// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef UI_VIEWS_CONTROLS_MENU_MENU_RUNNER_H_ #define UI_VIEWS_CONTROLS_MENU_MENU_RUNNER_H_ #include #include #include "base/callback.h" #include "base/compiler_specific.h" #include "base/macros.h" #include "ui/base/ui_base_types.h" #include "ui/views/controls/menu/menu_types.h" #include "ui/views/views_export.h" namespace base { class TimeTicks; } namespace gfx { class Rect; } namespace ui { class MenuModel; } namespace views { class MenuButton; class MenuItemView; class MenuRunnerHandler; class Widget; namespace internal { class DisplayChangeListener; class MenuRunnerImplInterface; } namespace test { class MenuRunnerTestAPI; } // MenuRunner is responsible for showing (running) the menu and additionally // owning the MenuItemView. RunMenuAt() runs a nested message loop. It is safe // to delete MenuRunner at any point, but MenuRunner internally only deletes the // MenuItemView *after* the nested message loop completes. If MenuRunner is // deleted while the menu is showing the delegate of the menu is reset. This is // done to ensure delegates aren't notified after they may have been deleted. // // NOTE: while you can delete a MenuRunner at any point, the nested message loop // won't return immediately. This means if you delete the object that owns // the MenuRunner while the menu is running, your object is effectively still // on the stack. A return value of MENU_DELETED indicated this. In most cases // if RunMenuAt() returns MENU_DELETED, you should return immediately. // // Similarly you should avoid creating MenuRunner on the stack. Doing so means // MenuRunner may not be immediately destroyed if your object is destroyed, // resulting in possible callbacks to your now deleted object. Instead you // should define MenuRunner as a scoped_ptr in your class so that when your // object is destroyed MenuRunner initiates the proper cleanup and ensures your // object isn't accessed again. class VIEWS_EXPORT MenuRunner { public: enum RunTypes { // The menu has mnemonics. HAS_MNEMONICS = 1 << 0, // The menu is a nested context menu. For example, click a folder on the // bookmark bar, then right click an entry to get its context menu. IS_NESTED = 1 << 1, // Used for showing a menu during a drop operation. This does NOT block the // caller, instead the delegate is notified when the menu closes via the // DropMenuClosed method. FOR_DROP = 1 << 2, // The menu is a context menu (not necessarily nested), for example right // click on a link on a website in the browser. CONTEXT_MENU = 1 << 3, // The menu should behave like a Windows native Combobox dropdow menu. // This behavior includes accepting the pending item and closing on F4. COMBOBOX = 1 << 4, // A child view is performing a drag-and-drop operation, so the menu should // stay open (even if it doesn't receive drag updated events). In this case, // the caller is responsible for closing the menu upon completion of the // drag-and-drop. NESTED_DRAG = 1 << 5, // Used for showing a menu which does NOT block the caller. Instead the // delegate is notified when the menu closes via OnMenuClosed. ASYNC = 1 << 6, }; enum RunResult { // Indicates RunMenuAt is returning because the MenuRunner was deleted. MENU_DELETED, // Indicates RunMenuAt returned and MenuRunner was not deleted. NORMAL_EXIT }; // Creates a new MenuRunner, which may use a native menu if available. // |run_types| is a bitmask of RunTypes. If provided, // |on_menu_closed_callback| is invoked when the menu is closed. MenuRunner(ui::MenuModel* menu_model, int32_t run_types, const base::Closure& on_menu_closed_callback = base::Closure()); // Creates a runner for a custom-created toolkit-views menu. MenuRunner(MenuItemView* menu, int32_t run_types); ~MenuRunner(); // Runs the menu. If this returns MENU_DELETED the method is returning // because the MenuRunner was deleted. // Typically callers should NOT do any processing if this returns // MENU_DELETED. // If |anchor| uses a |BUBBLE_..| type, the bounds will get determined by // using |bounds| as the thing to point at in screen coordinates. RunResult RunMenuAt(Widget* parent, MenuButton* button, const gfx::Rect& bounds, MenuAnchorPosition anchor, ui::MenuSourceType source_type); // Returns true if we're in a nested message loop running the menu. bool IsRunning() const; // Hides and cancels the menu. This does nothing if the menu is not open. void Cancel(); // Returns the time from the event which closed the menu - or 0. base::TimeTicks closing_event_time() const; private: friend class test::MenuRunnerTestAPI; // Sets an implementation of RunMenuAt. This is intended to be used at test. void SetRunnerHandler(std::unique_ptr runner_handler); const int32_t run_types_; // We own this. No scoped_ptr because it is destroyed by calling Release(). internal::MenuRunnerImplInterface* impl_; // An implementation of RunMenuAt. This is usually NULL and ignored. If this // is not NULL, this implementation will be used. std::unique_ptr runner_handler_; std::unique_ptr display_change_listener_; DISALLOW_COPY_AND_ASSIGN(MenuRunner); }; namespace internal { // DisplayChangeListener is intended to listen for changes in the display size // and cancel the menu. DisplayChangeListener is created when the menu is // shown. class DisplayChangeListener { public: virtual ~DisplayChangeListener() {} // Creates the platform specified DisplayChangeListener, or NULL if there // isn't one. Caller owns the returned value. static DisplayChangeListener* Create(Widget* parent, MenuRunner* runner); protected: DisplayChangeListener() {} }; } // namespace internal } // namespace views #endif // UI_VIEWS_CONTROLS_MENU_MENU_RUNNER_H_