/* FIXME: Shouldn't be here. */ type Ecore_Evas: __undefined_type; type Ecore_X_Window: __undefined_type; type Ecore_Wl2_Window: __undefined_type; type Ecore_Cocoa_Window: __undefined_type; type Ecore_Win32_Window: __undefined_type; type Ecore_Window: __undefined_type; enum Elm.Win.Type { [[Defines the types of window that can be created These are hints set on the window so that a running Window Manager knows how the window should be handled and/or what kind of decorations it should have. Currently, only the X11 backed engines use them. ]] legacy: elm_win; unknown = -1, basic, [[A normal window. Indicates a normal, top-level window. Almost every window will be created with this type.]] dialog_basic, [[Used for simple dialog windows.]] desktop, [[For special desktop windows, like a background window holding desktop icons.]] dock, [[The window is used as a dock or panel. Usually would be kept on top of any other window by the Window Manager.]] toolbar, [[The window is used to hold a floating toolbar, or similar.]] menu, [[Similar to #ELM_WIN_TOOLBAR.]] utility, [[A persistent utility window, like a toolbox or palette.]] splash, [[Splash window for a starting up application.]] dropdown_menu, [[The window is a dropdown menu, as when an entry in a menubar is clicked. This hint exists for completion only, as the EFL way of implementing a menu would not normally use a separate window for its contents.]] popup_menu, [[Like #ELM_WIN_DROPDOWN_MENU, but for the menu triggered by right-clicking an object.]] tooltip, [[The window is a tooltip. A short piece of explanatory text that typically appear after the mouse cursor hovers over an object for a while. Typically not very commonly used in the EFL.]] notification, [[A notification window, like a warning about battery life or a new E-Mail received.]] combo, [[A window holding the contents of a combo box. Not usually used in the EFL.]] dnd, [[Used to indicate the window is a representation of an object being dragged across different windows, or even applications. Typically used with elm_win_override_set().]] inlined_image, [[The window is rendered onto an image buffer. No actual window is created for this type, instead the window and all of its contents will be rendered to an image buffer. This allows to have children window inside a parent one just like any other object would be, and do other things like applying \@ref Evas_Map effects to it. This is the only type of window that requires the parent parameter of \@ref elm_win_add to be a valid @Evas.Object.]] socket_image, [[The window is rendered onto an image buffer and can be shown other process's plug image object. No actual window is created for this type, instead the window and all of its contents will be rendered to an image buffer and can be shown other process's plug image object. ]] fake [[This window was created using a pre-existing canvas. The window widget can be deleted, but the canvas must be managed externally. @since 1.13 ]] } enum Elm.Win.Keyboard_Mode { [[The different layouts that can be requested for the virtual keyboard. When the application window is being managed by Illume, it may request any of the following layouts for the virtual keyboard. ]] legacy: elm_win_keyboard; unknown, [[Unknown keyboard state]] off, [[Request to deactivate the keyboard]] on, [[Enable keyboard with default layout]] alpha, [[Alpha (a-z) keyboard layout]] numeric, [[Numeric keyboard layout]] pin, [[PIN keyboard layout]] phone_number, [[Phone keyboard layout]] hex, [[Hexadecimal numeric keyboard layout]] terminal, [[Full (QWERTY) keyboard layout]] password, [[Password keyboard layout]] ip, [[IP keyboard layout]] host, [[Host keyboard layout]] file, [[File keyboard layout]] url, [[URL keyboard layout]] keypad, [[Keypad layout]] j2me [[J2ME keyboard layout]] } enum Elm.Win.Indicator_Mode { [[In some environments, like phones, you may have an indicator that shows battery status, reception, time etc. This is the indicator. Sometimes you don't want it because you provide the same functionality inside your app, so this will request that the indicator is hidden in this circumstance if you use ELM_ILLUME_INDICATOR_HIDE. The default is to have the indicator shown. ]] legacy: elm_win_indicator; unknown, [[Unknown indicator state]] hide, [[Hides the indicator]] show [[Shows the indicator]] } enum Elm.Win.Indicator_Opacity_Mode { [[Defines the opacity modes of indicator that can be shown]] legacy: elm_win_indicator; opacity_unknown, [[Unknown indicator opacity mode]] opaque, [[Opacifies the indicator]] translucent, [[Be translucent the indicator]] transparent [[Transparentizes the indicator]] } /** */ enum Elm.Win.Keygrab_Mode { [[Define the keygrab modes of window. A window may send commands to the Keyrouter according this mode, and perform different actions.]] legacy: elm_win_keygrab; unknown = 0, [[Unknown keygrab mode]] shared = (1 << 8), [[Getting the grabbed-key together with the other client windows]] topmost = (1 << 9), [[Getting the grabbed-key only when window is top of the stack]] exclusive = (1 << 10), [[Getting the grabbed-key exclusively regardless of window's position]] override_exclusive = (1 << 11) [[Getting the grabbed-key exclusively regardless of window's position. Being overrided the grab by the other client window]] } enum Elm.Illume_Command { [[Available commands that can be sent to the Illume manager. When running under an Illume session, a window may send commands to the Illume manager to perform different actions. ]] focus_back, [[Reverts focus to the previous window]] focus_forward, [[Sends focus to the next window in the list]] focus_home, [[Hides all windows to show the Home screen]] close [[Closes the currently active window]] } class Elm.Win (Elm.Widget, Elm.Interface_Atspi_Window, Elm.Interface_Atspi_Widget_Action, Efl.Pack) { eo_prefix: elm_obj_win; methods { @property keyboard_win { set { [[Sets whether the window is a keyboard.]] } get { [[Get whether the window is a keyboard.]] } values { is_keyboard: bool; [[If true, the window is a virtual keyboard.]] } } @property autodel { set { [[Set the window's autodel state. When closing the window in any way outside of the program control, like pressing the X button in the titlebar or using a command from the Window Manager, a "delete,request" signal is emitted to indicate that this event occurred and the developer can take any action, which may include, or not, destroying the window object. When the $autodel parameter is set, the window will be automatically destroyed when this event occurs, after the signal is emitted. If $autodel is $false, then the window will not be destroyed and is up to the program to do so when it's required. ]] } get { [[Get the window's autodel state.]] } values { autodel: bool; [[If true, the window will automatically delete itself when closed.]] } } @property autohide { [[Window's autohide state. This property works similarly to @.autodel, automatically handling "delete,request" signals when set to $trze, with the difference that it will hide the window, instead of destroying it. It is specially designed to work together with $ELM_POLICY_QUIT_LAST_WINDOW_HIDDEN which allows exiting Elementary's main loop when all the windows are hidden. Note: @.autodel and $autohide are not mutually exclusive. The window will be deleted if both are set to $true. ]] set { } get { } values { autohide: bool; [[If true, the window will automatically hide itself when closed.]] } } @property iconified { set { [[Set the iconified state of a window.]] } get { [[Get the iconified state of a window.]] } values { iconified: bool; [[If true, the window is iconified.]] } } @property wm_available_rotations { set { [[Set the array of available window rotations. This function is used to set the available rotations to give the hints to WM. WM will refer this hints and set the orientation window properly. @since 1.9 ]] legacy: elm_win_wm_rotation_available_rotations_set; values { rotations: const(int)*; [[The array of rotation value.]] count: uint; [[The size of the rotations array.]] } } get { [[Get the array of available window rotations. This function is used to get the available rotations. @since 1.9 ]] legacy: elm_win_wm_rotation_available_rotations_get; values { rotations: int*; [[The array of rotation value.]] count: uint; [[The size of the rotations array.]] } return: bool; } } @property quickpanel_zone { set { [[Set which zone this quickpanel should appear in.]] } get { [[Get which zone this quickpanel should appear in.]] } values { zone: int; [[The requested zone for this quickpanel.]] } } @property maximized { set { [[Set the maximized state of a window.]] } get { [[Get the maximized state of a window.]] } values { maximized: bool; [[If true, the window is maximized.]] } } @property modal { set { [[Set the modal state of a window.]] } get { [[Get the modal state of a window.]] } values { modal: bool; [[If true, the window is modal.]] } } @property icon_name { set { [[Set the icon name of the window.]] } get { [[Get the icon name of the window. The returned string is an internal one and should not be freed or modified. It will also be invalid if a new icon name is set or if the window is destroyed. ]] } values { icon_name: const(char)*; [[The icon name to set.]] } } @property withdrawn { set { [[Set the withdrawn state of a window.]] } get { [[Get the withdrawn state of a window.]] } values { withdrawn: bool; [[If true, the window is withdrawn.]] } } @property role { set { [[Set the role of the window.]] } get { [[Get the role of the window. The returned string is an internal one and should not be freed or modified. It will also be invalid if a new role is set or if the window is destroyed. ]] } values { role: const(char)*; [[The role to set.]] } } @property size_step { set { [[Set the window stepping used with sizing calculation. Base size + stepping is what is calculated for window sizing restrictions. @since 1.7 ]] } get { [[Get the stepping of a window. @since 1.7 ]] } values { w: int; [[The stepping width (0 disables).]] h: int; [[The stepping height (0 disables).]] } } @property focus_highlight_style { set { [[Set the style for the focus highlight on this window. Sets the style to use for theming the highlight of focused objects on the given window. If $style is NULL, the default will be used. ]] } get { [[Get the style set for the focus highlight object.]] } values { style: const(char)* @nullable; [[The style or $null if none.]] } } @property borderless { set { [[Set the borderless state of a window. This function requests the Window Manager to not draw any decoration around the window. ]] } get { [[Get the borderless state of a window.]] } values { borderless: bool; [[If true, the window is borderless.]] } } @property screen_constrain { set { [[Constrain the maximum width and height of a window to the width and height of its screen. When $constrain is $true, $obj will never resize larger than the screen. ]] } get { [[Get the constraints on the maximum width and height of a window relative to the width and height of its screen. When this function returns $true, $obj will never resize larger than the screen. ]] } values { constrain: bool; [[$true to restrict the window's maximum size.]] } } @property available_profiles { set { [[Set the array of available profiles to a window. @since 1.8 ]] values { profiles: const(char)**; [[The string array of available profiles.]] count: uint; [[The number of members in profiles.]] } } get { [[Get the array of available profiles of a window. @since 1.8 ]] values { profiles: char**; [[The string array of available profiles.]] count: uint; [[The number of members in profiles.]] } return: bool; } } @property focus_highlight_enabled { set { [[Set the enabled status for the focus highlight in a window. This function will enable or disable the focus highlight only for the given window, regardless of the global setting for it. ]] } get { [[Get the enabled value of the focus highlight for this window.]] } values { enabled: bool; [[The enabled value for the highlight.]] } } @property title { set { [[Set the title of the window.]] } get { [[Get the title of the window. The returned string is an internal one and should not be freed or modified. It will also be invalid if a new title is set or if the window is destroyed. ]] } values { title: const(char)*; [[The title.]] } } @property alpha { set { [[Set the alpha channel state of a window. If $alpha is true, the alpha channel of the canvas will be enabled possibly making parts of the window completely or partially transparent. This is also subject to the underlying system supporting it, like for example, running under a compositing manager. If no compositing is available, enabling this option will instead fallback to using shaped windows, with @.shaped.set. Note: Alpha window can be enabled automatically by window theme style's property. If "alpha" data.item is "1" or "true" in window style(eg. elm/win/base/default), the window is switched to alpha automatically without the explicit api call. ]] } get { [[Get the alpha channel state of a window.]] } values { alpha: bool; [[$true if the window alpha channel is enabled, $false otherwise.]] } } @property urgent { set { [[Set the urgent state of a window.]] } get { [[Get the urgent state of a window.]] } values { urgent: bool; [[If true, the window is urgent.]] } } @property rotation { set { [[Set the rotation of the window. Most engines only work with multiples of 90. This function is used to set the orientation of the window $obj to match that of the screen. The window itself will be resized to adjust to the new geometry of its contents. If you want to keep the window size, see @.rotation_with_resize.set. ]] } get { [[Get the rotation of the window.]] } values { rotation: int; [[The rotation of the window, in degrees (0-360), counter-clockwise.]] } } @property icon_object { set { [[Set a window object's icon. This sets an image to be used as the icon for the given window, in the window manager decoration part. The exact pixel dimensions of the object (not object size) will be used, and the image pixels will be used as-is when this function is called. If the image object has been updated, then call this function again to source the image pixels and put them on the window's icon. Note that only Evas image objects are allowed. ]] /* FIXME-doc Example of usage: @code icon = evas_object_image_add(evas_object_evas_get(elm_window)); evas_object_image_file_set(icon, "/path/to/the/icon", NULL); elm_win_icon_object_set(elm_window, icon); evas_object_show(icon); @endcode */ values { icon: Evas.Object* @nullable; [[The Evas image object to use for an icon.]] } } get { [[Get the icon object used for the window. The object returns is the one marked by @.icon_object.set as the object to use for the window icon. ]] values { icon: const(Evas.Object)* @nullable; [[The Evas image object to use for an icon.]] } } } @property quickpanel_priority_minor { set { [[Set the minor priority of a quickpanel window.]] } get { [[Get the minor priority of a quickpanel window.]] } values { priority: int(-1); [[The minor priority for this quickpanel.]] } } @property sticky { set { [[Set the sticky state of the window. Hints the Window Manager that the window in $obj should be left fixed at its position even when the virtual desktop it's on moves or changes. ]] } get { [[Get the sticky state of the window.]] } values { sticky: bool; [[If true, the window's sticky state is enabled.]] } } @property keyboard_mode { set { [[Sets the keyboard mode of the window.]] } get { [[Get the keyboard mode of the window.]] } values { mode: Elm.Win.Keyboard_Mode; [[The mode, one of #Elm_Win_Keyboard_Mode.]] } } @property focus_highlight_animate { set { [[Set the animate status for the focus highlight for this window. This function will enable or disable the animation of focus highlight only for the given window, regardless of the global setting for it. ]] } get { [[Get the animate value of the focus highlight for this window.]] } values { animate: bool; [[The enabled value for the highlight animation.]] } } @property aspect { set { [[Set the aspect ratio of a window.]] } get { [[Get the aspect ratio of a window.]] } values { aspect: double; [[If 0, the window has no aspect limits, otherwise it is width divided by height.]] } } @property quickpanel_priority_major { set { [[Set the major priority of a quickpanel window.]] } get { [[Get the major priority of a quickpanel window.]] } values { priority: int(-1); [[The major priority for this quickpanel or -1.]] } } @property indicator_opacity { set { [[Sets the indicator opacity mode of the window.]] } get { [[Get the indicator opacity mode of the window.]] } values { mode: Elm.Win.Indicator_Opacity_Mode; [[The mode, one of #Elm_Win_Indicator_Opacity_Mode.]] } } @property demand_attention { set { [[Set the demand_attention state of a window.]] } get { [[Get the demand_attention state of a window.]] } values { demand_attention: bool; [[If true, the window is demand_attention.]] } } @property wm_preferred_rotation { set { [[Set the preferred rotation value. This function is used to set the orientation of window $obj to spicific angle fixed. @since 1.9 ]] legacy: null; } get { [[Get the preferred rotation value. This function is used to get the preferred rotoation value. @since 1.9 ]] legacy: elm_win_wm_rotation_preferred_rotation_get; } values { rotation: int; [[The preferred rotation of the window in degrees (0-360), counter-clockwise.]] } } @property layer { set { [[Set the layer of the window. What this means exactly will depend on the underlying engine used. In the case of X11 backed engines, the value in $layer has the following meanings - less than 3 means that the window will be placed below all others, more than 5 means that the window will be placed above all others, and anything else means that the window will be placed in the default layer. ]] } get { [[Get the layer of the window.]] } values { layer: int; [[The layer of the window.]] } } @property profile { set { [[Set the profile of a window. @since 1.8 ]] } get { [[Get the profile of a window. @since 1.8 ]] } values { profile: const(char)*; [[The string value of a window profile.]] } } @property shaped { set { [[Set the shaped state of a window. Shaped windows, when supported, will render the parts of the window that has no content, transparent. If $shaped is false, then it is strongly advised to have some background object or cover the entire window in any other way, or the parts of the canvas that have no data will show framebuffer artifacts. ]] } get { [[Get the shaped state of a window.]] } values { shaped: bool; [[If $true, the window is shaped.]] } } @property fullscreen { set { [[Set the fullscreen state of a window.]] } get { [[Get the fullscreen state of a window.]] } values { fullscreen: bool; [[If $true, the window is fullscreen.]] } } @property wm_manual_rotation_done { set { [[Set the manual rotation done mode. This function is used to set or reset the manual rotation done mode. the message of rotation done is sent to WM after rendering its canvas in Ecore_Evas. but if set the manual rotation done mode, it's disabled and user should call this explicitly to sends the message. @since 1.9 ]] legacy: elm_win_wm_rotation_manual_rotation_done_set; } get { [[Get the state of manual rotation done mode. This function is used to get the state of manual rotation done mode. @since 1.9 ]] legacy: elm_win_wm_rotation_manual_rotation_done_get; } values { set: bool; [[$true to set manual rotation done mode, $false otherwise.]] } } @property indicator_mode { set { [[Sets the indicator mode of the window.]] } get { [[Get the indicator mode of the window.]] } values { mode: Elm.Win.Indicator_Mode; [[The mode, one of #Elm_Win_Indicator_Mode.]] } } @property conformant { set { [[Set if this window is an illume conformant window.]] } get { [[Get if this window is an illume conformant window.]] } values { conformant: bool; [[The conformant flag.]] } } @property size_base { set { [[Set the base window size used with stepping calculation Base size + stepping is what is calculated for window sizing restrictions. @since 1.7 ]] } get { [[Get the base size of a window. @since 1.7 ]] } values { w: int; [[The base width.]] h: int; [[The base height.]] } } @property quickpanel { set { [[Set a window to be an illume quickpanel window. By default window objects are not quickpanel windows. ]] } get { [[Get if this window is a quickpanel or not.]] } values { quickpanel: bool; [[The quickpanel flag.]] } } @property rotation_with_resize { set { [[Rotates the window and resizes it. Like @.rotation.set, but it also resizes the window's contents so that they fit inside the current window geometry. ]] } values { rotation: int; [[The rotation of the window in degrees (0-360), counter-clockwise.]] } } @property prop_focus_skip { set { [[Set the window to be skipped by keyboard focus. This sets the window to be skipped by normal keyboard input. This means a window manager will be asked to not focus this window as well as omit it from things like the taskbar, pager, "alt-tab" list etc. etc. Call this and enable it on a window BEFORE you show it for the first time, otherwise it may have no effect. Use this for windows that have only output information or might only be interacted with by the mouse or fingers, and never for typing input. Be careful that this may have side-effects like making the window non-accessible in some cases unless the window is specially handled. Use this with care. ]] } values { skip: bool; [[The skip flag state ($true if it is to be skipped).]] } } @property screen_position { get { [[Get the screen position of a window.]] } values { x: int; [[The int to store the x coordinate to.]] y: int; [[The int to store the y coordinate to.]] } } @property wm_rotation_supported { get { [[Query whether window manager supports window rotation or not. The window manager rotation allows the WM to controls the rotation of application windows. It is designed to support synchronized rotation for the multiple application windows at same time. See also @.wm_preferred_rotation, @.wm_available_rotations, @.wm_manual_rotation_done. @since 1.9 ]] return: bool; } } @property focus { get { [[Get whether a window has focus.]] return: bool; } } @property screen_size { get { [[Get screen geometry details for the screen that a window is on.]] } values { x: int; [[Where to return the horizontal offset value. May be $null.]] y: int; [[Where to return the vertical offset value. May be $null.]] w: int; [[Where to return the width value. May be $null.]] h: int; [[Where to return the height value. May be $null.]] } } @property main_menu { get { [[Get the Main Menu of a window.]] return: Evas.Object *; [[The Main Menu of the window ($null on error).]] } } @property window_id { get { [[Get the Ecore_Window of an Evas_Object When Elementary is using a Wayland engine, this function will return the surface id of the elm window's surface. @since 1.8 ]] return: Ecore_Window; [[The Ecore_Window of an Evas_Object.]] legacy: null; } } @property screen_dpi { get { [[Get screen dpi for the screen that a window is on. @since 1.7 ]] } values { xdpi: int; [[Pointer to value to store return horizontal dpi. May be $null.]] ydpi: int; [[Pointer to value to store return vertical dpi. May be $null.]] } } @property inlined_image_object { get { [[Get the inlined image object handle When you create a window with elm_win_add() of type #ELM_WIN_INLINED_IMAGE, then the window is in fact an evas image object inlined in the parent canvas. You can get this object (be careful to not manipulate it as it is under control of elementary), and use it to do things like get pixel data, save the image to a file, etc. ]] return: Evas.Object *; [[The inlined image object or $null if none exists.]] } } @property name { [[The window name. The meaning of name depends on the underlying windowing system. The window name is a constructing property that need to be set at creation within \@ref eo_add. Note: Once set, it can NOT be modified afterward. ]] /* FIXME-doc Example: @code win = eo_add(ELM_WIN_CLASS, NULL, elm_obj_win_name_set(ELM_WIN_BASIC)); @endcode */ set { [[Can only be used at creation time, within \@ref eo_add.]] } values { name: const(char)* @nullable; } } @property type { [[The type of the window. It is a hint of how the Window Manager should handle it. The window type is a constructing property that need to be set at creation within \@ref eo_add. Note: Once set, it can NOT be modified afterward. ]] /* FIXME-doc Example: @code win = eo_add(ELM_WIN_CLASS, NULL, elm_obj_win_type_set(ELM_WIN_BASIC)); @endcode */ set { [[Can only be used at creation time, within \@ref eo_add.]] } get { [[If the object is not window object, return #ELM_WIN_UNKNOWN.]] } values { type: Elm.Win.Type(Elm.Win.Type.unknown); } } @property noblank { set { [[Set the noblank property of a window. The "noblank" property is a way to request the display on which the windowis shown does not blank, screensave or otherwise hide or obscure the window. It is intended for uses such as media playback on a television where a user may not want to be interrupted by an idle screen. The noblank property may have no effect if the window is iconified/minimized or hidden. @since 1.11 ]] } get { [[Get the noblank property of a window. @since 1.11 ]] } values { noblank: bool; [[If true, the window is set to noblank.]] } } @property fake_canvas @protected { set { [[Internal. Used to completent the fake window type.]] } values { oee: Ecore_Evas *; } } wm_manual_rotation_done_manual { [[To notify the rotation done to WM manually. This function is used to notify the rotation done to WM manually. @since 1.9 ]] legacy: elm_win_wm_rotation_manual_rotation_done; } socket_listen { [[Create a socket to provide the service for Plug widget.]] return: bool; params { @in svcname: const(char)*; [[The name of the service to be advertised. Eensure that it is unique (when combined with $svcnum) otherwise creation may fail.]] @in svcnum: int; [[A number (any value, 0 being the common default) to differentiate multiple instances of services with the same name.]] @in svcsys: bool; [[A boolean that if true, specifies to create a system-wide service all users can connect to, otherwise the service is private to the user id that created the service.]] } } illume_command_send { [[Send a command to the windowing environment This is intended to work in touchscreen or small screen device environments where there is a more simplistic window management policy in place. This uses the window object indicated to select which part of the environment to control (the part that this window lives in), and provides a command and an optional parameter structure (use NULL for this if not needed). ]] params { @in command: Elm.Illume_Command; [[The command to send.]] @in params: void * @optional; [[Optional parameters for the command.]] } } activate { [[Activate a window object. This function sends a request to the Window Manager to activate the window pointed by $obj. If honored by the WM, the window will receive the keyboard focus. Note: This is just a request that a Window Manager may ignore, so calling this function does not ensure in any way that the window will be the active one after it. ]] } raise { [[Raise a window object. Places the window pointed by $obj at the top of the stack, so that it's not covered by any other window. ]] } center { [[Center a window on its screen This function centers window $obj horizontally and/or vertically based on the values of $h and $v. ]] params { @in h: bool; [[If true, center horizontally. If false, do not change horizontal location.]] @in v: bool; [[If true, center vertically. If false, do not change vertical location.]] } } keygrab_set { [[Set keygrab value of the window This function grabs the $key of window using $grab_mode. ]] return: bool; params { @in key: const(char)*; [[This string is the keyname to grab.]] @in modifiers: Evas.Modifier_Mask; [[This is for the keymask feature. Currently this feature is not supported.]] @in not_modifiers: Evas.Modifier_Mask; [[This is for the keymask feature. Currently this feature is not supported.]] @in proirity: int; [[This is for the priority of keygrab. Currently this feature is not supported.]] @in grab_mode: Elm.Win.Keygrab_Mode; [[According to the grabmode, it can grab key differently.]] } } keygrab_unset { [[Unset keygrab value of the window This function unset keygrab value. Ungrab $key of window. ]] return: bool; params { @in key: const(char)*; [[This string is the keyname to grab.]] @in modifiers: Evas.Modifier_Mask; [[This is for the keymask feature. Currently this feature is not supported.]] @in not_modifiers: Evas.Modifier_Mask; [[This is for the keymask feature. Currently this feature is not supported.]] } } } implements { class.constructor; Eo.Base.constructor; Eo.Base.finalize; Evas.Object_Smart.hide; Evas.Object_Smart.show; Evas.Object_Smart.move; Evas.Object_Smart.add; Evas.Object_Smart.del; Evas.Object_Smart.resize; Elm.Widget.focus_direction; Elm.Widget.focus_next_manager_is; Elm.Widget.focus_direction_manager_is; Elm.Widget.focus_next; Elm.Widget.theme_apply; Elm.Widget.on_focus; Elm.Widget.event; Elm.Interface_Atspi_Accessible.parent.get; Elm.Interface_Atspi_Accessible.state_set.get; Elm.Interface_Atspi_Accessible.name.get; Elm.Interface_Atspi_Widget_Action.elm_actions.get; Efl.Container.content_remove; Efl.Container.content_iterate; Efl.Container.content_count; Efl.Pack.unpack; Efl.Pack.pack; } constructors { .name; .type; } events { delete,request; moved; withdrawn; iconified; normal; stick; unstick; fullscreen; unfullscreen; maximized; unmaximized; ioerr; indicator,prop,changed; rotation,changed; profile,changed; wm,rotation,changed; theme,changed; elm,action,block_menu; } }