t* aKey, const char16_t* aModifiers, nsIContent* aElement, const char *aMessageName); void GetEventType(nsAString& type); bool ModifiersMatchMask(nsIDOMUIEvent* aEvent, bool aIgnoreShiftKey = false); nsresult DispatchXBLCommand(mozilla::dom::EventTarget* aTarget, nsIDOMEvent* aEvent); nsresult DispatchXULKeyCommand(nsIDOMEvent* aEvent); nsresult EnsureEventHandler(mozilla::dom::AutoJSAPI& jsapi, nsIAtom* aName, JS::MutableHandle aHandler); static int32_t KeyToMask(int32_t key); static int32_t AccelKeyMask(); static int32_t kMenuAccessKey; static void InitAccessKeys(); static const int32_t cShift; static const int32_t cAlt; static const int32_t cControl; static const int32_t cMeta; static const int32_t cOS; static const int32_t cShiftMask; static const int32_t cAltMask; static const int32_t cControlMask; static const int32_t cMetaMask; static const int32_t cOSMask; static const int32_t cAllModifiers; protected: union { nsIWeakReference* mHandlerElement; // For XUL element handlers. [STRONG] char16_t* mHandlerText; // For XBL handlers (we don't build an // element for the , and instead // we cache the JS text or command name // that we should use. }; uint32_t mLineNumber; // The line number we started at in the XBL file // The following four values make up 32 bits. uint8_t mPhase; // The phase (capturing, bubbling) uint8_t mType; // The type of the handler. The handler is either a XUL key // handler, an XBL "command" event, or a normal XBL event with // accompanying JavaScript. The high bit is used to indicate // whether this handler should prevent the default action. uint8_t mMisc; // Miscellaneous extra information. For key events, // stores whether or not we're a key code or char code. // For mouse events, stores the clickCount. int32_t mKeyMask; // Which modifier keys this event handler expects to have down // in order to be matched. // The primary filter information for mouse/key events. int32_t mDetail; // For key events, contains a charcode or keycode. For // mouse events, stores the button info. // Prototype handlers are chained. We own the next handler in the chain. nsXBLPrototypeHandler* mNextHandler; nsCOMPtr mEventName; // The type of the event, e.g., "keypress" nsRefPtr mHandler; nsXBLPrototypeBinding* mPrototypeBinding; // the binding owns us }; #endif