/* ATK - Accessibility Toolkit * Copyright 2001 Sun Microsystems Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include "config.h" #include "atkcomponent.h" /** * SECTION:atkcomponent * @Short_description: The ATK interface provided by UI components * which occupy a physical area on the screen. * which the user can activate/interact with. * @Title:AtkComponent * * #AtkComponent should be implemented by most if not all UI elements * with an actual on-screen presence, i.e. components which can be * said to have a screen-coordinate bounding box. Virtually all * widgets will need to have #AtkComponent implementations provided * for their corresponding #AtkObject class. In short, only UI * elements which are *not* GUI elements will omit this ATK interface. * * A possible exception might be textual information with a * transparent background, in which case text glyph bounding box * information is provided by #AtkText. */ enum { BOUNDS_CHANGED, LAST_SIGNAL }; static void atk_component_base_init (AtkComponentIface *class); static gboolean atk_component_real_contains (AtkComponent *component, gint x, gint y, AtkCoordType coord_type); static AtkObject* atk_component_real_ref_accessible_at_point (AtkComponent *component, gint x, gint y, AtkCoordType coord_type); static void atk_component_real_get_position (AtkComponent *component, gint *x, gint *y, AtkCoordType coord_type); static void atk_component_real_get_size (AtkComponent *component, gint *width, gint *height); static guint atk_component_signals[LAST_SIGNAL] = { 0 }; GType atk_component_get_type (void) { static GType type = 0; if (!type) { static const GTypeInfo tinfo = { sizeof (AtkComponentIface), (GBaseInitFunc) atk_component_base_init, (GBaseFinalizeFunc) NULL, }; type = g_type_register_static (G_TYPE_INTERFACE, "AtkComponent", &tinfo, 0); } return type; } static void atk_component_base_init (AtkComponentIface *class) { static gboolean initialized = FALSE; if (! initialized) { class->ref_accessible_at_point = atk_component_real_ref_accessible_at_point; class->contains = atk_component_real_contains; class->get_position = atk_component_real_get_position; class->get_size = atk_component_real_get_size; /** * AtkComponent::bounds-changed: * @atkcomponent: the object which received the signal. * @arg1: The AtkRectangle giving the new position and size. * * The 'bounds-changed" signal is emitted when the bposition or * size of the component changes. */ atk_component_signals[BOUNDS_CHANGED] = g_signal_new ("bounds_changed", ATK_TYPE_COMPONENT, G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (AtkComponentIface, bounds_changed), (GSignalAccumulator) NULL, NULL, g_cclosure_marshal_VOID__BOXED, G_TYPE_NONE, 1, ATK_TYPE_RECTANGLE | G_SIGNAL_TYPE_STATIC_SCOPE); initialized = TRUE; } } /** * atk_component_add_focus_handler: (skip) * @component: The #AtkComponent to attach the @handler to * @handler: The #AtkFocusHandler to be attached to @component * * Add the specified handler to the set of functions to be called * when this object receives focus events (in or out). If the handler is * already added it is not added again * * Deprecated: 2.9.4: If you need to track when an object gains or * lose the focus, use the #AtkObject::state-change "focused" notification instead. * * Returns: a handler id which can be used in atk_component_remove_focus_handler() * or zero if the handler was already added. **/ guint atk_component_add_focus_handler (AtkComponent *component, AtkFocusHandler handler) { AtkComponentIface *iface = NULL; g_return_val_if_fail (ATK_IS_COMPONENT (component), 0); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->add_focus_handler) return (iface->add_focus_handler) (component, handler); else return 0; } /** * atk_component_remove_focus_handler: * @component: the #AtkComponent to remove the focus handler from * @handler_id: the handler id of the focus handler to be removed * from @component * * Remove the handler specified by @handler_id from the list of * functions to be executed when this object receives focus events * (in or out). * * Deprecated: 2.9.4: If you need to track when an object gains or * lose the focus, use the #AtkObject::state-change "focused" notification instead. * **/ void atk_component_remove_focus_handler (AtkComponent *component, guint handler_id) { AtkComponentIface *iface = NULL; g_return_if_fail (ATK_IS_COMPONENT (component)); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->remove_focus_handler) (iface->remove_focus_handler) (component, handler_id); } /** * atk_component_contains: * @component: the #AtkComponent * @x: x coordinate * @y: y coordinate * @coord_type: specifies whether the coordinates are relative to the screen * or to the components top level window * * Checks whether the specified point is within the extent of the @component. * * Toolkit implementor note: ATK provides a default implementation for * this virtual method. In general there are little reason to * re-implement it. * * Returns: %TRUE or %FALSE indicating whether the specified point is within * the extent of the @component or not **/ gboolean atk_component_contains (AtkComponent *component, gint x, gint y, AtkCoordType coord_type) { AtkComponentIface *iface = NULL; g_return_val_if_fail (ATK_IS_COMPONENT (component), FALSE); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->contains) return (iface->contains) (component, x, y, coord_type); else return FALSE; } /** * atk_component_ref_accessible_at_point: * @component: the #AtkComponent * @x: x coordinate * @y: y coordinate * @coord_type: specifies whether the coordinates are relative to the screen * or to the components top level window * * Gets a reference to the accessible child, if one exists, at the * coordinate point specified by @x and @y. * * Returns: (nullable) (transfer full): a reference to the accessible * child, if one exists **/ AtkObject* atk_component_ref_accessible_at_point (AtkComponent *component, gint x, gint y, AtkCoordType coord_type) { AtkComponentIface *iface = NULL; g_return_val_if_fail (ATK_IS_COMPONENT (component), NULL); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->ref_accessible_at_point) return (iface->ref_accessible_at_point) (component, x, y, coord_type); else return NULL; } /** * atk_component_get_extents: * @component: an #AtkComponent * @x: (out) (optional): address of #gint to put x coordinate * @y: (out) (optional): address of #gint to put y coordinate * @width: (out) (optional): address of #gint to put width * @height: (out) (optional): address of #gint to put height * @coord_type: specifies whether the coordinates are relative to the screen * or to the components top level window * * Gets the rectangle which gives the extent of the @component. * **/ void atk_component_get_extents (AtkComponent *component, gint *x, gint *y, gint *width, gint *height, AtkCoordType coord_type) { AtkComponentIface *iface = NULL; gint local_x, local_y, local_width, local_height; gint *real_x, *real_y, *real_width, *real_height; g_return_if_fail (ATK_IS_COMPONENT (component)); if (x) real_x = x; else real_x = &local_x; if (y) real_y = y; else real_y = &local_y; if (width) real_width = width; else real_width = &local_width; if (height) real_height = height; else real_height = &local_height; iface = ATK_COMPONENT_GET_IFACE (component); if (iface->get_extents) (iface->get_extents) (component, real_x, real_y, real_width, real_height, coord_type); } /** * atk_component_get_position: * @component: an #AtkComponent * @x: (out) (optional): address of #gint to put x coordinate position * @y: (out) (optional): address of #gint to put y coordinate position * @coord_type: specifies whether the coordinates are relative to the screen * or to the components top level window * * Gets the position of @component in the form of * a point specifying @component's top-left corner. * * Deprecated: Since 2.12. Use atk_component_get_extents() instead. **/ void atk_component_get_position (AtkComponent *component, gint *x, gint *y, AtkCoordType coord_type) { AtkComponentIface *iface = NULL; gint local_x, local_y; gint *real_x, *real_y; g_return_if_fail (ATK_IS_COMPONENT (component)); if (x) real_x = x; else real_x = &local_x; if (y) real_y = y; else real_y = &local_y; iface = ATK_COMPONENT_GET_IFACE (component); if (iface->get_position) (iface->get_position) (component, real_x, real_y, coord_type); } /** * atk_component_get_size: * @component: an #AtkComponent * @width: (out) (optional): address of #gint to put width of @component * @height: (out) (optional): address of #gint to put height of @component * * Gets the size of the @component in terms of width and height. * * Deprecated: Since 2.12. Use atk_component_get_extents() instead. **/ void atk_component_get_size (AtkComponent *component, gint *width, gint *height) { AtkComponentIface *iface = NULL; gint local_width, local_height; gint *real_width, *real_height; g_return_if_fail (ATK_IS_COMPONENT (component)); if (width) real_width = width; else real_width = &local_width; if (height) real_height = height; else real_height = &local_height; g_return_if_fail (ATK_IS_COMPONENT (component)); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->get_size) (iface->get_size) (component, real_width, real_height); } /** * atk_component_get_layer: * @component: an #AtkComponent * * Gets the layer of the component. * * Returns: an #AtkLayer which is the layer of the component **/ AtkLayer atk_component_get_layer (AtkComponent *component) { AtkComponentIface *iface; g_return_val_if_fail (ATK_IS_COMPONENT (component), ATK_LAYER_INVALID); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->get_layer) return (iface->get_layer) (component); else return ATK_LAYER_WIDGET; } /** * atk_component_get_mdi_zorder: * @component: an #AtkComponent * * Gets the zorder of the component. The value G_MININT will be returned * if the layer of the component is not ATK_LAYER_MDI or ATK_LAYER_WINDOW. * * Returns: a gint which is the zorder of the component, i.e. the depth at * which the component is shown in relation to other components in the same * container. **/ gint atk_component_get_mdi_zorder (AtkComponent *component) { AtkComponentIface *iface; g_return_val_if_fail (ATK_IS_COMPONENT (component), G_MININT); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->get_mdi_zorder) return (iface->get_mdi_zorder) (component); else return G_MININT; } /** * atk_component_get_alpha: * @component: an #AtkComponent * * Returns the alpha value (i.e. the opacity) for this * @component, on a scale from 0 (fully transparent) to 1.0 * (fully opaque). * * Returns: An alpha value from 0 to 1.0, inclusive. * Since: 1.12 **/ gdouble atk_component_get_alpha (AtkComponent *component) { AtkComponentIface *iface; g_return_val_if_fail (ATK_IS_COMPONENT (component), G_MININT); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->get_alpha) return (iface->get_alpha) (component); else return (gdouble) 1.0; } /** * atk_component_grab_focus: * @component: an #AtkComponent * * Grabs focus for this @component. * * Returns: %TRUE if successful, %FALSE otherwise. **/ gboolean atk_component_grab_focus (AtkComponent *component) { AtkComponentIface *iface = NULL; g_return_val_if_fail (ATK_IS_COMPONENT (component), FALSE); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->grab_focus) return (iface->grab_focus) (component); else return FALSE; } /** * atk_component_set_extents: * @component: an #AtkComponent * @x: x coordinate * @y: y coordinate * @width: width to set for @component * @height: height to set for @component * @coord_type: specifies whether the coordinates are relative to the screen * or to the components top level window * * Sets the extents of @component. * * Returns: %TRUE or %FALSE whether the extents were set or not **/ gboolean atk_component_set_extents (AtkComponent *component, gint x, gint y, gint width, gint height, AtkCoordType coord_type) { AtkComponentIface *iface = NULL; g_return_val_if_fail (ATK_IS_COMPONENT (component), FALSE); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->set_extents) return (iface->set_extents) (component, x, y, width, height, coord_type); else return FALSE; } /** * atk_component_set_position: * @component: an #AtkComponent * @x: x coordinate * @y: y coordinate * @coord_type: specifies whether the coordinates are relative to the screen * or to the components top level window * * Sets the postition of @component. * * Returns: %TRUE or %FALSE whether or not the position was set or not **/ gboolean atk_component_set_position (AtkComponent *component, gint x, gint y, AtkCoordType coord_type) { AtkComponentIface *iface = NULL; g_return_val_if_fail (ATK_IS_COMPONENT (component), FALSE); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->set_position) return (iface->set_position) (component, x, y, coord_type); else return FALSE; } /** * atk_component_set_size: * @component: an #AtkComponent * @width: width to set for @component * @height: height to set for @component * * Set the size of the @component in terms of width and height. * * Returns: %TRUE or %FALSE whether the size was set or not **/ gboolean atk_component_set_size (AtkComponent *component, gint x, gint y) { AtkComponentIface *iface = NULL; g_return_val_if_fail (ATK_IS_COMPONENT (component), FALSE); iface = ATK_COMPONENT_GET_IFACE (component); if (iface->set_size) return (iface->set_size) (component, x, y); else return FALSE; } static gboolean atk_component_real_contains (AtkComponent *component, gint x, gint y, AtkCoordType coord_type) { gint real_x, real_y, width, height; real_x = real_y = width = height = 0; atk_component_get_extents (component, &real_x, &real_y, &width, &height, coord_type); if ((x >= real_x) && (x < real_x + width) && (y >= real_y) && (y < real_y + height)) return TRUE; else return FALSE; } static AtkObject* atk_component_real_ref_accessible_at_point (AtkComponent *component, gint x, gint y, AtkCoordType coord_type) { gint count, i; count = atk_object_get_n_accessible_children (ATK_OBJECT (component)); for (i = 0; i < count; i++) { AtkObject *obj; obj = atk_object_ref_accessible_child (ATK_OBJECT (component), i); if (obj != NULL) { if (atk_component_contains (ATK_COMPONENT (obj), x, y, coord_type)) { return obj; } else { g_object_unref (obj); } } } return NULL; } static void atk_component_real_get_position (AtkComponent *component, gint *x, gint *y, AtkCoordType coord_type) { gint width, height; atk_component_get_extents (component, x, y, &width, &height, coord_type); } static void atk_component_real_get_size (AtkComponent *component, gint *width, gint *height) { gint x, y; AtkCoordType coord_type; /* * Pick one coordinate type; it does not matter for size */ coord_type = ATK_XY_WINDOW; atk_component_get_extents (component, &x, &y, width, height, coord_type); } static AtkRectangle * atk_rectangle_copy (const AtkRectangle *rectangle) { AtkRectangle *result = g_new (AtkRectangle, 1); *result = *rectangle; return result; } GType atk_rectangle_get_type (void) { static GType our_type = 0; if (our_type == 0) our_type = g_boxed_type_register_static ("AtkRectangle", (GBoxedCopyFunc)atk_rectangle_copy, (GBoxedFreeFunc)g_free); return our_type; }