enum Efl.Ui.Flip.Mode { [[]] legacy: efl_ui_flip; rotate_y_center_axis, rotate_x_center_axis, rotate_xz_center_axis, rotate_yz_center_axis, cube_left, cube_right, cube_up, cube_down, page_left, page_right, page_up, page_down } enum Efl.Ui.Flip.Interaction { [[]] none, rotate, cube, page } class Efl.Ui.Flip (Elm.Widget, Efl.Pack.Linear, Efl.Part) { legacy_prefix: elm_flip; methods { @property interaction { set { [[Set the interactive flip mode. This sets if the flip should be interactive (allow user to click and drag a side of the flip to reveal the back page and cause it to flip). By default a flip is not interactive. You may also need to set which sides of the flip are "active" for flipping and how much space they use (a minimum of a finger size) with \@ref @.interaction_direction_enabled_set and @.interaction_direction_hitsize_set. The four available mode of interaction are #ELM_FLIP_INTERACTION_NONE, #ELM_FLIP_INTERACTION_ROTATE, #ELM_FLIP_INTERACTION_CUBE and #ELM_FLIP_INTERACTION_PAGE. Note: #ELM_FLIP_INTERACTION_ROTATE won't cause #ELM_FLIP_ROTATE_XZ_CENTER_AXIS or #ELM_FLIP_ROTATE_YZ_CENTER_AXIS to happen, those can only be achieved with @.go. ]] } get { [[Get the interactive flip mode.]] } values { mode: Efl.Ui.Flip.Interaction; [[The interactive flip mode to use.]] } } @property front_visible { get { [[Get flip front visibility state.]] return: bool; [[$true if front front is showing, $false if the back is showing.]] } } interaction_direction_hitsize_set { [[Set the amount of the flip that is sensitive to interactive flip. Set the amount of the flip that is sensitive to interactive flip, with 0 representing no area in the flip and 1 representing the entire flip. There is however a consideration to be made in that the area will never be smaller than the finger size set (as set in your Elementary configuration), and dragging must always start from the opposite half of the flip (eg. right half of the flip when dragging to the left). Note: The $dir parameter is not actually related to the direction of the drag, it only refers to the area in the flip where interaction can occur (top, bottom, left, right). Negative values of $hitsize will disable this hit area. See also @.interaction.set. ]] legacy: null; params { @in dir: Efl.Orient; [[The hit area to set.]] @in hitsize: double; [[The amount of that dimension (0.0 to 1.0) to use.]] } } interaction_direction_hitsize_get { [[Get the amount of the flip that is sensitive to interactive flip.]] return: double; [[The size set for that direction.]] legacy: null; params { @in dir: Efl.Orient; [[The direction to check.]] } } interaction_direction_enabled_set { [[Set which directions of the flip respond to interactive flip By default all directions are disabled, so you may want to enable the desired directions for flipping if you need interactive flipping. You must call this function once for each direction that should be enabled. You can also set the appropriate hit area size by calling @.interaction_direction_hitsize_set. By default, a minimum hit area will be created on the opposite edge of the flip. ]] legacy: null; params { @in dir: Efl.Orient; [[The direction to change.]] @in enabled: bool; [[If that direction is enabled or not.]] } } interaction_direction_enabled_get { [[Get the enabled state of that flip direction.]] return: bool; [[If that direction is enabled or not.]] legacy: null; params { @in dir: Efl.Orient; [[The direction to check.]] } } go { [[Runs the flip animation. Flips the front and back contents using the $mode animation. This effectively hides the currently visible content and shows the hidden one. There a number of possible animations to use for the flipping, these being #ELM_FLIP_ROTATE_X_CENTER_AXIS (rotate the currently visible content around a horizontal axis in the middle of its height, the other content is shown as the other side of the flip), #ELM_FLIP_ROTATE_Y_CENTER_AXIS (rotate the currently visible content around a vertical axis in the middle of its width, the other content is shown as the other side of the flip), #ELM_FLIP_ROTATE_XZ_CENTER_AXIS (rotate the currently visible content around a diagonal axis in the middle of its width, the other content is shown as the other side of the flip), #ELM_FLIP_ROTATE_YZ_CENTER_AXIS (rotate the currently visible content around a diagonal axis in the middle of its height, the other content is hown as the other side of the flip). #ELM_FLIP_CUBE_LEFT (rotate the currently visible content to the left as if the flip was a cube, the other content is show as the right face of the cube), #ELM_FLIP_CUBE_RIGHT (rotate the currently visible content to the right as if the flip was a cube, the other content is show as the left face of the cube), #ELM_FLIP_CUBE_UP (rotate the currently visible content up as if the flip was a cube, the other content is show as the bottom face of the cube), #ELM_FLIP_CUBE_DOWN (rotate the currently visible content down as if the flip was a cube, the other content is show as the upper face of the cube), #ELM_FLIP_PAGE_LEFT (move the currently visible content to the left as if the flip was a book, the other content is shown as the page below that), #ELM_FLIP_PAGE_RIGHT (move the currently visible content to the right s if the flip was a book, the other content is shown as the page below that), #ELM_FLIP_PAGE_UP (move the currently visible content up as if the flip was a book, the other content is shown as the page below that) and #ELM_FLIP_PAGE_DOWN (move the currently visible content down as if the flip was a book, the other content is shown as the page below that). ]] /* FIXME-doc * @image html elm_flip.png * @image latex elm_flip.eps width=\textwidth */ params { @in mode: Efl.Ui.Flip.Mode; [[The mode type.]] } } go_to { [[Runs the flip animation to front or back. Flips the front and back contents using the $mode animation. This effectively hides the currently visible content and shows he hidden one. There a number of possible animations to use for the flipping, these being #ELM_FLIP_ROTATE_X_CENTER_AXIS (rotate the currently visible content around a horizontal axis in the middle of its height, the other content is shown as the other side of the flip), #ELM_FLIP_ROTATE_Y_CENTER_AXIS (rotate the currently visible content around a vertical axis in the middle of its width, the other content is shown as the other side of the flip), #ELM_FLIP_ROTATE_XZ_CENTER_AXIS (rotate the currently visible content around a diagonal axis in the middle of its width, the other content is shown as the other side of the flip), #ELM_FLIP_ROTATE_YZ_CENTER_AXIS (rotate the currently visible content around a diagonal axis in the middle of its height, the other content is hown as the other side of the flip). #ELM_FLIP_CUBE_LEFT (rotate the currently visible content to the left as if the flip was a cube, the other content is show as the right face of the cube), #ELM_FLIP_CUBE_RIGHT (rotate the currently visible content to the right as if the flip was a cube, the other content is show as the left face of the cube), #ELM_FLIP_CUBE_UP (rotate the currently visible content up as if the flip was a cube, the other content is show as the bottom face of the cube), #ELM_FLIP_CUBE_DOWN (rotate the currently visible content down as if the flip was a cube, the other content is show as the upper face of the cube), #ELM_FLIP_PAGE_LEFT (move the currently visible content to the left as if the flip was a book, the other content is shown as the page below that), #ELM_FLIP_PAGE_RIGHT (move the currently visible content to the right s if the flip was a book, the other content is shown as the page below that), #ELM_FLIP_PAGE_UP (move the currently visible content up as if the flip was a book, the other content is shown as the page below that) and #ELM_FLIP_PAGE_DOWN (move the currently visible content down as if the flip was a book, the other content is shown as the page below that). ]] /* FIXME-doc * @image html elm_flip.png * @image latex elm_flip.eps width=\textwidth */ params { @in front: bool; [[If $true, makes front visible, otherwise makes back.]] @in mode: Efl.Ui.Flip.Mode; [[The mode type.]] } } } implements { class.constructor; Eo.Base.constructor; Evas.Object.Smart.add; Evas.Object.Smart.del; Elm.Widget.focus_direction; Elm.Widget.sub_object_add; Elm.Widget.theme_apply; Elm.Widget.focus_direction_manager_is; Elm.Widget.focus_next_manager_is; Elm.Widget.focus_next; Elm.Widget.sub_object_del; Efl.Container.content_iterate; Efl.Container.content_count; Efl.Container.content_remove; Efl.Part.part; Efl.Pack.unpack; Efl.Pack.pack; Efl.Pack.Linear.pack_begin; Efl.Pack.Linear.pack_end; Efl.Pack.Linear.pack_before; Efl.Pack.Linear.pack_after; Efl.Pack.Linear.pack_at; Efl.Pack.Linear.pack_content_get; Efl.Pack.Linear.pack_unpack_at; Efl.Pack.Linear.pack_index_get; } events { animate,begin; animate,done; } }