/* * Clutter. * * An OpenGL based 'interactive canvas' library. * * Authored By Matthew Allum * * Copyright (C) 2006, 2007, 2008 OpenedHand Ltd * Copyright (C) 2009, 2010, 2011, 2012 Intel Corp * * 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, see . */ /** * SECTION:clutter-actor * @short_description: The basic element of the scene graph * * The ClutterActor class is the basic element of the scene graph in Clutter, * and it encapsulates the position, size, and transformations of a node in * the graph. * * ## Actor transformations ## {#clutter-actor-transformations} * * Each actor can be transformed using methods like clutter_actor_set_scale() * or clutter_actor_set_rotation(). The order in which the transformations are * applied is decided by Clutter and it is the following: * * 1. translation by the origin of the #ClutterActor:allocation property * 2. translation by the actor's #ClutterActor:z-position property * 3. translation by the actor's #ClutterActor:pivot-point property * 4. scaling by the #ClutterActor:scale-x and #ClutterActor:scale-y factors * 5. rotation around the #ClutterActor:rotation-angle-x and #ClutterActor:rotation-center-x * 6. rotation around the #ClutterActor:rotation-angle-y and #ClutterActor:rotation-center-y * 7. rotation around the #ClutterActor:rotation-angle-z and #ClutterActor:rotation-center-z * 8. negative translation by the #ClutterActor:anchor-x and #ClutterActor:anchor-y point. * 9. negative translation by the actor's #ClutterActor:pivot-point * * ## Modifying an actor's geometry ## {#clutter-actor-geometry} * * Each actor has a bounding box, called #ClutterActor:allocation * which is either set by its parent or explicitly through the * clutter_actor_set_position() and clutter_actor_set_size() methods. * Each actor also has an implicit preferred size. * * An actor’s preferred size can be defined by any subclass by * overriding the #ClutterActorClass.get_preferred_width() and the * #ClutterActorClass.get_preferred_height() virtual functions, or it can * be explicitly set by using clutter_actor_set_width() and * clutter_actor_set_height(). * * An actor’s position can be set explicitly by using * clutter_actor_set_x() and clutter_actor_set_y(); the coordinates are * relative to the origin of the actor’s parent. * * ## Managing actor children ## {#clutter-actor-children} * * Each actor can have multiple children, by calling * clutter_actor_add_child() to add a new child actor, and * clutter_actor_remove_child() to remove an existing child. #ClutterActor * will hold a reference on each child actor, which will be released when * the child is removed from its parent, or destroyed using * clutter_actor_destroy(). * * |[ * ClutterActor *actor = clutter_actor_new (); * * // set the bounding box of the actor * clutter_actor_set_position (actor, 0, 0); * clutter_actor_set_size (actor, 480, 640); * * // set the background color of the actor * clutter_actor_set_background_color (actor, CLUTTER_COLOR_Orange); * * // set the bounding box of the child, relative to the parent * ClutterActor *child = clutter_actor_new (); * clutter_actor_set_position (child, 20, 20); * clutter_actor_set_size (child, 80, 240); * * // set the background color of the child * clutter_actor_set_background_color (child, CLUTTER_COLOR_Blue); * * // add the child to the actor * clutter_actor_add_child (actor, child); * ]| * * Children can be inserted at a given index, or above and below * another child actor. The order of insertion determines the order of the * children when iterating over them. Iterating over children is performed * by using clutter_actor_get_first_child(), clutter_actor_get_previous_sibling(), * clutter_actor_get_next_sibling(), and clutter_actor_get_last_child(). It is * also possible to retrieve a list of children by using * clutter_actor_get_children(), as well as retrieving a specific child at a * given index by using clutter_actor_get_child_at_index(). * * If you need to track additions of children to a #ClutterActor, use * the #ClutterContainer::actor-added signal; similarly, to track removals * of children from a ClutterActor, use the #ClutterContainer::actor-removed * signal. * * See [basic-actor.c](https://git.gnome.org/browse/clutter/tree/examples/basic-actor.c?h=clutter-1.18). * * ## Painting an actor ## {#clutter-actor-painting} * * There are three ways to paint an actor: * * - set a delegate #ClutterContent as the value for the #ClutterActor:content property of the actor * - subclass #ClutterActor and override the #ClutterActorClass.paint_node() virtual function * - subclass #ClutterActor and override the #ClutterActorClass.paint() virtual function. * * A #ClutterContent is a delegate object that takes over the painting * operations of one, or more actors. The #ClutterContent painting will * be performed on top of the #ClutterActor:background-color of the actor, * and before calling the actor's own implementation of the * #ClutterActorClass.paint_node() virtual function. * * |[ * ClutterActor *actor = clutter_actor_new (); * * // set the bounding box * clutter_actor_set_position (actor, 50, 50); * clutter_actor_set_size (actor, 100, 100); * * // set the content; the image_content variable is set elsewhere * clutter_actor_set_content (actor, image_content); * ]| * * The #ClutterActorClass.paint_node() virtual function is invoked whenever * an actor needs to be painted. The implementation of the virtual function * must only paint the contents of the actor itself, and not the contents of * its children, if the actor has any. * * The #ClutterPaintNode passed to the virtual function is the local root of * the render tree; any node added to it will be rendered at the correct * position, as defined by the actor's #ClutterActor:allocation. * * |[ * static void * my_actor_paint_node (ClutterActor *actor, * ClutterPaintNode *root) * { * ClutterPaintNode *node; * ClutterActorBox box; * * // where the content of the actor should be painted * clutter_actor_get_allocation_box (actor, &box); * * // the cogl_texture variable is set elsewhere * node = clutter_texture_node_new (cogl_texture, CLUTTER_COLOR_White, * CLUTTER_SCALING_FILTER_TRILINEAR, * CLUTTER_SCALING_FILTER_LINEAR); * * // paint the content of the node using the allocation * clutter_paint_node_add_rectangle (node, &box); * * // add the node, and transfer ownership * clutter_paint_node_add_child (root, node); * clutter_paint_node_unref (node); * } * * The #ClutterActorClass.paint() virtual function is invoked when the * #ClutterActor::paint signal is emitted, and after the other signal * handlers have been invoked. Overriding the paint virtual function * gives total control to the paint sequence of the actor itself, * including the children of the actor, if any. * * It is strongly discouraged to override the #ClutterActorClass.paint() * virtual function, as well as connecting to the #ClutterActor::paint * signal. These hooks into the paint sequence are considered legacy, and * will be removed when the Clutter API changes. * * ## Handling events on an actor ## {#clutter-actor-event-handling} * * A #ClutterActor can receive and handle input device events, for * instance pointer events and key events, as long as its * #ClutterActor:reactive property is set to %TRUE. * * Once an actor has been determined to be the source of an event, * Clutter will traverse the scene graph from the top-level actor towards the * event source, emitting the #ClutterActor::captured-event signal on each * ancestor until it reaches the source; this phase is also called * the "capture" phase. If the event propagation was not stopped, the graph * is walked backwards, from the source actor to the top-level, and the * #ClutterActor::event signal is emitted, alongside eventual event-specific * signals like #ClutterActor::button-press-event or #ClutterActor::motion-event; * this phase is also called the "bubble" phase. * * At any point of the signal emission, signal handlers can stop the propagation * through the scene graph by returning %CLUTTER_EVENT_STOP; otherwise, they can * continue the propagation by returning %CLUTTER_EVENT_PROPAGATE. * * ## Animation ## {#clutter-actor-animation} * * Animation is a core concept of modern user interfaces; Clutter provides a * complete and powerful animation framework that automatically tweens the * actor's state without requiring direct, frame by frame manipulation from * your application code. You have two models at your disposal: * * - an implicit animation model * - an explicit animation model * * The implicit animation model of Clutter assumes that all the * changes in an actor state should be gradual and asynchronous; Clutter * will automatically transition an actor's property change between the * current state and the desired one without manual intervention, if the * property is defined to be animatable in its documentation. * * By default, in the 1.0 API series, the transition happens with a duration * of zero milliseconds, and the implicit animation is an opt in feature to * retain backwards compatibility. * * Implicit animations depend on the current easing state; in order to use * the default easing state for an actor you should call the * clutter_actor_save_easing_state() function: * * |[ * // assume that the actor is currently positioned at (100, 100) * * // store the current easing state and reset the new easing state to * // its default values * clutter_actor_save_easing_state (actor); * * // change the actor's position * clutter_actor_set_position (actor, 500, 500); * * // restore the previously saved easing state * clutter_actor_restore_easing_state (actor); * ]| * * The example above will trigger an implicit animation of the * actor between its current position to a new position. * * Implicit animations use a default duration of 250 milliseconds, * and a default easing mode of %CLUTTER_EASE_OUT_CUBIC, unless you call * clutter_actor_set_easing_mode() and clutter_actor_set_easing_duration() * after changing the easing state of the actor. * * It is possible to animate multiple properties of an actor * at the same time, and you can animate multiple actors at the same * time as well, for instance: * * |[ * clutter_actor_save_easing_state (actor); * * // animate the actor's opacity and depth * clutter_actor_set_opacity (actor, 0); * clutter_actor_set_depth (actor, -100); * * clutter_actor_restore_easing_state (actor); * * clutter_actor_save_easing_state (another_actor); * * // animate another actor's opacity * clutter_actor_set_opacity (another_actor, 255); * clutter_actor_set_depth (another_actor, 100); * * clutter_actor_restore_easing_state (another_actor); * ]| * * Changing the easing state will affect all the following property * transitions, but will not affect existing transitions. * * It is important to note that if you modify the state on an * animatable property while a transition is in flight, the transition's * final value will be updated, as well as its duration and progress * mode by using the current easing state; for instance, in the following * example: * * |[ * clutter_actor_save_easing_state (actor); * clutter_actor_set_easing_duration (actor, 1000); * clutter_actor_set_x (actor, 200); * clutter_actor_restore_easing_state (actor); * * clutter_actor_save_easing_state (actor); * clutter_actor_set_easing_duration (actor, 500); * clutter_actor_set_x (actor, 100); * clutter_actor_restore_easing_state (actor); * ]| * * the first call to clutter_actor_set_x() will begin a transition * of the #ClutterActor:x property from the current value to the value of * 200 over a duration of one second; the second call to clutter_actor_set_x() * will change the transition's final value to 100 and the duration to 500 * milliseconds. * * It is possible to receive a notification of the completion of an * implicit transition by using the #ClutterActor::transition-stopped * signal, decorated with the name of the property. In case you want to * know when all the currently in flight transitions are complete, use * the #ClutterActor::transitions-completed signal instead. * * It is possible to retrieve the #ClutterTransition used by the * animatable properties by using clutter_actor_get_transition() and using * the property name as the transition name. * * The explicit animation model supported by Clutter requires that * you create a #ClutterTransition object, and optionally set the initial * and final values. The transition will not start unless you add it to the * #ClutterActor. * * |[ * ClutterTransition *transition; * * transition = clutter_property_transition_new ("opacity"); * clutter_timeline_set_duration (CLUTTER_TIMELINE (transition), 3000); * clutter_timeline_set_repeat_count (CLUTTER_TIMELINE (transition), 2); * clutter_timeline_set_auto_reverse (CLUTTER_TIMELINE (transition), TRUE); * clutter_transition_set_from (transition, G_TYPE_UINT, 255); * clutter_transition_set_to (transition, G_TYPE_UINT, 0); * * clutter_actor_add_transition (actor, "animate-opacity", transition); * ]| * * The example above will animate the #ClutterActor:opacity property * of an actor between fully opaque and fully transparent, and back, over * a span of 3 seconds. The animation does not begin until it is added to * the actor. * * The explicit animation API applies to all #GObject properties, * as well as the custom properties defined through the #ClutterAnimatable * interface, regardless of whether they are defined as implicitly * animatable or not. * * The explicit animation API should also be used when using custom * animatable properties for #ClutterAction, #ClutterConstraint, and * #ClutterEffect instances associated to an actor; see the section on * custom animatable properties below for an example. * * Finally, explicit animations are useful for creating animations * that run continuously, for instance: * * |[ * // this animation will pulse the actor's opacity continuously * ClutterTransition *transition; * ClutterInterval *interval; * * transition = clutter_property_transition_new ("opacity"); * * // we want to animate the opacity between 0 and 255 * clutter_transition_set_from (transition, G_TYPE_UINT, 0); * clutter_transition_set_to (transition, G_TYPE_UINT, 255); * * // over a one second duration, running an infinite amount of times * clutter_timeline_set_duration (CLUTTER_TIMELINE (transition), 1000); * clutter_timeline_set_repeat_count (CLUTTER_TIMELINE (transition), -1); * * // we want to fade in and out, so we need to auto-reverse the transition * clutter_timeline_set_auto_reverse (CLUTTER_TIMELINE (transition), TRUE); * * // and we want to use an easing function that eases both in and out * clutter_timeline_set_progress_mode (CLUTTER_TIMELINE (transition), * CLUTTER_EASE_IN_OUT_CUBIC); * * // add the transition to the desired actor to start it * clutter_actor_add_transition (actor, "opacityAnimation", transition); * ]| * * ## Implementing an actor ## {#clutter-actor-implementing} * * Careful consideration should be given when deciding to implement * a #ClutterActor sub-class. It is generally recommended to implement a * sub-class of #ClutterActor only for actors that should be used as leaf * nodes of a scene graph. * * If your actor should be painted in a custom way, you should * override the #ClutterActor::paint signal class handler. You can either * opt to chain up to the parent class implementation or decide to fully * override the default paint implementation; Clutter will set up the * transformations and clip regions prior to emitting the #ClutterActor::paint * signal. * * By overriding the #ClutterActorClass.get_preferred_width() and * #ClutterActorClass.get_preferred_height() virtual functions it is * possible to change or provide the preferred size of an actor; similarly, * by overriding the #ClutterActorClass.allocate() virtual function it is * possible to control the layout of the children of an actor. Make sure to * always chain up to the parent implementation of the * #ClutterActorClass.allocate() virtual function. * * In general, it is strongly encouraged to use delegation and composition * instead of direct subclassing. * * ## ClutterActor custom properties for ClutterScript ## {#clutter-actor-custom-script} * * #ClutterActor defines a custom "rotation" property which allows a short-hand * description of the rotations to be applied to an actor. * * The syntax of the "rotation" property is the following: * * |[ * "rotation" : [ { "" : [ , [ ] ] } ] * ]| * * where: * * - axis is the name of an enumeration value of type #ClutterRotateAxis * - angle is a floating point value representing the rotation angle on the given axis in degrees * - center-point is an optional array, and if present it must contain the center of rotation as described by two coordinates: * - Y and Z for "x-axis" * - X and Z for "y-axis" * - X and Y for "z-axis". * * #ClutterActor also defines a scriptable "margin" property which follows the CSS "margin" shorthand. * * |[ * // 4 values * "margin" : [ top, right, bottom, left ] * // 3 values * "margin" : [ top, left/right, bottom ] * // 2 values * "margin" : [ top/bottom, left/right ] * // 1 value * "margin" : [ top/right/bottom/left ] * ]| * * #ClutterActor will also parse every positional and dimensional * property defined as a string through clutter_units_from_string(); you * should read the documentation for the #ClutterUnits parser format for * the valid units and syntax. * * ## Custom animatable properties * * #ClutterActor allows accessing properties of #ClutterAction, * #ClutterEffect, and #ClutterConstraint instances associated to an actor * instance for animation purposes. * * In order to access a specific #ClutterAction or a #ClutterConstraint * property it is necessary to set the #ClutterActorMeta:name property on the * given action or constraint. * * The property can be accessed using the following syntax: * * |[ * @
.. * ]| * * - the initial `@` is mandatory * - the `section` fragment can be one between "actions", "constraints" and "effects" * - the `meta-name` fragment is the name of the action, effect, or constraint, as * specified by the #ClutterActorMeta:name property of #ClutterActorMeta * - the `property-name` fragment is the name of the action, effect, or constraint * property to be animated. * * The example below animates a #ClutterBindConstraint applied to an actor * using an explicit transition. The `rect` actor has a binding constraint * on the `origin` actor, and in its initial state is overlapping the actor * to which is bound to. * * |[ * constraint = clutter_bind_constraint_new (origin, CLUTTER_BIND_X, 0.0); * clutter_actor_meta_set_name (CLUTTER_ACTOR_META (constraint), "bind-x"); * clutter_actor_add_constraint (rect, constraint); * * constraint = clutter_bind_constraint_new (origin, CLUTTER_BIND_Y, 0.0); * clutter_actor_meta_set_name (CLUTTER_ACTOR_META (constraint), "bind-y"); * clutter_actor_add_constraint (rect, constraint); * * clutter_actor_set_reactive (origin, TRUE); * * g_signal_connect (origin, "button-press-event", * G_CALLBACK (on_button_press), * rect); * ]| * * On button press, the rectangle "slides" from behind the actor to * which is bound to, using the #ClutterBindConstraint:offset property to * achieve the effect: * * |[ * gboolean * on_button_press (ClutterActor *origin, * ClutterEvent *event, * ClutterActor *rect) * { * ClutterTransition *transition; * * // the offset that we want to apply; this will make the actor * // slide in from behind the origin and rest at the right of * // the origin, plus a padding value * float new_offset = clutter_actor_get_width (origin) + h_padding; * * // the property we wish to animate; the "@constraints" section * // tells Clutter to check inside the constraints associated * // with the actor; the "bind-x" section is the name of the * // constraint; and the "offset" is the name of the property * // on the constraint * const char *prop = "@constraints.bind-x.offset"; * * // create a new transition for the given property * transition = clutter_property_transition_new (prop); * * // set the easing mode and duration * clutter_timeline_set_progress_mode (CLUTTER_TIMELINE (transition), * CLUTTER_EASE_OUT_CUBIC); * clutter_timeline_set_duration (CLUTTER_TIMELINE (transition), 500); * * // create the interval with the initial and final values * clutter_transition_set_from (transition, G_TYPE_FLOAT, 0.f); * clutter_transition_set_to (transition, G_TYPE_FLOAT, new_offset); * * // add the transition to the actor; this causes the animation * // to start. the name "offsetAnimation" can be used to retrieve * // the transition later * clutter_actor_add_transition (rect, "offsetAnimation", transition); * * // we handled the event * return CLUTTER_EVENT_STOP; * } * ]| */ /** * CLUTTER_ACTOR_IS_MAPPED: * @a: a #ClutterActor * * Evaluates to %TRUE if the %CLUTTER_ACTOR_MAPPED flag is set. * * The mapped state is set when the actor is visible and all its parents up * to a top-level (e.g. a #ClutterStage) are visible, realized, and mapped. * * This check can be used to see if an actor is going to be painted, as only * actors with the %CLUTTER_ACTOR_MAPPED flag set are going to be painted. * * The %CLUTTER_ACTOR_MAPPED flag is managed by Clutter itself, and it should * not be checked directly; instead, the recommended usage is to connect a * handler on the #GObject::notify signal for the #ClutterActor:mapped * property of #ClutterActor, and check the presence of * the %CLUTTER_ACTOR_MAPPED flag on state changes. * * It is also important to note that Clutter may delay the changes of * the %CLUTTER_ACTOR_MAPPED flag on top-levels due to backend-specific * limitations, or during the reparenting of an actor, to optimize * unnecessary (and potentially expensive) state changes. * * Since: 0.2 * * Deprecated: 1.24: Use clutter_actor_is_mapped() or the #ClutterActor:mapped * property instead of this macro. */ /** * CLUTTER_ACTOR_IS_REALIZED: * @a: a #ClutterActor * * Evaluates to %TRUE if the %CLUTTER_ACTOR_REALIZED flag is set. * * The realized state has an actor-dependant interpretation. If an * actor wants to delay allocating resources until it is attached to a * stage, it may use the realize state to do so. However it is * perfectly acceptable for an actor to allocate Cogl resources before * being realized because there is only one drawing context used by Clutter * so any resources will work on any stage. If an actor is mapped it * must also be realized, but an actor can be realized and unmapped * (this is so hiding an actor temporarily doesn't do an expensive * unrealize/realize). * * To be realized an actor must be inside a stage, and all its parents * must be realized. * * Since: 0.2 * * Deprecated: 1.24: Use clutter_actor_is_realized() or the #ClutterActor:realized * property instead of this macro. */ /** * CLUTTER_ACTOR_IS_VISIBLE: * @a: a #ClutterActor * * Evaluates to %TRUE if the actor has been shown, %FALSE if it's hidden. * Equivalent to the ClutterActor::visible object property. * * Note that an actor is only painted onscreen if it's mapped, which * means it's visible, and all its parents are visible, and one of the * parents is a toplevel stage; see also %CLUTTER_ACTOR_IS_MAPPED. * * Since: 0.2 * * Deprecated: 1.24: Use clutter_actor_is_visible() or the #ClutterActor:visible * property instead of this macro. */ /** * CLUTTER_ACTOR_IS_REACTIVE: * @a: a #ClutterActor * * Evaluates to %TRUE if the %CLUTTER_ACTOR_REACTIVE flag is set. * * Only reactive actors will receive event-related signals. * * Since: 0.6 * * Deprecated: 1.24: Use clutter_actor_get_reactive() or the * #ClutterActor:reactive property instead of this macro. */ #include "config.h" #include #include #include #define CLUTTER_DISABLE_DEPRECATION_WARNINGS #define CLUTTER_ENABLE_EXPERIMENTAL_API #include "clutter-actor-private.h" #include "clutter-action.h" #include "clutter-actor-meta-private.h" #include "clutter-animatable.h" #include "clutter-color-static.h" #include "clutter-color.h" #include "clutter-constraint-private.h" #include "clutter-container.h" #include "clutter-content-private.h" #include "clutter-debug.h" #include "clutter-easing.h" #include "clutter-effect-private.h" #include "clutter-enum-types.h" #include "clutter-fixed-layout.h" #include "clutter-flatten-effect.h" #include "clutter-interval.h" #include "clutter-main.h" #include "clutter-marshal.h" #include "clutter-paint-nodes.h" #include "clutter-paint-node-private.h" #include "clutter-paint-volume-private.h" #include "clutter-private.h" #include "clutter-property-transition.h" #include "clutter-scriptable.h" #include "clutter-script-private.h" #include "clutter-stage-private.h" #include "clutter-timeline.h" #include "clutter-transition.h" #include "clutter-units.h" #include "deprecated/clutter-actor.h" #include "deprecated/clutter-behaviour.h" #include "deprecated/clutter-container.h" /* Internal enum used to control mapped state update. This is a hint * which indicates when to do something other than just enforce * invariants. */ typedef enum { MAP_STATE_CHECK, /* just enforce invariants. */ MAP_STATE_MAKE_UNREALIZED, /* force unrealize, ignoring invariants, * used when about to unparent. */ MAP_STATE_MAKE_MAPPED, /* set mapped, error if invariants not met; * used to set mapped on toplevels. */ MAP_STATE_MAKE_UNMAPPED /* set unmapped, even if parent is mapped, * used just before unmapping parent. */ } MapStateChange; /* 3 entries should be a good compromise, few layout managers * will ask for 3 different preferred size in each allocation cycle */ #define N_CACHED_SIZE_REQUESTS 3 struct _ClutterActorPrivate { /* request mode */ ClutterRequestMode request_mode; /* our cached size requests for different width / height */ SizeRequest width_requests[N_CACHED_SIZE_REQUESTS]; SizeRequest height_requests[N_CACHED_SIZE_REQUESTS]; /* An age of 0 means the entry is not set */ guint cached_height_age; guint cached_width_age; /* the bounding box of the actor, relative to the parent's * allocation */ ClutterActorBox allocation; ClutterAllocationFlags allocation_flags; /* clip, in actor coordinates */ ClutterRect clip; /* the cached transformation matrix; see apply_transform() */ CoglMatrix transform; guint8 opacity; gint opacity_override; ClutterOffscreenRedirect offscreen_redirect; /* This is an internal effect used to implement the offscreen-redirect property */ ClutterEffect *flatten_effect; /* scene graph */ ClutterActor *parent; ClutterActor *prev_sibling; ClutterActor *next_sibling; ClutterActor *first_child; ClutterActor *last_child; gint n_children; /* tracks whenever the children of an actor are changed; the * age is incremented by 1 whenever an actor is added or * removed. the age is not incremented when the first or the * last child pointers are changed, or when grandchildren of * an actor are changed. */ gint age; gchar *name; /* a non-unique name, used for debugging */ gint32 pick_id; /* per-stage unique id, used for picking */ /* a back-pointer to the Pango context that we can use * to create pre-configured PangoLayout */ PangoContext *pango_context; /* the text direction configured for this child - either by * application code, or by the actor's parent */ ClutterTextDirection text_direction; /* a counter used to toggle the CLUTTER_INTERNAL_CHILD flag */ gint internal_child; /* meta classes */ ClutterMetaGroup *actions; ClutterMetaGroup *constraints; ClutterMetaGroup *effects; /* delegate object used to allocate the children of this actor */ ClutterLayoutManager *layout_manager; /* delegate object used to paint the contents of this actor */ ClutterContent *content; ClutterActorBox content_box; ClutterContentGravity content_gravity; ClutterScalingFilter min_filter; ClutterScalingFilter mag_filter; ClutterContentRepeat content_repeat; /* used when painting, to update the paint volume */ ClutterEffect *current_effect; /* This is used to store an effect which needs to be redrawn. A redraw can be queued to start from a particular effect. This is used by parametrised effects that can cache an image of the actor. If a parameter of the effect changes then it only needs to redraw the cached image, not the actual actor. The pointer is only valid if is_dirty == TRUE. If the pointer is NULL then the whole actor is dirty. */ ClutterEffect *effect_to_redraw; /* This is used when painting effects to implement the clutter_actor_continue_paint() function. It points to the node in the list of effects that is next in the chain */ const GList *next_effect_to_paint; ClutterPaintVolume paint_volume; /* NB: This volume isn't relative to this actor, it is in eye * coordinates so that it can remain valid after the actor changes. */ ClutterPaintVolume last_paint_volume; ClutterStageQueueRedrawEntry *queue_redraw_entry; ClutterColor bg_color; #ifdef CLUTTER_ENABLE_DEBUG /* a string used for debugging messages */ gchar *debug_name; #endif /* a set of clones of the actor */ GHashTable *clones; /* whether the actor is inside a cloned branch; this * value is propagated to all the actor's children */ gulong in_cloned_branch; /* bitfields: KEEP AT THE END */ /* fixed position and sizes */ guint position_set : 1; guint min_width_set : 1; guint min_height_set : 1; guint natural_width_set : 1; guint natural_height_set : 1; /* cached request is invalid (implies allocation is too) */ guint needs_width_request : 1; /* cached request is invalid (implies allocation is too) */ guint needs_height_request : 1; /* cached allocation is invalid (request has changed, probably) */ guint needs_allocation : 1; guint show_on_set_parent : 1; guint has_clip : 1; guint clip_to_allocation : 1; guint enable_model_view_transform : 1; guint enable_paint_unmapped : 1; guint has_pointer : 1; guint propagated_one_redraw : 1; guint paint_volume_valid : 1; guint last_paint_volume_valid : 1; guint in_clone_paint : 1; guint transform_valid : 1; /* This is TRUE if anything has queued a redraw since we were last painted. In this case effect_to_redraw will point to an effect the redraw was queued from or it will be NULL if the redraw was queued without an effect. */ guint is_dirty : 1; guint bg_color_set : 1; guint content_box_valid : 1; guint x_expand_set : 1; guint y_expand_set : 1; guint needs_compute_expand : 1; guint needs_x_expand : 1; guint needs_y_expand : 1; }; enum { PROP_0, PROP_NAME, /* X, Y, WIDTH, HEIGHT are "do what I mean" properties; * when set they force a size request, when gotten they * get the allocation if the allocation is valid, and the * request otherwise */ PROP_X, PROP_Y, PROP_WIDTH, PROP_HEIGHT, PROP_POSITION, PROP_SIZE, /* Then the rest of these size-related properties are the "actual" * underlying properties set or gotten by X, Y, WIDTH, HEIGHT */ PROP_FIXED_X, PROP_FIXED_Y, PROP_FIXED_POSITION_SET, PROP_MIN_WIDTH, PROP_MIN_WIDTH_SET, PROP_MIN_HEIGHT, PROP_MIN_HEIGHT_SET, PROP_NATURAL_WIDTH, PROP_NATURAL_WIDTH_SET, PROP_NATURAL_HEIGHT, PROP_NATURAL_HEIGHT_SET, PROP_REQUEST_MODE, /* Allocation properties are read-only */ PROP_ALLOCATION, PROP_DEPTH, /* XXX:2.0 remove */ PROP_Z_POSITION, PROP_CLIP, /* XXX:2.0 remove */ PROP_CLIP_RECT, PROP_HAS_CLIP, PROP_CLIP_TO_ALLOCATION, PROP_OPACITY, PROP_OFFSCREEN_REDIRECT, PROP_VISIBLE, PROP_MAPPED, PROP_REALIZED, PROP_REACTIVE, PROP_PIVOT_POINT, PROP_PIVOT_POINT_Z, PROP_SCALE_X, PROP_SCALE_Y, PROP_SCALE_Z, PROP_SCALE_CENTER_X, /* XXX:2.0 remove */ PROP_SCALE_CENTER_Y, /* XXX:2.0 remove */ PROP_SCALE_GRAVITY, /* XXX:2.0 remove */ PROP_ROTATION_ANGLE_X, /* XXX:2.0 rename to rotation-x */ PROP_ROTATION_ANGLE_Y, /* XXX:2.0 rename to rotation-y */ PROP_ROTATION_ANGLE_Z, /* XXX:2.0 rename to rotation-z */ PROP_ROTATION_CENTER_X, /* XXX:2.0 remove */ PROP_ROTATION_CENTER_Y, /* XXX:2.0 remove */ PROP_ROTATION_CENTER_Z, /* XXX:2.0 remove */ /* This property only makes sense for the z rotation because the others would depend on the actor having a size along the z-axis */ PROP_ROTATION_CENTER_Z_GRAVITY, /* XXX:2.0 remove */ PROP_ANCHOR_X, /* XXX:2.0 remove */ PROP_ANCHOR_Y, /* XXX:2.0 remove */ PROP_ANCHOR_GRAVITY, /*XXX:2.0 remove */ PROP_TRANSLATION_X, PROP_TRANSLATION_Y, PROP_TRANSLATION_Z, PROP_TRANSFORM, PROP_TRANSFORM_SET, PROP_CHILD_TRANSFORM, PROP_CHILD_TRANSFORM_SET, PROP_SHOW_ON_SET_PARENT, /*XXX:2.0 remove */ PROP_TEXT_DIRECTION, PROP_HAS_POINTER, PROP_ACTIONS, PROP_CONSTRAINTS, PROP_EFFECT, PROP_LAYOUT_MANAGER, PROP_X_EXPAND, PROP_Y_EXPAND, PROP_X_ALIGN, PROP_Y_ALIGN, PROP_MARGIN_TOP, PROP_MARGIN_BOTTOM, PROP_MARGIN_LEFT, PROP_MARGIN_RIGHT, PROP_BACKGROUND_COLOR, PROP_BACKGROUND_COLOR_SET, PROP_FIRST_CHILD, PROP_LAST_CHILD, PROP_CONTENT, PROP_CONTENT_GRAVITY, PROP_CONTENT_BOX, PROP_MINIFICATION_FILTER, PROP_MAGNIFICATION_FILTER, PROP_CONTENT_REPEAT, PROP_LAST }; static GParamSpec *obj_props[PROP_LAST]; enum { SHOW, HIDE, DESTROY, PARENT_SET, KEY_FOCUS_IN, KEY_FOCUS_OUT, PAINT, PICK, REALIZE, UNREALIZE, QUEUE_REDRAW, QUEUE_RELAYOUT, EVENT, CAPTURED_EVENT, BUTTON_PRESS_EVENT, BUTTON_RELEASE_EVENT, SCROLL_EVENT, KEY_PRESS_EVENT, KEY_RELEASE_EVENT, MOTION_EVENT, ENTER_EVENT, LEAVE_EVENT, ALLOCATION_CHANGED, TRANSITIONS_COMPLETED, TOUCH_EVENT, TRANSITION_STOPPED, LAST_SIGNAL }; static guint actor_signals[LAST_SIGNAL] = { 0, }; typedef struct _TransitionClosure { ClutterActor *actor; ClutterTransition *transition; gchar *name; gulong completed_id; guint is_implicit : 1; } TransitionClosure; static void clutter_container_iface_init (ClutterContainerIface *iface); static void clutter_scriptable_iface_init (ClutterScriptableIface *iface); static void clutter_animatable_iface_init (ClutterAnimatableIface *iface); static void atk_implementor_iface_init (AtkImplementorIface *iface); /* These setters are all static for now, maybe they should be in the * public API, but they are perhaps obscure enough to leave only as * properties */ static void clutter_actor_set_min_width (ClutterActor *self, gfloat min_width); static void clutter_actor_set_min_height (ClutterActor *self, gfloat min_height); static void clutter_actor_set_natural_width (ClutterActor *self, gfloat natural_width); static void clutter_actor_set_natural_height (ClutterActor *self, gfloat natural_height); static void clutter_actor_set_min_width_set (ClutterActor *self, gboolean use_min_width); static void clutter_actor_set_min_height_set (ClutterActor *self, gboolean use_min_height); static void clutter_actor_set_natural_width_set (ClutterActor *self, gboolean use_natural_width); static void clutter_actor_set_natural_height_set (ClutterActor *self, gboolean use_natural_height); static void clutter_actor_update_map_state (ClutterActor *self, MapStateChange change); static void clutter_actor_unrealize_not_hiding (ClutterActor *self); /* Helper routines for managing anchor coords */ static void clutter_anchor_coord_get_units (ClutterActor *self, const AnchorCoord *coord, gfloat *x, gfloat *y, gfloat *z); static void clutter_anchor_coord_set_units (AnchorCoord *coord, gfloat x, gfloat y, gfloat z); static ClutterGravity clutter_anchor_coord_get_gravity (const AnchorCoord *coord); static void clutter_anchor_coord_set_gravity (AnchorCoord *coord, ClutterGravity gravity); static gboolean clutter_anchor_coord_is_zero (const AnchorCoord *coord); static void _clutter_actor_get_relative_transformation_matrix (ClutterActor *self, ClutterActor *ancestor, CoglMatrix *matrix); static ClutterPaintVolume *_clutter_actor_get_paint_volume_mutable (ClutterActor *self); static guint8 clutter_actor_get_paint_opacity_internal (ClutterActor *self); static inline void clutter_actor_set_background_color_internal (ClutterActor *self, const ClutterColor *color); static void on_layout_manager_changed (ClutterLayoutManager *manager, ClutterActor *self); static inline void clutter_actor_queue_compute_expand (ClutterActor *self); static inline void clutter_actor_set_margin_internal (ClutterActor *self, gfloat margin, GParamSpec *pspec); static void clutter_actor_set_transform_internal (ClutterActor *self, const ClutterMatrix *transform); static void clutter_actor_set_child_transform_internal (ClutterActor *self, const ClutterMatrix *transform); static void clutter_actor_realize_internal (ClutterActor *self); static void clutter_actor_unrealize_internal (ClutterActor *self); /* Helper macro which translates by the anchor coord, applies the given transformation and then translates back */ #define TRANSFORM_ABOUT_ANCHOR_COORD(a,m,c,_transform) G_STMT_START { \ gfloat _tx, _ty, _tz; \ clutter_anchor_coord_get_units ((a), (c), &_tx, &_ty, &_tz); \ cogl_matrix_translate ((m), _tx, _ty, _tz); \ { _transform; } \ cogl_matrix_translate ((m), -_tx, -_ty, -_tz); } G_STMT_END static GQuark quark_shader_data = 0; static GQuark quark_actor_layout_info = 0; static GQuark quark_actor_transform_info = 0; static GQuark quark_actor_animation_info = 0; G_DEFINE_TYPE_WITH_CODE (ClutterActor, clutter_actor, G_TYPE_INITIALLY_UNOWNED, G_ADD_PRIVATE (ClutterActor) G_IMPLEMENT_INTERFACE (CLUTTER_TYPE_CONTAINER, clutter_container_iface_init) G_IMPLEMENT_INTERFACE (CLUTTER_TYPE_SCRIPTABLE, clutter_scriptable_iface_init) G_IMPLEMENT_INTERFACE (CLUTTER_TYPE_ANIMATABLE, clutter_animatable_iface_init) G_IMPLEMENT_INTERFACE (ATK_TYPE_IMPLEMENTOR, atk_implementor_iface_init)); /*< private > * clutter_actor_get_debug_name: * @actor: a #ClutterActor * * Retrieves a printable name of @actor for debugging messages * * Return value: a string with a printable name */ const gchar * _clutter_actor_get_debug_name (ClutterActor *actor) { ClutterActorPrivate *priv = actor->priv; const gchar *retval; #ifdef CLUTTER_ENABLE_DEBUG if (G_UNLIKELY (priv->debug_name == NULL)) { priv->debug_name = g_strdup_printf ("<%s>[<%s>:%p]", priv->name != NULL ? priv->name : "unnamed", G_OBJECT_TYPE_NAME (actor), actor); } retval = priv->debug_name; #else retval = priv->name != NULL ? priv->name : G_OBJECT_TYPE_NAME (actor); #endif return retval; } #ifdef CLUTTER_ENABLE_DEBUG /* XXX - this is for debugging only, remove once working (or leave * in only in some debug mode). Should leave it for a little while * until we're confident in the new map/realize/visible handling. */ static inline void clutter_actor_verify_map_state (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; if (CLUTTER_ACTOR_IS_REALIZED (self)) { /* all bets are off during reparent when we're potentially realized, * but should not be according to invariants */ if (!CLUTTER_ACTOR_IN_REPARENT (self)) { if (priv->parent == NULL) { if (CLUTTER_ACTOR_IS_TOPLEVEL (self)) { } else g_warning ("Realized non-toplevel actor '%s' should " "have a parent", _clutter_actor_get_debug_name (self)); } else if (!CLUTTER_ACTOR_IS_REALIZED (priv->parent)) { g_warning ("Realized actor %s has an unrealized parent %s", _clutter_actor_get_debug_name (self), _clutter_actor_get_debug_name (priv->parent)); } } } if (CLUTTER_ACTOR_IS_MAPPED (self)) { if (!CLUTTER_ACTOR_IS_REALIZED (self)) g_warning ("Actor '%s' is mapped but not realized", _clutter_actor_get_debug_name (self)); /* remaining bets are off during reparent when we're potentially * mapped, but should not be according to invariants */ if (!CLUTTER_ACTOR_IN_REPARENT (self)) { if (priv->parent == NULL) { if (CLUTTER_ACTOR_IS_TOPLEVEL (self)) { if (!CLUTTER_ACTOR_IS_VISIBLE (self) && !CLUTTER_ACTOR_IN_DESTRUCTION (self)) { g_warning ("Toplevel actor '%s' is mapped " "but not visible", _clutter_actor_get_debug_name (self)); } } else { g_warning ("Mapped actor '%s' should have a parent", _clutter_actor_get_debug_name (self)); } } else { ClutterActor *iter = self; /* check for the enable_paint_unmapped flag on the actor * and parents; if the flag is enabled at any point of this * branch of the scene graph then all the later checks * become pointless */ while (iter != NULL) { if (iter->priv->enable_paint_unmapped) return; iter = iter->priv->parent; } if (!CLUTTER_ACTOR_IS_VISIBLE (priv->parent)) { g_warning ("Actor '%s' should not be mapped if parent '%s'" "is not visible", _clutter_actor_get_debug_name (self), _clutter_actor_get_debug_name (priv->parent)); } if (!CLUTTER_ACTOR_IS_REALIZED (priv->parent)) { g_warning ("Actor '%s' should not be mapped if parent '%s'" "is not realized", _clutter_actor_get_debug_name (self), _clutter_actor_get_debug_name (priv->parent)); } if (!CLUTTER_ACTOR_IS_TOPLEVEL (priv->parent)) { if (!CLUTTER_ACTOR_IS_MAPPED (priv->parent)) g_warning ("Actor '%s' is mapped but its non-toplevel " "parent '%s' is not mapped", _clutter_actor_get_debug_name (self), _clutter_actor_get_debug_name (priv->parent)); } } } } } #endif /* CLUTTER_ENABLE_DEBUG */ static void clutter_actor_set_mapped (ClutterActor *self, gboolean mapped) { if (CLUTTER_ACTOR_IS_MAPPED (self) == mapped) return; if (mapped) { CLUTTER_ACTOR_GET_CLASS (self)->map (self); g_assert (CLUTTER_ACTOR_IS_MAPPED (self)); } else { CLUTTER_ACTOR_GET_CLASS (self)->unmap (self); g_assert (!CLUTTER_ACTOR_IS_MAPPED (self)); } } /* this function updates the mapped and realized states according to * invariants, in the appropriate order. */ static void clutter_actor_update_map_state (ClutterActor *self, MapStateChange change) { gboolean was_mapped; was_mapped = CLUTTER_ACTOR_IS_MAPPED (self); if (CLUTTER_ACTOR_IS_TOPLEVEL (self)) { /* the mapped flag on top-level actors must be set by the * per-backend implementation because it might be asynchronous. * * That is, the MAPPED flag on toplevels currently tracks the X * server mapped-ness of the window, while the expected behavior * (if used to GTK) may be to track WM_STATE!=WithdrawnState. * This creates some weird complexity by breaking the invariant * that if we're visible and all ancestors shown then we are * also mapped - instead, we are mapped if all ancestors * _possibly excepting_ the stage are mapped. The stage * will map/unmap for example when it is minimized or * moved to another workspace. * * So, the only invariant on the stage is that if visible it * should be realized, and that it has to be visible to be * mapped. */ if (CLUTTER_ACTOR_IS_VISIBLE (self)) clutter_actor_realize (self); switch (change) { case MAP_STATE_CHECK: break; case MAP_STATE_MAKE_MAPPED: g_assert (!was_mapped); clutter_actor_set_mapped (self, TRUE); break; case MAP_STATE_MAKE_UNMAPPED: g_assert (was_mapped); clutter_actor_set_mapped (self, FALSE); break; case MAP_STATE_MAKE_UNREALIZED: /* we only use MAKE_UNREALIZED in unparent, * and unparenting a stage isn't possible. * If someone wants to just unrealize a stage * then clutter_actor_unrealize() doesn't * go through this codepath. */ g_warning ("Trying to force unrealize stage is not allowed"); break; } if (CLUTTER_ACTOR_IS_MAPPED (self) && !CLUTTER_ACTOR_IS_VISIBLE (self) && !CLUTTER_ACTOR_IN_DESTRUCTION (self)) { g_warning ("Clutter toplevel of type '%s' is not visible, but " "it is somehow still mapped", _clutter_actor_get_debug_name (self)); } } else { ClutterActorPrivate *priv = self->priv; ClutterActor *parent = priv->parent; gboolean should_be_mapped; gboolean may_be_realized; gboolean must_be_realized; should_be_mapped = FALSE; may_be_realized = TRUE; must_be_realized = FALSE; if (parent == NULL || change == MAP_STATE_MAKE_UNREALIZED) { may_be_realized = FALSE; } else { /* Maintain invariant that if parent is mapped, and we are * visible, then we are mapped ... unless parent is a * stage, in which case we map regardless of parent's map * state but do require stage to be visible and realized. * * If parent is realized, that does not force us to be * realized; but if parent is unrealized, that does force * us to be unrealized. * * The reason we don't force children to realize with * parents is _clutter_actor_rerealize(); if we require that * a realized parent means children are realized, then to * unrealize an actor we would have to unrealize its * parents, which would end up meaning unrealizing and * hiding the entire stage. So we allow unrealizing a * child (as long as that child is not mapped) while that * child still has a realized parent. * * Also, if we unrealize from leaf nodes to root, and * realize from root to leaf, the invariants are never * violated if we allow children to be unrealized * while parents are realized. * * When unmapping, MAP_STATE_MAKE_UNMAPPED is specified * to force us to unmap, even though parent is still * mapped. This is because we're unmapping from leaf nodes * up to root nodes. */ if (CLUTTER_ACTOR_IS_VISIBLE (self) && change != MAP_STATE_MAKE_UNMAPPED) { gboolean parent_is_visible_realized_toplevel; parent_is_visible_realized_toplevel = (CLUTTER_ACTOR_IS_TOPLEVEL (parent) && CLUTTER_ACTOR_IS_VISIBLE (parent) && CLUTTER_ACTOR_IS_REALIZED (parent)); if (CLUTTER_ACTOR_IS_MAPPED (parent) || parent_is_visible_realized_toplevel) { must_be_realized = TRUE; should_be_mapped = TRUE; } } /* if the actor has been set to be painted even if unmapped * then we should map it and check for realization as well; * this is an override for the branch of the scene graph * which begins with this node */ if (priv->enable_paint_unmapped) { if (priv->parent == NULL) g_warning ("Attempting to map an unparented actor '%s'", _clutter_actor_get_debug_name (self)); should_be_mapped = TRUE; must_be_realized = TRUE; } if (!CLUTTER_ACTOR_IS_REALIZED (parent)) may_be_realized = FALSE; } if (change == MAP_STATE_MAKE_MAPPED && !should_be_mapped) { if (parent == NULL) g_warning ("Attempting to map a child that does not " "meet the necessary invariants: the actor '%s' " "has no parent", _clutter_actor_get_debug_name (self)); else g_warning ("Attempting to map a child that does not " "meet the necessary invariants: the actor '%s' " "is parented to an unmapped actor '%s'", _clutter_actor_get_debug_name (self), _clutter_actor_get_debug_name (priv->parent)); } /* If in reparent, we temporarily suspend unmap and unrealize. * * We want to go in the order "realize, map" and "unmap, unrealize" */ /* Unmap */ if (!should_be_mapped && !CLUTTER_ACTOR_IN_REPARENT (self)) clutter_actor_set_mapped (self, FALSE); /* Realize */ if (must_be_realized) clutter_actor_realize (self); /* if we must be realized then we may be, presumably */ g_assert (!(must_be_realized && !may_be_realized)); /* Unrealize */ if (!may_be_realized && !CLUTTER_ACTOR_IN_REPARENT (self)) clutter_actor_unrealize_not_hiding (self); /* Map */ if (should_be_mapped) { if (!must_be_realized) g_warning ("Somehow we think actor '%s' should be mapped but " "not realized, which isn't allowed", _clutter_actor_get_debug_name (self)); /* realization is allowed to fail (though I don't know what * an app is supposed to do about that - shouldn't it just * be a g_error? anyway, we have to avoid mapping if this * happens) */ if (CLUTTER_ACTOR_IS_REALIZED (self)) clutter_actor_set_mapped (self, TRUE); } } #ifdef CLUTTER_ENABLE_DEBUG /* check all invariants were kept */ clutter_actor_verify_map_state (self); #endif } static void clutter_actor_real_map (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; ClutterActor *stage, *iter; g_assert (!CLUTTER_ACTOR_IS_MAPPED (self)); CLUTTER_NOTE (ACTOR, "Mapping actor '%s'", _clutter_actor_get_debug_name (self)); CLUTTER_ACTOR_SET_FLAGS (self, CLUTTER_ACTOR_MAPPED); stage = _clutter_actor_get_stage_internal (self); priv->pick_id = _clutter_stage_acquire_pick_id (CLUTTER_STAGE (stage), self); CLUTTER_NOTE (ACTOR, "Pick id '%d' for actor '%s'", priv->pick_id, _clutter_actor_get_debug_name (self)); /* notify on parent mapped before potentially mapping * children, so apps see a top-down notification. */ g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_MAPPED]); for (iter = self->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) { clutter_actor_map (iter); } } /** * clutter_actor_map: * @self: A #ClutterActor * * Sets the %CLUTTER_ACTOR_MAPPED flag on the actor and possibly maps * and realizes its children if they are visible. Does nothing if the * actor is not visible. * * Calling this function is strongly disencouraged: the default * implementation of #ClutterActorClass.map() will map all the children * of an actor when mapping its parent. * * When overriding map, it is mandatory to chain up to the parent * implementation. * * Since: 1.0 */ void clutter_actor_map (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (CLUTTER_ACTOR_IS_MAPPED (self)) return; if (!CLUTTER_ACTOR_IS_VISIBLE (self)) return; clutter_actor_update_map_state (self, MAP_STATE_MAKE_MAPPED); } /** * clutter_actor_is_mapped: * @self: a #ClutterActor * * Checks whether a #ClutterActor has been set as mapped. * * See also %CLUTTER_ACTOR_IS_MAPPED and #ClutterActor:mapped * * Returns: %TRUE if the actor is mapped * * Since: 1.24 */ gboolean clutter_actor_is_mapped (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return CLUTTER_ACTOR_IS_MAPPED (self); } static void clutter_actor_real_unmap (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; ClutterActor *iter; g_assert (CLUTTER_ACTOR_IS_MAPPED (self)); CLUTTER_NOTE (ACTOR, "Unmapping actor '%s'", _clutter_actor_get_debug_name (self)); for (iter = self->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) { clutter_actor_unmap (iter); } CLUTTER_ACTOR_UNSET_FLAGS (self, CLUTTER_ACTOR_MAPPED); /* clear the contents of the last paint volume, so that hiding + moving + * showing will not result in the wrong area being repainted */ _clutter_paint_volume_init_static (&priv->last_paint_volume, NULL); priv->last_paint_volume_valid = TRUE; /* notify on parent mapped after potentially unmapping * children, so apps see a bottom-up notification. */ g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_MAPPED]); /* relinquish keyboard focus if we were unmapped while owning it */ if (!CLUTTER_ACTOR_IS_TOPLEVEL (self)) { ClutterStage *stage; stage = CLUTTER_STAGE (_clutter_actor_get_stage_internal (self)); if (stage != NULL) _clutter_stage_release_pick_id (stage, priv->pick_id); priv->pick_id = -1; if (stage != NULL && clutter_stage_get_key_focus (stage) == self) { clutter_stage_set_key_focus (stage, NULL); } } } /** * clutter_actor_unmap: * @self: A #ClutterActor * * Unsets the %CLUTTER_ACTOR_MAPPED flag on the actor and possibly * unmaps its children if they were mapped. * * Calling this function is not encouraged: the default #ClutterActor * implementation of #ClutterActorClass.unmap() will also unmap any * eventual children by default when their parent is unmapped. * * When overriding #ClutterActorClass.unmap(), it is mandatory to * chain up to the parent implementation. * * It is important to note that the implementation of the * #ClutterActorClass.unmap() virtual function may be called after * the #ClutterActorClass.destroy() or the #GObjectClass.dispose() * implementation, but it is guaranteed to be called before the * #GObjectClass.finalize() implementation. * * Since: 1.0 */ void clutter_actor_unmap (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (!CLUTTER_ACTOR_IS_MAPPED (self)) return; clutter_actor_update_map_state (self, MAP_STATE_MAKE_UNMAPPED); } static void clutter_actor_real_show (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; if (CLUTTER_ACTOR_IS_VISIBLE (self)) return; CLUTTER_ACTOR_SET_FLAGS (self, CLUTTER_ACTOR_VISIBLE); /* we notify on the "visible" flag in the clutter_actor_show() * wrapper so the entire show signal emission completes first, * and the branch of the scene graph is in a stable state */ clutter_actor_update_map_state (self, MAP_STATE_CHECK); /* we queue a relayout unless the actor is inside a * container that explicitly told us not to */ if (priv->parent != NULL && (!(priv->parent->flags & CLUTTER_ACTOR_NO_LAYOUT))) { /* While an actor is hidden the parent may not have * allocated/requested so we need to start from scratch * and avoid the short-circuiting in * clutter_actor_queue_relayout(). */ priv->needs_width_request = FALSE; priv->needs_height_request = FALSE; priv->needs_allocation = FALSE; clutter_actor_queue_relayout (self); } } static inline void set_show_on_set_parent (ClutterActor *self, gboolean set_show) { ClutterActorPrivate *priv = self->priv; set_show = !!set_show; if (priv->show_on_set_parent == set_show) return; if (priv->parent == NULL) { priv->show_on_set_parent = set_show; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_SHOW_ON_SET_PARENT]); } } /** * clutter_actor_show: * @self: A #ClutterActor * * Flags an actor to be displayed. An actor that isn't shown will not * be rendered on the stage. * * Actors are visible by default. * * If this function is called on an actor without a parent, the * #ClutterActor:show-on-set-parent will be set to %TRUE as a side * effect. */ void clutter_actor_show (ClutterActor *self) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); /* simple optimization */ if (CLUTTER_ACTOR_IS_VISIBLE (self)) { /* we still need to set the :show-on-set-parent property, in * case show() is called on an unparented actor */ set_show_on_set_parent (self, TRUE); return; } #ifdef CLUTTER_ENABLE_DEBUG clutter_actor_verify_map_state (self); #endif priv = self->priv; g_object_freeze_notify (G_OBJECT (self)); set_show_on_set_parent (self, TRUE); /* if we're showing a child that needs to expand, or may * expand, then we need to recompute the expand flags for * its parent as well */ if (priv->needs_compute_expand || priv->needs_x_expand || priv->needs_y_expand) { clutter_actor_queue_compute_expand (self); } g_signal_emit (self, actor_signals[SHOW], 0); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_VISIBLE]); if (priv->parent != NULL) clutter_actor_queue_redraw (priv->parent); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_is_visible: * @self: a #ClutterActor * * Checks whether an actor is marked as visible. * * See also %CLUTTER_ACTOR_IS_VISIBLE and #ClutterActor:visible. * * Returns: %TRUE if the actor visible * * Since: 1.24 */ gboolean clutter_actor_is_visible (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return CLUTTER_ACTOR_IS_VISIBLE (self); } /** * clutter_actor_show_all: * @self: a #ClutterActor * * Calls clutter_actor_show() on all children of an actor (if any). * * Since: 0.2 * * Deprecated: 1.10: Actors are visible by default */ void clutter_actor_show_all (ClutterActor *self) { ClutterActorClass *klass; g_return_if_fail (CLUTTER_IS_ACTOR (self)); klass = CLUTTER_ACTOR_GET_CLASS (self); if (klass->show_all) klass->show_all (self); } static void clutter_actor_real_hide (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; if (!CLUTTER_ACTOR_IS_VISIBLE (self)) return; CLUTTER_ACTOR_UNSET_FLAGS (self, CLUTTER_ACTOR_VISIBLE); /* we notify on the "visible" flag in the clutter_actor_hide() * wrapper so the entire hide signal emission completes first, * and the branch of the scene graph is in a stable state */ clutter_actor_update_map_state (self, MAP_STATE_CHECK); /* we queue a relayout unless the actor is inside a * container that explicitly told us not to */ if (priv->parent != NULL && (!(priv->parent->flags & CLUTTER_ACTOR_NO_LAYOUT))) clutter_actor_queue_relayout (priv->parent); } /** * clutter_actor_hide: * @self: A #ClutterActor * * Flags an actor to be hidden. A hidden actor will not be * rendered on the stage. * * Actors are visible by default. * * If this function is called on an actor without a parent, the * #ClutterActor:show-on-set-parent property will be set to %FALSE * as a side-effect. */ void clutter_actor_hide (ClutterActor *self) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); /* simple optimization */ if (!CLUTTER_ACTOR_IS_VISIBLE (self)) { /* we still need to set the :show-on-set-parent property, in * case hide() is called on an unparented actor */ set_show_on_set_parent (self, FALSE); return; } #ifdef CLUTTER_ENABLE_DEBUG clutter_actor_verify_map_state (self); #endif priv = self->priv; g_object_freeze_notify (G_OBJECT (self)); set_show_on_set_parent (self, FALSE); /* if we're hiding a child that needs to expand, or may * expand, then we need to recompute the expand flags for * its parent as well */ if (priv->needs_compute_expand || priv->needs_x_expand || priv->needs_y_expand) { clutter_actor_queue_compute_expand (self); } g_signal_emit (self, actor_signals[HIDE], 0); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_VISIBLE]); if (priv->parent != NULL) clutter_actor_queue_redraw (priv->parent); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_hide_all: * @self: a #ClutterActor * * Calls clutter_actor_hide() on all child actors (if any). * * Since: 0.2 * * Deprecated: 1.10: Using clutter_actor_hide() on the actor will * prevent its children from being painted as well. */ void clutter_actor_hide_all (ClutterActor *self) { ClutterActorClass *klass; g_return_if_fail (CLUTTER_IS_ACTOR (self)); klass = CLUTTER_ACTOR_GET_CLASS (self); if (klass->hide_all) klass->hide_all (self); } /** * clutter_actor_realize: * @self: A #ClutterActor * * Realization informs the actor that it is attached to a stage. It * can use this to allocate resources if it wanted to delay allocation * until it would be rendered. However it is perfectly acceptable for * an actor to create resources before being realized because Clutter * only ever has a single rendering context so that actor is free to * be moved from one stage to another. * * This function does nothing if the actor is already realized. * * Because a realized actor must have realized parent actors, calling * clutter_actor_realize() will also realize all parents of the actor. * * This function does not realize child actors, except in the special * case that realizing the stage, when the stage is visible, will * suddenly map (and thus realize) the children of the stage. * * Deprecated: 1.16: Actors are automatically realized, and nothing * requires explicit realization. */ void clutter_actor_realize (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); clutter_actor_realize_internal (self); } /** * clutter_actor_is_realized: * @self: a #ClutterActor * * Checks whether a #ClutterActor is realized. * * See also %CLUTTER_ACTOR_IS_REALIZED and #ClutterActor:realized. * * Returns: %TRUE if the actor is realized * * Since: 1.24 */ gboolean clutter_actor_is_realized (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return CLUTTER_ACTOR_IS_REALIZED (self); } static void clutter_actor_realize_internal (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; #ifdef CLUTTER_ENABLE_DEBUG clutter_actor_verify_map_state (self); #endif if (CLUTTER_ACTOR_IS_REALIZED (self)) return; /* To be realized, our parent actors must be realized first. * This will only succeed if we're inside a toplevel. */ if (priv->parent != NULL) clutter_actor_realize (priv->parent); if (CLUTTER_ACTOR_IS_TOPLEVEL (self)) { /* toplevels can be realized at any time */ } else { /* "Fail" the realization if parent is missing or unrealized; * this should really be a g_warning() not some kind of runtime * failure; how can an app possibly recover? Instead it's a bug * in the app and the app should get an explanatory warning so * someone can fix it. But for now it's too hard to fix this * because e.g. ClutterTexture needs reworking. */ if (priv->parent == NULL || !CLUTTER_ACTOR_IS_REALIZED (priv->parent)) return; } CLUTTER_NOTE (ACTOR, "Realizing actor '%s'", _clutter_actor_get_debug_name (self)); CLUTTER_ACTOR_SET_FLAGS (self, CLUTTER_ACTOR_REALIZED); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_REALIZED]); g_signal_emit (self, actor_signals[REALIZE], 0); /* Stage actor is allowed to unset the realized flag again in its * default signal handler, though that is a pathological situation. */ /* If realization "failed" we'll have to update child state. */ clutter_actor_update_map_state (self, MAP_STATE_CHECK); } static void clutter_actor_real_unrealize (ClutterActor *self) { /* we must be unmapped (implying our children are also unmapped) */ g_assert (!CLUTTER_ACTOR_IS_MAPPED (self)); } /** * clutter_actor_unrealize: * @self: A #ClutterActor * * Unrealization informs the actor that it may be being destroyed or * moved to another stage. The actor may want to destroy any * underlying graphics resources at this point. However it is * perfectly acceptable for it to retain the resources until the actor * is destroyed because Clutter only ever uses a single rendering * context and all of the graphics resources are valid on any stage. * * Because mapped actors must be realized, actors may not be * unrealized if they are mapped. This function hides the actor to be * sure it isn't mapped, an application-visible side effect that you * may not be expecting. * * This function should not be called by application code. * * This function should not really be in the public API, because * there isn't a good reason to call it. ClutterActor will already * unrealize things for you when it's important to do so. * * If you were using clutter_actor_unrealize() in a dispose * implementation, then don't, just chain up to ClutterActor's * dispose. * * If you were using clutter_actor_unrealize() to implement * unrealizing children of your container, then don't, ClutterActor * will already take care of that. * * Deprecated: 1.16: Actors are automatically unrealized, and nothing * requires explicit realization. */ void clutter_actor_unrealize (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (!CLUTTER_ACTOR_IS_MAPPED (self)); clutter_actor_unrealize_internal (self); } /* If you were using clutter_actor_unrealize() to re-realize to * create your resources in a different way, then use * _clutter_actor_rerealize() (inside Clutter) or just call your * code that recreates your resources directly (outside Clutter). */ static void clutter_actor_unrealize_internal (ClutterActor *self) { #ifdef CLUTTER_ENABLE_DEBUG clutter_actor_verify_map_state (self); #endif clutter_actor_hide (self); clutter_actor_unrealize_not_hiding (self); } static ClutterActorTraverseVisitFlags unrealize_actor_before_children_cb (ClutterActor *self, int depth, void *user_data) { /* If an actor is already unrealized we know its children have also * already been unrealized... */ if (!CLUTTER_ACTOR_IS_REALIZED (self)) return CLUTTER_ACTOR_TRAVERSE_VISIT_SKIP_CHILDREN; g_signal_emit (self, actor_signals[UNREALIZE], 0); return CLUTTER_ACTOR_TRAVERSE_VISIT_CONTINUE; } static ClutterActorTraverseVisitFlags unrealize_actor_after_children_cb (ClutterActor *self, int depth, void *user_data) { /* We want to unset the realized flag only _after_ * child actors are unrealized, to maintain invariants. */ CLUTTER_ACTOR_UNSET_FLAGS (self, CLUTTER_ACTOR_REALIZED); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_REALIZED]); return CLUTTER_ACTOR_TRAVERSE_VISIT_CONTINUE; } /* * clutter_actor_unrealize_not_hiding: * @self: A #ClutterActor * * Unrealization informs the actor that it may be being destroyed or * moved to another stage. The actor may want to destroy any * underlying graphics resources at this point. However it is * perfectly acceptable for it to retain the resources until the actor * is destroyed because Clutter only ever uses a single rendering * context and all of the graphics resources are valid on any stage. * * Because mapped actors must be realized, actors may not be * unrealized if they are mapped. You must hide the actor or one of * its parents before attempting to unrealize. * * This function is separate from clutter_actor_unrealize() because it * does not automatically hide the actor. * Actors need not be hidden to be unrealized, they just need to * be unmapped. In fact we don't want to mess up the application's * setting of the "visible" flag, so hiding is very undesirable. * * clutter_actor_unrealize() does a clutter_actor_hide() just for * backward compatibility. */ static void clutter_actor_unrealize_not_hiding (ClutterActor *self) { _clutter_actor_traverse (self, CLUTTER_ACTOR_TRAVERSE_DEPTH_FIRST, unrealize_actor_before_children_cb, unrealize_actor_after_children_cb, NULL); } /* * _clutter_actor_rerealize: * @self: A #ClutterActor * @callback: Function to call while unrealized * @data: data for callback * * If an actor is already unrealized, this just calls the callback. * * If it is realized, it unrealizes temporarily, calls the callback, * and then re-realizes the actor. * * As a side effect, leaves all children of the actor unrealized if * the actor was realized but not showing. This is because when we * unrealize the actor temporarily we must unrealize its children * (e.g. children of a stage can't be realized if stage window is * gone). And we aren't clever enough to save the realization state of * all children. In most cases this should not matter, because * the children will automatically realize when they next become mapped. */ void _clutter_actor_rerealize (ClutterActor *self, ClutterCallback callback, void *data) { gboolean was_mapped; gboolean was_showing; gboolean was_realized; g_return_if_fail (CLUTTER_IS_ACTOR (self)); #ifdef CLUTTER_ENABLE_DEBUG clutter_actor_verify_map_state (self); #endif was_realized = CLUTTER_ACTOR_IS_REALIZED (self); was_mapped = CLUTTER_ACTOR_IS_MAPPED (self); was_showing = CLUTTER_ACTOR_IS_VISIBLE (self); /* Must be unmapped to unrealize. Note we only have to hide this * actor if it was mapped (if all parents were showing). If actor * is merely visible (but not mapped), then that's fine, we can * leave it visible. */ if (was_mapped) clutter_actor_hide (self); g_assert (!CLUTTER_ACTOR_IS_MAPPED (self)); /* unrealize self and all children */ clutter_actor_unrealize_not_hiding (self); if (callback != NULL) { (* callback) (self, data); } if (was_showing) clutter_actor_show (self); /* will realize only if mapping implies it */ else if (was_realized) clutter_actor_realize (self); /* realize self and all parents */ } static void clutter_actor_real_pick (ClutterActor *self, const ClutterColor *color) { /* the default implementation is just to paint a rectangle * with the same size of the actor using the passed color */ if (clutter_actor_should_pick_paint (self)) { ClutterActorBox box = { 0, }; float width, height; clutter_actor_get_allocation_box (self, &box); width = box.x2 - box.x1; height = box.y2 - box.y1; cogl_set_source_color4ub (color->red, color->green, color->blue, color->alpha); cogl_rectangle (0, 0, width, height); } /* XXX - this thoroughly sucks, but we need to maintain compatibility * with existing container classes that override the pick() virtual * and chain up to the default implementation - otherwise we'll end up * painting our children twice. * * this has to go away for 2.0; hopefully along the pick() itself. */ if (CLUTTER_ACTOR_GET_CLASS (self)->pick == clutter_actor_real_pick) { ClutterActor *iter; for (iter = self->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) clutter_actor_paint (iter); } } /** * clutter_actor_should_pick_paint: * @self: A #ClutterActor * * Should be called inside the implementation of the * #ClutterActor::pick virtual function in order to check whether * the actor should paint itself in pick mode or not. * * This function should never be called directly by applications. * * Return value: %TRUE if the actor should paint its silhouette, * %FALSE otherwise */ gboolean clutter_actor_should_pick_paint (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); if (CLUTTER_ACTOR_IS_MAPPED (self) && (_clutter_context_get_pick_mode () == CLUTTER_PICK_ALL || CLUTTER_ACTOR_IS_REACTIVE (self))) return TRUE; return FALSE; } static void clutter_actor_real_get_preferred_width (ClutterActor *self, gfloat for_height, gfloat *min_width_p, gfloat *natural_width_p) { ClutterActorPrivate *priv = self->priv; if (priv->n_children != 0 && priv->layout_manager != NULL) { ClutterContainer *container = CLUTTER_CONTAINER (self); CLUTTER_NOTE (LAYOUT, "Querying the layout manager '%s'[%p] " "for the preferred width", G_OBJECT_TYPE_NAME (priv->layout_manager), priv->layout_manager); clutter_layout_manager_get_preferred_width (priv->layout_manager, container, for_height, min_width_p, natural_width_p); return; } /* Default implementation is always 0x0, usually an actor * using this default is relying on someone to set the * request manually */ CLUTTER_NOTE (LAYOUT, "Default preferred width: 0, 0"); if (min_width_p) *min_width_p = 0; if (natural_width_p) *natural_width_p = 0; } static void clutter_actor_real_get_preferred_height (ClutterActor *self, gfloat for_width, gfloat *min_height_p, gfloat *natural_height_p) { ClutterActorPrivate *priv = self->priv; if (priv->n_children != 0 && priv->layout_manager != NULL) { ClutterContainer *container = CLUTTER_CONTAINER (self); CLUTTER_NOTE (LAYOUT, "Querying the layout manager '%s'[%p] " "for the preferred height", G_OBJECT_TYPE_NAME (priv->layout_manager), priv->layout_manager); clutter_layout_manager_get_preferred_height (priv->layout_manager, container, for_width, min_height_p, natural_height_p); return; } /* Default implementation is always 0x0, usually an actor * using this default is relying on someone to set the * request manually */ CLUTTER_NOTE (LAYOUT, "Default preferred height: 0, 0"); if (min_height_p) *min_height_p = 0; if (natural_height_p) *natural_height_p = 0; } static void clutter_actor_store_old_geometry (ClutterActor *self, ClutterActorBox *box) { *box = self->priv->allocation; } static inline void clutter_actor_notify_if_geometry_changed (ClutterActor *self, const ClutterActorBox *old) { ClutterActorPrivate *priv = self->priv; GObject *obj = G_OBJECT (self); g_object_freeze_notify (obj); /* to avoid excessive requisition or allocation cycles we * use the cached values. * * - if we don't have an allocation we assume that we need * to notify anyway * - if we don't have a width or a height request we notify * width and height * - if we have a valid allocation then we check the old * bounding box with the current allocation and we notify * the changes */ if (priv->needs_allocation) { g_object_notify_by_pspec (obj, obj_props[PROP_X]); g_object_notify_by_pspec (obj, obj_props[PROP_Y]); g_object_notify_by_pspec (obj, obj_props[PROP_POSITION]); g_object_notify_by_pspec (obj, obj_props[PROP_WIDTH]); g_object_notify_by_pspec (obj, obj_props[PROP_HEIGHT]); g_object_notify_by_pspec (obj, obj_props[PROP_SIZE]); } else if (priv->needs_width_request || priv->needs_height_request) { g_object_notify_by_pspec (obj, obj_props[PROP_WIDTH]); g_object_notify_by_pspec (obj, obj_props[PROP_HEIGHT]); g_object_notify_by_pspec (obj, obj_props[PROP_SIZE]); } else { gfloat x, y; gfloat width, height; x = priv->allocation.x1; y = priv->allocation.y1; width = priv->allocation.x2 - priv->allocation.x1; height = priv->allocation.y2 - priv->allocation.y1; if (x != old->x1) { g_object_notify_by_pspec (obj, obj_props[PROP_X]); g_object_notify_by_pspec (obj, obj_props[PROP_POSITION]); } if (y != old->y1) { g_object_notify_by_pspec (obj, obj_props[PROP_Y]); g_object_notify_by_pspec (obj, obj_props[PROP_POSITION]); } if (width != (old->x2 - old->x1)) { g_object_notify_by_pspec (obj, obj_props[PROP_WIDTH]); g_object_notify_by_pspec (obj, obj_props[PROP_SIZE]); } if (height != (old->y2 - old->y1)) { g_object_notify_by_pspec (obj, obj_props[PROP_HEIGHT]); g_object_notify_by_pspec (obj, obj_props[PROP_SIZE]); } } g_object_thaw_notify (obj); } /*< private > * clutter_actor_set_allocation_internal: * @self: a #ClutterActor * @box: a #ClutterActorBox * @flags: allocation flags * * Stores the allocation of @self. * * This function only performs basic storage and property notification. * * This function should be called by clutter_actor_set_allocation() * and by the default implementation of #ClutterActorClass.allocate(). * * Return value: %TRUE if the allocation of the #ClutterActor has been * changed, and %FALSE otherwise */ static inline gboolean clutter_actor_set_allocation_internal (ClutterActor *self, const ClutterActorBox *box, ClutterAllocationFlags flags) { ClutterActorPrivate *priv = self->priv; GObject *obj; gboolean x1_changed, y1_changed, x2_changed, y2_changed; gboolean retval; ClutterActorBox old_alloc = { 0, }; obj = G_OBJECT (self); g_object_freeze_notify (obj); clutter_actor_store_old_geometry (self, &old_alloc); x1_changed = priv->allocation.x1 != box->x1; y1_changed = priv->allocation.y1 != box->y1; x2_changed = priv->allocation.x2 != box->x2; y2_changed = priv->allocation.y2 != box->y2; priv->allocation = *box; priv->allocation_flags = flags; /* allocation is authoritative */ priv->needs_width_request = FALSE; priv->needs_height_request = FALSE; priv->needs_allocation = FALSE; if (x1_changed || y1_changed || x2_changed || y2_changed) { CLUTTER_NOTE (LAYOUT, "Allocation for '%s' changed", _clutter_actor_get_debug_name (self)); priv->transform_valid = FALSE; g_object_notify_by_pspec (obj, obj_props[PROP_ALLOCATION]); /* if the allocation changes, so does the content box */ if (priv->content != NULL) { priv->content_box_valid = FALSE; g_object_notify_by_pspec (obj, obj_props[PROP_CONTENT_BOX]); } retval = TRUE; } else retval = FALSE; clutter_actor_notify_if_geometry_changed (self, &old_alloc); g_object_thaw_notify (obj); return retval; } static void clutter_actor_real_allocate (ClutterActor *self, const ClutterActorBox *box, ClutterAllocationFlags flags); static inline void clutter_actor_maybe_layout_children (ClutterActor *self, const ClutterActorBox *allocation, ClutterAllocationFlags flags) { ClutterActorPrivate *priv = self->priv; /* this is going to be a bit hard to follow, so let's put an explanation * here. * * we want ClutterActor to have a default layout manager if the actor was * created using "g_object_new (CLUTTER_TYPE_ACTOR, NULL)". * * we also want any subclass of ClutterActor that does not override the * ::allocate() virtual function to delegate to a layout manager. * * finally, we want to allow people subclassing ClutterActor and overriding * the ::allocate() vfunc to let Clutter delegate to the layout manager. * * on the other hand, we want existing actor subclasses overriding the * ::allocate() virtual function and chaining up to the parent's * implementation to continue working without allocating their children * twice, or without entering an allocation loop. * * for the first two points, we check if the class of the actor is * overridding the ::allocate() virtual function; if it isn't, then we * follow through with checking whether we have children and a layout * manager, and eventually calling clutter_layout_manager_allocate(). * * for the third point, we check the CLUTTER_DELEGATE_LAYOUT flag in the * allocation flags that we got passed, and if it is present, we continue * with the check above. * * if neither of these two checks yields a positive result, we just * assume that the ::allocate() virtual function that resulted in this * function being called will also allocate the children of the actor. */ if (CLUTTER_ACTOR_GET_CLASS (self)->allocate == clutter_actor_real_allocate) goto check_layout; if ((flags & CLUTTER_DELEGATE_LAYOUT) != 0) goto check_layout; return; check_layout: if (priv->n_children != 0 && priv->layout_manager != NULL) { ClutterContainer *container = CLUTTER_CONTAINER (self); ClutterAllocationFlags children_flags; ClutterActorBox children_box; /* normalize the box passed to the layout manager */ children_box.x1 = children_box.y1 = 0.f; children_box.x2 = (allocation->x2 - allocation->x1); children_box.y2 = (allocation->y2 - allocation->y1); /* remove the DELEGATE_LAYOUT flag; this won't be passed to * the actor's children, since it refers only to the current * actor's allocation. */ children_flags = flags; children_flags &= ~CLUTTER_DELEGATE_LAYOUT; CLUTTER_NOTE (LAYOUT, "Allocating %d children of %s " "at { %.2f, %.2f - %.2f x %.2f } " "using %s", priv->n_children, _clutter_actor_get_debug_name (self), allocation->x1, allocation->y1, (allocation->x2 - allocation->x1), (allocation->y2 - allocation->y1), G_OBJECT_TYPE_NAME (priv->layout_manager)); clutter_layout_manager_allocate (priv->layout_manager, container, &children_box, children_flags); } } static void clutter_actor_real_allocate (ClutterActor *self, const ClutterActorBox *box, ClutterAllocationFlags flags) { ClutterActorPrivate *priv = self->priv; gboolean changed; g_object_freeze_notify (G_OBJECT (self)); changed = clutter_actor_set_allocation_internal (self, box, flags); /* we allocate our children before we notify changes in our geometry, * so that people connecting to properties will be able to get valid * data out of the sub-tree of the scene graph that has this actor at * the root. */ clutter_actor_maybe_layout_children (self, box, flags); if (changed) { ClutterActorBox signal_box = priv->allocation; ClutterAllocationFlags signal_flags = priv->allocation_flags; g_signal_emit (self, actor_signals[ALLOCATION_CHANGED], 0, &signal_box, signal_flags); } g_object_thaw_notify (G_OBJECT (self)); } static void _clutter_actor_signal_queue_redraw (ClutterActor *self, ClutterActor *origin) { /* no point in queuing a redraw on a destroyed actor */ if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) return; /* NB: We can't bail out early here if the actor is hidden in case * the actor bas been cloned. In this case the clone will need to * receive the signal so it can queue its own redraw. */ _clutter_actor_queue_redraw_on_clones (self); /* calls klass->queue_redraw in default handler */ g_signal_emit (self, actor_signals[QUEUE_REDRAW], 0, origin); } static void clutter_actor_real_queue_redraw (ClutterActor *self, ClutterActor *origin) { ClutterActor *parent; CLUTTER_NOTE (PAINT, "Redraw queued on '%s' (from: '%s')", _clutter_actor_get_debug_name (self), origin != NULL ? _clutter_actor_get_debug_name (origin) : "same actor"); /* no point in queuing a redraw on a destroyed actor */ if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) return; /* If the queue redraw is coming from a child then the actor has become dirty and any queued effect is no longer valid */ if (self != origin) { self->priv->is_dirty = TRUE; self->priv->effect_to_redraw = NULL; } /* If the actor isn't visible, we still had to emit the signal * to allow for a ClutterClone, but the appearance of the parent * won't change so we don't have to propagate up the hierarchy. */ if (!CLUTTER_ACTOR_IS_VISIBLE (self)) return; /* Although we could determine here that a full stage redraw * has already been queued and immediately bail out, we actually * guarantee that we will propagate a queue-redraw signal to our * parent at least once so that it's possible to implement a * container that tracks which of its children have queued a * redraw. */ if (self->priv->propagated_one_redraw) { ClutterActor *stage = _clutter_actor_get_stage_internal (self); if (stage != NULL && _clutter_stage_has_full_redraw_queued (CLUTTER_STAGE (stage))) return; } self->priv->propagated_one_redraw = TRUE; /* notify parents, if they are all visible eventually we'll * queue redraw on the stage, which queues the redraw idle. */ parent = clutter_actor_get_parent (self); if (parent != NULL) { /* this will go up recursively */ _clutter_actor_signal_queue_redraw (parent, origin); } } static void clutter_actor_real_queue_relayout (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; /* no point in queueing a redraw on a destroyed actor */ if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) return; priv->needs_width_request = TRUE; priv->needs_height_request = TRUE; priv->needs_allocation = TRUE; /* reset the cached size requests */ memset (priv->width_requests, 0, N_CACHED_SIZE_REQUESTS * sizeof (SizeRequest)); memset (priv->height_requests, 0, N_CACHED_SIZE_REQUESTS * sizeof (SizeRequest)); /* We need to go all the way up the hierarchy */ if (priv->parent != NULL) _clutter_actor_queue_only_relayout (priv->parent); } /** * clutter_actor_apply_relative_transform_to_point: * @self: A #ClutterActor * @ancestor: (allow-none): A #ClutterActor ancestor, or %NULL to use the * default #ClutterStage * @point: A point as #ClutterVertex * @vertex: (out caller-allocates): The translated #ClutterVertex * * Transforms @point in coordinates relative to the actor into * ancestor-relative coordinates using the relevant transform * stack (i.e. scale, rotation, etc). * * If @ancestor is %NULL the ancestor will be the #ClutterStage. In * this case, the coordinates returned will be the coordinates on * the stage before the projection is applied. This is different from * the behaviour of clutter_actor_apply_transform_to_point(). * * Since: 0.6 */ void clutter_actor_apply_relative_transform_to_point (ClutterActor *self, ClutterActor *ancestor, const ClutterVertex *point, ClutterVertex *vertex) { gfloat w; CoglMatrix matrix; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (ancestor == NULL || CLUTTER_IS_ACTOR (ancestor)); g_return_if_fail (point != NULL); g_return_if_fail (vertex != NULL); *vertex = *point; w = 1.0; if (ancestor == NULL) ancestor = _clutter_actor_get_stage_internal (self); if (ancestor == NULL) { *vertex = *point; return; } _clutter_actor_get_relative_transformation_matrix (self, ancestor, &matrix); cogl_matrix_transform_point (&matrix, &vertex->x, &vertex->y, &vertex->z, &w); } static gboolean _clutter_actor_fully_transform_vertices (ClutterActor *self, const ClutterVertex *vertices_in, ClutterVertex *vertices_out, int n_vertices) { ClutterActor *stage; CoglMatrix modelview; CoglMatrix projection; float viewport[4]; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); stage = _clutter_actor_get_stage_internal (self); /* We really can't do anything meaningful in this case so don't try * to do any transform */ if (stage == NULL) return FALSE; /* Note: we pass NULL as the ancestor because we don't just want the modelview * that gets us to stage coordinates, we want to go all the way to eye * coordinates */ _clutter_actor_apply_relative_transformation_matrix (self, NULL, &modelview); /* Fetch the projection and viewport */ _clutter_stage_get_projection_matrix (CLUTTER_STAGE (stage), &projection); _clutter_stage_get_viewport (CLUTTER_STAGE (stage), &viewport[0], &viewport[1], &viewport[2], &viewport[3]); _clutter_util_fully_transform_vertices (&modelview, &projection, viewport, vertices_in, vertices_out, n_vertices); return TRUE; } /** * clutter_actor_apply_transform_to_point: * @self: A #ClutterActor * @point: A point as #ClutterVertex * @vertex: (out caller-allocates): The translated #ClutterVertex * * Transforms @point in coordinates relative to the actor * into screen-relative coordinates with the current actor * transformation (i.e. scale, rotation, etc) * * Since: 0.4 **/ void clutter_actor_apply_transform_to_point (ClutterActor *self, const ClutterVertex *point, ClutterVertex *vertex) { g_return_if_fail (point != NULL); g_return_if_fail (vertex != NULL); _clutter_actor_fully_transform_vertices (self, point, vertex, 1); } /* * _clutter_actor_get_relative_transformation_matrix: * @self: The actor whose coordinate space you want to transform from. * @ancestor: The ancestor actor whose coordinate space you want to transform too * or %NULL if you want to transform all the way to eye coordinates. * @matrix: A #CoglMatrix to store the transformation * * This gets a transformation @matrix that will transform coordinates from the * coordinate space of @self into the coordinate space of @ancestor. * * For example if you need a matrix that can transform the local actor * coordinates of @self into stage coordinates you would pass the actor's stage * pointer as the @ancestor. * * If you pass %NULL then the transformation will take you all the way through * to eye coordinates. This can be useful if you want to extract the entire * modelview transform that Clutter applies before applying the projection * transformation. If you want to explicitly set a modelview on a CoglFramebuffer * using cogl_set_modelview_matrix() for example then you would want a matrix * that transforms into eye coordinates. * * Note: This function explicitly initializes the given @matrix. If you just * want clutter to multiply a relative transformation with an existing matrix * you can use clutter_actor_apply_relative_transformation_matrix() * instead. * */ /* XXX: We should consider caching the stage relative modelview along with * the actor itself */ static void _clutter_actor_get_relative_transformation_matrix (ClutterActor *self, ClutterActor *ancestor, CoglMatrix *matrix) { cogl_matrix_init_identity (matrix); _clutter_actor_apply_relative_transformation_matrix (self, ancestor, matrix); } /* Project the given @box into stage window coordinates, writing the * transformed vertices to @verts[]. */ static gboolean _clutter_actor_transform_and_project_box (ClutterActor *self, const ClutterActorBox *box, ClutterVertex verts[]) { ClutterVertex box_vertices[4]; box_vertices[0].x = box->x1; box_vertices[0].y = box->y1; box_vertices[0].z = 0; box_vertices[1].x = box->x2; box_vertices[1].y = box->y1; box_vertices[1].z = 0; box_vertices[2].x = box->x1; box_vertices[2].y = box->y2; box_vertices[2].z = 0; box_vertices[3].x = box->x2; box_vertices[3].y = box->y2; box_vertices[3].z = 0; return _clutter_actor_fully_transform_vertices (self, box_vertices, verts, 4); } /** * clutter_actor_get_allocation_vertices: * @self: A #ClutterActor * @ancestor: (allow-none): A #ClutterActor to calculate the vertices * against, or %NULL to use the #ClutterStage * @verts: (out) (array fixed-size=4) (element-type Clutter.Vertex): return * location for an array of 4 #ClutterVertex in which to store the result * * Calculates the transformed coordinates of the four corners of the * actor in the plane of @ancestor. The returned vertices relate to * the #ClutterActorBox coordinates as follows: * * - @verts[0] contains (x1, y1) * - @verts[1] contains (x2, y1) * - @verts[2] contains (x1, y2) * - @verts[3] contains (x2, y2) * * If @ancestor is %NULL the ancestor will be the #ClutterStage. In * this case, the coordinates returned will be the coordinates on * the stage before the projection is applied. This is different from * the behaviour of clutter_actor_get_abs_allocation_vertices(). * * Since: 0.6 */ void clutter_actor_get_allocation_vertices (ClutterActor *self, ClutterActor *ancestor, ClutterVertex verts[]) { ClutterActorPrivate *priv; ClutterActorBox box; ClutterVertex vertices[4]; CoglMatrix modelview; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (ancestor == NULL || CLUTTER_IS_ACTOR (ancestor)); if (ancestor == NULL) ancestor = _clutter_actor_get_stage_internal (self); /* Fallback to a NOP transform if the actor isn't parented under a * stage. */ if (ancestor == NULL) ancestor = self; priv = self->priv; /* if the actor needs to be allocated we force a relayout, so that * we will have valid values to use in the transformations */ if (priv->needs_allocation) { ClutterActor *stage = _clutter_actor_get_stage_internal (self); if (stage) _clutter_stage_maybe_relayout (stage); else { box.x1 = box.y1 = 0; /* The result isn't really meaningful in this case but at * least try to do something *vaguely* reasonable... */ clutter_actor_get_size (self, &box.x2, &box.y2); } } clutter_actor_get_allocation_box (self, &box); vertices[0].x = box.x1; vertices[0].y = box.y1; vertices[0].z = 0; vertices[1].x = box.x2; vertices[1].y = box.y1; vertices[1].z = 0; vertices[2].x = box.x1; vertices[2].y = box.y2; vertices[2].z = 0; vertices[3].x = box.x2; vertices[3].y = box.y2; vertices[3].z = 0; _clutter_actor_get_relative_transformation_matrix (self, ancestor, &modelview); cogl_matrix_transform_points (&modelview, 3, sizeof (ClutterVertex), vertices, sizeof (ClutterVertex), vertices, 4); } /** * clutter_actor_get_abs_allocation_vertices: * @self: A #ClutterActor * @verts: (out) (array fixed-size=4): Pointer to a location of an array * of 4 #ClutterVertex where to store the result. * * Calculates the transformed screen coordinates of the four corners of * the actor; the returned vertices relate to the #ClutterActorBox * coordinates as follows: * * - v[0] contains (x1, y1) * - v[1] contains (x2, y1) * - v[2] contains (x1, y2) * - v[3] contains (x2, y2) * * Since: 0.4 */ void clutter_actor_get_abs_allocation_vertices (ClutterActor *self, ClutterVertex verts[]) { ClutterActorPrivate *priv; ClutterActorBox actor_space_allocation; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; /* if the actor needs to be allocated we force a relayout, so that * the actor allocation box will be valid for * _clutter_actor_transform_and_project_box() */ if (priv->needs_allocation) { ClutterActor *stage = _clutter_actor_get_stage_internal (self); /* There's nothing meaningful we can do now */ if (!stage) return; _clutter_stage_maybe_relayout (stage); } /* NB: _clutter_actor_transform_and_project_box expects a box in the actor's * own coordinate space... */ actor_space_allocation.x1 = 0; actor_space_allocation.y1 = 0; actor_space_allocation.x2 = priv->allocation.x2 - priv->allocation.x1; actor_space_allocation.y2 = priv->allocation.y2 - priv->allocation.y1; _clutter_actor_transform_and_project_box (self, &actor_space_allocation, verts); } static void clutter_actor_real_apply_transform (ClutterActor *self, ClutterMatrix *matrix) { ClutterActorPrivate *priv = self->priv; CoglMatrix *transform = &priv->transform; const ClutterTransformInfo *info; float pivot_x = 0.f, pivot_y = 0.f; /* we already have a cached transformation */ if (priv->transform_valid) goto multiply_and_return; info = _clutter_actor_get_transform_info_or_defaults (self); /* compute the pivot point given the allocated size */ pivot_x = (priv->allocation.x2 - priv->allocation.x1) * info->pivot.x; pivot_y = (priv->allocation.y2 - priv->allocation.y1) * info->pivot.y; CLUTTER_NOTE (PAINT, "Allocation: (%.2f, %2.f), " "pivot: (%.2f, %.2f), " "translation: (%.2f, %.2f) -> " "new origin: (%.2f, %.2f)", priv->allocation.x1, priv->allocation.y1, info->pivot.x, info->pivot.y, info->translation.x, info->translation.y, priv->allocation.x1 + pivot_x + info->translation.x, priv->allocation.y1 + pivot_y + info->translation.y); /* we apply the :child-transform from the parent actor, if we have one */ if (priv->parent != NULL) { const ClutterTransformInfo *parent_info; parent_info = _clutter_actor_get_transform_info_or_defaults (priv->parent); clutter_matrix_init_from_matrix (transform, &(parent_info->child_transform)); } else clutter_matrix_init_identity (transform); /* if we have an overriding transformation, we use that, and get out */ if (info->transform_set) { /* we still need to apply the :allocation's origin and :pivot-point * translations, since :transform is relative to the actor's coordinate * space, and to the pivot point */ cogl_matrix_translate (transform, priv->allocation.x1 + pivot_x, priv->allocation.y1 + pivot_y, info->pivot_z); cogl_matrix_multiply (transform, transform, &info->transform); goto roll_back_pivot; } /* basic translation: :allocation's origin and :z-position; instead * of decomposing the pivot and translation info separate operations, * we just compose everything into a single translation */ cogl_matrix_translate (transform, priv->allocation.x1 + pivot_x + info->translation.x, priv->allocation.y1 + pivot_y + info->translation.y, info->z_position + info->pivot_z + info->translation.z); /* because the rotation involves translations, we must scale * before applying the rotations (if we apply the scale after * the rotations, the translations included in the rotation are * not scaled and so the entire object will move on the screen * as a result of rotating it). * * XXX:2.0 the comment has to be reworded once we remove the * per-transformation centers; we also may want to apply rotation * first and scaling after, to match the matrix decomposition * code we use when interpolating transformations */ if (info->scale_x != 1.0 || info->scale_y != 1.0 || info->scale_z != 1.0) { /* XXX:2.0 remove anchor coord */ TRANSFORM_ABOUT_ANCHOR_COORD (self, transform, &info->scale_center, cogl_matrix_scale (transform, info->scale_x, info->scale_y, info->scale_z)); } if (info->rz_angle) { /* XXX:2.0 remove anchor coord */ TRANSFORM_ABOUT_ANCHOR_COORD (self, transform, &info->rz_center, cogl_matrix_rotate (transform, info->rz_angle, 0, 0, 1.0)); } if (info->ry_angle) { /* XXX:2.0 remove anchor coord */ TRANSFORM_ABOUT_ANCHOR_COORD (self, transform, &info->ry_center, cogl_matrix_rotate (transform, info->ry_angle, 0, 1.0, 0)); } if (info->rx_angle) { /* XXX:2.0 remove anchor coord */ TRANSFORM_ABOUT_ANCHOR_COORD (self, transform, &info->rx_center, cogl_matrix_rotate (transform, info->rx_angle, 1.0, 0, 0)); } /* XXX:2.0 remove anchor point translation */ if (!clutter_anchor_coord_is_zero (&info->anchor)) { gfloat x, y, z; clutter_anchor_coord_get_units (self, &info->anchor, &x, &y, &z); cogl_matrix_translate (transform, -x, -y, -z); } roll_back_pivot: /* roll back the pivot translation */ if (pivot_x != 0.f || pivot_y != 0.f || info->pivot_z != 0.f) cogl_matrix_translate (transform, -pivot_x, -pivot_y, -info->pivot_z); /* we have a valid modelview */ priv->transform_valid = TRUE; multiply_and_return: cogl_matrix_multiply (matrix, matrix, &priv->transform); } /* Applies the transforms associated with this actor to the given * matrix. */ void _clutter_actor_apply_modelview_transform (ClutterActor *self, ClutterMatrix *matrix) { CLUTTER_ACTOR_GET_CLASS (self)->apply_transform (self, matrix); } /* * clutter_actor_apply_relative_transformation_matrix: * @self: The actor whose coordinate space you want to transform from. * @ancestor: The ancestor actor whose coordinate space you want to transform too * or %NULL if you want to transform all the way to eye coordinates. * @matrix: A #ClutterMatrix to apply the transformation too. * * This multiplies a transform with @matrix that will transform coordinates * from the coordinate space of @self into the coordinate space of @ancestor. * * For example if you need a matrix that can transform the local actor * coordinates of @self into stage coordinates you would pass the actor's stage * pointer as the @ancestor. * * If you pass %NULL then the transformation will take you all the way through * to eye coordinates. This can be useful if you want to extract the entire * modelview transform that Clutter applies before applying the projection * transformation. If you want to explicitly set a modelview on a CoglFramebuffer * using cogl_set_modelview_matrix() for example then you would want a matrix * that transforms into eye coordinates. * * This function doesn't initialize the given @matrix, it simply * multiplies the requested transformation matrix with the existing contents of * @matrix. You can use cogl_matrix_init_identity() to initialize the @matrix * before calling this function, or you can use * clutter_actor_get_relative_transformation_matrix() instead. */ void _clutter_actor_apply_relative_transformation_matrix (ClutterActor *self, ClutterActor *ancestor, CoglMatrix *matrix) { ClutterActor *parent; /* Note we terminate before ever calling stage->apply_transform() * since that would conceptually be relative to the underlying * window OpenGL coordinates so we'd need a special @ancestor * value to represent the fake parent of the stage. */ if (self == ancestor) return; parent = clutter_actor_get_parent (self); if (parent != NULL) _clutter_actor_apply_relative_transformation_matrix (parent, ancestor, matrix); _clutter_actor_apply_modelview_transform (self, matrix); } static void _clutter_actor_draw_paint_volume_full (ClutterActor *self, ClutterPaintVolume *pv, const char *label, const CoglColor *color) { static CoglPipeline *outline = NULL; CoglPrimitive *prim; ClutterVertex line_ends[12 * 2]; int n_vertices; CoglContext *ctx = clutter_backend_get_cogl_context (clutter_get_default_backend ()); /* XXX: at some point we'll query this from the stage but we can't * do that until the osx backend uses Cogl natively. */ CoglFramebuffer *fb = cogl_get_draw_framebuffer (); if (outline == NULL) outline = cogl_pipeline_new (ctx); _clutter_paint_volume_complete (pv); n_vertices = pv->is_2d ? 4 * 2 : 12 * 2; /* Front face */ line_ends[0] = pv->vertices[0]; line_ends[1] = pv->vertices[1]; line_ends[2] = pv->vertices[1]; line_ends[3] = pv->vertices[2]; line_ends[4] = pv->vertices[2]; line_ends[5] = pv->vertices[3]; line_ends[6] = pv->vertices[3]; line_ends[7] = pv->vertices[0]; if (!pv->is_2d) { /* Back face */ line_ends[8] = pv->vertices[4]; line_ends[9] = pv->vertices[5]; line_ends[10] = pv->vertices[5]; line_ends[11] = pv->vertices[6]; line_ends[12] = pv->vertices[6]; line_ends[13] = pv->vertices[7]; line_ends[14] = pv->vertices[7]; line_ends[15] = pv->vertices[4]; /* Lines connecting front face to back face */ line_ends[16] = pv->vertices[0]; line_ends[17] = pv->vertices[4]; line_ends[18] = pv->vertices[1]; line_ends[19] = pv->vertices[5]; line_ends[20] = pv->vertices[2]; line_ends[21] = pv->vertices[6]; line_ends[22] = pv->vertices[3]; line_ends[23] = pv->vertices[7]; } prim = cogl_primitive_new_p3 (ctx, COGL_VERTICES_MODE_LINES, n_vertices, (CoglVertexP3 *)line_ends); cogl_pipeline_set_color (outline, color); cogl_framebuffer_draw_primitive (fb, outline, prim); cogl_object_unref (prim); if (label) { PangoLayout *layout; layout = pango_layout_new (clutter_actor_get_pango_context (self)); pango_layout_set_text (layout, label, -1); cogl_pango_render_layout (layout, pv->vertices[0].x, pv->vertices[0].y, color, 0); g_object_unref (layout); } } static void _clutter_actor_draw_paint_volume (ClutterActor *self) { ClutterPaintVolume *pv; CoglColor color; pv = _clutter_actor_get_paint_volume_mutable (self); if (!pv) { gfloat width, height; ClutterPaintVolume fake_pv; ClutterActor *stage = _clutter_actor_get_stage_internal (self); _clutter_paint_volume_init_static (&fake_pv, stage); clutter_actor_get_size (self, &width, &height); clutter_paint_volume_set_width (&fake_pv, width); clutter_paint_volume_set_height (&fake_pv, height); cogl_color_init_from_4f (&color, 0, 0, 1, 1); _clutter_actor_draw_paint_volume_full (self, &fake_pv, _clutter_actor_get_debug_name (self), &color); clutter_paint_volume_free (&fake_pv); } else { cogl_color_init_from_4f (&color, 0, 1, 0, 1); _clutter_actor_draw_paint_volume_full (self, pv, _clutter_actor_get_debug_name (self), &color); } } static void _clutter_actor_paint_cull_result (ClutterActor *self, gboolean success, ClutterCullResult result) { ClutterPaintVolume *pv; CoglColor color; if (success) { if (result == CLUTTER_CULL_RESULT_IN) cogl_color_init_from_4f (&color, 0, 1, 0, 1); else if (result == CLUTTER_CULL_RESULT_OUT) cogl_color_init_from_4f (&color, 0, 0, 1, 1); else cogl_color_init_from_4f (&color, 0, 1, 1, 1); } else cogl_color_init_from_4f (&color, 1, 1, 1, 1); if (success && (pv = _clutter_actor_get_paint_volume_mutable (self))) _clutter_actor_draw_paint_volume_full (self, pv, _clutter_actor_get_debug_name (self), &color); else { PangoLayout *layout; char *label = g_strdup_printf ("CULL FAILURE: %s", _clutter_actor_get_debug_name (self)); cogl_color_init_from_4f (&color, 1, 1, 1, 1); cogl_set_source_color (&color); layout = pango_layout_new (clutter_actor_get_pango_context (self)); pango_layout_set_text (layout, label, -1); cogl_pango_render_layout (layout, 0, 0, &color, 0); g_free (label); g_object_unref (layout); } } static int clone_paint_level = 0; void _clutter_actor_push_clone_paint (void) { clone_paint_level++; } void _clutter_actor_pop_clone_paint (void) { clone_paint_level--; } static gboolean in_clone_paint (void) { return clone_paint_level > 0; } /* Returns TRUE if the actor can be ignored */ /* FIXME: we should return a ClutterCullResult, and * clutter_actor_paint should understand that a CLUTTER_CULL_RESULT_IN * means there's no point in trying to cull descendants of the current * node. */ static gboolean cull_actor (ClutterActor *self, ClutterCullResult *result_out) { ClutterActorPrivate *priv = self->priv; ClutterStage *stage; const ClutterPlane *stage_clip; if (!priv->last_paint_volume_valid) { CLUTTER_NOTE (CLIPPING, "Bail from cull_actor without culling (%s): " "->last_paint_volume_valid == FALSE", _clutter_actor_get_debug_name (self)); return FALSE; } if (G_UNLIKELY (clutter_paint_debug_flags & CLUTTER_DEBUG_DISABLE_CULLING)) return FALSE; stage = (ClutterStage *) _clutter_actor_get_stage_internal (self); stage_clip = _clutter_stage_get_clip (stage); if (G_UNLIKELY (!stage_clip)) { CLUTTER_NOTE (CLIPPING, "Bail from cull_actor without culling (%s): " "No stage clip set", _clutter_actor_get_debug_name (self)); return FALSE; } if (cogl_get_draw_framebuffer () != _clutter_stage_get_active_framebuffer (stage)) { CLUTTER_NOTE (CLIPPING, "Bail from cull_actor without culling (%s): " "Current framebuffer doesn't correspond to stage", _clutter_actor_get_debug_name (self)); return FALSE; } *result_out = _clutter_paint_volume_cull (&priv->last_paint_volume, stage_clip); return TRUE; } static void _clutter_actor_update_last_paint_volume (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; const ClutterPaintVolume *pv; if (priv->last_paint_volume_valid) { clutter_paint_volume_free (&priv->last_paint_volume); priv->last_paint_volume_valid = FALSE; } pv = clutter_actor_get_paint_volume (self); if (!pv) { CLUTTER_NOTE (CLIPPING, "Bail from update_last_paint_volume (%s): " "Actor failed to report a paint volume", _clutter_actor_get_debug_name (self)); return; } _clutter_paint_volume_copy_static (pv, &priv->last_paint_volume); _clutter_paint_volume_transform_relative (&priv->last_paint_volume, NULL); /* eye coordinates */ priv->last_paint_volume_valid = TRUE; } static inline gboolean actor_has_shader_data (ClutterActor *self) { return g_object_get_qdata (G_OBJECT (self), quark_shader_data) != NULL; } guint32 _clutter_actor_get_pick_id (ClutterActor *self) { if (self->priv->pick_id < 0) return 0; return self->priv->pick_id; } /* This is the same as clutter_actor_add_effect except that it doesn't queue a redraw and it doesn't notify on the effect property */ static void _clutter_actor_add_effect_internal (ClutterActor *self, ClutterEffect *effect) { ClutterActorPrivate *priv = self->priv; if (priv->effects == NULL) { priv->effects = g_object_new (CLUTTER_TYPE_META_GROUP, NULL); priv->effects->actor = self; } _clutter_meta_group_add_meta (priv->effects, CLUTTER_ACTOR_META (effect)); } /* This is the same as clutter_actor_remove_effect except that it doesn't queue a redraw and it doesn't notify on the effect property */ static void _clutter_actor_remove_effect_internal (ClutterActor *self, ClutterEffect *effect) { ClutterActorPrivate *priv = self->priv; if (priv->effects == NULL) return; _clutter_meta_group_remove_meta (priv->effects, CLUTTER_ACTOR_META (effect)); if (_clutter_meta_group_peek_metas (priv->effects) == NULL) g_clear_object (&priv->effects); } static gboolean needs_flatten_effect (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; if (G_UNLIKELY (clutter_paint_debug_flags & CLUTTER_DEBUG_DISABLE_OFFSCREEN_REDIRECT)) return FALSE; if (priv->offscreen_redirect & CLUTTER_OFFSCREEN_REDIRECT_ALWAYS) return TRUE; else if (priv->offscreen_redirect & CLUTTER_OFFSCREEN_REDIRECT_AUTOMATIC_FOR_OPACITY) { if (clutter_actor_get_paint_opacity (self) < 255 && clutter_actor_has_overlaps (self)) return TRUE; } return FALSE; } static void add_or_remove_flatten_effect (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; /* Add or remove the flatten effect depending on the offscreen-redirect property. */ if (needs_flatten_effect (self)) { if (priv->flatten_effect == NULL) { ClutterActorMeta *actor_meta; gint priority; priv->flatten_effect = _clutter_flatten_effect_new (); /* Keep a reference to the effect so that we can queue redraws from it */ g_object_ref_sink (priv->flatten_effect); /* Set the priority of the effect to high so that it will always be applied to the actor first. It uses an internal priority so that it won't be visible to applications */ actor_meta = CLUTTER_ACTOR_META (priv->flatten_effect); priority = CLUTTER_ACTOR_META_PRIORITY_INTERNAL_HIGH; _clutter_actor_meta_set_priority (actor_meta, priority); /* This will add the effect without queueing a redraw */ _clutter_actor_add_effect_internal (self, priv->flatten_effect); } } else { if (priv->flatten_effect != NULL) { /* Destroy the effect so that it will lose its fbo cache of the actor */ _clutter_actor_remove_effect_internal (self, priv->flatten_effect); g_clear_object (&priv->flatten_effect); } } } static void clutter_actor_real_paint (ClutterActor *actor) { ClutterActorPrivate *priv = actor->priv; ClutterActor *iter; for (iter = priv->first_child; iter != NULL; iter = iter->priv->next_sibling) { CLUTTER_NOTE (PAINT, "Painting %s, child of %s, at { %.2f, %.2f - %.2f x %.2f }", _clutter_actor_get_debug_name (iter), _clutter_actor_get_debug_name (actor), iter->priv->allocation.x1, iter->priv->allocation.y1, iter->priv->allocation.x2 - iter->priv->allocation.x1, iter->priv->allocation.y2 - iter->priv->allocation.y1); clutter_actor_paint (iter); } } static gboolean clutter_actor_paint_node (ClutterActor *actor, ClutterPaintNode *root) { ClutterActorPrivate *priv = actor->priv; ClutterActorBox box; ClutterColor bg_color; if (root == NULL) return FALSE; box.x1 = 0.f; box.y1 = 0.f; box.x2 = clutter_actor_box_get_width (&priv->allocation); box.y2 = clutter_actor_box_get_height (&priv->allocation); bg_color = priv->bg_color; if (CLUTTER_ACTOR_IS_TOPLEVEL (actor)) { ClutterPaintNode *node; CoglFramebuffer *fb; CoglBufferBit clear_flags; fb = _clutter_stage_get_active_framebuffer (CLUTTER_STAGE (actor)); if (clutter_stage_get_use_alpha (CLUTTER_STAGE (actor))) { bg_color.alpha = priv->opacity * priv->bg_color.alpha / 255; } else bg_color.alpha = 255; CLUTTER_NOTE (PAINT, "Stage clear color: (%d, %d, %d, %d)", bg_color.red, bg_color.green, bg_color.blue, bg_color.alpha); clear_flags = COGL_BUFFER_BIT_DEPTH; if (!clutter_stage_get_no_clear_hint (CLUTTER_STAGE (actor))) clear_flags |= COGL_BUFFER_BIT_COLOR; node = _clutter_root_node_new (fb, &bg_color, clear_flags); clutter_paint_node_set_name (node, "stageClear"); clutter_paint_node_add_rectangle (node, &box); clutter_paint_node_add_child (root, node); clutter_paint_node_unref (node); } else if (priv->bg_color_set && !clutter_color_equal (&priv->bg_color, CLUTTER_COLOR_Transparent)) { ClutterPaintNode *node; bg_color.alpha = clutter_actor_get_paint_opacity_internal (actor) * priv->bg_color.alpha / 255; node = clutter_color_node_new (&bg_color); clutter_paint_node_set_name (node, "backgroundColor"); clutter_paint_node_add_rectangle (node, &box); clutter_paint_node_add_child (root, node); clutter_paint_node_unref (node); } if (priv->content != NULL) _clutter_content_paint_content (priv->content, actor, root); if (CLUTTER_ACTOR_GET_CLASS (actor)->paint_node != NULL) CLUTTER_ACTOR_GET_CLASS (actor)->paint_node (actor, root); if (clutter_paint_node_get_n_children (root) == 0) return FALSE; #ifdef CLUTTER_ENABLE_DEBUG if (CLUTTER_HAS_DEBUG (PAINT)) { /* dump the tree only if we have one */ _clutter_paint_node_dump_tree (root); } #endif /* CLUTTER_ENABLE_DEBUG */ _clutter_paint_node_paint (root); return TRUE; } /** * clutter_actor_paint: * @self: A #ClutterActor * * Renders the actor to display. * * This function should not be called directly by applications. * Call clutter_actor_queue_redraw() to queue paints, instead. * * This function is context-aware, and will either cause a * regular paint or a pick paint. * * This function will emit the #ClutterActor::paint signal or * the #ClutterActor::pick signal, depending on the context. * * This function does not paint the actor if the actor is set to 0, * unless it is performing a pick paint. */ void clutter_actor_paint (ClutterActor *self) { ClutterActorPrivate *priv; ClutterPickMode pick_mode; gboolean clip_set = FALSE; gboolean shader_applied = FALSE; ClutterStage *stage; g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) return; priv = self->priv; pick_mode = _clutter_context_get_pick_mode (); if (pick_mode == CLUTTER_PICK_NONE) priv->propagated_one_redraw = FALSE; /* It's an important optimization that we consider painting of * actors with 0 opacity to be a NOP... */ if (pick_mode == CLUTTER_PICK_NONE && /* ignore top-levels, since they might be transparent */ !CLUTTER_ACTOR_IS_TOPLEVEL (self) && /* Use the override opacity if its been set */ ((priv->opacity_override >= 0) ? priv->opacity_override : priv->opacity) == 0) return; /* if we aren't paintable (not in a toplevel with all * parents paintable) then do nothing. */ if (!CLUTTER_ACTOR_IS_MAPPED (self)) return; stage = (ClutterStage *) _clutter_actor_get_stage_internal (self); /* mark that we are in the paint process */ CLUTTER_SET_PRIVATE_FLAGS (self, CLUTTER_IN_PAINT); cogl_push_matrix (); if (priv->enable_model_view_transform) { CoglMatrix matrix; /* XXX: It could be better to cache the modelview with the actor * instead of progressively building up the transformations on * the matrix stack every time we paint. */ cogl_get_modelview_matrix (&matrix); _clutter_actor_apply_modelview_transform (self, &matrix); #ifdef CLUTTER_ENABLE_DEBUG /* Catch when out-of-band transforms have been made by actors not as part * of an apply_transform vfunc... */ if (G_UNLIKELY (clutter_debug_flags & CLUTTER_DEBUG_OOB_TRANSFORMS)) { CoglMatrix expected_matrix; _clutter_actor_get_relative_transformation_matrix (self, NULL, &expected_matrix); if (!cogl_matrix_equal (&matrix, &expected_matrix)) { GString *buf = g_string_sized_new (1024); ClutterActor *parent; parent = self; while (parent != NULL) { g_string_append (buf, _clutter_actor_get_debug_name (parent)); if (parent->priv->parent != NULL) g_string_append (buf, "->"); parent = parent->priv->parent; } g_warning ("Unexpected transform found when painting actor " "\"%s\". This will be caused by one of the actor's " "ancestors (%s) using the Cogl API directly to transform " "children instead of using ::apply_transform().", _clutter_actor_get_debug_name (self), buf->str); g_string_free (buf, TRUE); } } #endif /* CLUTTER_ENABLE_DEBUG */ cogl_set_modelview_matrix (&matrix); } if (priv->has_clip) { CoglFramebuffer *fb = _clutter_stage_get_active_framebuffer (stage); cogl_framebuffer_push_rectangle_clip (fb, priv->clip.origin.x, priv->clip.origin.y, priv->clip.origin.x + priv->clip.size.width, priv->clip.origin.y + priv->clip.size.height); clip_set = TRUE; } else if (priv->clip_to_allocation) { CoglFramebuffer *fb = _clutter_stage_get_active_framebuffer (stage); gfloat width, height; width = priv->allocation.x2 - priv->allocation.x1; height = priv->allocation.y2 - priv->allocation.y1; cogl_framebuffer_push_rectangle_clip (fb, 0, 0, width, height); clip_set = TRUE; } if (pick_mode == CLUTTER_PICK_NONE) { /* We check whether we need to add the flatten effect before each paint so that we can avoid having a mechanism for applications to notify when the value of the has_overlaps virtual changes. */ add_or_remove_flatten_effect (self); } /* We save the current paint volume so that the next time the * actor queues a redraw we can constrain the redraw to just * cover the union of the new bounding box and the old. * * We also fetch the current paint volume to perform culling so * we can avoid painting actors outside the current clip region. * * If we are painting inside a clone, we should neither update * the paint volume or use it to cull painting, since the paint * box represents the location of the source actor on the * screen. * * XXX: We are starting to do a lot of vertex transforms on * the CPU in a typical paint, so at some point we should * audit these and consider caching some things. * * NB: We don't perform culling while picking at this point because * clutter-stage.c doesn't setup the clipping planes appropriately. * * NB: We don't want to update the last-paint-volume during picking * because the last-paint-volume is used to determine the old screen * space location of an actor that has moved so we can know the * minimal region to redraw to clear an old view of the actor. If we * update this during picking then by the time we come around to * paint then the last-paint-volume would likely represent the new * actor position not the old. */ if (!in_clone_paint () && pick_mode == CLUTTER_PICK_NONE) { gboolean success; /* annoyingly gcc warns if uninitialized even though * the initialization is redundant :-( */ ClutterCullResult result = CLUTTER_CULL_RESULT_IN; if (G_LIKELY ((clutter_paint_debug_flags & (CLUTTER_DEBUG_DISABLE_CULLING | CLUTTER_DEBUG_DISABLE_CLIPPED_REDRAWS)) != (CLUTTER_DEBUG_DISABLE_CULLING | CLUTTER_DEBUG_DISABLE_CLIPPED_REDRAWS))) _clutter_actor_update_last_paint_volume (self); success = cull_actor (self, &result); if (G_UNLIKELY (clutter_paint_debug_flags & CLUTTER_DEBUG_REDRAWS)) _clutter_actor_paint_cull_result (self, success, result); else if (result == CLUTTER_CULL_RESULT_OUT && success) goto done; } if (priv->effects == NULL) { if (pick_mode == CLUTTER_PICK_NONE && actor_has_shader_data (self)) { _clutter_actor_shader_pre_paint (self, FALSE); shader_applied = TRUE; } priv->next_effect_to_paint = NULL; } else priv->next_effect_to_paint = _clutter_meta_group_peek_metas (priv->effects); clutter_actor_continue_paint (self); if (shader_applied) _clutter_actor_shader_post_paint (self); if (G_UNLIKELY (clutter_paint_debug_flags & CLUTTER_DEBUG_PAINT_VOLUMES && pick_mode == CLUTTER_PICK_NONE)) _clutter_actor_draw_paint_volume (self); done: /* If we make it here then the actor has run through a complete paint run including all the effects so it's no longer dirty */ if (pick_mode == CLUTTER_PICK_NONE) priv->is_dirty = FALSE; if (clip_set) { CoglFramebuffer *fb = _clutter_stage_get_active_framebuffer (stage); cogl_framebuffer_pop_clip (fb); } cogl_pop_matrix (); /* paint sequence complete */ CLUTTER_UNSET_PRIVATE_FLAGS (self, CLUTTER_IN_PAINT); } /** * clutter_actor_continue_paint: * @self: A #ClutterActor * * Run the next stage of the paint sequence. This function should only * be called within the implementation of the ‘run’ virtual of a * #ClutterEffect. It will cause the run method of the next effect to * be applied, or it will paint the actual actor if the current effect * is the last effect in the chain. * * Since: 1.8 */ void clutter_actor_continue_paint (ClutterActor *self) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); /* This should only be called from with in the ‘run’ implementation of a ClutterEffect */ g_return_if_fail (CLUTTER_ACTOR_IN_PAINT (self)); priv = self->priv; /* Skip any effects that are disabled */ while (priv->next_effect_to_paint && !clutter_actor_meta_get_enabled (priv->next_effect_to_paint->data)) priv->next_effect_to_paint = priv->next_effect_to_paint->next; /* If this has come from the last effect then we'll just paint the actual actor */ if (priv->next_effect_to_paint == NULL) { if (_clutter_context_get_pick_mode () == CLUTTER_PICK_NONE) { ClutterPaintNode *dummy; /* XXX - this will go away in 2.0, when we can get rid of this * stuff and switch to a pure retained render tree of PaintNodes * for the entire frame, starting from the Stage; the paint() * virtual function can then be called directly. */ dummy = _clutter_dummy_node_new (self); clutter_paint_node_set_name (dummy, "Root"); /* XXX - for 1.12, we use the return value of paint_node() to * decide whether we should emit the ::paint signal. */ clutter_actor_paint_node (self, dummy); clutter_paint_node_unref (dummy); /* XXX:2.0 - Call the paint() virtual directly */ g_signal_emit (self, actor_signals[PAINT], 0); } else { ClutterColor col = { 0, }; _clutter_id_to_color (_clutter_actor_get_pick_id (self), &col); /* Actor will then paint silhouette of itself in supplied * color. See clutter_stage_get_actor_at_pos() for where * picking is enabled. * * XXX:2.0 - Call the pick() virtual directly */ g_signal_emit (self, actor_signals[PICK], 0, &col); } } else { ClutterEffect *old_current_effect; ClutterEffectPaintFlags run_flags = 0; /* Cache the current effect so that we can put it back before returning */ old_current_effect = priv->current_effect; priv->current_effect = priv->next_effect_to_paint->data; priv->next_effect_to_paint = priv->next_effect_to_paint->next; if (_clutter_context_get_pick_mode () == CLUTTER_PICK_NONE) { if (priv->is_dirty) { /* If there's an effect queued with this redraw then all effects up to that one will be considered dirty. It is expected the queued effect will paint the cached image and not call clutter_actor_continue_paint again (although it should work ok if it does) */ if (priv->effect_to_redraw == NULL || priv->current_effect != priv->effect_to_redraw) run_flags |= CLUTTER_EFFECT_PAINT_ACTOR_DIRTY; } _clutter_effect_paint (priv->current_effect, run_flags); } else { /* We can't determine when an actor has been modified since its last pick so lets just assume it has always been modified */ run_flags |= CLUTTER_EFFECT_PAINT_ACTOR_DIRTY; _clutter_effect_pick (priv->current_effect, run_flags); } priv->current_effect = old_current_effect; } } static void _clutter_actor_stop_transitions (ClutterActor *self) { const ClutterAnimationInfo *info; GHashTableIter iter; gpointer value; info = _clutter_actor_get_animation_info_or_defaults (self); if (info->transitions == NULL) return; g_hash_table_iter_init (&iter, info->transitions); while (g_hash_table_iter_next (&iter, NULL, &value)) { TransitionClosure *closure = value; /* implicit transitions, and automatically managed explicit ones, * should be removed at this point */ if (closure->is_implicit || clutter_transition_get_remove_on_complete (closure->transition)) { g_hash_table_iter_remove (&iter); } else { /* otherwise we stop it, and the transition will be removed * later, either by the actor's destruction or by explicit * removal */ clutter_timeline_stop (CLUTTER_TIMELINE (closure->transition)); } } } static ClutterActorTraverseVisitFlags invalidate_queue_redraw_entry (ClutterActor *self, int depth, gpointer user_data) { ClutterActorPrivate *priv = self->priv; if (priv->queue_redraw_entry != NULL) { _clutter_stage_queue_redraw_entry_invalidate (priv->queue_redraw_entry); priv->queue_redraw_entry = NULL; } return CLUTTER_ACTOR_TRAVERSE_VISIT_CONTINUE; } static inline void remove_child (ClutterActor *self, ClutterActor *child) { ClutterActor *prev_sibling, *next_sibling; prev_sibling = child->priv->prev_sibling; next_sibling = child->priv->next_sibling; if (prev_sibling != NULL) prev_sibling->priv->next_sibling = next_sibling; if (next_sibling != NULL) next_sibling->priv->prev_sibling = prev_sibling; if (self->priv->first_child == child) self->priv->first_child = next_sibling; if (self->priv->last_child == child) self->priv->last_child = prev_sibling; child->priv->parent = NULL; child->priv->prev_sibling = NULL; child->priv->next_sibling = NULL; } typedef enum { REMOVE_CHILD_DESTROY_META = 1 << 0, REMOVE_CHILD_EMIT_PARENT_SET = 1 << 1, REMOVE_CHILD_EMIT_ACTOR_REMOVED = 1 << 2, REMOVE_CHILD_CHECK_STATE = 1 << 3, REMOVE_CHILD_FLUSH_QUEUE = 1 << 4, REMOVE_CHILD_NOTIFY_FIRST_LAST = 1 << 5, REMOVE_CHILD_STOP_TRANSITIONS = 1 << 6, /* default flags for public API */ REMOVE_CHILD_DEFAULT_FLAGS = REMOVE_CHILD_STOP_TRANSITIONS | REMOVE_CHILD_DESTROY_META | REMOVE_CHILD_EMIT_PARENT_SET | REMOVE_CHILD_EMIT_ACTOR_REMOVED | REMOVE_CHILD_CHECK_STATE | REMOVE_CHILD_FLUSH_QUEUE | REMOVE_CHILD_NOTIFY_FIRST_LAST, /* flags for legacy/deprecated API */ REMOVE_CHILD_LEGACY_FLAGS = REMOVE_CHILD_STOP_TRANSITIONS | REMOVE_CHILD_CHECK_STATE | REMOVE_CHILD_FLUSH_QUEUE | REMOVE_CHILD_EMIT_PARENT_SET | REMOVE_CHILD_NOTIFY_FIRST_LAST } ClutterActorRemoveChildFlags; /*< private > * clutter_actor_remove_child_internal: * @self: a #ClutterActor * @child: the child of @self that has to be removed * @flags: control the removal operations * * Removes @child from the list of children of @self. */ static void clutter_actor_remove_child_internal (ClutterActor *self, ClutterActor *child, ClutterActorRemoveChildFlags flags) { ClutterActor *old_first, *old_last; gboolean destroy_meta, emit_parent_set, emit_actor_removed, check_state; gboolean flush_queue; gboolean notify_first_last; gboolean was_mapped; gboolean stop_transitions; GObject *obj; destroy_meta = (flags & REMOVE_CHILD_DESTROY_META) != 0; emit_parent_set = (flags & REMOVE_CHILD_EMIT_PARENT_SET) != 0; emit_actor_removed = (flags & REMOVE_CHILD_EMIT_ACTOR_REMOVED) != 0; check_state = (flags & REMOVE_CHILD_CHECK_STATE) != 0; flush_queue = (flags & REMOVE_CHILD_FLUSH_QUEUE) != 0; notify_first_last = (flags & REMOVE_CHILD_NOTIFY_FIRST_LAST) != 0; stop_transitions = (flags & REMOVE_CHILD_STOP_TRANSITIONS) != 0; obj = G_OBJECT (self); g_object_freeze_notify (obj); if (stop_transitions) _clutter_actor_stop_transitions (child); if (destroy_meta) clutter_container_destroy_child_meta (CLUTTER_CONTAINER (self), child); if (check_state) { was_mapped = CLUTTER_ACTOR_IS_MAPPED (child); /* we need to unrealize *before* we set parent_actor to NULL, * because in an unrealize method actors are dissociating from the * stage, which means they need to be able to * clutter_actor_get_stage(). * * yhis should unmap and unrealize, unless we're reparenting. */ clutter_actor_update_map_state (child, MAP_STATE_MAKE_UNREALIZED); } else was_mapped = FALSE; if (flush_queue) { /* We take this opportunity to invalidate any queue redraw entry * associated with the actor and descendants since we won't be able to * determine the appropriate stage after this. * * we do this after we updated the mapped state because actors might * end up queueing redraws inside their mapped/unmapped virtual * functions, and if we invalidate the redraw entry we could end up * with an inconsistent state and weird memory corruption. see * bugs: * * http://bugzilla.clutter-project.org/show_bug.cgi?id=2621 * https://bugzilla.gnome.org/show_bug.cgi?id=652036 */ _clutter_actor_traverse (child, 0, invalidate_queue_redraw_entry, NULL, NULL); } old_first = self->priv->first_child; old_last = self->priv->last_child; remove_child (self, child); self->priv->n_children -= 1; self->priv->age += 1; /* if the child that got removed was visible and set to * expand then we want to reset the parent's state in * case the child was the only thing that was making it * expand. */ if (CLUTTER_ACTOR_IS_VISIBLE (child) && (child->priv->needs_compute_expand || child->priv->needs_x_expand || child->priv->needs_y_expand)) { clutter_actor_queue_compute_expand (self); } /* clutter_actor_reparent() will emit ::parent-set for us */ if (emit_parent_set && !CLUTTER_ACTOR_IN_REPARENT (child)) g_signal_emit (child, actor_signals[PARENT_SET], 0, self); /* if the child was mapped then we need to relayout ourselves to account * for the removed child */ if (was_mapped) clutter_actor_queue_relayout (self); /* we need to emit the signal before dropping the reference */ if (emit_actor_removed) g_signal_emit_by_name (self, "actor-removed", child); if (notify_first_last) { if (old_first != self->priv->first_child) g_object_notify_by_pspec (obj, obj_props[PROP_FIRST_CHILD]); if (old_last != self->priv->last_child) g_object_notify_by_pspec (obj, obj_props[PROP_LAST_CHILD]); } g_object_thaw_notify (obj); /* remove the reference we acquired in clutter_actor_add_child() */ g_object_unref (child); } static const ClutterTransformInfo default_transform_info = { 0.0, { 0, }, /* rotation-x */ 0.0, { 0, }, /* rotation-y */ 0.0, { 0, }, /* rotation-z */ 1.0, 1.0, 1.0, { 0, }, /* scale */ { 0, }, /* anchor XXX:2.0 - remove*/ CLUTTER_VERTEX_INIT_ZERO, /* translation */ 0.f, /* z-position */ CLUTTER_POINT_INIT_ZERO, /* pivot */ 0.f, /* pivot-z */ CLUTTER_MATRIX_INIT_IDENTITY, FALSE, /* transform */ CLUTTER_MATRIX_INIT_IDENTITY, FALSE, /* child-transform */ }; /*< private > * _clutter_actor_get_transform_info_or_defaults: * @self: a #ClutterActor * * Retrieves the ClutterTransformInfo structure associated to an actor. * * If the actor does not have a ClutterTransformInfo structure associated * to it, then the default structure will be returned. * * This function should only be used for getters. * * Return value: a const pointer to the ClutterTransformInfo structure */ const ClutterTransformInfo * _clutter_actor_get_transform_info_or_defaults (ClutterActor *self) { ClutterTransformInfo *info; info = g_object_get_qdata (G_OBJECT (self), quark_actor_transform_info); if (info != NULL) return info; return &default_transform_info; } static void clutter_transform_info_free (gpointer data) { if (data != NULL) g_slice_free (ClutterTransformInfo, data); } /*< private > * _clutter_actor_get_transform_info: * @self: a #ClutterActor * * Retrieves a pointer to the ClutterTransformInfo structure. * * If the actor does not have a ClutterTransformInfo associated to it, one * will be created and initialized to the default values. * * This function should be used for setters. * * For getters, you should use _clutter_actor_get_transform_info_or_defaults() * instead. * * Return value: (transfer none): a pointer to the ClutterTransformInfo * structure */ ClutterTransformInfo * _clutter_actor_get_transform_info (ClutterActor *self) { ClutterTransformInfo *info; info = g_object_get_qdata (G_OBJECT (self), quark_actor_transform_info); if (info == NULL) { info = g_slice_new (ClutterTransformInfo); *info = default_transform_info; g_object_set_qdata_full (G_OBJECT (self), quark_actor_transform_info, info, clutter_transform_info_free); } return info; } static inline void clutter_actor_set_pivot_point_internal (ClutterActor *self, const ClutterPoint *pivot) { ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); info->pivot = *pivot; self->priv->transform_valid = FALSE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_PIVOT_POINT]); clutter_actor_queue_redraw (self); } static inline void clutter_actor_set_pivot_point_z_internal (ClutterActor *self, float pivot_z) { ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); info->pivot_z = pivot_z; self->priv->transform_valid = FALSE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_PIVOT_POINT_Z]); clutter_actor_queue_redraw (self); } /*< private > * clutter_actor_set_translation_internal: * @self: a #ClutterActor * @axis: the axis of the translation to change * @angle: the translation as a value along @axis * * Sets the translation on the given @axis */ static void clutter_actor_set_translation_internal (ClutterActor *self, gfloat value, GParamSpec *pspec) { GObject *obj = G_OBJECT (self); ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); if (pspec == obj_props[PROP_TRANSLATION_X]) info->translation.x = value; else if (pspec == obj_props[PROP_TRANSLATION_Y]) info->translation.y = value; else if (pspec == obj_props[PROP_TRANSLATION_Z]) info->translation.z = value; else g_assert_not_reached (); self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (obj, pspec); } static inline void clutter_actor_set_translation_factor (ClutterActor *self, ClutterRotateAxis axis, gdouble value) { const ClutterTransformInfo *info; const float *translate_p = NULL; GParamSpec *pspec = NULL; info = _clutter_actor_get_transform_info_or_defaults (self); switch (axis) { case CLUTTER_X_AXIS: pspec = obj_props[PROP_TRANSLATION_X]; translate_p = &info->translation.x; break; case CLUTTER_Y_AXIS: pspec = obj_props[PROP_TRANSLATION_Y]; translate_p = &info->translation.y; break; case CLUTTER_Z_AXIS: pspec = obj_props[PROP_TRANSLATION_Z]; translate_p = &info->translation.z; break; } g_assert (pspec != NULL); g_assert (translate_p != NULL); _clutter_actor_create_transition (self, pspec, *translate_p, value); } /** * clutter_actor_set_translation: * @self: a #ClutterActor * @translate_x: the translation along the X axis * @translate_y: the translation along the Y axis * @translate_z: the translation along the Z axis * * Sets an additional translation transformation on a #ClutterActor, * relative to the #ClutterActor:pivot-point. * * Since: 1.12 */ void clutter_actor_set_translation (ClutterActor *self, gfloat translate_x, gfloat translate_y, gfloat translate_z) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_translation_factor (self, CLUTTER_X_AXIS, translate_x); clutter_actor_set_translation_factor (self, CLUTTER_Y_AXIS, translate_y); clutter_actor_set_translation_factor (self, CLUTTER_Z_AXIS, translate_z); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_get_translation: * @self: a #ClutterActor * @translate_x: (out) (allow-none): return location for the X component * of the translation, or %NULL * @translate_y: (out) (allow-none): return location for the Y component * of the translation, or %NULL * @translate_z: (out) (allow-none): return location for the Z component * of the translation, or %NULL * * Retrieves the translation set using clutter_actor_set_translation(). * * Since: 1.12 */ void clutter_actor_get_translation (ClutterActor *self, gfloat *translate_x, gfloat *translate_y, gfloat *translate_z) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); if (translate_x != NULL) *translate_x = info->translation.x; if (translate_y != NULL) *translate_y = info->translation.y; if (translate_z != NULL) *translate_z = info->translation.z; } /*< private > * clutter_actor_set_rotation_angle_internal: * @self: a #ClutterActor * @angle: the angle of rotation * @pspec: the #GParamSpec of the property * * Sets the rotation angle on the given axis without affecting the * rotation center point. */ static inline void clutter_actor_set_rotation_angle_internal (ClutterActor *self, gdouble angle, GParamSpec *pspec) { ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); if (pspec == obj_props[PROP_ROTATION_ANGLE_X]) info->rx_angle = angle; else if (pspec == obj_props[PROP_ROTATION_ANGLE_Y]) info->ry_angle = angle; else if (pspec == obj_props[PROP_ROTATION_ANGLE_Z]) info->rz_angle = angle; else g_assert_not_reached (); self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), pspec); } /** * clutter_actor_set_rotation_angle: * @self: a #ClutterActor * @axis: the axis to set the angle one * @angle: the angle of rotation, in degrees * * Sets the @angle of rotation of a #ClutterActor on the given @axis. * * This function is a convenience for setting the rotation properties * #ClutterActor:rotation-angle-x, #ClutterActor:rotation-angle-y, * and #ClutterActor:rotation-angle-z. * * The center of rotation is established by the #ClutterActor:pivot-point * property. * * Since: 1.12 */ void clutter_actor_set_rotation_angle (ClutterActor *self, ClutterRotateAxis axis, gdouble angle) { const ClutterTransformInfo *info; const double *cur_angle_p = NULL; GParamSpec *pspec = NULL; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); switch (axis) { case CLUTTER_X_AXIS: cur_angle_p = &info->rx_angle; pspec = obj_props[PROP_ROTATION_ANGLE_X]; break; case CLUTTER_Y_AXIS: cur_angle_p = &info->ry_angle; pspec = obj_props[PROP_ROTATION_ANGLE_Y]; break; case CLUTTER_Z_AXIS: cur_angle_p = &info->rz_angle; pspec = obj_props[PROP_ROTATION_ANGLE_Z]; break; } g_assert (pspec != NULL); g_assert (cur_angle_p != NULL); _clutter_actor_create_transition (self, pspec, *cur_angle_p, angle); } /** * clutter_actor_get_rotation_angle: * @self: a #ClutterActor * @axis: the axis of the rotation * * Retrieves the angle of rotation set by clutter_actor_set_rotation_angle(). * * Return value: the angle of rotation, in degrees * * Since: 1.12 */ gdouble clutter_actor_get_rotation_angle (ClutterActor *self, ClutterRotateAxis axis) { const ClutterTransformInfo *info; gdouble retval; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.0); info = _clutter_actor_get_transform_info_or_defaults (self); switch (axis) { case CLUTTER_X_AXIS: retval = info->rx_angle; break; case CLUTTER_Y_AXIS: retval = info->ry_angle; break; case CLUTTER_Z_AXIS: retval = info->rz_angle; break; default: g_warn_if_reached (); retval = 0.0; break; } return retval; } /*< private > * clutter_actor_set_rotation_center_internal: * @self: a #ClutterActor * @axis: the axis of the center to change * @center: the coordinates of the rotation center * * Sets the rotation center on the given axis without affecting the * rotation angle. */ static inline void clutter_actor_set_rotation_center_internal (ClutterActor *self, ClutterRotateAxis axis, const ClutterVertex *center) { ClutterVertex v = CLUTTER_VERTEX_INIT_ZERO; GObject *obj = G_OBJECT (self); ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); if (center != NULL) v = *center; g_object_freeze_notify (obj); switch (axis) { case CLUTTER_X_AXIS: clutter_anchor_coord_set_units (&info->rx_center, v.x, v.y, v.z); g_object_notify_by_pspec (obj, obj_props[PROP_ROTATION_CENTER_X]); break; case CLUTTER_Y_AXIS: clutter_anchor_coord_set_units (&info->ry_center, v.x, v.y, v.z); g_object_notify_by_pspec (obj, obj_props[PROP_ROTATION_CENTER_Y]); break; case CLUTTER_Z_AXIS: /* if the previously set rotation center was fractional, then * setting explicit coordinates will have to notify the * :rotation-center-z-gravity property as well */ if (info->rz_center.is_fractional) g_object_notify_by_pspec (obj, obj_props[PROP_ROTATION_CENTER_Z_GRAVITY]); clutter_anchor_coord_set_units (&info->rz_center, v.x, v.y, v.z); g_object_notify_by_pspec (obj, obj_props[PROP_ROTATION_CENTER_Z]); break; } self->priv->transform_valid = FALSE; g_object_thaw_notify (obj); clutter_actor_queue_redraw (self); } static void clutter_actor_set_scale_factor_internal (ClutterActor *self, double factor, GParamSpec *pspec) { GObject *obj = G_OBJECT (self); ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); if (pspec == obj_props[PROP_SCALE_X]) info->scale_x = factor; else if (pspec == obj_props[PROP_SCALE_Y]) info->scale_y = factor; else if (pspec == obj_props[PROP_SCALE_Z]) info->scale_z = factor; else g_assert_not_reached (); self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (obj, pspec); } static inline void clutter_actor_set_scale_factor (ClutterActor *self, ClutterRotateAxis axis, gdouble factor) { const ClutterTransformInfo *info; const double *scale_p = NULL; GParamSpec *pspec = NULL; info = _clutter_actor_get_transform_info_or_defaults (self); switch (axis) { case CLUTTER_X_AXIS: pspec = obj_props[PROP_SCALE_X]; scale_p = &info->scale_x; break; case CLUTTER_Y_AXIS: pspec = obj_props[PROP_SCALE_Y]; scale_p = &info->scale_y; break; case CLUTTER_Z_AXIS: pspec = obj_props[PROP_SCALE_Z]; scale_p = &info->scale_z; break; } g_assert (pspec != NULL); g_assert (scale_p != NULL); _clutter_actor_create_transition (self, pspec, *scale_p, factor); } static inline void clutter_actor_set_scale_center (ClutterActor *self, ClutterRotateAxis axis, gfloat coord) { GObject *obj = G_OBJECT (self); ClutterTransformInfo *info; gfloat center_x, center_y; info = _clutter_actor_get_transform_info (self); g_object_freeze_notify (obj); /* get the current scale center coordinates */ clutter_anchor_coord_get_units (self, &info->scale_center, ¢er_x, ¢er_y, NULL); /* we need to notify this too, because setting explicit coordinates will * change the gravity as a side effect */ if (info->scale_center.is_fractional) g_object_notify_by_pspec (obj, obj_props[PROP_SCALE_GRAVITY]); switch (axis) { case CLUTTER_X_AXIS: clutter_anchor_coord_set_units (&info->scale_center, coord, center_y, 0); g_object_notify_by_pspec (obj, obj_props[PROP_SCALE_CENTER_X]); break; case CLUTTER_Y_AXIS: clutter_anchor_coord_set_units (&info->scale_center, center_x, coord, 0); g_object_notify_by_pspec (obj, obj_props[PROP_SCALE_CENTER_Y]); break; default: g_assert_not_reached (); } self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_thaw_notify (obj); } static inline void clutter_actor_set_scale_gravity (ClutterActor *self, ClutterGravity gravity) { ClutterTransformInfo *info; GObject *obj; info = _clutter_actor_get_transform_info (self); obj = G_OBJECT (self); if (gravity == CLUTTER_GRAVITY_NONE) clutter_anchor_coord_set_units (&info->scale_center, 0, 0, 0); else clutter_anchor_coord_set_gravity (&info->scale_center, gravity); self->priv->transform_valid = FALSE; g_object_notify_by_pspec (obj, obj_props[PROP_SCALE_CENTER_X]); g_object_notify_by_pspec (obj, obj_props[PROP_SCALE_CENTER_Y]); g_object_notify_by_pspec (obj, obj_props[PROP_SCALE_GRAVITY]); clutter_actor_queue_redraw (self); } /* XXX:2.0 - remove */ static inline void clutter_actor_set_anchor_coord (ClutterActor *self, ClutterRotateAxis axis, gfloat coord) { GObject *obj = G_OBJECT (self); ClutterTransformInfo *info; gfloat anchor_x, anchor_y; info = _clutter_actor_get_transform_info (self); g_object_freeze_notify (obj); clutter_anchor_coord_get_units (self, &info->anchor, &anchor_x, &anchor_y, NULL); if (info->anchor.is_fractional) g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_GRAVITY]); switch (axis) { case CLUTTER_X_AXIS: clutter_anchor_coord_set_units (&info->anchor, coord, anchor_y, 0.0); g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_X]); break; case CLUTTER_Y_AXIS: clutter_anchor_coord_set_units (&info->anchor, anchor_x, coord, 0.0); g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_Y]); break; default: g_assert_not_reached (); } self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_thaw_notify (obj); } static void clutter_actor_set_clip_rect (ClutterActor *self, const ClutterRect *clip) { ClutterActorPrivate *priv = self->priv; GObject *obj = G_OBJECT (self); if (clip != NULL) { priv->clip = *clip; priv->has_clip = TRUE; } else priv->has_clip = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (obj, obj_props[PROP_CLIP]); /* XXX:2.0 - remove */ g_object_notify_by_pspec (obj, obj_props[PROP_CLIP_RECT]); g_object_notify_by_pspec (obj, obj_props[PROP_HAS_CLIP]); } static void clutter_actor_set_property (GObject *object, guint prop_id, const GValue *value, GParamSpec *pspec) { ClutterActor *actor = CLUTTER_ACTOR (object); ClutterActorPrivate *priv = actor->priv; switch (prop_id) { case PROP_X: clutter_actor_set_x (actor, g_value_get_float (value)); break; case PROP_Y: clutter_actor_set_y (actor, g_value_get_float (value)); break; case PROP_POSITION: { const ClutterPoint *pos = g_value_get_boxed (value); if (pos != NULL) clutter_actor_set_position (actor, pos->x, pos->y); else clutter_actor_set_fixed_position_set (actor, FALSE); } break; case PROP_WIDTH: clutter_actor_set_width (actor, g_value_get_float (value)); break; case PROP_HEIGHT: clutter_actor_set_height (actor, g_value_get_float (value)); break; case PROP_SIZE: { const ClutterSize *size = g_value_get_boxed (value); if (size != NULL) clutter_actor_set_size (actor, size->width, size->height); else clutter_actor_set_size (actor, -1, -1); } break; case PROP_FIXED_X: clutter_actor_set_x (actor, g_value_get_float (value)); break; case PROP_FIXED_Y: clutter_actor_set_y (actor, g_value_get_float (value)); break; case PROP_FIXED_POSITION_SET: clutter_actor_set_fixed_position_set (actor, g_value_get_boolean (value)); break; case PROP_MIN_WIDTH: clutter_actor_set_min_width (actor, g_value_get_float (value)); break; case PROP_MIN_HEIGHT: clutter_actor_set_min_height (actor, g_value_get_float (value)); break; case PROP_NATURAL_WIDTH: clutter_actor_set_natural_width (actor, g_value_get_float (value)); break; case PROP_NATURAL_HEIGHT: clutter_actor_set_natural_height (actor, g_value_get_float (value)); break; case PROP_MIN_WIDTH_SET: clutter_actor_set_min_width_set (actor, g_value_get_boolean (value)); break; case PROP_MIN_HEIGHT_SET: clutter_actor_set_min_height_set (actor, g_value_get_boolean (value)); break; case PROP_NATURAL_WIDTH_SET: clutter_actor_set_natural_width_set (actor, g_value_get_boolean (value)); break; case PROP_NATURAL_HEIGHT_SET: clutter_actor_set_natural_height_set (actor, g_value_get_boolean (value)); break; case PROP_REQUEST_MODE: clutter_actor_set_request_mode (actor, g_value_get_enum (value)); break; case PROP_DEPTH: /* XXX:2.0 - remove */ clutter_actor_set_depth (actor, g_value_get_float (value)); break; case PROP_Z_POSITION: clutter_actor_set_z_position (actor, g_value_get_float (value)); break; case PROP_OPACITY: clutter_actor_set_opacity (actor, g_value_get_uint (value)); break; case PROP_OFFSCREEN_REDIRECT: clutter_actor_set_offscreen_redirect (actor, g_value_get_enum (value)); break; case PROP_NAME: clutter_actor_set_name (actor, g_value_get_string (value)); break; case PROP_VISIBLE: if (g_value_get_boolean (value) == TRUE) clutter_actor_show (actor); else clutter_actor_hide (actor); break; case PROP_PIVOT_POINT: { const ClutterPoint *pivot = g_value_get_boxed (value); if (pivot == NULL) pivot = clutter_point_zero (); clutter_actor_set_pivot_point (actor, pivot->x, pivot->y); } break; case PROP_PIVOT_POINT_Z: clutter_actor_set_pivot_point_z (actor, g_value_get_float (value)); break; case PROP_TRANSLATION_X: clutter_actor_set_translation_factor (actor, CLUTTER_X_AXIS, g_value_get_float (value)); break; case PROP_TRANSLATION_Y: clutter_actor_set_translation_factor (actor, CLUTTER_Y_AXIS, g_value_get_float (value)); break; case PROP_TRANSLATION_Z: clutter_actor_set_translation_factor (actor, CLUTTER_Z_AXIS, g_value_get_float (value)); break; case PROP_SCALE_X: clutter_actor_set_scale_factor (actor, CLUTTER_X_AXIS, g_value_get_double (value)); break; case PROP_SCALE_Y: clutter_actor_set_scale_factor (actor, CLUTTER_Y_AXIS, g_value_get_double (value)); break; case PROP_SCALE_Z: clutter_actor_set_scale_factor (actor, CLUTTER_Z_AXIS, g_value_get_double (value)); break; case PROP_SCALE_CENTER_X: /* XXX:2.0 - remove */ clutter_actor_set_scale_center (actor, CLUTTER_X_AXIS, g_value_get_float (value)); break; case PROP_SCALE_CENTER_Y: /* XXX:2.0 - remove */ clutter_actor_set_scale_center (actor, CLUTTER_Y_AXIS, g_value_get_float (value)); break; case PROP_SCALE_GRAVITY: /* XXX:2.0 - remove */ clutter_actor_set_scale_gravity (actor, g_value_get_enum (value)); break; case PROP_CLIP: /* XXX:2.0 - remove */ { const ClutterGeometry *geom = g_value_get_boxed (value); clutter_actor_set_clip (actor, geom->x, geom->y, geom->width, geom->height); } break; case PROP_CLIP_RECT: clutter_actor_set_clip_rect (actor, g_value_get_boxed (value)); break; case PROP_CLIP_TO_ALLOCATION: clutter_actor_set_clip_to_allocation (actor, g_value_get_boolean (value)); break; case PROP_REACTIVE: clutter_actor_set_reactive (actor, g_value_get_boolean (value)); break; case PROP_ROTATION_ANGLE_X: clutter_actor_set_rotation_angle (actor, CLUTTER_X_AXIS, g_value_get_double (value)); break; case PROP_ROTATION_ANGLE_Y: clutter_actor_set_rotation_angle (actor, CLUTTER_Y_AXIS, g_value_get_double (value)); break; case PROP_ROTATION_ANGLE_Z: clutter_actor_set_rotation_angle (actor, CLUTTER_Z_AXIS, g_value_get_double (value)); break; case PROP_ROTATION_CENTER_X: /* XXX:2.0 - remove */ clutter_actor_set_rotation_center_internal (actor, CLUTTER_X_AXIS, g_value_get_boxed (value)); break; case PROP_ROTATION_CENTER_Y: /* XXX:2.0 - remove */ clutter_actor_set_rotation_center_internal (actor, CLUTTER_Y_AXIS, g_value_get_boxed (value)); break; case PROP_ROTATION_CENTER_Z: /* XXX:2.0 - remove */ clutter_actor_set_rotation_center_internal (actor, CLUTTER_Z_AXIS, g_value_get_boxed (value)); break; case PROP_ROTATION_CENTER_Z_GRAVITY: /* XXX:2.0 - remove */ { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); clutter_actor_set_z_rotation_from_gravity (actor, info->rz_angle, g_value_get_enum (value)); } break; case PROP_ANCHOR_X: /* XXX:2.0 - remove */ clutter_actor_set_anchor_coord (actor, CLUTTER_X_AXIS, g_value_get_float (value)); break; case PROP_ANCHOR_Y: /* XXX:2.0 - remove */ clutter_actor_set_anchor_coord (actor, CLUTTER_Y_AXIS, g_value_get_float (value)); break; case PROP_ANCHOR_GRAVITY: /* XXX:2.0 - remove */ clutter_actor_set_anchor_point_from_gravity (actor, g_value_get_enum (value)); break; case PROP_TRANSFORM: clutter_actor_set_transform (actor, g_value_get_boxed (value)); break; case PROP_CHILD_TRANSFORM: clutter_actor_set_child_transform (actor, g_value_get_boxed (value)); break; case PROP_SHOW_ON_SET_PARENT: /* XXX:2.0 - remove */ priv->show_on_set_parent = g_value_get_boolean (value); break; case PROP_TEXT_DIRECTION: clutter_actor_set_text_direction (actor, g_value_get_enum (value)); break; case PROP_ACTIONS: clutter_actor_add_action (actor, g_value_get_object (value)); break; case PROP_CONSTRAINTS: clutter_actor_add_constraint (actor, g_value_get_object (value)); break; case PROP_EFFECT: clutter_actor_add_effect (actor, g_value_get_object (value)); break; case PROP_LAYOUT_MANAGER: clutter_actor_set_layout_manager (actor, g_value_get_object (value)); break; case PROP_X_EXPAND: clutter_actor_set_x_expand (actor, g_value_get_boolean (value)); break; case PROP_Y_EXPAND: clutter_actor_set_y_expand (actor, g_value_get_boolean (value)); break; case PROP_X_ALIGN: clutter_actor_set_x_align (actor, g_value_get_enum (value)); break; case PROP_Y_ALIGN: clutter_actor_set_y_align (actor, g_value_get_enum (value)); break; case PROP_MARGIN_TOP: clutter_actor_set_margin_top (actor, g_value_get_float (value)); break; case PROP_MARGIN_BOTTOM: clutter_actor_set_margin_bottom (actor, g_value_get_float (value)); break; case PROP_MARGIN_LEFT: clutter_actor_set_margin_left (actor, g_value_get_float (value)); break; case PROP_MARGIN_RIGHT: clutter_actor_set_margin_right (actor, g_value_get_float (value)); break; case PROP_BACKGROUND_COLOR: clutter_actor_set_background_color (actor, g_value_get_boxed (value)); break; case PROP_CONTENT: clutter_actor_set_content (actor, g_value_get_object (value)); break; case PROP_CONTENT_GRAVITY: clutter_actor_set_content_gravity (actor, g_value_get_enum (value)); break; case PROP_MINIFICATION_FILTER: clutter_actor_set_content_scaling_filters (actor, g_value_get_enum (value), actor->priv->mag_filter); break; case PROP_MAGNIFICATION_FILTER: clutter_actor_set_content_scaling_filters (actor, actor->priv->min_filter, g_value_get_enum (value)); break; case PROP_CONTENT_REPEAT: clutter_actor_set_content_repeat (actor, g_value_get_flags (value)); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } static void clutter_actor_get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec) { ClutterActor *actor = CLUTTER_ACTOR (object); ClutterActorPrivate *priv = actor->priv; switch (prop_id) { case PROP_X: g_value_set_float (value, clutter_actor_get_x (actor)); break; case PROP_Y: g_value_set_float (value, clutter_actor_get_y (actor)); break; case PROP_POSITION: { ClutterPoint position; clutter_point_init (&position, clutter_actor_get_x (actor), clutter_actor_get_y (actor)); g_value_set_boxed (value, &position); } break; case PROP_WIDTH: g_value_set_float (value, clutter_actor_get_width (actor)); break; case PROP_HEIGHT: g_value_set_float (value, clutter_actor_get_height (actor)); break; case PROP_SIZE: { ClutterSize size; clutter_size_init (&size, clutter_actor_get_width (actor), clutter_actor_get_height (actor)); g_value_set_boxed (value, &size); } break; case PROP_FIXED_X: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->fixed_pos.x); } break; case PROP_FIXED_Y: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->fixed_pos.y); } break; case PROP_FIXED_POSITION_SET: g_value_set_boolean (value, priv->position_set); break; case PROP_MIN_WIDTH: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->minimum.width); } break; case PROP_MIN_HEIGHT: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->minimum.height); } break; case PROP_NATURAL_WIDTH: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->natural.width); } break; case PROP_NATURAL_HEIGHT: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->natural.height); } break; case PROP_MIN_WIDTH_SET: g_value_set_boolean (value, priv->min_width_set); break; case PROP_MIN_HEIGHT_SET: g_value_set_boolean (value, priv->min_height_set); break; case PROP_NATURAL_WIDTH_SET: g_value_set_boolean (value, priv->natural_width_set); break; case PROP_NATURAL_HEIGHT_SET: g_value_set_boolean (value, priv->natural_height_set); break; case PROP_REQUEST_MODE: g_value_set_enum (value, priv->request_mode); break; case PROP_ALLOCATION: g_value_set_boxed (value, &priv->allocation); break; case PROP_DEPTH: /* XXX:2.0 - remove */ g_value_set_float (value, clutter_actor_get_depth (actor)); break; case PROP_Z_POSITION: g_value_set_float (value, clutter_actor_get_z_position (actor)); break; case PROP_OPACITY: g_value_set_uint (value, priv->opacity); break; case PROP_OFFSCREEN_REDIRECT: g_value_set_flags (value, priv->offscreen_redirect); break; case PROP_NAME: g_value_set_string (value, priv->name); break; case PROP_VISIBLE: g_value_set_boolean (value, CLUTTER_ACTOR_IS_VISIBLE (actor)); break; case PROP_MAPPED: g_value_set_boolean (value, CLUTTER_ACTOR_IS_MAPPED (actor)); break; case PROP_REALIZED: g_value_set_boolean (value, CLUTTER_ACTOR_IS_REALIZED (actor)); break; case PROP_HAS_CLIP: g_value_set_boolean (value, priv->has_clip); break; case PROP_CLIP: /* XXX:2.0 - remove */ { ClutterGeometry clip; clip.x = CLUTTER_NEARBYINT (priv->clip.origin.x); clip.y = CLUTTER_NEARBYINT (priv->clip.origin.y); clip.width = CLUTTER_NEARBYINT (priv->clip.size.width); clip.height = CLUTTER_NEARBYINT (priv->clip.size.height); g_value_set_boxed (value, &clip); } break; case PROP_CLIP_RECT: g_value_set_boxed (value, &priv->clip); break; case PROP_CLIP_TO_ALLOCATION: g_value_set_boolean (value, priv->clip_to_allocation); break; case PROP_PIVOT_POINT: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_boxed (value, &info->pivot); } break; case PROP_PIVOT_POINT_Z: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_float (value, info->pivot_z); } break; case PROP_TRANSLATION_X: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_float (value, info->translation.x); } break; case PROP_TRANSLATION_Y: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_float (value, info->translation.y); } break; case PROP_TRANSLATION_Z: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_float (value, info->translation.z); } break; case PROP_SCALE_X: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_double (value, info->scale_x); } break; case PROP_SCALE_Y: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_double (value, info->scale_y); } break; case PROP_SCALE_Z: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_double (value, info->scale_z); } break; case PROP_SCALE_CENTER_X: /* XXX:2.0 - remove */ { gfloat center; clutter_actor_get_scale_center (actor, ¢er, NULL); g_value_set_float (value, center); } break; case PROP_SCALE_CENTER_Y: /* XXX:2.0 - remove */ { gfloat center; clutter_actor_get_scale_center (actor, NULL, ¢er); g_value_set_float (value, center); } break; case PROP_SCALE_GRAVITY: /* XXX:2.0 - remove */ g_value_set_enum (value, clutter_actor_get_scale_gravity (actor)); break; case PROP_REACTIVE: g_value_set_boolean (value, clutter_actor_get_reactive (actor)); break; case PROP_ROTATION_ANGLE_X: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_double (value, info->rx_angle); } break; case PROP_ROTATION_ANGLE_Y: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_double (value, info->ry_angle); } break; case PROP_ROTATION_ANGLE_Z: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_double (value, info->rz_angle); } break; case PROP_ROTATION_CENTER_X: /* XXX:2.0 - remove */ { ClutterVertex center; clutter_actor_get_rotation (actor, CLUTTER_X_AXIS, ¢er.x, ¢er.y, ¢er.z); g_value_set_boxed (value, ¢er); } break; case PROP_ROTATION_CENTER_Y: /* XXX:2.0 - remove */ { ClutterVertex center; clutter_actor_get_rotation (actor, CLUTTER_Y_AXIS, ¢er.x, ¢er.y, ¢er.z); g_value_set_boxed (value, ¢er); } break; case PROP_ROTATION_CENTER_Z: /* XXX:2.0 - remove */ { ClutterVertex center; clutter_actor_get_rotation (actor, CLUTTER_Z_AXIS, ¢er.x, ¢er.y, ¢er.z); g_value_set_boxed (value, ¢er); } break; case PROP_ROTATION_CENTER_Z_GRAVITY: /* XXX:2.0 - remove */ g_value_set_enum (value, clutter_actor_get_z_rotation_gravity (actor)); break; case PROP_ANCHOR_X: /* XXX:2.0 - remove */ { const ClutterTransformInfo *info; gfloat anchor_x; info = _clutter_actor_get_transform_info_or_defaults (actor); clutter_anchor_coord_get_units (actor, &info->anchor, &anchor_x, NULL, NULL); g_value_set_float (value, anchor_x); } break; case PROP_ANCHOR_Y: /* XXX:2.0 - remove */ { const ClutterTransformInfo *info; gfloat anchor_y; info = _clutter_actor_get_transform_info_or_defaults (actor); clutter_anchor_coord_get_units (actor, &info->anchor, NULL, &anchor_y, NULL); g_value_set_float (value, anchor_y); } break; case PROP_ANCHOR_GRAVITY: /* XXX:2.0 - remove */ g_value_set_enum (value, clutter_actor_get_anchor_point_gravity (actor)); break; case PROP_TRANSFORM: { ClutterMatrix m; clutter_actor_get_transform (actor, &m); g_value_set_boxed (value, &m); } break; case PROP_TRANSFORM_SET: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_boolean (value, info->transform_set); } break; case PROP_CHILD_TRANSFORM: { ClutterMatrix m; clutter_actor_get_child_transform (actor, &m); g_value_set_boxed (value, &m); } break; case PROP_CHILD_TRANSFORM_SET: { const ClutterTransformInfo *info; info = _clutter_actor_get_transform_info_or_defaults (actor); g_value_set_boolean (value, info->child_transform_set); } break; case PROP_SHOW_ON_SET_PARENT: /* XXX:2.0 - remove */ g_value_set_boolean (value, priv->show_on_set_parent); break; case PROP_TEXT_DIRECTION: g_value_set_enum (value, priv->text_direction); break; case PROP_HAS_POINTER: g_value_set_boolean (value, priv->has_pointer); break; case PROP_LAYOUT_MANAGER: g_value_set_object (value, priv->layout_manager); break; case PROP_X_EXPAND: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_boolean (value, info->x_expand); } break; case PROP_Y_EXPAND: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_boolean (value, info->y_expand); } break; case PROP_X_ALIGN: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_enum (value, info->x_align); } break; case PROP_Y_ALIGN: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_enum (value, info->y_align); } break; case PROP_MARGIN_TOP: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->margin.top); } break; case PROP_MARGIN_BOTTOM: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->margin.bottom); } break; case PROP_MARGIN_LEFT: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->margin.left); } break; case PROP_MARGIN_RIGHT: { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (actor); g_value_set_float (value, info->margin.right); } break; case PROP_BACKGROUND_COLOR_SET: g_value_set_boolean (value, priv->bg_color_set); break; case PROP_BACKGROUND_COLOR: g_value_set_boxed (value, &priv->bg_color); break; case PROP_FIRST_CHILD: g_value_set_object (value, priv->first_child); break; case PROP_LAST_CHILD: g_value_set_object (value, priv->last_child); break; case PROP_CONTENT: g_value_set_object (value, priv->content); break; case PROP_CONTENT_GRAVITY: g_value_set_enum (value, priv->content_gravity); break; case PROP_CONTENT_BOX: { ClutterActorBox box = { 0, }; clutter_actor_get_content_box (actor, &box); g_value_set_boxed (value, &box); } break; case PROP_MINIFICATION_FILTER: g_value_set_enum (value, priv->min_filter); break; case PROP_MAGNIFICATION_FILTER: g_value_set_enum (value, priv->mag_filter); break; case PROP_CONTENT_REPEAT: g_value_set_flags (value, priv->content_repeat); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } } static void clutter_actor_dispose (GObject *object) { ClutterActor *self = CLUTTER_ACTOR (object); ClutterActorPrivate *priv = self->priv; CLUTTER_NOTE (MISC, "Dispose actor (name='%s', ref_count:%d) of type '%s'", _clutter_actor_get_debug_name (self), object->ref_count, g_type_name (G_OBJECT_TYPE (self))); g_signal_emit (self, actor_signals[DESTROY], 0); /* avoid recursing when called from clutter_actor_destroy() */ if (priv->parent != NULL) { ClutterActor *parent = priv->parent; /* go through the Container implementation unless this * is an internal child and has been marked as such. * * removing the actor from its parent will reset the * realized and mapped states. */ if (!CLUTTER_ACTOR_IS_INTERNAL_CHILD (self)) clutter_container_remove_actor (CLUTTER_CONTAINER (parent), self); else clutter_actor_remove_child_internal (parent, self, REMOVE_CHILD_LEGACY_FLAGS); } /* parent must be gone at this point */ g_assert (priv->parent == NULL); if (!CLUTTER_ACTOR_IS_TOPLEVEL (self)) { /* can't be mapped or realized with no parent */ g_assert (!CLUTTER_ACTOR_IS_MAPPED (self)); g_assert (!CLUTTER_ACTOR_IS_REALIZED (self)); } g_clear_object (&priv->pango_context); g_clear_object (&priv->actions); g_clear_object (&priv->constraints); g_clear_object (&priv->effects); g_clear_object (&priv->flatten_effect); if (priv->layout_manager != NULL) { clutter_layout_manager_set_container (priv->layout_manager, NULL); g_clear_object (&priv->layout_manager); } if (priv->content != NULL) { _clutter_content_detached (priv->content, self); g_clear_object (&priv->content); } if (priv->clones != NULL) { g_hash_table_unref (priv->clones); priv->clones = NULL; } G_OBJECT_CLASS (clutter_actor_parent_class)->dispose (object); } static void clutter_actor_finalize (GObject *object) { ClutterActorPrivate *priv = CLUTTER_ACTOR (object)->priv; CLUTTER_NOTE (MISC, "Finalize actor (name='%s') of type '%s'", _clutter_actor_get_debug_name ((ClutterActor *) object), g_type_name (G_OBJECT_TYPE (object))); g_free (priv->name); #ifdef CLUTTER_ENABLE_DEBUG g_free (priv->debug_name); #endif G_OBJECT_CLASS (clutter_actor_parent_class)->finalize (object); } /** * clutter_actor_get_accessible: * @self: a #ClutterActor * * Returns the accessible object that describes the actor to an * assistive technology. * * If no class-specific #AtkObject implementation is available for the * actor instance in question, it will inherit an #AtkObject * implementation from the first ancestor class for which such an * implementation is defined. * * The documentation of the ATK * library contains more information about accessible objects and * their uses. * * Returns: (transfer none): the #AtkObject associated with @actor */ AtkObject * clutter_actor_get_accessible (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return CLUTTER_ACTOR_GET_CLASS (self)->get_accessible (self); } static AtkObject * clutter_actor_real_get_accessible (ClutterActor *actor) { return atk_gobject_accessible_for_object (G_OBJECT (actor)); } static AtkObject * _clutter_actor_ref_accessible (AtkImplementor *implementor) { AtkObject *accessible; accessible = clutter_actor_get_accessible (CLUTTER_ACTOR (implementor)); if (accessible != NULL) g_object_ref (accessible); return accessible; } static void atk_implementor_iface_init (AtkImplementorIface *iface) { iface->ref_accessible = _clutter_actor_ref_accessible; } static gboolean clutter_actor_update_default_paint_volume (ClutterActor *self, ClutterPaintVolume *volume) { ClutterActorPrivate *priv = self->priv; gboolean res = TRUE; /* this should be checked before we call this function, but it's a * good idea to be explicit when it costs us nothing */ if (priv->needs_allocation) return FALSE; /* we start from the allocation */ clutter_paint_volume_set_width (volume, priv->allocation.x2 - priv->allocation.x1); clutter_paint_volume_set_height (volume, priv->allocation.y2 - priv->allocation.y1); /* if the actor has a clip set then we have a pretty definite * size for the paint volume: the actor cannot possibly paint * outside the clip region. */ if (priv->clip_to_allocation) { /* the allocation has already been set, so we just flip the * return value */ res = TRUE; } else { ClutterActor *child; if (priv->has_clip && priv->clip.size.width >= 0 && priv->clip.size.height >= 0) { ClutterVertex origin; origin.x = priv->clip.origin.x; origin.y = priv->clip.origin.y; origin.z = 0; clutter_paint_volume_set_origin (volume, &origin); clutter_paint_volume_set_width (volume, priv->clip.size.width); clutter_paint_volume_set_height (volume, priv->clip.size.height); res = TRUE; } /* if we don't have children we just bail out here... */ if (priv->n_children == 0) return res; /* ...but if we have children then we ask for their paint volume in * our coordinates. if any of our children replies that it doesn't * have a paint volume, we bail out */ for (child = priv->first_child; child != NULL; child = child->priv->next_sibling) { const ClutterPaintVolume *child_volume; /* we ignore unmapped children, since they won't be painted. * * XXX: we also have to ignore mapped children without a valid * allocation, because apparently some code above Clutter allows * them. */ if (!CLUTTER_ACTOR_IS_MAPPED (child) || !clutter_actor_has_allocation (child)) continue; child_volume = clutter_actor_get_transformed_paint_volume (child, self); if (child_volume == NULL) { res = FALSE; break; } clutter_paint_volume_union (volume, child_volume); res = TRUE; } } return res; } static gboolean clutter_actor_real_get_paint_volume (ClutterActor *self, ClutterPaintVolume *volume) { ClutterActorClass *klass; gboolean res; klass = CLUTTER_ACTOR_GET_CLASS (self); /* XXX - this thoroughly sucks, but we don't want to penalize users * who use ClutterActor as a "new ClutterGroup" by forcing a full-stage * redraw. This should go away in 2.0. */ if (klass->paint == clutter_actor_real_paint && klass->get_paint_volume == clutter_actor_real_get_paint_volume) { res = TRUE; } else { /* this is the default return value: we cannot know if a class * is going to paint outside its allocation, so we take the * conservative approach. */ res = FALSE; } /* update_default_paint_volume() should only fail if one of the children * reported an invalid, or no, paint volume */ if (!clutter_actor_update_default_paint_volume (self, volume)) return FALSE; return res; } /** * clutter_actor_get_default_paint_volume: * @self: a #ClutterActor * * Retrieves the default paint volume for @self. * * This function provides the same #ClutterPaintVolume that would be * computed by the default implementation inside #ClutterActor of the * #ClutterActorClass.get_paint_volume() virtual function. * * This function should only be used by #ClutterActor subclasses that * cannot chain up to the parent implementation when computing their * paint volume. * * Return value: (transfer none): a pointer to the default * #ClutterPaintVolume, relative to the #ClutterActor, or %NULL if * the actor could not compute a valid paint volume. The returned value * is not guaranteed to be stable across multiple frames, so if you * want to retain it, you will need to copy it using * clutter_paint_volume_copy(). * * Since: 1.10 */ const ClutterPaintVolume * clutter_actor_get_default_paint_volume (ClutterActor *self) { ClutterPaintVolume volume; ClutterPaintVolume *res; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); res = NULL; _clutter_paint_volume_init_static (&volume, self); if (clutter_actor_update_default_paint_volume (self, &volume)) { ClutterActor *stage = _clutter_actor_get_stage_internal (self); if (stage != NULL) { res = _clutter_stage_paint_volume_stack_allocate (CLUTTER_STAGE (stage)); _clutter_paint_volume_copy_static (&volume, res); } } clutter_paint_volume_free (&volume); return res; } static gboolean clutter_actor_real_has_overlaps (ClutterActor *self) { /* By default we'll assume that all actors need an offscreen redirect to get * the correct opacity. Actors such as ClutterTexture that would never need * an offscreen redirect can override this to return FALSE. */ return TRUE; } static void clutter_actor_real_destroy (ClutterActor *actor) { ClutterActorIter iter; g_object_freeze_notify (G_OBJECT (actor)); clutter_actor_iter_init (&iter, actor); while (clutter_actor_iter_next (&iter, NULL)) clutter_actor_iter_destroy (&iter); g_object_thaw_notify (G_OBJECT (actor)); } static GObject * clutter_actor_constructor (GType gtype, guint n_props, GObjectConstructParam *props) { GObjectClass *gobject_class; ClutterActor *self; GObject *retval; gobject_class = G_OBJECT_CLASS (clutter_actor_parent_class); retval = gobject_class->constructor (gtype, n_props, props); self = CLUTTER_ACTOR (retval); if (self->priv->layout_manager == NULL) { ClutterLayoutManager *default_layout; CLUTTER_NOTE (LAYOUT, "Creating default layout manager"); default_layout = clutter_fixed_layout_new (); clutter_actor_set_layout_manager (self, default_layout); } return retval; } static void clutter_actor_class_init (ClutterActorClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); quark_shader_data = g_quark_from_static_string ("-clutter-actor-shader-data"); quark_actor_layout_info = g_quark_from_static_string ("-clutter-actor-layout-info"); quark_actor_transform_info = g_quark_from_static_string ("-clutter-actor-transform-info"); quark_actor_animation_info = g_quark_from_static_string ("-clutter-actor-animation-info"); object_class->constructor = clutter_actor_constructor; object_class->set_property = clutter_actor_set_property; object_class->get_property = clutter_actor_get_property; object_class->dispose = clutter_actor_dispose; object_class->finalize = clutter_actor_finalize; klass->show = clutter_actor_real_show; klass->show_all = clutter_actor_show; klass->hide = clutter_actor_real_hide; klass->hide_all = clutter_actor_hide; klass->map = clutter_actor_real_map; klass->unmap = clutter_actor_real_unmap; klass->unrealize = clutter_actor_real_unrealize; klass->pick = clutter_actor_real_pick; klass->get_preferred_width = clutter_actor_real_get_preferred_width; klass->get_preferred_height = clutter_actor_real_get_preferred_height; klass->allocate = clutter_actor_real_allocate; klass->queue_redraw = clutter_actor_real_queue_redraw; klass->queue_relayout = clutter_actor_real_queue_relayout; klass->apply_transform = clutter_actor_real_apply_transform; klass->get_accessible = clutter_actor_real_get_accessible; klass->get_paint_volume = clutter_actor_real_get_paint_volume; klass->has_overlaps = clutter_actor_real_has_overlaps; klass->paint = clutter_actor_real_paint; klass->destroy = clutter_actor_real_destroy; /** * ClutterActor:x: * * X coordinate of the actor in pixels. If written, forces a fixed * position for the actor. If read, returns the fixed position if any, * otherwise the allocation if available, otherwise 0. * * The #ClutterActor:x property is animatable. */ obj_props[PROP_X] = g_param_spec_float ("x", P_("X coordinate"), P_("X coordinate of the actor"), -G_MAXFLOAT, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:y: * * Y coordinate of the actor in pixels. If written, forces a fixed * position for the actor. If read, returns the fixed position if * any, otherwise the allocation if available, otherwise 0. * * The #ClutterActor:y property is animatable. */ obj_props[PROP_Y] = g_param_spec_float ("y", P_("Y coordinate"), P_("Y coordinate of the actor"), -G_MAXFLOAT, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:position: * * The position of the origin of the actor. * * This property is a shorthand for setting and getting the * #ClutterActor:x and #ClutterActor:y properties at the same * time. * * The #ClutterActor:position property is animatable. * * Since: 1.12 */ obj_props[PROP_POSITION] = g_param_spec_boxed ("position", P_("Position"), P_("The position of the origin of the actor"), CLUTTER_TYPE_POINT, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:width: * * Width of the actor (in pixels). If written, forces the minimum and * natural size request of the actor to the given width. If read, returns * the allocated width if available, otherwise the width request. * * The #ClutterActor:width property is animatable. */ obj_props[PROP_WIDTH] = g_param_spec_float ("width", P_("Width"), P_("Width of the actor"), 0.0, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:height: * * Height of the actor (in pixels). If written, forces the minimum and * natural size request of the actor to the given height. If read, returns * the allocated height if available, otherwise the height request. * * The #ClutterActor:height property is animatable. */ obj_props[PROP_HEIGHT] = g_param_spec_float ("height", P_("Height"), P_("Height of the actor"), 0.0, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:size: * * The size of the actor. * * This property is a shorthand for setting and getting the * #ClutterActor:width and #ClutterActor:height at the same time. * * The #ClutterActor:size property is animatable. * * Since: 1.12 */ obj_props[PROP_SIZE] = g_param_spec_boxed ("size", P_("Size"), P_("The size of the actor"), CLUTTER_TYPE_SIZE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:fixed-x: * * The fixed X position of the actor in pixels. * * Writing this property sets #ClutterActor:fixed-position-set * property as well, as a side effect * * Since: 0.8 */ obj_props[PROP_FIXED_X] = g_param_spec_float ("fixed-x", P_("Fixed X"), P_("Forced X position of the actor"), -G_MAXFLOAT, G_MAXFLOAT, 0.0, CLUTTER_PARAM_READWRITE); /** * ClutterActor:fixed-y: * * The fixed Y position of the actor in pixels. * * Writing this property sets the #ClutterActor:fixed-position-set * property as well, as a side effect * * Since: 0.8 */ obj_props[PROP_FIXED_Y] = g_param_spec_float ("fixed-y", P_("Fixed Y"), P_("Forced Y position of the actor"), -G_MAXFLOAT, G_MAXFLOAT, 0, CLUTTER_PARAM_READWRITE); /** * ClutterActor:fixed-position-set: * * This flag controls whether the #ClutterActor:fixed-x and * #ClutterActor:fixed-y properties are used * * Since: 0.8 */ obj_props[PROP_FIXED_POSITION_SET] = g_param_spec_boolean ("fixed-position-set", P_("Fixed position set"), P_("Whether to use fixed positioning for the actor"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:min-width: * * A forced minimum width request for the actor, in pixels * * Writing this property sets the #ClutterActor:min-width-set property * as well, as a side effect. * *This property overrides the usual width request of the actor. * * Since: 0.8 */ obj_props[PROP_MIN_WIDTH] = g_param_spec_float ("min-width", P_("Min Width"), P_("Forced minimum width request for the actor"), 0.0, G_MAXFLOAT, 0.0, CLUTTER_PARAM_READWRITE); /** * ClutterActor:min-height: * * A forced minimum height request for the actor, in pixels * * Writing this property sets the #ClutterActor:min-height-set property * as well, as a side effect. This property overrides the usual height * request of the actor. * * Since: 0.8 */ obj_props[PROP_MIN_HEIGHT] = g_param_spec_float ("min-height", P_("Min Height"), P_("Forced minimum height request for the actor"), 0.0, G_MAXFLOAT, 0.0, CLUTTER_PARAM_READWRITE); /** * ClutterActor:natural-width: * * A forced natural width request for the actor, in pixels * * Writing this property sets the #ClutterActor:natural-width-set * property as well, as a side effect. This property overrides the * usual width request of the actor * * Since: 0.8 */ obj_props[PROP_NATURAL_WIDTH] = g_param_spec_float ("natural-width", P_("Natural Width"), P_("Forced natural width request for the actor"), 0.0, G_MAXFLOAT, 0.0, CLUTTER_PARAM_READWRITE); /** * ClutterActor:natural-height: * * A forced natural height request for the actor, in pixels * * Writing this property sets the #ClutterActor:natural-height-set * property as well, as a side effect. This property overrides the * usual height request of the actor * * Since: 0.8 */ obj_props[PROP_NATURAL_HEIGHT] = g_param_spec_float ("natural-height", P_("Natural Height"), P_("Forced natural height request for the actor"), 0.0, G_MAXFLOAT, 0.0, CLUTTER_PARAM_READWRITE); /** * ClutterActor:min-width-set: * * This flag controls whether the #ClutterActor:min-width property * is used * * Since: 0.8 */ obj_props[PROP_MIN_WIDTH_SET] = g_param_spec_boolean ("min-width-set", P_("Minimum width set"), P_("Whether to use the min-width property"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:min-height-set: * * This flag controls whether the #ClutterActor:min-height property * is used * * Since: 0.8 */ obj_props[PROP_MIN_HEIGHT_SET] = g_param_spec_boolean ("min-height-set", P_("Minimum height set"), P_("Whether to use the min-height property"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:natural-width-set: * * This flag controls whether the #ClutterActor:natural-width property * is used * * Since: 0.8 */ obj_props[PROP_NATURAL_WIDTH_SET] = g_param_spec_boolean ("natural-width-set", P_("Natural width set"), P_("Whether to use the natural-width property"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:natural-height-set: * * This flag controls whether the #ClutterActor:natural-height property * is used * * Since: 0.8 */ obj_props[PROP_NATURAL_HEIGHT_SET] = g_param_spec_boolean ("natural-height-set", P_("Natural height set"), P_("Whether to use the natural-height property"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:allocation: * * The allocation for the actor, in pixels * * This is property is read-only, but you might monitor it to know when an * actor moves or resizes * * Since: 0.8 */ obj_props[PROP_ALLOCATION] = g_param_spec_boxed ("allocation", P_("Allocation"), P_("The actor's allocation"), CLUTTER_TYPE_ACTOR_BOX, G_PARAM_READABLE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:request-mode: * * Request mode for the #ClutterActor. The request mode determines the * type of geometry management used by the actor, either height for width * (the default) or width for height. * * For actors implementing height for width, the parent container should get * the preferred width first, and then the preferred height for that width. * * For actors implementing width for height, the parent container should get * the preferred height first, and then the preferred width for that height. * * For instance: * * |[ * ClutterRequestMode mode; * gfloat natural_width, min_width; * gfloat natural_height, min_height; * * mode = clutter_actor_get_request_mode (child); * if (mode == CLUTTER_REQUEST_HEIGHT_FOR_WIDTH) * { * clutter_actor_get_preferred_width (child, -1, * &min_width, * &natural_width); * clutter_actor_get_preferred_height (child, natural_width, * &min_height, * &natural_height); * } * else if (mode == CLUTTER_REQUEST_WIDTH_FOR_HEIGHT) * { * clutter_actor_get_preferred_height (child, -1, * &min_height, * &natural_height); * clutter_actor_get_preferred_width (child, natural_height, * &min_width, * &natural_width); * } * else if (mode == CLUTTER_REQUEST_CONTENT_SIZE) * { * ClutterContent *content = clutter_actor_get_content (child); * * min_width, min_height = 0; * natural_width = natural_height = 0; * * if (content != NULL) * clutter_content_get_preferred_size (content, &natural_width, &natural_height); * } * ]| * * will retrieve the minimum and natural width and height depending on the * preferred request mode of the #ClutterActor "child". * * The clutter_actor_get_preferred_size() function will implement this * check for you. * * Since: 0.8 */ obj_props[PROP_REQUEST_MODE] = g_param_spec_enum ("request-mode", P_("Request Mode"), P_("The actor's request mode"), CLUTTER_TYPE_REQUEST_MODE, CLUTTER_REQUEST_HEIGHT_FOR_WIDTH, CLUTTER_PARAM_READWRITE); /** * ClutterActor:depth: * * The position of the actor on the Z axis. * * The #ClutterActor:depth property is relative to the parent's * modelview matrix. * * Setting this property will call #ClutterContainerIface.sort_depth_order() * which is usually a no-op, and it's most likely not what you want. * * The #ClutterActor:depth property is animatable. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:z-position instead. */ obj_props[PROP_DEPTH] = g_param_spec_float ("depth", P_("Depth"), P_("Position on the Z axis"), -G_MAXFLOAT, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:z-position: * * The actor's position on the Z axis, relative to the parent's * transformations. * * Positive values will bring the actor's position nearer to the user, * whereas negative values will bring the actor's position farther from * the user. * * The #ClutterActor:z-position does not affect the paint or allocation * order. * * The #ClutterActor:z-position property is animatable. * * Since: 1.12 */ obj_props[PROP_Z_POSITION] = g_param_spec_float ("z-position", P_("Z Position"), P_("The actor's position on the Z axis"), -G_MAXFLOAT, G_MAXFLOAT, 0.0f, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:opacity: * * Opacity of an actor, between 0 (fully transparent) and * 255 (fully opaque) * * The #ClutterActor:opacity property is animatable. */ obj_props[PROP_OPACITY] = g_param_spec_uint ("opacity", P_("Opacity"), P_("Opacity of an actor"), 0, 255, 255, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:offscreen-redirect: * * Determines the conditions in which the actor will be redirected * to an offscreen framebuffer while being painted. For example this * can be used to cache an actor in a framebuffer or for improved * handling of transparent actors. See * clutter_actor_set_offscreen_redirect() for details. * * Since: 1.8 */ obj_props[PROP_OFFSCREEN_REDIRECT] = g_param_spec_flags ("offscreen-redirect", P_("Offscreen redirect"), P_("Flags controlling when to flatten the actor into a single image"), CLUTTER_TYPE_OFFSCREEN_REDIRECT, 0, CLUTTER_PARAM_READWRITE); /** * ClutterActor:visible: * * Whether the actor is set to be visible or not * * See also #ClutterActor:mapped */ obj_props[PROP_VISIBLE] = g_param_spec_boolean ("visible", P_("Visible"), P_("Whether the actor is visible or not"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:mapped: * * Whether the actor is mapped (will be painted when the stage * to which it belongs is mapped) * * Since: 1.0 */ obj_props[PROP_MAPPED] = g_param_spec_boolean ("mapped", P_("Mapped"), P_("Whether the actor will be painted"), FALSE, CLUTTER_PARAM_READABLE); /** * ClutterActor:realized: * * Whether the actor has been realized * * Since: 1.0 */ obj_props[PROP_REALIZED] = g_param_spec_boolean ("realized", P_("Realized"), P_("Whether the actor has been realized"), FALSE, CLUTTER_PARAM_READABLE); /** * ClutterActor:reactive: * * Whether the actor is reactive to events or not * * Only reactive actors will emit event-related signals * * Since: 0.6 */ obj_props[PROP_REACTIVE] = g_param_spec_boolean ("reactive", P_("Reactive"), P_("Whether the actor is reactive to events"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:has-clip: * * Whether the actor has the #ClutterActor:clip property set or not */ obj_props[PROP_HAS_CLIP] = g_param_spec_boolean ("has-clip", P_("Has Clip"), P_("Whether the actor has a clip set"), FALSE, CLUTTER_PARAM_READABLE); /** * ClutterActor:clip: * * The visible region of the actor, in actor-relative coordinates * * Deprecated: 1.12: Use #ClutterActor:clip-rect instead. */ obj_props[PROP_CLIP] = /* XXX:2.0 - remove */ g_param_spec_boxed ("clip", P_("Clip"), P_("The clip region for the actor"), CLUTTER_TYPE_GEOMETRY, CLUTTER_PARAM_READWRITE); /** * ClutterActor:clip-rect: * * The visible region of the actor, in actor-relative coordinates, * expressed as a #ClutterRect. * * Setting this property to %NULL will unset the existing clip. * * Setting this property will change the #ClutterActor:has-clip * property as a side effect. * * Since: 1.12 */ obj_props[PROP_CLIP_RECT] = g_param_spec_boxed ("clip-rect", P_("Clip Rectangle"), P_("The visible region of the actor"), CLUTTER_TYPE_RECT, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS); /** * ClutterActor:name: * * The name of the actor * * Since: 0.2 */ obj_props[PROP_NAME] = g_param_spec_string ("name", P_("Name"), P_("Name of the actor"), NULL, CLUTTER_PARAM_READWRITE); /** * ClutterActor:pivot-point: * * The point around which the scaling and rotation transformations occur. * * The pivot point is expressed in normalized coordinates space, with (0, 0) * being the top left corner of the actor and (1, 1) the bottom right corner * of the actor. * * The default pivot point is located at (0, 0). * * The #ClutterActor:pivot-point property is animatable. * * Since: 1.12 */ obj_props[PROP_PIVOT_POINT] = g_param_spec_boxed ("pivot-point", P_("Pivot Point"), P_("The point around which the scaling and rotation occur"), CLUTTER_TYPE_POINT, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:pivot-point-z: * * The Z component of the #ClutterActor:pivot-point, expressed as a value * along the Z axis. * * The #ClutterActor:pivot-point-z property is animatable. * * Since: 1.12 */ obj_props[PROP_PIVOT_POINT_Z] = g_param_spec_float ("pivot-point-z", P_("Pivot Point Z"), P_("Z component of the pivot point"), -G_MAXFLOAT, G_MAXFLOAT, 0.f, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:scale-x: * * The horizontal scale of the actor. * * The #ClutterActor:scale-x property is animatable. * * Since: 0.6 */ obj_props[PROP_SCALE_X] = g_param_spec_double ("scale-x", P_("Scale X"), P_("Scale factor on the X axis"), -G_MAXDOUBLE, G_MAXDOUBLE, 1.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:scale-y: * * The vertical scale of the actor. * * The #ClutterActor:scale-y property is animatable. * * Since: 0.6 */ obj_props[PROP_SCALE_Y] = g_param_spec_double ("scale-y", P_("Scale Y"), P_("Scale factor on the Y axis"), -G_MAXDOUBLE, G_MAXDOUBLE, 1.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:scale-z: * * The scale factor of the actor along the Z axis. * * The #ClutterActor:scale-y property is animatable. * * Since: 1.12 */ obj_props[PROP_SCALE_Z] = g_param_spec_double ("scale-z", P_("Scale Z"), P_("Scale factor on the Z axis"), -G_MAXDOUBLE, G_MAXDOUBLE, 1.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:scale-center-x: * * The horizontal center point for scaling * * Since: 1.0 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_SCALE_CENTER_X] = /* XXX:2.0 - remove */ g_param_spec_float ("scale-center-x", P_("Scale Center X"), P_("Horizontal scale center"), -G_MAXFLOAT, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:scale-center-y: * * The vertical center point for scaling * * Since: 1.0 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_SCALE_CENTER_Y] = /* XXX:2.0 - remove */ g_param_spec_float ("scale-center-y", P_("Scale Center Y"), P_("Vertical scale center"), -G_MAXFLOAT, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:scale-gravity: * * The center point for scaling expressed as a #ClutterGravity * * Since: 1.0 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_SCALE_GRAVITY] = /* XXX:2.0 - remove */ g_param_spec_enum ("scale-gravity", P_("Scale Gravity"), P_("The center of scaling"), CLUTTER_TYPE_GRAVITY, CLUTTER_GRAVITY_NONE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:rotation-angle-x: * * The rotation angle on the X axis. * * The #ClutterActor:rotation-angle-x property is animatable. * * Since: 0.6 */ obj_props[PROP_ROTATION_ANGLE_X] = g_param_spec_double ("rotation-angle-x", P_("Rotation Angle X"), P_("The rotation angle on the X axis"), -G_MAXDOUBLE, G_MAXDOUBLE, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:rotation-angle-y: * * The rotation angle on the Y axis * * The #ClutterActor:rotation-angle-y property is animatable. * * Since: 0.6 */ obj_props[PROP_ROTATION_ANGLE_Y] = g_param_spec_double ("rotation-angle-y", P_("Rotation Angle Y"), P_("The rotation angle on the Y axis"), -G_MAXDOUBLE, G_MAXDOUBLE, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:rotation-angle-z: * * The rotation angle on the Z axis * * The #ClutterActor:rotation-angle-z property is animatable. * * Since: 0.6 */ obj_props[PROP_ROTATION_ANGLE_Z] = g_param_spec_double ("rotation-angle-z", P_("Rotation Angle Z"), P_("The rotation angle on the Z axis"), -G_MAXDOUBLE, G_MAXDOUBLE, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:rotation-center-x: * * The rotation center on the X axis. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_ROTATION_CENTER_X] = /* XXX:2.0 - remove */ g_param_spec_boxed ("rotation-center-x", P_("Rotation Center X"), P_("The rotation center on the X axis"), CLUTTER_TYPE_VERTEX, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:rotation-center-y: * * The rotation center on the Y axis. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_ROTATION_CENTER_Y] = /* XXX:2.0 - remove */ g_param_spec_boxed ("rotation-center-y", P_("Rotation Center Y"), P_("The rotation center on the Y axis"), CLUTTER_TYPE_VERTEX, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:rotation-center-z: * * The rotation center on the Z axis. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_ROTATION_CENTER_Z] = /* XXX:2.0 - remove */ g_param_spec_boxed ("rotation-center-z", P_("Rotation Center Z"), P_("The rotation center on the Z axis"), CLUTTER_TYPE_VERTEX, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:rotation-center-z-gravity: * * The rotation center on the Z axis expressed as a #ClutterGravity. * * Since: 1.0 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_ROTATION_CENTER_Z_GRAVITY] = /* XXX:2.0 - remove */ g_param_spec_enum ("rotation-center-z-gravity", P_("Rotation Center Z Gravity"), P_("Center point for rotation around the Z axis"), CLUTTER_TYPE_GRAVITY, CLUTTER_GRAVITY_NONE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:anchor-x: * * The X coordinate of an actor's anchor point, relative to * the actor coordinate space, in pixels. * * It is highly recommended not to use #ClutterActor:anchor-x, * #ClutterActor:anchor-y, and #ClutterActor:anchor-gravity in newly * written code; the anchor point adds an additional translation that * will affect the actor's relative position with regards to its * parent, as well as the position of its children. This change needs * to always be taken into account when positioning the actor. It is * recommended to use the #ClutterActor:pivot-point property instead, * as it will affect only the transformations. * * Since: 0.8 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_ANCHOR_X] = /* XXX:2.0 - remove */ g_param_spec_float ("anchor-x", P_("Anchor X"), P_("X coordinate of the anchor point"), -G_MAXFLOAT, G_MAXFLOAT, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:anchor-y: * * The Y coordinate of an actor's anchor point, relative to * the actor coordinate space, in pixels * * It is highly recommended not to use #ClutterActor:anchor-x, * #ClutterActor:anchor-y, and #ClutterActor:anchor-gravity in newly * written code; the anchor point adds an additional translation that * will affect the actor's relative position with regards to its * parent, as well as the position of its children. This change needs * to always be taken into account when positioning the actor. It is * recommended to use the #ClutterActor:pivot-point property instead, * as it will affect only the transformations. * * Since: 0.8 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_ANCHOR_Y] = /* XXX:2.0 - remove */ g_param_spec_float ("anchor-y", P_("Anchor Y"), P_("Y coordinate of the anchor point"), -G_MAXFLOAT, G_MAXFLOAT, 0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:anchor-gravity: * * The anchor point expressed as a #ClutterGravity * * It is highly recommended not to use #ClutterActor:anchor-x, * #ClutterActor:anchor-y, and #ClutterActor:anchor-gravity in newly * written code; the anchor point adds an additional translation that * will affect the actor's relative position with regards to its * parent, as well as the position of its children. This change needs * to always be taken into account when positioning the actor. It is * recommended to use the #ClutterActor:pivot-point property instead, * as it will affect only the transformations. * * Since: 1.0 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ obj_props[PROP_ANCHOR_GRAVITY] = /* XXX:2.0 - remove */ g_param_spec_enum ("anchor-gravity", P_("Anchor Gravity"), P_("The anchor point as a ClutterGravity"), CLUTTER_TYPE_GRAVITY, CLUTTER_GRAVITY_NONE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | G_PARAM_DEPRECATED); /** * ClutterActor:translation-x: * * An additional translation applied along the X axis, relative * to the actor's #ClutterActor:pivot-point. * * The #ClutterActor:translation-x property is animatable. * * Since: 1.12 */ obj_props[PROP_TRANSLATION_X] = g_param_spec_float ("translation-x", P_("Translation X"), P_("Translation along the X axis"), -G_MAXFLOAT, G_MAXFLOAT, 0.f, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:translation-y: * * An additional translation applied along the Y axis, relative * to the actor's #ClutterActor:pivot-point. * * The #ClutterActor:translation-y property is animatable. * * Since: 1.12 */ obj_props[PROP_TRANSLATION_Y] = g_param_spec_float ("translation-y", P_("Translation Y"), P_("Translation along the Y axis"), -G_MAXFLOAT, G_MAXFLOAT, 0.f, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:translation-z: * * An additional translation applied along the Z axis, relative * to the actor's #ClutterActor:pivot-point. * * The #ClutterActor:translation-z property is animatable. * * Since: 1.12 */ obj_props[PROP_TRANSLATION_Z] = g_param_spec_float ("translation-z", P_("Translation Z"), P_("Translation along the Z axis"), -G_MAXFLOAT, G_MAXFLOAT, 0.f, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:transform: * * Overrides the transformations of a #ClutterActor with a custom * matrix. * * The matrix specified by the #ClutterActor:transform property is * applied to the actor and its children relative to the actor's * #ClutterActor:allocation and #ClutterActor:pivot-point. * * Application code should rarely need to use this function directly. * * Setting this property with a #ClutterMatrix will set the * #ClutterActor:transform-set property to %TRUE as a side effect; * setting this property with %NULL will set the * #ClutterActor:transform-set property to %FALSE. * * The #ClutterActor:transform property is animatable. * * Since: 1.12 */ obj_props[PROP_TRANSFORM] = g_param_spec_boxed ("transform", P_("Transform"), P_("Transformation matrix"), CLUTTER_TYPE_MATRIX, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:transform-set: * * Whether the #ClutterActor:transform property is set. * * Since: 1.12 */ obj_props[PROP_TRANSFORM_SET] = g_param_spec_boolean ("transform-set", P_("Transform Set"), P_("Whether the transform property is set"), FALSE, G_PARAM_READABLE | G_PARAM_STATIC_STRINGS); /** * ClutterActor:child-transform: * * Applies a transformation matrix on each child of an actor. * * Setting this property with a #ClutterMatrix will set the * #ClutterActor:child-transform-set property to %TRUE as a side effect; * setting this property with %NULL will set the * #ClutterActor:child-transform-set property to %FALSE. * * The #ClutterActor:child-transform property is animatable. * * Since: 1.12 */ obj_props[PROP_CHILD_TRANSFORM] = g_param_spec_boxed ("child-transform", P_("Child Transform"), P_("Children transformation matrix"), CLUTTER_TYPE_MATRIX, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:child-transform-set: * * Whether the #ClutterActor:child-transform property is set. * * Since: 1.12 */ obj_props[PROP_CHILD_TRANSFORM_SET] = g_param_spec_boolean ("child-transform-set", P_("Child Transform Set"), P_("Whether the child-transform property is set"), FALSE, G_PARAM_READABLE | G_PARAM_STATIC_STRINGS); /** * ClutterActor:show-on-set-parent: * * If %TRUE, the actor is automatically shown when parented. * * Calling clutter_actor_hide() on an actor which has not been * parented will set this property to %FALSE as a side effect. * * Since: 0.8 */ obj_props[PROP_SHOW_ON_SET_PARENT] = /* XXX:2.0 - remove */ g_param_spec_boolean ("show-on-set-parent", P_("Show on set parent"), P_("Whether the actor is shown when parented"), TRUE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:clip-to-allocation: * * Whether the clip region should track the allocated area * of the actor. * * This property is ignored if a clip area has been explicitly * set using clutter_actor_set_clip(). * * Since: 1.0 */ obj_props[PROP_CLIP_TO_ALLOCATION] = g_param_spec_boolean ("clip-to-allocation", P_("Clip to Allocation"), P_("Sets the clip region to track the actor's allocation"), FALSE, CLUTTER_PARAM_READWRITE); /** * ClutterActor:text-direction: * * The direction of the text inside a #ClutterActor. * * Since: 1.0 */ obj_props[PROP_TEXT_DIRECTION] = g_param_spec_enum ("text-direction", P_("Text Direction"), P_("Direction of the text"), CLUTTER_TYPE_TEXT_DIRECTION, CLUTTER_TEXT_DIRECTION_LTR, CLUTTER_PARAM_READWRITE); /** * ClutterActor:has-pointer: * * Whether the actor contains the pointer of a #ClutterInputDevice * or not. * * Since: 1.2 */ obj_props[PROP_HAS_POINTER] = g_param_spec_boolean ("has-pointer", P_("Has Pointer"), P_("Whether the actor contains the pointer of an input device"), FALSE, CLUTTER_PARAM_READABLE); /** * ClutterActor:actions: * * Adds a #ClutterAction to the actor * * Since: 1.4 */ obj_props[PROP_ACTIONS] = g_param_spec_object ("actions", P_("Actions"), P_("Adds an action to the actor"), CLUTTER_TYPE_ACTION, CLUTTER_PARAM_WRITABLE); /** * ClutterActor:constraints: * * Adds a #ClutterConstraint to the actor * * Since: 1.4 */ obj_props[PROP_CONSTRAINTS] = g_param_spec_object ("constraints", P_("Constraints"), P_("Adds a constraint to the actor"), CLUTTER_TYPE_CONSTRAINT, CLUTTER_PARAM_WRITABLE); /** * ClutterActor:effect: * * Adds #ClutterEffect to the list of effects be applied on a #ClutterActor * * Since: 1.4 */ obj_props[PROP_EFFECT] = g_param_spec_object ("effect", P_("Effect"), P_("Add an effect to be applied on the actor"), CLUTTER_TYPE_EFFECT, CLUTTER_PARAM_WRITABLE); /** * ClutterActor:layout-manager: * * A delegate object for controlling the layout of the children of * an actor. * * Since: 1.10 */ obj_props[PROP_LAYOUT_MANAGER] = g_param_spec_object ("layout-manager", P_("Layout Manager"), P_("The object controlling the layout of an actor's children"), CLUTTER_TYPE_LAYOUT_MANAGER, CLUTTER_PARAM_READWRITE); /** * ClutterActor:x-expand: * * Whether a layout manager should assign more space to the actor on * the X axis. * * Since: 1.12 */ obj_props[PROP_X_EXPAND] = g_param_spec_boolean ("x-expand", P_("X Expand"), P_("Whether extra horizontal space should be assigned to the actor"), FALSE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS); /** * ClutterActor:y-expand: * * Whether a layout manager should assign more space to the actor on * the Y axis. * * Since: 1.12 */ obj_props[PROP_Y_EXPAND] = g_param_spec_boolean ("y-expand", P_("Y Expand"), P_("Whether extra vertical space should be assigned to the actor"), FALSE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS); /** * ClutterActor:x-align: * * The alignment of an actor on the X axis, if the actor has been given * extra space for its allocation. See also the #ClutterActor:x-expand * property. * * Since: 1.10 */ obj_props[PROP_X_ALIGN] = g_param_spec_enum ("x-align", P_("X Alignment"), P_("The alignment of the actor on the X axis within its allocation"), CLUTTER_TYPE_ACTOR_ALIGN, CLUTTER_ACTOR_ALIGN_FILL, CLUTTER_PARAM_READWRITE); /** * ClutterActor:y-align: * * The alignment of an actor on the Y axis, if the actor has been given * extra space for its allocation. * * Since: 1.10 */ obj_props[PROP_Y_ALIGN] = g_param_spec_enum ("y-align", P_("Y Alignment"), P_("The alignment of the actor on the Y axis within its allocation"), CLUTTER_TYPE_ACTOR_ALIGN, CLUTTER_ACTOR_ALIGN_FILL, CLUTTER_PARAM_READWRITE); /** * ClutterActor:margin-top: * * The margin (in pixels) from the top of the actor. * * This property adds a margin to the actor's preferred size; the margin * will be automatically taken into account when allocating the actor. * * The #ClutterActor:margin-top property is animatable. * * Since: 1.10 */ obj_props[PROP_MARGIN_TOP] = g_param_spec_float ("margin-top", P_("Margin Top"), P_("Extra space at the top"), 0.0, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:margin-bottom: * * The margin (in pixels) from the bottom of the actor. * * This property adds a margin to the actor's preferred size; the margin * will be automatically taken into account when allocating the actor. * * The #ClutterActor:margin-bottom property is animatable. * * Since: 1.10 */ obj_props[PROP_MARGIN_BOTTOM] = g_param_spec_float ("margin-bottom", P_("Margin Bottom"), P_("Extra space at the bottom"), 0.0, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:margin-left: * * The margin (in pixels) from the left of the actor. * * This property adds a margin to the actor's preferred size; the margin * will be automatically taken into account when allocating the actor. * * The #ClutterActor:margin-left property is animatable. * * Since: 1.10 */ obj_props[PROP_MARGIN_LEFT] = g_param_spec_float ("margin-left", P_("Margin Left"), P_("Extra space at the left"), 0.0, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:margin-right: * * The margin (in pixels) from the right of the actor. * * This property adds a margin to the actor's preferred size; the margin * will be automatically taken into account when allocating the actor. * * The #ClutterActor:margin-right property is animatable. * * Since: 1.10 */ obj_props[PROP_MARGIN_RIGHT] = g_param_spec_float ("margin-right", P_("Margin Right"), P_("Extra space at the right"), 0.0, G_MAXFLOAT, 0.0, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:background-color-set: * * Whether the #ClutterActor:background-color property has been set. * * Since: 1.10 */ obj_props[PROP_BACKGROUND_COLOR_SET] = g_param_spec_boolean ("background-color-set", P_("Background Color Set"), P_("Whether the background color is set"), FALSE, CLUTTER_PARAM_READABLE); /** * ClutterActor:background-color: * * Paints a solid fill of the actor's allocation using the specified * color. * * The #ClutterActor:background-color property is animatable. * * Since: 1.10 */ obj_props[PROP_BACKGROUND_COLOR] = clutter_param_spec_color ("background-color", P_("Background color"), P_("The actor's background color"), CLUTTER_COLOR_Transparent, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); /** * ClutterActor:first-child: * * The actor's first child. * * Since: 1.10 */ obj_props[PROP_FIRST_CHILD] = g_param_spec_object ("first-child", P_("First Child"), P_("The actor's first child"), CLUTTER_TYPE_ACTOR, CLUTTER_PARAM_READABLE); /** * ClutterActor:last-child: * * The actor's last child. * * Since: 1.10 */ obj_props[PROP_LAST_CHILD] = g_param_spec_object ("last-child", P_("Last Child"), P_("The actor's last child"), CLUTTER_TYPE_ACTOR, CLUTTER_PARAM_READABLE); /** * ClutterActor:content: * * The #ClutterContent implementation that controls the content * of the actor. * * Since: 1.10 */ obj_props[PROP_CONTENT] = g_param_spec_object ("content", P_("Content"), P_("Delegate object for painting the actor's content"), CLUTTER_TYPE_CONTENT, CLUTTER_PARAM_READWRITE); /** * ClutterActor:content-gravity: * * The alignment that should be honoured by the #ClutterContent * set with the #ClutterActor:content property. * * Changing the value of this property will change the bounding box of * the content; you can use the #ClutterActor:content-box property to * get the position and size of the content within the actor's * allocation. * * This property is meaningful only for #ClutterContent implementations * that have a preferred size, and if the preferred size is smaller than * the actor's allocation. * * The #ClutterActor:content-gravity property is animatable. * * Since: 1.10 */ obj_props[PROP_CONTENT_GRAVITY] = g_param_spec_enum ("content-gravity", P_("Content Gravity"), P_("Alignment of the actor's content"), CLUTTER_TYPE_CONTENT_GRAVITY, CLUTTER_CONTENT_GRAVITY_RESIZE_FILL, CLUTTER_PARAM_READWRITE); /** * ClutterActor:content-box: * * The bounding box for the #ClutterContent used by the actor. * * The value of this property is controlled by the #ClutterActor:allocation * and #ClutterActor:content-gravity properties of #ClutterActor. * * The bounding box for the content is guaranteed to never exceed the * allocation's of the actor. * * Since: 1.10 */ obj_props[PROP_CONTENT_BOX] = g_param_spec_boxed ("content-box", P_("Content Box"), P_("The bounding box of the actor's content"), CLUTTER_TYPE_ACTOR_BOX, G_PARAM_READABLE | G_PARAM_STATIC_STRINGS | CLUTTER_PARAM_ANIMATABLE); obj_props[PROP_MINIFICATION_FILTER] = g_param_spec_enum ("minification-filter", P_("Minification Filter"), P_("The filter used when reducing the size of the content"), CLUTTER_TYPE_SCALING_FILTER, CLUTTER_SCALING_FILTER_LINEAR, CLUTTER_PARAM_READWRITE); obj_props[PROP_MAGNIFICATION_FILTER] = g_param_spec_enum ("magnification-filter", P_("Magnification Filter"), P_("The filter used when increasing the size of the content"), CLUTTER_TYPE_SCALING_FILTER, CLUTTER_SCALING_FILTER_LINEAR, CLUTTER_PARAM_READWRITE); /** * ClutterActor:content-repeat: * * The repeat policy for the actor's #ClutterActor:content. * * Since: 1.12 */ obj_props[PROP_CONTENT_REPEAT] = g_param_spec_flags ("content-repeat", P_("Content Repeat"), P_("The repeat policy for the actor's content"), CLUTTER_TYPE_CONTENT_REPEAT, CLUTTER_REPEAT_NONE, G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS); g_object_class_install_properties (object_class, PROP_LAST, obj_props); /** * ClutterActor::destroy: * @actor: the #ClutterActor which emitted the signal * * The ::destroy signal notifies that all references held on the * actor which emitted it should be released. * * The ::destroy signal should be used by all holders of a reference * on @actor. * * This signal might result in the finalization of the #ClutterActor * if all references are released. * * Composite actors and actors implementing the #ClutterContainer * interface should override the default implementation of the * class handler of this signal and call clutter_actor_destroy() on * their children. When overriding the default class handler, it is * required to chain up to the parent's implementation. * * Since: 0.2 */ actor_signals[DESTROY] = g_signal_new (I_("destroy"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_CLEANUP | G_SIGNAL_NO_RECURSE | G_SIGNAL_NO_HOOKS, G_STRUCT_OFFSET (ClutterActorClass, destroy), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::show: * @actor: the object which received the signal * * The ::show signal is emitted when an actor is visible and * rendered on the stage. * * Since: 0.2 */ actor_signals[SHOW] = g_signal_new (I_("show"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (ClutterActorClass, show), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::hide: * @actor: the object which received the signal * * The ::hide signal is emitted when an actor is no longer rendered * on the stage. * * Since: 0.2 */ actor_signals[HIDE] = g_signal_new (I_("hide"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_FIRST, G_STRUCT_OFFSET (ClutterActorClass, hide), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::parent-set: * @actor: the object which received the signal * @old_parent: (allow-none): the previous parent of the actor, or %NULL * * This signal is emitted when the parent of the actor changes. * * Since: 0.2 */ actor_signals[PARENT_SET] = g_signal_new (I_("parent-set"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, parent_set), NULL, NULL, _clutter_marshal_VOID__OBJECT, G_TYPE_NONE, 1, CLUTTER_TYPE_ACTOR); /** * ClutterActor::queue-redraw: * @actor: the actor we're bubbling the redraw request through * @origin: the actor which initiated the redraw request * * The ::queue_redraw signal is emitted when clutter_actor_queue_redraw() * is called on @origin. * * The default implementation for #ClutterActor chains up to the * parent actor and queues a redraw on the parent, thus "bubbling" * the redraw queue up through the actor graph. The default * implementation for #ClutterStage queues a clutter_stage_ensure_redraw() * in a main loop idle handler. * * Note that the @origin actor may be the stage, or a container; it * does not have to be a leaf node in the actor graph. * * Toolkits embedding a #ClutterStage which require a redraw and * relayout cycle can stop the emission of this signal using the * GSignal API, redraw the UI and then call clutter_stage_ensure_redraw() * themselves, like: * * |[ * static void * on_redraw_complete (gpointer data) * { * ClutterStage *stage = data; * * // execute the Clutter drawing pipeline * clutter_stage_ensure_redraw (stage); * } * * static void * on_stage_queue_redraw (ClutterStage *stage) * { * // this prevents the default handler to run * g_signal_stop_emission_by_name (stage, "queue-redraw"); * * // queue a redraw with the host toolkit and call * // a function when the redraw has been completed * queue_a_redraw (G_CALLBACK (on_redraw_complete), stage); * } * ]| * * Note: This signal is emitted before the Clutter paint * pipeline is executed. If you want to know when the pipeline has * been completed you should use clutter_threads_add_repaint_func() * or clutter_threads_add_repaint_func_full(). * * Since: 1.0 */ actor_signals[QUEUE_REDRAW] = g_signal_new (I_("queue-redraw"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST | G_SIGNAL_NO_HOOKS, G_STRUCT_OFFSET (ClutterActorClass, queue_redraw), NULL, NULL, _clutter_marshal_VOID__OBJECT, G_TYPE_NONE, 1, CLUTTER_TYPE_ACTOR); /** * ClutterActor::queue-relayout: * @actor: the actor being queued for relayout * * The ::queue_layout signal is emitted when clutter_actor_queue_relayout() * is called on an actor. * * The default implementation for #ClutterActor chains up to the * parent actor and queues a relayout on the parent, thus "bubbling" * the relayout queue up through the actor graph. * * The main purpose of this signal is to allow relayout to be propagated * properly in the procense of #ClutterClone actors. Applications will * not normally need to connect to this signal. * * Since: 1.2 */ actor_signals[QUEUE_RELAYOUT] = g_signal_new (I_("queue-relayout"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST | G_SIGNAL_NO_HOOKS, G_STRUCT_OFFSET (ClutterActorClass, queue_relayout), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::event: * @actor: the actor which received the event * @event: a #ClutterEvent * * The ::event signal is emitted each time an event is received * by the @actor. This signal will be emitted on every actor, * following the hierarchy chain, until it reaches the top-level * container (the #ClutterStage). * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[EVENT] = g_signal_new (I_("event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::button-press-event: * @actor: the actor which received the event * @event: (type ClutterButtonEvent): a #ClutterButtonEvent * * The ::button-press-event signal is emitted each time a mouse button * is pressed on @actor. * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[BUTTON_PRESS_EVENT] = g_signal_new (I_("button-press-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, button_press_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::button-release-event: * @actor: the actor which received the event * @event: (type ClutterButtonEvent): a #ClutterButtonEvent * * The ::button-release-event signal is emitted each time a mouse button * is released on @actor. * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[BUTTON_RELEASE_EVENT] = g_signal_new (I_("button-release-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, button_release_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::scroll-event: * @actor: the actor which received the event * @event: (type ClutterScrollEvent): a #ClutterScrollEvent * * The ::scroll-event signal is emitted each time the mouse is * scrolled on @actor * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[SCROLL_EVENT] = g_signal_new (I_("scroll-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, scroll_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::key-press-event: * @actor: the actor which received the event * @event: (type ClutterKeyEvent): a #ClutterKeyEvent * * The ::key-press-event signal is emitted each time a keyboard button * is pressed while @actor has key focus (see clutter_stage_set_key_focus()). * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[KEY_PRESS_EVENT] = g_signal_new (I_("key-press-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, key_press_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::key-release-event: * @actor: the actor which received the event * @event: (type ClutterKeyEvent): a #ClutterKeyEvent * * The ::key-release-event signal is emitted each time a keyboard button * is released while @actor has key focus (see * clutter_stage_set_key_focus()). * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[KEY_RELEASE_EVENT] = g_signal_new (I_("key-release-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, key_release_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::motion-event: * @actor: the actor which received the event * @event: (type ClutterMotionEvent): a #ClutterMotionEvent * * The ::motion-event signal is emitted each time the mouse pointer is * moved over @actor. * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[MOTION_EVENT] = g_signal_new (I_("motion-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, motion_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::key-focus-in: * @actor: the actor which now has key focus * * The ::key-focus-in signal is emitted when @actor receives key focus. * * Since: 0.6 */ actor_signals[KEY_FOCUS_IN] = g_signal_new (I_("key-focus-in"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, key_focus_in), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::key-focus-out: * @actor: the actor which now has key focus * * The ::key-focus-out signal is emitted when @actor loses key focus. * * Since: 0.6 */ actor_signals[KEY_FOCUS_OUT] = g_signal_new (I_("key-focus-out"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, key_focus_out), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::enter-event: * @actor: the actor which the pointer has entered. * @event: (type ClutterCrossingEvent): a #ClutterCrossingEvent * * The ::enter-event signal is emitted when the pointer enters the @actor * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[ENTER_EVENT] = g_signal_new (I_("enter-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, enter_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::leave-event: * @actor: the actor which the pointer has left * @event: (type ClutterCrossingEvent): a #ClutterCrossingEvent * * The ::leave-event signal is emitted when the pointer leaves the @actor. * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[LEAVE_EVENT] = g_signal_new (I_("leave-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, leave_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::captured-event: * @actor: the actor which received the signal * @event: a #ClutterEvent * * The ::captured-event signal is emitted when an event is captured * by Clutter. This signal will be emitted starting from the top-level * container (the #ClutterStage) to the actor which received the event * going down the hierarchy. This signal can be used to intercept every * event before the specialized events (like * ClutterActor::button-press-event or ::key-released-event) are * emitted. * * Return value: %TRUE if the event has been handled by the actor, * or %FALSE to continue the emission. * * Since: 0.6 */ actor_signals[CAPTURED_EVENT] = g_signal_new (I_("captured-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, captured_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::paint: * @actor: the #ClutterActor that received the signal * * The ::paint signal is emitted each time an actor is being painted. * * Subclasses of #ClutterActor should override the #ClutterActorClass.paint * virtual function paint themselves in that function. * * It is strongly discouraged to connect a signal handler to * the #ClutterActor::paint signal; if you want to change the paint * sequence of an existing #ClutterActor instance, either create a new * #ClutterActor class and override the #ClutterActorClass.paint virtual * function, or use a #ClutterEffect. The #ClutterActor::paint signal * will be removed in a future version of Clutter. * * Since: 0.8 * * Deprecated: 1.12: Override the #ClutterActorClass.paint virtual * function, use a #ClutterContent implementation, or a #ClutterEffect * instead of connecting to this signal. */ actor_signals[PAINT] = g_signal_new (I_("paint"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST | G_SIGNAL_NO_HOOKS | G_SIGNAL_DEPRECATED, G_STRUCT_OFFSET (ClutterActorClass, paint), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::realize: * @actor: the #ClutterActor that received the signal * * The ::realize signal is emitted each time an actor is being * realized. * * Since: 0.8 * * Deprecated: 1.16: The signal should not be used in newly * written code */ actor_signals[REALIZE] = g_signal_new (I_("realize"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST | G_SIGNAL_DEPRECATED, G_STRUCT_OFFSET (ClutterActorClass, realize), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::unrealize: * @actor: the #ClutterActor that received the signal * * The ::unrealize signal is emitted each time an actor is being * unrealized. * * Since: 0.8 * * Deprecated: 1.16: The signal should not be used in newly * written code */ actor_signals[UNREALIZE] = g_signal_new (I_("unrealize"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST | G_SIGNAL_DEPRECATED, G_STRUCT_OFFSET (ClutterActorClass, unrealize), NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::pick: * @actor: the #ClutterActor that received the signal * @color: the #ClutterColor to be used when picking * * The ::pick signal is emitted each time an actor is being painted * in "pick mode". The pick mode is used to identify the actor during * the event handling phase, or by clutter_stage_get_actor_at_pos(). * The actor should paint its shape using the passed @pick_color. * * Subclasses of #ClutterActor should override the class signal handler * and paint themselves in that function. * * It is possible to connect a handler to the ::pick signal in order * to set up some custom aspect of a paint in pick mode. * * Since: 1.0 * Deprecated: 1.12: Override the #ClutterActorClass.pick virtual function * instead. */ actor_signals[PICK] = g_signal_new (I_("pick"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST | G_SIGNAL_DEPRECATED, G_STRUCT_OFFSET (ClutterActorClass, pick), NULL, NULL, _clutter_marshal_VOID__BOXED, G_TYPE_NONE, 1, CLUTTER_TYPE_COLOR | G_SIGNAL_TYPE_STATIC_SCOPE); /** * ClutterActor::allocation-changed: * @actor: the #ClutterActor that emitted the signal * @box: a #ClutterActorBox with the new allocation * @flags: #ClutterAllocationFlags for the allocation * * The ::allocation-changed signal is emitted when the * #ClutterActor:allocation property changes. Usually, application * code should just use the notifications for the :allocation property * but if you want to track the allocation flags as well, for instance * to know whether the absolute origin of @actor changed, then you might * want use this signal instead. * * Since: 1.0 */ actor_signals[ALLOCATION_CHANGED] = g_signal_new (I_("allocation-changed"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, 0, NULL, NULL, _clutter_marshal_VOID__BOXED_FLAGS, G_TYPE_NONE, 2, CLUTTER_TYPE_ACTOR_BOX | G_SIGNAL_TYPE_STATIC_SCOPE, CLUTTER_TYPE_ALLOCATION_FLAGS); /** * ClutterActor::transitions-completed: * @actor: a #ClutterActor * * The ::transitions-completed signal is emitted once all transitions * involving @actor are complete. * * Since: 1.10 */ actor_signals[TRANSITIONS_COMPLETED] = g_signal_new (I_("transitions-completed"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, 0, NULL, NULL, _clutter_marshal_VOID__VOID, G_TYPE_NONE, 0); /** * ClutterActor::transition-stopped: * @actor: a #ClutterActor * @name: the name of the transition * @is_finished: whether the transition was finished, or stopped * * The ::transition-stopped signal is emitted once a transition * is stopped; a transition is stopped once it reached its total * duration (including eventual repeats), it has been stopped * using clutter_timeline_stop(), or it has been removed from the * transitions applied on @actor, using clutter_actor_remove_transition(). * * Since: 1.12 */ actor_signals[TRANSITION_STOPPED] = g_signal_new (I_("transition-stopped"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST | G_SIGNAL_NO_RECURSE | G_SIGNAL_NO_HOOKS | G_SIGNAL_DETAILED, 0, NULL, NULL, _clutter_marshal_VOID__STRING_BOOLEAN, G_TYPE_NONE, 2, G_TYPE_STRING, G_TYPE_BOOLEAN); /** * ClutterActor::touch-event: * @actor: a #ClutterActor * @event: a #ClutterEvent * * The ::touch-event signal is emitted each time a touch * begin/end/update/cancel event. * * Return value: %CLUTTER_EVENT_STOP if the event has been handled by * the actor, or %CLUTTER_EVENT_PROPAGATE to continue the emission. * * Since: 1.12 */ actor_signals[TOUCH_EVENT] = g_signal_new (I_("touch-event"), G_TYPE_FROM_CLASS (object_class), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (ClutterActorClass, touch_event), _clutter_boolean_handled_accumulator, NULL, _clutter_marshal_BOOLEAN__BOXED, G_TYPE_BOOLEAN, 1, CLUTTER_TYPE_EVENT | G_SIGNAL_TYPE_STATIC_SCOPE); } static void clutter_actor_init (ClutterActor *self) { ClutterActorPrivate *priv; self->priv = priv = clutter_actor_get_instance_private (self); priv->pick_id = -1; priv->opacity = 0xff; priv->show_on_set_parent = TRUE; priv->needs_width_request = TRUE; priv->needs_height_request = TRUE; priv->needs_allocation = TRUE; priv->cached_width_age = 1; priv->cached_height_age = 1; priv->opacity_override = -1; priv->enable_model_view_transform = TRUE; /* Initialize an empty paint volume to start with */ _clutter_paint_volume_init_static (&priv->last_paint_volume, NULL); priv->last_paint_volume_valid = TRUE; priv->transform_valid = FALSE; /* the default is to stretch the content, to match the * current behaviour of basically all actors. also, it's * the easiest thing to compute. */ priv->content_gravity = CLUTTER_CONTENT_GRAVITY_RESIZE_FILL; priv->min_filter = CLUTTER_SCALING_FILTER_LINEAR; priv->mag_filter = CLUTTER_SCALING_FILTER_LINEAR; /* this flag will be set to TRUE if the actor gets a child * or if the [xy]-expand flags are explicitly set; until * then, the actor does not need to expand. * * this also allows us to avoid computing the expand flag * when building up a scene. */ priv->needs_compute_expand = FALSE; /* we start with an easing state with duration forcibly set * to 0, for backward compatibility. */ clutter_actor_save_easing_state (self); clutter_actor_set_easing_duration (self, 0); } /** * clutter_actor_new: * * Creates a new #ClutterActor. * * A newly created actor has a floating reference, which will be sunk * when it is added to another actor. * * Return value: the newly created #ClutterActor * * Since: 1.10 */ ClutterActor * clutter_actor_new (void) { return g_object_new (CLUTTER_TYPE_ACTOR, NULL); } /** * clutter_actor_destroy: * @self: a #ClutterActor * * Destroys an actor. When an actor is destroyed, it will break any * references it holds to other objects. If the actor is inside a * container, the actor will be removed. * * When you destroy a container, its children will be destroyed as well. * * Note: you cannot destroy the #ClutterStage returned by * clutter_stage_get_default(). */ void clutter_actor_destroy (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_object_ref (self); /* avoid recursion while destroying */ if (!CLUTTER_ACTOR_IN_DESTRUCTION (self)) { CLUTTER_SET_PRIVATE_FLAGS (self, CLUTTER_IN_DESTRUCTION); g_object_run_dispose (G_OBJECT (self)); CLUTTER_UNSET_PRIVATE_FLAGS (self, CLUTTER_IN_DESTRUCTION); } g_object_unref (self); } void _clutter_actor_finish_queue_redraw (ClutterActor *self, ClutterPaintVolume *clip) { ClutterActorPrivate *priv = self->priv; ClutterPaintVolume *pv; gboolean clipped; /* Remove queue entry early in the process, otherwise a new queue_redraw() during signal handling could put back this object in the stage redraw list (but the entry is freed as soon as we return from this function, causing a segfault later) */ priv->queue_redraw_entry = NULL; /* If we've been explicitly passed a clip volume then there's * nothing more to calculate, but otherwise the only thing we know * is that the change is constrained to the given actor. * * The idea is that if we know the paint volume for where the actor * was last drawn (in eye coordinates) and we also have the paint * volume for where it will be drawn next (in actor coordinates) * then if we queue a redraw for both these volumes that will cover * everything that needs to be redrawn to clear the old view and * show the latest view of the actor. * * Don't clip this redraw if we don't know what position we had for * the previous redraw since we don't know where to set the clip so * it will clear the actor as it is currently. */ if (clip) { _clutter_actor_set_queue_redraw_clip (self, clip); clipped = TRUE; } else if (G_LIKELY (priv->last_paint_volume_valid)) { pv = _clutter_actor_get_paint_volume_mutable (self); if (pv) { ClutterActor *stage = _clutter_actor_get_stage_internal (self); /* make sure we redraw the actors old position... */ _clutter_actor_set_queue_redraw_clip (stage, &priv->last_paint_volume); _clutter_actor_signal_queue_redraw (stage, stage); _clutter_actor_set_queue_redraw_clip (stage, NULL); /* XXX: Ideally the redraw signal would take a clip volume * argument, but that would be an ABI break. Until we can * break the ABI we pass the argument out-of-band */ /* setup the clip for the actors new position... */ _clutter_actor_set_queue_redraw_clip (self, pv); clipped = TRUE; } else clipped = FALSE; } else clipped = FALSE; _clutter_actor_signal_queue_redraw (self, self); /* Just in case anyone is manually firing redraw signals without * using the public queue_redraw() API we are careful to ensure that * our out-of-band clip member is cleared before returning... * * Note: A NULL clip denotes a full-stage, un-clipped redraw */ if (G_LIKELY (clipped)) _clutter_actor_set_queue_redraw_clip (self, NULL); } static void _clutter_actor_get_allocation_clip (ClutterActor *self, ClutterActorBox *clip) { ClutterActorBox allocation; /* XXX: we don't care if we get an out of date allocation here * because clutter_actor_queue_redraw_with_clip knows to ignore * the clip if the actor's allocation is invalid. * * This is noted because clutter_actor_get_allocation_box does some * unnecessary work to support buggy code with a comment suggesting * that it could be changed later which would be good for this use * case! */ clutter_actor_get_allocation_box (self, &allocation); /* NB: clutter_actor_queue_redraw_with_clip expects a box in the * actor's own coordinate space but the allocation is in parent * coordinates */ clip->x1 = 0; clip->y1 = 0; clip->x2 = allocation.x2 - allocation.x1; clip->y2 = allocation.y2 - allocation.y1; } void _clutter_actor_queue_redraw_full (ClutterActor *self, ClutterRedrawFlags flags, ClutterPaintVolume *volume, ClutterEffect *effect) { ClutterActorPrivate *priv = self->priv; ClutterPaintVolume allocation_pv; ClutterPaintVolume *pv; gboolean should_free_pv; ClutterActor *stage; /* Here's an outline of the actor queue redraw mechanism: * * The process starts in one of the following two functions which * are wrappers for this function: * * clutter_actor_queue_redraw() * _clutter_actor_queue_redraw_with_clip() * * additionally, an effect can queue a redraw by wrapping this * function in clutter_effect_queue_repaint(). * * This functions queues an entry in a list associated with the * stage which is a list of actors that queued a redraw while * updating the timelines, performing layouting and processing other * mainloop sources before the next paint starts. * * We aim to minimize the processing done at this point because * there is a good chance other events will happen while updating * the scenegraph that would invalidate any expensive work we might * otherwise try to do here. For example we don't try and resolve * the screen space bounding box of an actor at this stage so as to * minimize how much of the screen redraw because it's possible * something else will happen which will force a full redraw anyway. * * When all updates are complete and we come to paint the stage then * we iterate this list and actually emit the "queue-redraw" signals * for each of the listed actors which will bubble up to the stage * for each actor and at that point we will transform the actors * paint volume into screen coordinates to determine the clip region * for what needs to be redrawn in the next paint. * * Besides minimizing redundant work another reason for this * deferred design is that it's more likely we will be able to * determine the paint volume of an actor once we've finished * updating the scenegraph because its allocation should be up to * date. NB: If we can't determine an actors paint volume then we * can't automatically queue a clipped redraw which can make a big * difference to performance. * * So the control flow goes like this: * One of clutter_actor_queue_redraw(), * _clutter_actor_queue_redraw_with_clip(), * or clutter_effect_queue_repaint() * * then control moves to: * _clutter_stage_queue_actor_redraw() * * later during _clutter_stage_do_update(), once relayouting is done * and the scenegraph has been updated we will call: * _clutter_stage_finish_queue_redraws(). * * _clutter_stage_finish_queue_redraws() will call * _clutter_actor_finish_queue_redraw() for each listed actor. * * Note: actors *are* allowed to queue further redraws during this * process (considering clone actors or texture_new_from_actor which * respond to their source queueing a redraw by queuing a redraw * themselves). We repeat the process until the list is empty. * * This will result in the "queue-redraw" signal being fired for * each actor which will pass control to the default signal handler: * clutter_actor_real_queue_redraw() * * This will bubble up to the stages handler: * clutter_stage_real_queue_redraw() * * clutter_stage_real_queue_redraw() will transform the actors paint * volume into screen space and add it as a clip region for the next * paint. */ /* ignore queueing a redraw for actors being destroyed */ if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) return; /* we can ignore unmapped actors, unless they have at least one * mapped clone or they are inside a cloned branch of the scene * graph, as unmapped actors will simply be left unpainted. * * this allows us to ignore redraws queued on leaf nodes when one * of their parents has been hidden */ if (!CLUTTER_ACTOR_IS_MAPPED (self) && self->priv->in_cloned_branch == 0 && !clutter_actor_has_mapped_clones (self)) { CLUTTER_NOTE (PAINT, "Skipping queue_redraw('%s'): mapped=%s, " "mapped_clones=%s, " "in_cloned_branch=%s", _clutter_actor_get_debug_name (self), CLUTTER_ACTOR_IS_MAPPED (self) ? "yes" : "no", clutter_actor_has_mapped_clones (self) ? "yes" : "no", self->priv->in_cloned_branch != 0 ? "yes" : "no"); return; } /* given the check above we could end up queueing a redraw on an * unmapped actor with mapped clones, so we cannot assume that * get_stage() will return a Stage */ stage = _clutter_actor_get_stage_internal (self); if (stage == NULL) return; /* ignore queueing a redraw on stages that are being destroyed */ if (CLUTTER_ACTOR_IN_DESTRUCTION (stage)) return; if (flags & CLUTTER_REDRAW_CLIPPED_TO_ALLOCATION) { ClutterActorBox allocation_clip; ClutterVertex origin; /* If the actor doesn't have a valid allocation then we will * queue a full stage redraw. */ if (priv->needs_allocation) { /* NB: NULL denotes an undefined clip which will result in a * full redraw... */ _clutter_actor_set_queue_redraw_clip (self, NULL); _clutter_actor_signal_queue_redraw (self, self); return; } _clutter_paint_volume_init_static (&allocation_pv, self); pv = &allocation_pv; _clutter_actor_get_allocation_clip (self, &allocation_clip); origin.x = allocation_clip.x1; origin.y = allocation_clip.y1; origin.z = 0; clutter_paint_volume_set_origin (pv, &origin); clutter_paint_volume_set_width (pv, allocation_clip.x2 - allocation_clip.x1); clutter_paint_volume_set_height (pv, allocation_clip.y2 - allocation_clip.y1); should_free_pv = TRUE; } else { pv = volume; should_free_pv = FALSE; } self->priv->queue_redraw_entry = _clutter_stage_queue_actor_redraw (CLUTTER_STAGE (stage), priv->queue_redraw_entry, self, pv); if (should_free_pv) clutter_paint_volume_free (pv); /* If this is the first redraw queued then we can directly use the effect parameter */ if (!priv->is_dirty) priv->effect_to_redraw = effect; /* Otherwise we need to merge it with the existing effect parameter */ else if (effect != NULL) { /* If there's already an effect then we need to use whichever is later in the chain of actors. Otherwise a full redraw has already been queued on the actor so we need to ignore the effect parameter */ if (priv->effect_to_redraw != NULL) { if (priv->effects == NULL) g_warning ("Redraw queued with an effect that is " "not applied to the actor"); else { const GList *l; for (l = _clutter_meta_group_peek_metas (priv->effects); l != NULL; l = l->next) { if (l->data == priv->effect_to_redraw || l->data == effect) priv->effect_to_redraw = l->data; } } } } else { /* If no effect is specified then we need to redraw the whole actor */ priv->effect_to_redraw = NULL; } priv->is_dirty = TRUE; } /** * clutter_actor_queue_redraw: * @self: A #ClutterActor * * Queues up a redraw of an actor and any children. The redraw occurs * once the main loop becomes idle (after the current batch of events * has been processed, roughly). * * Applications rarely need to call this, as redraws are handled * automatically by modification functions. * * This function will not do anything if @self is not visible, or * if the actor is inside an invisible part of the scenegraph. * * Also be aware that painting is a NOP for actors with an opacity of * 0 * * When you are implementing a custom actor you must queue a redraw * whenever some private state changes that will affect painting or * picking of your actor. */ void clutter_actor_queue_redraw (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); _clutter_actor_queue_redraw_full (self, 0, /* flags */ NULL, /* clip volume */ NULL /* effect */); } /*< private > * _clutter_actor_queue_redraw_with_clip: * @self: A #ClutterActor * @flags: A mask of #ClutterRedrawFlags controlling the behaviour of * this queue redraw. * @volume: A #ClutterPaintVolume describing the bounds of what needs to be * redrawn or %NULL if you are just using a @flag to state your * desired clipping. * * Queues up a clipped redraw of an actor and any children. The redraw * occurs once the main loop becomes idle (after the current batch of * events has been processed, roughly). * * If no flags are given the clip volume is defined by @volume * specified in actor coordinates and tells Clutter that only content * within this volume has been changed so Clutter can optionally * optimize the redraw. * * If the %CLUTTER_REDRAW_CLIPPED_TO_ALLOCATION @flag is used, @volume * should be %NULL and this tells Clutter to use the actor's current * allocation as a clip box. This flag can only be used for 2D actors, * because any actor with depth may be projected outside its * allocation. * * Applications rarely need to call this, as redraws are handled * automatically by modification functions. * * This function will not do anything if @self is not visible, or if * the actor is inside an invisible part of the scenegraph. * * Also be aware that painting is a NOP for actors with an opacity of * 0 * * When you are implementing a custom actor you must queue a redraw * whenever some private state changes that will affect painting or * picking of your actor. */ void _clutter_actor_queue_redraw_with_clip (ClutterActor *self, ClutterRedrawFlags flags, ClutterPaintVolume *volume) { _clutter_actor_queue_redraw_full (self, flags, /* flags */ volume, /* clip volume */ NULL /* effect */); } void _clutter_actor_queue_only_relayout (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) return; if (priv->needs_width_request && priv->needs_height_request && priv->needs_allocation) return; /* save some cpu cycles */ #if CLUTTER_ENABLE_DEBUG if (!CLUTTER_ACTOR_IS_TOPLEVEL (self) && CLUTTER_ACTOR_IN_RELAYOUT (self)) { g_warning ("The actor '%s' is currently inside an allocation " "cycle; calling clutter_actor_queue_relayout() is " "not recommended", _clutter_actor_get_debug_name (self)); } #endif /* CLUTTER_ENABLE_DEBUG */ _clutter_actor_queue_relayout_on_clones (self); g_signal_emit (self, actor_signals[QUEUE_RELAYOUT], 0); } /** * clutter_actor_queue_redraw_with_clip: * @self: a #ClutterActor * @clip: (allow-none): a rectangular clip region, or %NULL * * Queues a redraw on @self limited to a specific, actor-relative * rectangular area. * * If @clip is %NULL this function is equivalent to * clutter_actor_queue_redraw(). * * Since: 1.10 */ void clutter_actor_queue_redraw_with_clip (ClutterActor *self, const cairo_rectangle_int_t *clip) { ClutterPaintVolume volume; ClutterVertex origin; g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (clip == NULL) { clutter_actor_queue_redraw (self); return; } _clutter_paint_volume_init_static (&volume, self); origin.x = clip->x; origin.y = clip->y; origin.z = 0.0f; clutter_paint_volume_set_origin (&volume, &origin); clutter_paint_volume_set_width (&volume, clip->width); clutter_paint_volume_set_height (&volume, clip->height); _clutter_actor_queue_redraw_full (self, 0, &volume, NULL); clutter_paint_volume_free (&volume); } /** * clutter_actor_queue_relayout: * @self: A #ClutterActor * * Indicates that the actor's size request or other layout-affecting * properties may have changed. This function is used inside #ClutterActor * subclass implementations, not by applications directly. * * Queueing a new layout automatically queues a redraw as well. * * Since: 0.8 */ void clutter_actor_queue_relayout (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); _clutter_actor_queue_only_relayout (self); clutter_actor_queue_redraw (self); } /** * clutter_actor_get_preferred_size: * @self: a #ClutterActor * @min_width_p: (out) (allow-none): return location for the minimum * width, or %NULL * @min_height_p: (out) (allow-none): return location for the minimum * height, or %NULL * @natural_width_p: (out) (allow-none): return location for the natural * width, or %NULL * @natural_height_p: (out) (allow-none): return location for the natural * height, or %NULL * * Computes the preferred minimum and natural size of an actor, taking into * account the actor's geometry management (either height-for-width * or width-for-height). * * The width and height used to compute the preferred height and preferred * width are the actor's natural ones. * * If you need to control the height for the preferred width, or the width for * the preferred height, you should use clutter_actor_get_preferred_width() * and clutter_actor_get_preferred_height(), and check the actor's preferred * geometry management using the #ClutterActor:request-mode property. * * Since: 0.8 */ void clutter_actor_get_preferred_size (ClutterActor *self, gfloat *min_width_p, gfloat *min_height_p, gfloat *natural_width_p, gfloat *natural_height_p) { ClutterActorPrivate *priv; gfloat min_width, min_height; gfloat natural_width, natural_height; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; min_width = min_height = 0; natural_width = natural_height = 0; if (priv->request_mode == CLUTTER_REQUEST_HEIGHT_FOR_WIDTH) { CLUTTER_NOTE (LAYOUT, "Preferred size (height-for-width)"); clutter_actor_get_preferred_width (self, -1, &min_width, &natural_width); clutter_actor_get_preferred_height (self, natural_width, &min_height, &natural_height); } else if (priv->request_mode == CLUTTER_REQUEST_WIDTH_FOR_HEIGHT) { CLUTTER_NOTE (LAYOUT, "Preferred size (width-for-height)"); clutter_actor_get_preferred_height (self, -1, &min_height, &natural_height); clutter_actor_get_preferred_width (self, natural_height, &min_width, &natural_width); } else if (priv->request_mode == CLUTTER_REQUEST_CONTENT_SIZE) { CLUTTER_NOTE (LAYOUT, "Preferred size (content-size)"); if (priv->content != NULL) clutter_content_get_preferred_size (priv->content, &natural_width, &natural_height); } else { CLUTTER_NOTE (LAYOUT, "Unknown request mode"); } if (min_width_p) *min_width_p = min_width; if (min_height_p) *min_height_p = min_height; if (natural_width_p) *natural_width_p = natural_width; if (natural_height_p) *natural_height_p = natural_height; } /*< private > * effective_align: * @align: a #ClutterActorAlign * @direction: a #ClutterTextDirection * * Retrieves the correct alignment depending on the text direction * * Return value: the effective alignment */ static ClutterActorAlign effective_align (ClutterActorAlign align, ClutterTextDirection direction) { ClutterActorAlign res; switch (align) { case CLUTTER_ACTOR_ALIGN_START: res = (direction == CLUTTER_TEXT_DIRECTION_RTL) ? CLUTTER_ACTOR_ALIGN_END : CLUTTER_ACTOR_ALIGN_START; break; case CLUTTER_ACTOR_ALIGN_END: res = (direction == CLUTTER_TEXT_DIRECTION_RTL) ? CLUTTER_ACTOR_ALIGN_START : CLUTTER_ACTOR_ALIGN_END; break; default: res = align; break; } return res; } /*< private > * _clutter_actor_get_effective_x_align: * @self: a #ClutterActor * * Retrieves the effective horizontal alignment, taking into * consideration the text direction of @self. * * Return value: the effective horizontal alignment */ ClutterActorAlign _clutter_actor_get_effective_x_align (ClutterActor *self) { return effective_align (clutter_actor_get_x_align (self), clutter_actor_get_text_direction (self)); } static inline void adjust_for_margin (float margin_start, float margin_end, float *minimum_size, float *natural_size, float *allocated_start, float *allocated_end) { float min_size = *minimum_size; float nat_size = *natural_size; float start = *allocated_start; float end = *allocated_end; min_size = MAX (min_size - (margin_start + margin_end), 0); nat_size = MAX (nat_size - (margin_start + margin_end), 0); *minimum_size = min_size; *natural_size = nat_size; start += margin_start; end -= margin_end; if (end - start >= 0) { *allocated_start = start; *allocated_end = end; } } static inline void adjust_for_alignment (ClutterActorAlign alignment, float natural_size, float *allocated_start, float *allocated_end) { float allocated_size = *allocated_end - *allocated_start; if (allocated_size <= 0.f) return; switch (alignment) { case CLUTTER_ACTOR_ALIGN_FILL: /* do nothing */ break; case CLUTTER_ACTOR_ALIGN_START: /* keep start */ *allocated_end = *allocated_start + MIN (natural_size, allocated_size); break; case CLUTTER_ACTOR_ALIGN_END: if (allocated_size > natural_size) { *allocated_start += (allocated_size - natural_size); *allocated_end = *allocated_start + natural_size; } break; case CLUTTER_ACTOR_ALIGN_CENTER: if (allocated_size > natural_size) { *allocated_start += floorf ((allocated_size - natural_size) / 2); *allocated_end = *allocated_start + MIN (allocated_size, natural_size); } break; } } /*< private > * clutter_actor_adjust_width: * @self: a #ClutterActor * @minimum_width: (inout): the actor's preferred minimum width, which * will be adjusted depending on the margin * @natural_width: (inout): the actor's preferred natural width, which * will be adjusted depending on the margin * @adjusted_x1: (out): the adjusted x1 for the actor's bounding box * @adjusted_x2: (out): the adjusted x2 for the actor's bounding box * * Adjusts the preferred and allocated position and size of an actor, * depending on the margin and alignment properties. */ static void clutter_actor_adjust_width (ClutterActor *self, gfloat *minimum_width, gfloat *natural_width, gfloat *adjusted_x1, gfloat *adjusted_x2) { ClutterTextDirection text_dir; const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (self); text_dir = clutter_actor_get_text_direction (self); CLUTTER_NOTE (LAYOUT, "Adjusting allocated X and width"); /* this will tweak natural_width to remove the margin, so that * adjust_for_alignment() will use the correct size */ adjust_for_margin (info->margin.left, info->margin.right, minimum_width, natural_width, adjusted_x1, adjusted_x2); adjust_for_alignment (effective_align (info->x_align, text_dir), *natural_width, adjusted_x1, adjusted_x2); } /*< private > * clutter_actor_adjust_height: * @self: a #ClutterActor * @minimum_height: (inout): the actor's preferred minimum height, which * will be adjusted depending on the margin * @natural_height: (inout): the actor's preferred natural height, which * will be adjusted depending on the margin * @adjusted_y1: (out): the adjusted y1 for the actor's bounding box * @adjusted_y2: (out): the adjusted y2 for the actor's bounding box * * Adjusts the preferred and allocated position and size of an actor, * depending on the margin and alignment properties. */ static void clutter_actor_adjust_height (ClutterActor *self, gfloat *minimum_height, gfloat *natural_height, gfloat *adjusted_y1, gfloat *adjusted_y2) { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (self); CLUTTER_NOTE (LAYOUT, "Adjusting allocated Y and height"); /* this will tweak natural_height to remove the margin, so that * adjust_for_alignment() will use the correct size */ adjust_for_margin (info->margin.top, info->margin.bottom, minimum_height, natural_height, adjusted_y1, adjusted_y2); /* we don't use effective_align() here, because text direction * only affects the horizontal axis */ adjust_for_alignment (info->y_align, *natural_height, adjusted_y1, adjusted_y2); } /* looks for a cached size request for this for_size. If not * found, returns the oldest entry so it can be overwritten */ static gboolean _clutter_actor_get_cached_size_request (gfloat for_size, SizeRequest *cached_size_requests, SizeRequest **result) { guint i; *result = &cached_size_requests[0]; for (i = 0; i < N_CACHED_SIZE_REQUESTS; i++) { SizeRequest *sr; sr = &cached_size_requests[i]; if (sr->age > 0 && sr->for_size == for_size) { CLUTTER_NOTE (LAYOUT, "Size cache hit for size: %.2f", for_size); *result = sr; return TRUE; } else if (sr->age < (*result)->age) { *result = sr; } } CLUTTER_NOTE (LAYOUT, "Size cache miss for size: %.2f", for_size); return FALSE; } static void clutter_actor_update_preferred_size_for_constraints (ClutterActor *self, ClutterOrientation direction, float for_size, float *minimum_size, float *natural_size) { ClutterActorPrivate *priv = self->priv; const GList *constraints, *l; if (priv->constraints == NULL) return; constraints = _clutter_meta_group_peek_metas (priv->constraints); for (l = constraints; l != NULL; l = l->next) { ClutterConstraint *constraint = l->data; ClutterActorMeta *meta = l->data; if (!clutter_actor_meta_get_enabled (meta)) continue; clutter_constraint_update_preferred_size (constraint, self, direction, for_size, minimum_size, natural_size); CLUTTER_NOTE (LAYOUT, "Preferred %s of '%s' after constraint '%s': " "{ min:%.2f, nat:%.2f }", direction == CLUTTER_ORIENTATION_HORIZONTAL ? "width" : "height", _clutter_actor_get_debug_name (self), _clutter_actor_meta_get_debug_name (meta), *minimum_size, *natural_size); } } /** * clutter_actor_get_preferred_width: * @self: A #ClutterActor * @for_height: available height when computing the preferred width, * or a negative value to indicate that no height is defined * @min_width_p: (out) (allow-none): return location for minimum width, * or %NULL * @natural_width_p: (out) (allow-none): return location for the natural * width, or %NULL * * Computes the requested minimum and natural widths for an actor, * optionally depending on the specified height, or if they are * already computed, returns the cached values. * * An actor may not get its request - depending on the layout * manager that's in effect. * * A request should not incorporate the actor's scale or anchor point; * those transformations do not affect layout, only rendering. * * Since: 0.8 */ void clutter_actor_get_preferred_width (ClutterActor *self, gfloat for_height, gfloat *min_width_p, gfloat *natural_width_p) { float request_min_width, request_natural_width; SizeRequest *cached_size_request; const ClutterLayoutInfo *info; ClutterActorPrivate *priv; gboolean found_in_cache; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; info = _clutter_actor_get_layout_info_or_defaults (self); /* we shortcircuit the case of a fixed size set using set_width() */ if (priv->min_width_set && priv->natural_width_set) { if (min_width_p != NULL) *min_width_p = info->minimum.width + (info->margin.left + info->margin.right); if (natural_width_p != NULL) *natural_width_p = info->natural.width + (info->margin.left + info->margin.right); return; } /* the remaining cases are: * * - either min_width or natural_width have been set * - neither min_width or natural_width have been set * * in both cases, we go through the cache (and through the actor in case * of cache misses) and determine the authoritative value depending on * the *_set flags. */ if (!priv->needs_width_request) { found_in_cache = _clutter_actor_get_cached_size_request (for_height, priv->width_requests, &cached_size_request); } else { /* if the actor needs a width request we use the first slot */ found_in_cache = FALSE; cached_size_request = &priv->width_requests[0]; } if (!found_in_cache) { gfloat minimum_width, natural_width; ClutterActorClass *klass; minimum_width = natural_width = 0; /* adjust for the margin */ if (for_height >= 0) { for_height -= (info->margin.top + info->margin.bottom); if (for_height < 0) for_height = 0; } CLUTTER_NOTE (LAYOUT, "Width request for %.2f px", for_height); klass = CLUTTER_ACTOR_GET_CLASS (self); klass->get_preferred_width (self, for_height, &minimum_width, &natural_width); /* adjust for constraints */ clutter_actor_update_preferred_size_for_constraints (self, CLUTTER_ORIENTATION_HORIZONTAL, for_height, &minimum_width, &natural_width); /* adjust for the margin */ minimum_width += (info->margin.left + info->margin.right); natural_width += (info->margin.left + info->margin.right); /* Due to accumulated float errors, it's better not to warn * on this, but just fix it. */ if (natural_width < minimum_width) natural_width = minimum_width; cached_size_request->min_size = minimum_width; cached_size_request->natural_size = natural_width; cached_size_request->for_size = for_height; cached_size_request->age = priv->cached_width_age; priv->cached_width_age += 1; priv->needs_width_request = FALSE; } if (!priv->min_width_set) request_min_width = cached_size_request->min_size; else request_min_width = info->margin.left + info->minimum.width + info->margin.right; if (!priv->natural_width_set) request_natural_width = cached_size_request->natural_size; else request_natural_width = info->margin.left + info->natural.width + info->margin.right; if (min_width_p) *min_width_p = request_min_width; if (natural_width_p) *natural_width_p = request_natural_width; } /** * clutter_actor_get_preferred_height: * @self: A #ClutterActor * @for_width: available width to assume in computing desired height, * or a negative value to indicate that no width is defined * @min_height_p: (out) (allow-none): return location for minimum height, * or %NULL * @natural_height_p: (out) (allow-none): return location for natural * height, or %NULL * * Computes the requested minimum and natural heights for an actor, * or if they are already computed, returns the cached values. * * An actor may not get its request - depending on the layout * manager that's in effect. * * A request should not incorporate the actor's scale or anchor point; * those transformations do not affect layout, only rendering. * * Since: 0.8 */ void clutter_actor_get_preferred_height (ClutterActor *self, gfloat for_width, gfloat *min_height_p, gfloat *natural_height_p) { float request_min_height, request_natural_height; SizeRequest *cached_size_request; const ClutterLayoutInfo *info; ClutterActorPrivate *priv; gboolean found_in_cache; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; info = _clutter_actor_get_layout_info_or_defaults (self); /* we shortcircuit the case of a fixed size set using set_height() */ if (priv->min_height_set && priv->natural_height_set) { if (min_height_p != NULL) *min_height_p = info->minimum.height + (info->margin.top + info->margin.bottom); if (natural_height_p != NULL) *natural_height_p = info->natural.height + (info->margin.top + info->margin.bottom); return; } /* the remaining cases are: * * - either min_height or natural_height have been set * - neither min_height or natural_height have been set * * in both cases, we go through the cache (and through the actor in case * of cache misses) and determine the authoritative value depending on * the *_set flags. */ if (!priv->needs_height_request) { found_in_cache = _clutter_actor_get_cached_size_request (for_width, priv->height_requests, &cached_size_request); } else { found_in_cache = FALSE; cached_size_request = &priv->height_requests[0]; } if (!found_in_cache) { gfloat minimum_height, natural_height; ClutterActorClass *klass; minimum_height = natural_height = 0; CLUTTER_NOTE (LAYOUT, "Height request for %.2f px", for_width); /* adjust for margin */ if (for_width >= 0) { for_width -= (info->margin.left + info->margin.right); if (for_width < 0) for_width = 0; } klass = CLUTTER_ACTOR_GET_CLASS (self); klass->get_preferred_height (self, for_width, &minimum_height, &natural_height); /* adjust for constraints */ clutter_actor_update_preferred_size_for_constraints (self, CLUTTER_ORIENTATION_VERTICAL, for_width, &minimum_height, &natural_height); /* adjust for margin */ minimum_height += (info->margin.top + info->margin.bottom); natural_height += (info->margin.top + info->margin.bottom); /* Due to accumulated float errors, it's better not to warn * on this, but just fix it. */ if (natural_height < minimum_height) natural_height = minimum_height; cached_size_request->min_size = minimum_height; cached_size_request->natural_size = natural_height; cached_size_request->for_size = for_width; cached_size_request->age = priv->cached_height_age; priv->cached_height_age += 1; priv->needs_height_request = FALSE; } if (!priv->min_height_set) request_min_height = cached_size_request->min_size; else request_min_height = info->margin.top + info->minimum.height + info->margin.bottom; if (!priv->natural_height_set) request_natural_height = cached_size_request->natural_size; else request_natural_height = info->margin.top + info->natural.height + info->margin.bottom; if (min_height_p) *min_height_p = request_min_height; if (natural_height_p) *natural_height_p = request_natural_height; } /** * clutter_actor_get_allocation_box: * @self: A #ClutterActor * @box: (out): the function fills this in with the actor's allocation * * Gets the layout box an actor has been assigned. The allocation can * only be assumed valid inside a paint() method; anywhere else, it * may be out-of-date. * * An allocation does not incorporate the actor's scale or anchor point; * those transformations do not affect layout, only rendering. * * Do not call any of the clutter_actor_get_allocation_*() family * of functions inside the implementation of the get_preferred_width() * or get_preferred_height() virtual functions. * * Since: 0.8 */ void clutter_actor_get_allocation_box (ClutterActor *self, ClutterActorBox *box) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); /* XXX - if needs_allocation=TRUE, we can either 1) g_return_if_fail, * which limits calling get_allocation to inside paint() basically; or * we can 2) force a layout, which could be expensive if someone calls * get_allocation somewhere silly; or we can 3) just return the latest * value, allowing it to be out-of-date, and assume people know what * they are doing. * * The least-surprises approach that keeps existing code working is * likely to be 2). People can end up doing some inefficient things, * though, and in general code that requires 2) is probably broken. */ /* this implements 2) */ if (G_UNLIKELY (self->priv->needs_allocation)) { ClutterActor *stage = _clutter_actor_get_stage_internal (self); /* do not queue a relayout on an unparented actor */ if (stage) _clutter_stage_maybe_relayout (stage); } /* commenting out the code above and just keeping this assigment * implements 3) */ *box = self->priv->allocation; } static void clutter_actor_update_constraints (ClutterActor *self, ClutterActorBox *allocation) { ClutterActorPrivate *priv = self->priv; const GList *constraints, *l; if (priv->constraints == NULL) return; constraints = _clutter_meta_group_peek_metas (priv->constraints); for (l = constraints; l != NULL; l = l->next) { ClutterConstraint *constraint = l->data; ClutterActorMeta *meta = l->data; gboolean changed = FALSE; if (clutter_actor_meta_get_enabled (meta)) { changed |= clutter_constraint_update_allocation (constraint, self, allocation); CLUTTER_NOTE (LAYOUT, "Allocation of '%s' after constraint '%s': " "{ %.2f, %.2f, %.2f, %.2f } (changed:%s)", _clutter_actor_get_debug_name (self), _clutter_actor_meta_get_debug_name (meta), allocation->x1, allocation->y1, allocation->x2, allocation->y2, changed ? "yes" : "no"); } } } /*< private > * clutter_actor_adjust_allocation: * @self: a #ClutterActor * @allocation: (inout): the allocation to adjust * * Adjusts the passed allocation box taking into account the actor's * layout information, like alignment, expansion, and margin. */ static void clutter_actor_adjust_allocation (ClutterActor *self, ClutterActorBox *allocation) { ClutterActorBox adj_allocation; float alloc_width, alloc_height; float min_width, min_height; float nat_width, nat_height; ClutterRequestMode req_mode; adj_allocation = *allocation; clutter_actor_box_get_size (allocation, &alloc_width, &alloc_height); /* There's no point in trying to adjust a zero-sized actor */ if (alloc_width == 0.f && alloc_height == 0.f) return; /* we want to hit the cache, so we use the public API */ req_mode = clutter_actor_get_request_mode (self); if (req_mode == CLUTTER_REQUEST_HEIGHT_FOR_WIDTH) { clutter_actor_get_preferred_width (self, -1, &min_width, &nat_width); clutter_actor_get_preferred_height (self, alloc_width, &min_height, &nat_height); } else if (req_mode == CLUTTER_REQUEST_WIDTH_FOR_HEIGHT) { clutter_actor_get_preferred_height (self, -1, &min_height, &nat_height); clutter_actor_get_preferred_width (self, alloc_height, &min_width, &nat_width); } else if (req_mode == CLUTTER_REQUEST_CONTENT_SIZE) { min_width = min_height = 0; nat_width = nat_height = 0; if (self->priv->content != NULL) clutter_content_get_preferred_size (self->priv->content, &nat_width, &nat_height); } #ifdef CLUTTER_ENABLE_DEBUG /* warn about underallocations */ if (_clutter_diagnostic_enabled () && (floorf (min_width - alloc_width) > 0 || floorf (min_height - alloc_height) > 0)) { ClutterActor *parent = clutter_actor_get_parent (self); /* the only actors that are allowed to be underallocated are the Stage, * as it doesn't have an implicit size, and Actors that specifically * told us that they want to opt-out from layout control mechanisms * through the NO_LAYOUT escape hatch. */ if (parent != NULL && !(self->flags & CLUTTER_ACTOR_NO_LAYOUT) != 0) { g_warning (G_STRLOC ": The actor '%s' is getting an allocation " "of %.2f x %.2f from its parent actor '%s', but its " "requested minimum size is of %.2f x %.2f", _clutter_actor_get_debug_name (self), alloc_width, alloc_height, _clutter_actor_get_debug_name (parent), min_width, min_height); } } #endif clutter_actor_adjust_width (self, &min_width, &nat_width, &adj_allocation.x1, &adj_allocation.x2); clutter_actor_adjust_height (self, &min_height, &nat_height, &adj_allocation.y1, &adj_allocation.y2); /* we maintain the invariant that an allocation cannot be adjusted * to be outside the parent-given box */ if (adj_allocation.x1 < allocation->x1 || adj_allocation.y1 < allocation->y1 || adj_allocation.x2 > allocation->x2 || adj_allocation.y2 > allocation->y2) { g_warning (G_STRLOC ": The actor '%s' tried to adjust its allocation " "to { %.2f, %.2f, %.2f, %.2f }, which is outside of its " "original allocation of { %.2f, %.2f, %.2f, %.2f }", _clutter_actor_get_debug_name (self), adj_allocation.x1, adj_allocation.y1, adj_allocation.x2 - adj_allocation.x1, adj_allocation.y2 - adj_allocation.y1, allocation->x1, allocation->y1, allocation->x2 - allocation->x1, allocation->y2 - allocation->y1); return; } *allocation = adj_allocation; } static void clutter_actor_allocate_internal (ClutterActor *self, const ClutterActorBox *allocation, ClutterAllocationFlags flags) { ClutterActorClass *klass; CLUTTER_SET_PRIVATE_FLAGS (self, CLUTTER_IN_RELAYOUT); CLUTTER_NOTE (LAYOUT, "Calling %s::allocate()", _clutter_actor_get_debug_name (self)); klass = CLUTTER_ACTOR_GET_CLASS (self); klass->allocate (self, allocation, flags); CLUTTER_UNSET_PRIVATE_FLAGS (self, CLUTTER_IN_RELAYOUT); /* Caller should call clutter_actor_queue_redraw() if needed * for that particular case. */ } /** * clutter_actor_allocate: * @self: A #ClutterActor * @box: new allocation of the actor, in parent-relative coordinates * @flags: flags that control the allocation * * Assigns the size of a #ClutterActor from the given @box. * * This function should only be called on the children of an actor when * overriding the #ClutterActorClass.allocate() virtual function. * * This function will adjust the stored allocation to take into account * the alignment flags set in the #ClutterActor:x-align and * #ClutterActor:y-align properties, as well as the margin values set in * the #ClutterActor:margin-top, #ClutterActor:margin-right, * #ClutterActor:margin-bottom, and #ClutterActor:margin-left properties. * * This function will respect the easing state of the #ClutterActor and * interpolate between the current allocation and the new one if the * easing state duration is a positive value. * * Actors can know from their allocation box whether they have moved * with respect to their parent actor. The @flags parameter describes * additional information about the allocation, for instance whether * the parent has moved with respect to the stage, for example because * a grandparent's origin has moved. * * Since: 0.8 */ void clutter_actor_allocate (ClutterActor *self, const ClutterActorBox *box, ClutterAllocationFlags flags) { ClutterActorBox old_allocation, real_allocation; gboolean origin_changed, child_moved, size_changed; gboolean stage_allocation_changed; ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (G_UNLIKELY (_clutter_actor_get_stage_internal (self) == NULL)) { g_warning ("Spurious clutter_actor_allocate called for actor %p/%s " "which isn't a descendent of the stage!\n", self, _clutter_actor_get_debug_name (self)); return; } priv = self->priv; old_allocation = priv->allocation; real_allocation = *box; /* constraints are allowed to modify the allocation only here; we do * this prior to all the other checks so that we can bail out if the * allocation did not change */ clutter_actor_update_constraints (self, &real_allocation); /* adjust the allocation depending on the align/margin properties */ clutter_actor_adjust_allocation (self, &real_allocation); if (real_allocation.x2 < real_allocation.x1 || real_allocation.y2 < real_allocation.y1) { g_warning (G_STRLOC ": Actor '%s' tried to allocate a size of %.2f x %.2f", _clutter_actor_get_debug_name (self), real_allocation.x2 - real_allocation.x1, real_allocation.y2 - real_allocation.y1); } /* we allow 0-sized actors, but not negative-sized ones */ real_allocation.x2 = MAX (real_allocation.x2, real_allocation.x1); real_allocation.y2 = MAX (real_allocation.y2, real_allocation.y1); origin_changed = (flags & CLUTTER_ABSOLUTE_ORIGIN_CHANGED); child_moved = (real_allocation.x1 != old_allocation.x1 || real_allocation.y1 != old_allocation.y1); size_changed = (real_allocation.x2 != old_allocation.x2 || real_allocation.y2 != old_allocation.y2); if (origin_changed || child_moved || size_changed) stage_allocation_changed = TRUE; else stage_allocation_changed = FALSE; /* If we get an allocation "out of the blue" * (we did not queue relayout), then we want to * ignore it. But if we have needs_allocation set, * we want to guarantee that allocate() virtual * method is always called, i.e. that queue_relayout() * always results in an allocate() invocation on * an actor. * * The optimization here is to avoid re-allocating * actors that did not queue relayout and were * not moved. */ if (!priv->needs_allocation && !stage_allocation_changed) { CLUTTER_NOTE (LAYOUT, "No allocation needed"); return; } if (!stage_allocation_changed) { /* If the actor didn't move but needs_allocation is set, we just * need to allocate the children */ clutter_actor_allocate_internal (self, &real_allocation, flags); return; } /* When ABSOLUTE_ORIGIN_CHANGED is passed in to * clutter_actor_allocate(), it indicates whether the parent has its * absolute origin moved; when passed in to ClutterActor::allocate() * virtual method though, it indicates whether the child has its * absolute origin moved. So we set it when child_moved is TRUE */ if (child_moved) flags |= CLUTTER_ABSOLUTE_ORIGIN_CHANGED; /* store the flags here, so that they can be propagated by the * transition code */ self->priv->allocation_flags = flags; _clutter_actor_create_transition (self, obj_props[PROP_ALLOCATION], &priv->allocation, &real_allocation); } /** * clutter_actor_set_allocation: * @self: a #ClutterActor * @box: a #ClutterActorBox * @flags: allocation flags * * Stores the allocation of @self as defined by @box. * * This function can only be called from within the implementation of * the #ClutterActorClass.allocate() virtual function. * * The allocation should have been adjusted to take into account constraints, * alignment, and margin properties. If you are implementing a #ClutterActor * subclass that provides its own layout management policy for its children * instead of using a #ClutterLayoutManager delegate, you should not call * this function on the children of @self; instead, you should call * clutter_actor_allocate(), which will adjust the allocation box for * you. * * This function should only be used by subclasses of #ClutterActor * that wish to store their allocation but cannot chain up to the * parent's implementation; the default implementation of the * #ClutterActorClass.allocate() virtual function will call this * function. * * It is important to note that, while chaining up was the recommended * behaviour for #ClutterActor subclasses prior to the introduction of * this function, it is recommended to call clutter_actor_set_allocation() * instead. * * If the #ClutterActor is using a #ClutterLayoutManager delegate object * to handle the allocation of its children, this function will call * the clutter_layout_manager_allocate() function only if the * %CLUTTER_DELEGATE_LAYOUT flag is set on @flags, otherwise it is * expected that the subclass will call clutter_layout_manager_allocate() * by itself. For instance, the following code: * * |[ * static void * my_actor_allocate (ClutterActor *actor, * const ClutterActorBox *allocation, * ClutterAllocationFlags flags) * { * ClutterActorBox new_alloc; * ClutterAllocationFlags new_flags; * * adjust_allocation (allocation, &new_alloc); * * new_flags = flags | CLUTTER_DELEGATE_LAYOUT; * * // this will use the layout manager set on the actor * clutter_actor_set_allocation (actor, &new_alloc, new_flags); * } * ]| * * is equivalent to this: * * |[ * static void * my_actor_allocate (ClutterActor *actor, * const ClutterActorBox *allocation, * ClutterAllocationFlags flags) * { * ClutterLayoutManager *layout; * ClutterActorBox new_alloc; * * adjust_allocation (allocation, &new_alloc); * * clutter_actor_set_allocation (actor, &new_alloc, flags); * * layout = clutter_actor_get_layout_manager (actor); * clutter_layout_manager_allocate (layout, * CLUTTER_CONTAINER (actor), * &new_alloc, * flags); * } * ]| * * Since: 1.10 */ void clutter_actor_set_allocation (ClutterActor *self, const ClutterActorBox *box, ClutterAllocationFlags flags) { ClutterActorPrivate *priv; gboolean changed; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (box != NULL); if (G_UNLIKELY (!CLUTTER_ACTOR_IN_RELAYOUT (self))) { g_critical (G_STRLOC ": The clutter_actor_set_allocation() function " "can only be called from within the implementation of " "the ClutterActor::allocate() virtual function."); return; } priv = self->priv; g_object_freeze_notify (G_OBJECT (self)); changed = clutter_actor_set_allocation_internal (self, box, flags); /* we allocate our children before we notify changes in our geometry, * so that people connecting to properties will be able to get valid * data out of the sub-tree of the scene graph that has this actor at * the root. */ clutter_actor_maybe_layout_children (self, box, flags); if (changed) { ClutterActorBox signal_box = priv->allocation; ClutterAllocationFlags signal_flags = priv->allocation_flags; g_signal_emit (self, actor_signals[ALLOCATION_CHANGED], 0, &signal_box, signal_flags); } g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_set_position: * @self: A #ClutterActor * @x: New left position of actor in pixels. * @y: New top position of actor in pixels. * * Sets the actor's fixed position in pixels relative to any parent * actor. * * If a layout manager is in use, this position will override the * layout manager and force a fixed position. */ void clutter_actor_set_position (ClutterActor *self, gfloat x, gfloat y) { ClutterPoint new_position; ClutterPoint cur_position; g_return_if_fail (CLUTTER_IS_ACTOR (self)); clutter_point_init (&new_position, x, y); cur_position.x = clutter_actor_get_x (self); cur_position.y = clutter_actor_get_y (self); _clutter_actor_create_transition (self, obj_props[PROP_POSITION], &cur_position, &new_position); } /** * clutter_actor_get_fixed_position_set: * @self: A #ClutterActor * * Checks whether an actor has a fixed position set (and will thus be * unaffected by any layout manager). * * Return value: %TRUE if the fixed position is set on the actor * * Since: 0.8 */ gboolean clutter_actor_get_fixed_position_set (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return self->priv->position_set; } /** * clutter_actor_set_fixed_position_set: * @self: A #ClutterActor * @is_set: whether to use fixed position * * Sets whether an actor has a fixed position set (and will thus be * unaffected by any layout manager). * * Since: 0.8 */ void clutter_actor_set_fixed_position_set (ClutterActor *self, gboolean is_set) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->position_set == (is_set != FALSE)) return; if (!is_set) { ClutterLayoutInfo *info; /* Ensure we set back the default fixed position of 0,0 so that setting just one of x/y always atomically gets 0 for the other */ info = _clutter_actor_peek_layout_info (self); if (info != NULL) { info->fixed_pos.x = 0; info->fixed_pos.y = 0; } } self->priv->position_set = is_set != FALSE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_FIXED_POSITION_SET]); clutter_actor_queue_relayout (self); } /** * clutter_actor_move_by: * @self: A #ClutterActor * @dx: Distance to move Actor on X axis. * @dy: Distance to move Actor on Y axis. * * Moves an actor by the specified distance relative to its current * position in pixels. * * This function modifies the fixed position of an actor and thus removes * it from any layout management. Another way to move an actor is with an * anchor point, see clutter_actor_set_anchor_point(), or with an additional * translation, using clutter_actor_set_translation(). * * Since: 0.2 */ void clutter_actor_move_by (ClutterActor *self, gfloat dx, gfloat dy) { const ClutterLayoutInfo *info; gfloat x, y; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_layout_info_or_defaults (self); x = info->fixed_pos.x; y = info->fixed_pos.y; clutter_actor_set_position (self, x + dx, y + dy); } static void clutter_actor_set_min_width (ClutterActor *self, gfloat min_width) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; ClutterLayoutInfo *info; /* if we are setting the size on a top-level actor and the * backend only supports static top-levels (e.g. framebuffers) * then we ignore the passed value and we override it with * the stage implementation's preferred size. */ if (CLUTTER_ACTOR_IS_TOPLEVEL (self) && clutter_feature_available (CLUTTER_FEATURE_STAGE_STATIC)) return; info = _clutter_actor_get_layout_info (self); if (priv->min_width_set && min_width == info->minimum.width) return; g_object_freeze_notify (G_OBJECT (self)); clutter_actor_store_old_geometry (self, &old); info->minimum.width = min_width; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_MIN_WIDTH]); clutter_actor_set_min_width_set (self, TRUE); clutter_actor_notify_if_geometry_changed (self, &old); g_object_thaw_notify (G_OBJECT (self)); clutter_actor_queue_relayout (self); } static void clutter_actor_set_min_height (ClutterActor *self, gfloat min_height) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; ClutterLayoutInfo *info; /* if we are setting the size on a top-level actor and the * backend only supports static top-levels (e.g. framebuffers) * then we ignore the passed value and we override it with * the stage implementation's preferred size. */ if (CLUTTER_ACTOR_IS_TOPLEVEL (self) && clutter_feature_available (CLUTTER_FEATURE_STAGE_STATIC)) return; info = _clutter_actor_get_layout_info (self); if (priv->min_height_set && min_height == info->minimum.height) return; g_object_freeze_notify (G_OBJECT (self)); clutter_actor_store_old_geometry (self, &old); info->minimum.height = min_height; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_MIN_HEIGHT]); clutter_actor_set_min_height_set (self, TRUE); clutter_actor_notify_if_geometry_changed (self, &old); g_object_thaw_notify (G_OBJECT (self)); clutter_actor_queue_relayout (self); } static void clutter_actor_set_natural_width (ClutterActor *self, gfloat natural_width) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; ClutterLayoutInfo *info; /* if we are setting the size on a top-level actor and the * backend only supports static top-levels (e.g. framebuffers) * then we ignore the passed value and we override it with * the stage implementation's preferred size. */ if (CLUTTER_ACTOR_IS_TOPLEVEL (self) && clutter_feature_available (CLUTTER_FEATURE_STAGE_STATIC)) return; info = _clutter_actor_get_layout_info (self); if (priv->natural_width_set && natural_width == info->natural.width) return; g_object_freeze_notify (G_OBJECT (self)); clutter_actor_store_old_geometry (self, &old); info->natural.width = natural_width; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_NATURAL_WIDTH]); clutter_actor_set_natural_width_set (self, TRUE); clutter_actor_notify_if_geometry_changed (self, &old); g_object_thaw_notify (G_OBJECT (self)); clutter_actor_queue_relayout (self); } static void clutter_actor_set_natural_height (ClutterActor *self, gfloat natural_height) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; ClutterLayoutInfo *info; /* if we are setting the size on a top-level actor and the * backend only supports static top-levels (e.g. framebuffers) * then we ignore the passed value and we override it with * the stage implementation's preferred size. */ if (CLUTTER_ACTOR_IS_TOPLEVEL (self) && clutter_feature_available (CLUTTER_FEATURE_STAGE_STATIC)) return; info = _clutter_actor_get_layout_info (self); if (priv->natural_height_set && natural_height == info->natural.height) return; g_object_freeze_notify (G_OBJECT (self)); clutter_actor_store_old_geometry (self, &old); info->natural.height = natural_height; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_NATURAL_HEIGHT]); clutter_actor_set_natural_height_set (self, TRUE); clutter_actor_notify_if_geometry_changed (self, &old); g_object_thaw_notify (G_OBJECT (self)); clutter_actor_queue_relayout (self); } static void clutter_actor_set_min_width_set (ClutterActor *self, gboolean use_min_width) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; if (priv->min_width_set == (use_min_width != FALSE)) return; clutter_actor_store_old_geometry (self, &old); priv->min_width_set = use_min_width != FALSE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_MIN_WIDTH_SET]); clutter_actor_notify_if_geometry_changed (self, &old); clutter_actor_queue_relayout (self); } static void clutter_actor_set_min_height_set (ClutterActor *self, gboolean use_min_height) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; if (priv->min_height_set == (use_min_height != FALSE)) return; clutter_actor_store_old_geometry (self, &old); priv->min_height_set = use_min_height != FALSE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_MIN_HEIGHT_SET]); clutter_actor_notify_if_geometry_changed (self, &old); clutter_actor_queue_relayout (self); } static void clutter_actor_set_natural_width_set (ClutterActor *self, gboolean use_natural_width) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; if (priv->natural_width_set == (use_natural_width != FALSE)) return; clutter_actor_store_old_geometry (self, &old); priv->natural_width_set = use_natural_width != FALSE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_NATURAL_WIDTH_SET]); clutter_actor_notify_if_geometry_changed (self, &old); clutter_actor_queue_relayout (self); } static void clutter_actor_set_natural_height_set (ClutterActor *self, gboolean use_natural_height) { ClutterActorPrivate *priv = self->priv; ClutterActorBox old = { 0, }; if (priv->natural_height_set == (use_natural_height != FALSE)) return; clutter_actor_store_old_geometry (self, &old); priv->natural_height_set = use_natural_height != FALSE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_NATURAL_HEIGHT_SET]); clutter_actor_notify_if_geometry_changed (self, &old); clutter_actor_queue_relayout (self); } /** * clutter_actor_set_request_mode: * @self: a #ClutterActor * @mode: the request mode * * Sets the geometry request mode of @self. * * The @mode determines the order for invoking * clutter_actor_get_preferred_width() and * clutter_actor_get_preferred_height() * * Since: 1.2 */ void clutter_actor_set_request_mode (ClutterActor *self, ClutterRequestMode mode) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (priv->request_mode == mode) return; priv->request_mode = mode; priv->needs_width_request = TRUE; priv->needs_height_request = TRUE; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_REQUEST_MODE]); clutter_actor_queue_relayout (self); } /** * clutter_actor_get_request_mode: * @self: a #ClutterActor * * Retrieves the geometry request mode of @self * * Return value: the request mode for the actor * * Since: 1.2 */ ClutterRequestMode clutter_actor_get_request_mode (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_REQUEST_HEIGHT_FOR_WIDTH); return self->priv->request_mode; } /* variant of set_width() without checks and without notification * freeze+thaw, for internal usage only */ static inline void clutter_actor_set_width_internal (ClutterActor *self, gfloat width) { if (width >= 0) { /* the Stage will use the :min-width to control the minimum * width to be resized to, so we should not be setting it * along with the :natural-width */ if (!CLUTTER_ACTOR_IS_TOPLEVEL (self)) clutter_actor_set_min_width (self, width); clutter_actor_set_natural_width (self, width); } else { /* we only unset the :natural-width for the Stage */ if (!CLUTTER_ACTOR_IS_TOPLEVEL (self)) clutter_actor_set_min_width_set (self, FALSE); clutter_actor_set_natural_width_set (self, FALSE); } } /* variant of set_height() without checks and without notification * freeze+thaw, for internal usage only */ static inline void clutter_actor_set_height_internal (ClutterActor *self, gfloat height) { if (height >= 0) { /* see the comment above in set_width_internal() */ if (!CLUTTER_ACTOR_IS_TOPLEVEL (self)) clutter_actor_set_min_height (self, height); clutter_actor_set_natural_height (self, height); } else { /* see the comment above in set_width_internal() */ if (!CLUTTER_ACTOR_IS_TOPLEVEL (self)) clutter_actor_set_min_height_set (self, FALSE); clutter_actor_set_natural_height_set (self, FALSE); } } static void clutter_actor_set_size_internal (ClutterActor *self, const ClutterSize *size) { if (size != NULL) { clutter_actor_set_width_internal (self, size->width); clutter_actor_set_height_internal (self, size->height); } else { clutter_actor_set_width_internal (self, -1); clutter_actor_set_height_internal (self, -1); } } /** * clutter_actor_set_size: * @self: A #ClutterActor * @width: New width of actor in pixels, or -1 * @height: New height of actor in pixels, or -1 * * Sets the actor's size request in pixels. This overrides any * "normal" size request the actor would have. For example * a text actor might normally request the size of the text; * this function would force a specific size instead. * * If @width and/or @height are -1 the actor will use its * "normal" size request instead of overriding it, i.e. * you can "unset" the size with -1. * * This function sets or unsets both the minimum and natural size. */ void clutter_actor_set_size (ClutterActor *self, gfloat width, gfloat height) { ClutterSize new_size; g_return_if_fail (CLUTTER_IS_ACTOR (self)); clutter_size_init (&new_size, width, height); /* minor optimization: if we don't have a duration then we can * skip the get_size() below, to avoid the chance of going through * get_preferred_width() and get_preferred_height() just to jump to * a new desired size */ if (clutter_actor_get_easing_duration (self) == 0) { g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_size_internal (self, &new_size); g_object_thaw_notify (G_OBJECT (self)); return; } else { ClutterSize cur_size; clutter_size_init (&cur_size, clutter_actor_get_width (self), clutter_actor_get_height (self)); _clutter_actor_create_transition (self, obj_props[PROP_SIZE], &cur_size, &new_size); } } /** * clutter_actor_get_size: * @self: A #ClutterActor * @width: (out) (allow-none): return location for the width, or %NULL. * @height: (out) (allow-none): return location for the height, or %NULL. * * This function tries to "do what you mean" and return * the size an actor will have. If the actor has a valid * allocation, the allocation will be returned; otherwise, * the actors natural size request will be returned. * * If you care whether you get the request vs. the allocation, you * should probably call a different function like * clutter_actor_get_allocation_box() or * clutter_actor_get_preferred_width(). * * Since: 0.2 */ void clutter_actor_get_size (ClutterActor *self, gfloat *width, gfloat *height) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (width) *width = clutter_actor_get_width (self); if (height) *height = clutter_actor_get_height (self); } /** * clutter_actor_get_position: * @self: a #ClutterActor * @x: (out) (allow-none): return location for the X coordinate, or %NULL * @y: (out) (allow-none): return location for the Y coordinate, or %NULL * * This function tries to "do what you mean" and tell you where the * actor is, prior to any transformations. Retrieves the fixed * position of an actor in pixels, if one has been set; otherwise, if * the allocation is valid, returns the actor's allocated position; * otherwise, returns 0,0. * * The returned position is in pixels. * * Since: 0.6 */ void clutter_actor_get_position (ClutterActor *self, gfloat *x, gfloat *y) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (x) *x = clutter_actor_get_x (self); if (y) *y = clutter_actor_get_y (self); } /** * clutter_actor_get_transformed_position: * @self: A #ClutterActor * @x: (out) (allow-none): return location for the X coordinate, or %NULL * @y: (out) (allow-none): return location for the Y coordinate, or %NULL * * Gets the absolute position of an actor, in pixels relative to the stage. * * Since: 0.8 */ void clutter_actor_get_transformed_position (ClutterActor *self, gfloat *x, gfloat *y) { ClutterVertex v1; ClutterVertex v2; v1.x = v1.y = v1.z = 0; clutter_actor_apply_transform_to_point (self, &v1, &v2); if (x) *x = v2.x; if (y) *y = v2.y; } /** * clutter_actor_get_transformed_size: * @self: A #ClutterActor * @width: (out) (allow-none): return location for the width, or %NULL * @height: (out) (allow-none): return location for the height, or %NULL * * Gets the absolute size of an actor in pixels, taking into account the * scaling factors. * * If the actor has a valid allocation, the allocated size will be used. * If the actor has not a valid allocation then the preferred size will * be transformed and returned. * * If you want the transformed allocation, see * clutter_actor_get_abs_allocation_vertices() instead. * * When the actor (or one of its ancestors) is rotated around the * X or Y axis, it no longer appears as on the stage as a rectangle, but * as a generic quadrangle; in that case this function returns the size * of the smallest rectangle that encapsulates the entire quad. Please * note that in this case no assumptions can be made about the relative * position of this envelope to the absolute position of the actor, as * returned by clutter_actor_get_transformed_position(); if you need this * information, you need to use clutter_actor_get_abs_allocation_vertices() * to get the coords of the actual quadrangle. * * Since: 0.8 */ void clutter_actor_get_transformed_size (ClutterActor *self, gfloat *width, gfloat *height) { ClutterActorPrivate *priv; ClutterVertex v[4]; gfloat x_min, x_max, y_min, y_max; gint i; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; /* if the actor hasn't been allocated yet, get the preferred * size and transform that */ if (priv->needs_allocation) { gfloat natural_width, natural_height; ClutterActorBox box; /* Make a fake allocation to transform. * * NB: _clutter_actor_transform_and_project_box expects a box in * the actor's coordinate space... */ box.x1 = 0; box.y1 = 0; natural_width = natural_height = 0; clutter_actor_get_preferred_size (self, NULL, NULL, &natural_width, &natural_height); box.x2 = natural_width; box.y2 = natural_height; _clutter_actor_transform_and_project_box (self, &box, v); } else clutter_actor_get_abs_allocation_vertices (self, v); x_min = x_max = v[0].x; y_min = y_max = v[0].y; for (i = 1; i < G_N_ELEMENTS (v); ++i) { if (v[i].x < x_min) x_min = v[i].x; if (v[i].x > x_max) x_max = v[i].x; if (v[i].y < y_min) y_min = v[i].y; if (v[i].y > y_max) y_max = v[i].y; } if (width) *width = x_max - x_min; if (height) *height = y_max - y_min; } /** * clutter_actor_get_width: * @self: A #ClutterActor * * Retrieves the width of a #ClutterActor. * * If the actor has a valid allocation, this function will return the * width of the allocated area given to the actor. * * If the actor does not have a valid allocation, this function will * return the actor's natural width, that is the preferred width of * the actor. * * If you care whether you get the preferred width or the width that * has been assigned to the actor, you should probably call a different * function like clutter_actor_get_allocation_box() to retrieve the * allocated size or clutter_actor_get_preferred_width() to retrieve the * preferred width. * * If an actor has a fixed width, for instance a width that has been * assigned using clutter_actor_set_width(), the width returned will * be the same value. * * Return value: the width of the actor, in pixels */ gfloat clutter_actor_get_width (ClutterActor *self) { ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); priv = self->priv; if (priv->needs_allocation) { gfloat natural_width = 0; if (priv->request_mode == CLUTTER_REQUEST_HEIGHT_FOR_WIDTH) { clutter_actor_get_preferred_width (self, -1, NULL, &natural_width); } else if (priv->request_mode == CLUTTER_REQUEST_WIDTH_FOR_HEIGHT) { gfloat natural_height = 0; clutter_actor_get_preferred_height (self, -1, NULL, &natural_height); clutter_actor_get_preferred_width (self, natural_height, NULL, &natural_width); } else if (priv->request_mode == CLUTTER_REQUEST_CONTENT_SIZE && priv->content != NULL) { clutter_content_get_preferred_size (priv->content, &natural_width, NULL); } return natural_width; } else return priv->allocation.x2 - priv->allocation.x1; } /** * clutter_actor_get_height: * @self: A #ClutterActor * * Retrieves the height of a #ClutterActor. * * If the actor has a valid allocation, this function will return the * height of the allocated area given to the actor. * * If the actor does not have a valid allocation, this function will * return the actor's natural height, that is the preferred height of * the actor. * * If you care whether you get the preferred height or the height that * has been assigned to the actor, you should probably call a different * function like clutter_actor_get_allocation_box() to retrieve the * allocated size or clutter_actor_get_preferred_height() to retrieve the * preferred height. * * If an actor has a fixed height, for instance a height that has been * assigned using clutter_actor_set_height(), the height returned will * be the same value. * * Return value: the height of the actor, in pixels */ gfloat clutter_actor_get_height (ClutterActor *self) { ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); priv = self->priv; if (priv->needs_allocation) { gfloat natural_height = 0; if (priv->request_mode == CLUTTER_REQUEST_HEIGHT_FOR_WIDTH) { gfloat natural_width = 0; clutter_actor_get_preferred_width (self, -1, NULL, &natural_width); clutter_actor_get_preferred_height (self, natural_width, NULL, &natural_height); } else if (priv->request_mode == CLUTTER_REQUEST_WIDTH_FOR_HEIGHT) { clutter_actor_get_preferred_height (self, -1, NULL, &natural_height); } else if (priv->request_mode == CLUTTER_REQUEST_CONTENT_SIZE && priv->content != NULL) { clutter_content_get_preferred_size (priv->content, NULL, &natural_height); } return natural_height; } else return priv->allocation.y2 - priv->allocation.y1; } /** * clutter_actor_set_width: * @self: A #ClutterActor * @width: Requested new width for the actor, in pixels, or -1 * * Forces a width on an actor, causing the actor's preferred width * and height (if any) to be ignored. * * If @width is -1 the actor will use its preferred width request * instead of overriding it, i.e. you can "unset" the width with -1. * * This function sets both the minimum and natural size of the actor. * * since: 0.2 */ void clutter_actor_set_width (ClutterActor *self, gfloat width) { float cur_size; g_return_if_fail (CLUTTER_IS_ACTOR (self)); /* minor optimization: if we don't have a duration * then we can skip the get_width() below, to avoid * the chance of going through get_preferred_width() * just to jump to a new desired width. */ if (clutter_actor_get_easing_duration (self) == 0) { g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_width_internal (self, width); g_object_thaw_notify (G_OBJECT (self)); return; } else cur_size = clutter_actor_get_width (self); _clutter_actor_create_transition (self, obj_props[PROP_WIDTH], cur_size, width); } /** * clutter_actor_set_height: * @self: A #ClutterActor * @height: Requested new height for the actor, in pixels, or -1 * * Forces a height on an actor, causing the actor's preferred width * and height (if any) to be ignored. * * If @height is -1 the actor will use its preferred height instead of * overriding it, i.e. you can "unset" the height with -1. * * This function sets both the minimum and natural size of the actor. * * since: 0.2 */ void clutter_actor_set_height (ClutterActor *self, gfloat height) { float cur_size; g_return_if_fail (CLUTTER_IS_ACTOR (self)); /* see the comment in clutter_actor_set_width() above */ if (clutter_actor_get_easing_duration (self) == 0) { g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_height_internal (self, height); g_object_thaw_notify (G_OBJECT (self)); return; } else cur_size = clutter_actor_get_height (self); _clutter_actor_create_transition (self, obj_props[PROP_HEIGHT], cur_size, height); } static inline void clutter_actor_set_x_internal (ClutterActor *self, float x) { ClutterActorPrivate *priv = self->priv; ClutterLayoutInfo *linfo; ClutterActorBox old = { 0, }; linfo = _clutter_actor_get_layout_info (self); if (priv->position_set && linfo->fixed_pos.x == x) return; clutter_actor_store_old_geometry (self, &old); linfo->fixed_pos.x = x; clutter_actor_set_fixed_position_set (self, TRUE); clutter_actor_notify_if_geometry_changed (self, &old); clutter_actor_queue_relayout (self); } static inline void clutter_actor_set_y_internal (ClutterActor *self, float y) { ClutterActorPrivate *priv = self->priv; ClutterLayoutInfo *linfo; ClutterActorBox old = { 0, }; linfo = _clutter_actor_get_layout_info (self); if (priv->position_set && linfo->fixed_pos.y == y) return; clutter_actor_store_old_geometry (self, &old); linfo->fixed_pos.y = y; clutter_actor_set_fixed_position_set (self, TRUE); clutter_actor_notify_if_geometry_changed (self, &old); clutter_actor_queue_relayout (self); } static void clutter_actor_set_position_internal (ClutterActor *self, const ClutterPoint *position) { ClutterActorPrivate *priv = self->priv; ClutterLayoutInfo *linfo; ClutterActorBox old = { 0, }; linfo = _clutter_actor_get_layout_info (self); if (priv->position_set && clutter_point_equals (position, &linfo->fixed_pos)) return; clutter_actor_store_old_geometry (self, &old); if (position != NULL) { linfo->fixed_pos = *position; clutter_actor_set_fixed_position_set (self, TRUE); } else clutter_actor_set_fixed_position_set (self, FALSE); clutter_actor_notify_if_geometry_changed (self, &old); clutter_actor_queue_relayout (self); } /** * clutter_actor_set_x: * @self: a #ClutterActor * @x: the actor's position on the X axis * * Sets the actor's X coordinate, relative to its parent, in pixels. * * Overrides any layout manager and forces a fixed position for * the actor. * * The #ClutterActor:x property is animatable. * * Since: 0.6 */ void clutter_actor_set_x (ClutterActor *self, gfloat x) { float cur_position = clutter_actor_get_x (self); g_return_if_fail (CLUTTER_IS_ACTOR (self)); _clutter_actor_create_transition (self, obj_props[PROP_X], cur_position, x); } /** * clutter_actor_set_y: * @self: a #ClutterActor * @y: the actor's position on the Y axis * * Sets the actor's Y coordinate, relative to its parent, in pixels.# * * Overrides any layout manager and forces a fixed position for * the actor. * * The #ClutterActor:y property is animatable. * * Since: 0.6 */ void clutter_actor_set_y (ClutterActor *self, gfloat y) { float cur_position = clutter_actor_get_y (self); g_return_if_fail (CLUTTER_IS_ACTOR (self)); _clutter_actor_create_transition (self, obj_props[PROP_Y], cur_position, y); } /** * clutter_actor_get_x: * @self: A #ClutterActor * * Retrieves the X coordinate of a #ClutterActor. * * This function tries to "do what you mean", by returning the * correct value depending on the actor's state. * * If the actor has a valid allocation, this function will return * the X coordinate of the origin of the allocation box. * * If the actor has any fixed coordinate set using clutter_actor_set_x(), * clutter_actor_set_position() or clutter_actor_set_geometry(), this * function will return that coordinate. * * If both the allocation and a fixed position are missing, this function * will return 0. * * Return value: the X coordinate, in pixels, ignoring any * transformation (i.e. scaling, rotation) */ gfloat clutter_actor_get_x (ClutterActor *self) { ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); priv = self->priv; if (priv->needs_allocation) { if (priv->position_set) { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (self); return info->fixed_pos.x; } else return 0; } else return priv->allocation.x1; } /** * clutter_actor_get_y: * @self: A #ClutterActor * * Retrieves the Y coordinate of a #ClutterActor. * * This function tries to "do what you mean", by returning the * correct value depending on the actor's state. * * If the actor has a valid allocation, this function will return * the Y coordinate of the origin of the allocation box. * * If the actor has any fixed coordinate set using clutter_actor_set_y(), * clutter_actor_set_position() or clutter_actor_set_geometry(), this * function will return that coordinate. * * If both the allocation and a fixed position are missing, this function * will return 0. * * Return value: the Y coordinate, in pixels, ignoring any * transformation (i.e. scaling, rotation) */ gfloat clutter_actor_get_y (ClutterActor *self) { ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); priv = self->priv; if (priv->needs_allocation) { if (priv->position_set) { const ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info_or_defaults (self); return info->fixed_pos.y; } else return 0; } else return priv->allocation.y1; } /** * clutter_actor_set_scale: * @self: A #ClutterActor * @scale_x: double factor to scale actor by horizontally. * @scale_y: double factor to scale actor by vertically. * * Scales an actor with the given factors. * * The scale transformation is relative the the #ClutterActor:pivot-point. * * The #ClutterActor:scale-x and #ClutterActor:scale-y properties are * animatable. * * Since: 0.2 */ void clutter_actor_set_scale (ClutterActor *self, gdouble scale_x, gdouble scale_y) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_scale_factor (self, CLUTTER_X_AXIS, scale_x); clutter_actor_set_scale_factor (self, CLUTTER_Y_AXIS, scale_y); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_set_scale_z: * @self: a #ClutterActor * @scale_z: the scaling factor along the Z axis * * Scales an actor on the Z axis by the given @scale_z factor. * * The scale transformation is relative the the #ClutterActor:pivot-point. * * The #ClutterActor:scale-z property is animatable. * * Since: 1.12 */ void clutter_actor_set_scale_z (ClutterActor *self, gdouble scale_z) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); clutter_actor_set_scale_factor (self, CLUTTER_Z_AXIS, scale_z); } /** * clutter_actor_set_scale_full: * @self: A #ClutterActor * @scale_x: double factor to scale actor by horizontally. * @scale_y: double factor to scale actor by vertically. * @center_x: X coordinate of the center of the scaling * @center_y: Y coordinate of the center of the scaling * * Scales an actor with the given factors around the given center * point. The center point is specified in pixels relative to the * anchor point (usually the top left corner of the actor). * * The #ClutterActor:scale-x and #ClutterActor:scale-y properties * are animatable. * * Since: 1.0 * * Deprecated: 1.12: Use clutter_actor_set_pivot_point() to control * the scale center */ void clutter_actor_set_scale_full (ClutterActor *self, gdouble scale_x, gdouble scale_y, gfloat center_x, gfloat center_y) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_scale_factor (self, CLUTTER_X_AXIS, scale_x); clutter_actor_set_scale_factor (self, CLUTTER_Y_AXIS, scale_y); clutter_actor_set_scale_center (self, CLUTTER_X_AXIS, center_x); clutter_actor_set_scale_center (self, CLUTTER_Y_AXIS, center_y); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_set_scale_with_gravity: * @self: A #ClutterActor * @scale_x: double factor to scale actor by horizontally. * @scale_y: double factor to scale actor by vertically. * @gravity: the location of the scale center expressed as a compass * direction. * * Scales an actor with the given factors around the given * center point. The center point is specified as one of the compass * directions in #ClutterGravity. For example, setting it to north * will cause the top of the actor to remain unchanged and the rest of * the actor to expand left, right and downwards. * * The #ClutterActor:scale-x and #ClutterActor:scale-y properties are * animatable. * * Since: 1.0 * * Deprecated: 1.12: Use clutter_actor_set_pivot_point() to set the * scale center using normalized coordinates instead. */ void clutter_actor_set_scale_with_gravity (ClutterActor *self, gdouble scale_x, gdouble scale_y, ClutterGravity gravity) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_scale_factor (self, CLUTTER_X_AXIS, scale_x); clutter_actor_set_scale_factor (self, CLUTTER_Y_AXIS, scale_y); clutter_actor_set_scale_gravity (self, gravity); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_get_scale: * @self: A #ClutterActor * @scale_x: (out) (allow-none): Location to store horizonal * scale factor, or %NULL. * @scale_y: (out) (allow-none): Location to store vertical * scale factor, or %NULL. * * Retrieves an actors scale factors. * * Since: 0.2 */ void clutter_actor_get_scale (ClutterActor *self, gdouble *scale_x, gdouble *scale_y) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); if (scale_x) *scale_x = info->scale_x; if (scale_y) *scale_y = info->scale_y; } /** * clutter_actor_get_scale_z: * @self: A #ClutterActor * * Retrieves the scaling factor along the Z axis, as set using * clutter_actor_set_scale_z(). * * Return value: the scaling factor along the Z axis * * Since: 1.12 */ gdouble clutter_actor_get_scale_z (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 1.0); return _clutter_actor_get_transform_info_or_defaults (self)->scale_z; } /** * clutter_actor_get_scale_center: * @self: A #ClutterActor * @center_x: (out) (allow-none): Location to store the X position * of the scale center, or %NULL. * @center_y: (out) (allow-none): Location to store the Y position * of the scale center, or %NULL. * * Retrieves the scale center coordinate in pixels relative to the top * left corner of the actor. If the scale center was specified using a * #ClutterGravity this will calculate the pixel offset using the * current size of the actor. * * Since: 1.0 * * Deprecated: 1.12: Use clutter_actor_get_pivot_point() instead. */ void clutter_actor_get_scale_center (ClutterActor *self, gfloat *center_x, gfloat *center_y) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); clutter_anchor_coord_get_units (self, &info->scale_center, center_x, center_y, NULL); } /** * clutter_actor_get_scale_gravity: * @self: A #ClutterActor * * Retrieves the scale center as a compass direction. If the scale * center was specified in pixels or units this will return * %CLUTTER_GRAVITY_NONE. * * Return value: the scale gravity * * Since: 1.0 * * Deprecated: 1.12: Use clutter_actor_get_pivot_point() instead. */ ClutterGravity clutter_actor_get_scale_gravity (ClutterActor *self) { const ClutterTransformInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_GRAVITY_NONE); info = _clutter_actor_get_transform_info_or_defaults (self); return clutter_anchor_coord_get_gravity (&info->scale_center); } static inline void clutter_actor_set_opacity_internal (ClutterActor *self, guint8 opacity) { ClutterActorPrivate *priv = self->priv; if (priv->opacity != opacity) { priv->opacity = opacity; /* Queue a redraw from the flatten effect so that it can use its cached image if available instead of having to redraw the actual actor. If it doesn't end up using the FBO then the effect is still able to continue the paint anyway. If there is no flatten effect yet then this is equivalent to queueing a full redraw */ _clutter_actor_queue_redraw_full (self, 0, /* flags */ NULL, /* clip */ priv->flatten_effect); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_OPACITY]); } } /** * clutter_actor_set_opacity: * @self: A #ClutterActor * @opacity: New opacity value for the actor. * * Sets the actor's opacity, with zero being completely transparent and * 255 (0xff) being fully opaque. * * The #ClutterActor:opacity property is animatable. */ void clutter_actor_set_opacity (ClutterActor *self, guint8 opacity) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); _clutter_actor_create_transition (self, obj_props[PROP_OPACITY], self->priv->opacity, opacity); } /* * clutter_actor_get_paint_opacity_internal: * @self: a #ClutterActor * * Retrieves the absolute opacity of the actor, as it appears on the stage * * This function does not do type checks * * Return value: the absolute opacity of the actor */ static guint8 clutter_actor_get_paint_opacity_internal (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; ClutterActor *parent; /* override the top-level opacity to always be 255; even in * case of ClutterStage:use-alpha being TRUE we want the rest * of the scene to be painted */ if (CLUTTER_ACTOR_IS_TOPLEVEL (self)) return 255; if (priv->opacity_override >= 0) return priv->opacity_override; parent = priv->parent; /* Factor in the actual actors opacity with parents */ if (parent != NULL) { guint8 opacity = clutter_actor_get_paint_opacity_internal (parent); if (opacity != 0xff) return (opacity * priv->opacity) / 0xff; } return priv->opacity; } /** * clutter_actor_get_paint_opacity: * @self: A #ClutterActor * * Retrieves the absolute opacity of the actor, as it appears on the stage. * * This function traverses the hierarchy chain and composites the opacity of * the actor with that of its parents. * * This function is intended for subclasses to use in the paint virtual * function, to paint themselves with the correct opacity. * * Return value: The actor opacity value. * * Since: 0.8 */ guint8 clutter_actor_get_paint_opacity (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); return clutter_actor_get_paint_opacity_internal (self); } /** * clutter_actor_get_opacity: * @self: a #ClutterActor * * Retrieves the opacity value of an actor, as set by * clutter_actor_set_opacity(). * * For retrieving the absolute opacity of the actor inside a paint * virtual function, see clutter_actor_get_paint_opacity(). * * Return value: the opacity of the actor */ guint8 clutter_actor_get_opacity (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); return self->priv->opacity; } /** * clutter_actor_set_offscreen_redirect: * @self: A #ClutterActor * @redirect: New offscreen redirect flags for the actor. * * Defines the circumstances where the actor should be redirected into * an offscreen image. The offscreen image is used to flatten the * actor into a single image while painting for two main reasons. * Firstly, when the actor is painted a second time without any of its * contents changing it can simply repaint the cached image without * descending further down the actor hierarchy. Secondly, it will make * the opacity look correct even if there are overlapping primitives * in the actor. * * Caching the actor could in some cases be a performance win and in * some cases be a performance lose so it is important to determine * which value is right for an actor before modifying this value. For * example, there is never any reason to flatten an actor that is just * a single texture (such as a #ClutterTexture) because it is * effectively already cached in an image so the offscreen would be * redundant. Also if the actor contains primitives that are far apart * with a large transparent area in the middle (such as a large * CluterGroup with a small actor in the top left and a small actor in * the bottom right) then the cached image will contain the entire * image of the large area and the paint will waste time blending all * of the transparent pixels in the middle. * * The default method of implementing opacity on a container simply * forwards on the opacity to all of the children. If the children are * overlapping then it will appear as if they are two separate glassy * objects and there will be a break in the color where they * overlap. By redirecting to an offscreen buffer it will be as if the * two opaque objects are combined into one and then made transparent * which is usually what is expected. * * The image below demonstrates the difference between redirecting and * not. The image shows two Clutter groups, each containing a red and * a green rectangle which overlap. The opacity on the group is set to * 128 (which is 50%). When the offscreen redirect is not used, the * red rectangle can be seen through the blue rectangle as if the two * rectangles were separately transparent. When the redirect is used * the group as a whole is transparent instead so the red rectangle is * not visible where they overlap. * *
* Sample of using an offscreen redirect for transparency * *
* * The default value for this property is 0, so we effectively will * never redirect an actor offscreen by default. This means that there * are times that transparent actors may look glassy as described * above. The reason this is the default is because there is a * performance trade off between quality and performance here. In many * cases the default form of glassy opacity looks good enough, but if * it's not you will need to set the * %CLUTTER_OFFSCREEN_REDIRECT_AUTOMATIC_FOR_OPACITY flag to enable * redirection for opacity. * * Custom actors that don't contain any overlapping primitives are * recommended to override the has_overlaps() virtual to return %FALSE * for maximum efficiency. * * Since: 1.8 */ void clutter_actor_set_offscreen_redirect (ClutterActor *self, ClutterOffscreenRedirect redirect) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (priv->offscreen_redirect != redirect) { priv->offscreen_redirect = redirect; /* Queue a redraw from the effect so that it can use its cached image if available instead of having to redraw the actual actor. If it doesn't end up using the FBO then the effect is still able to continue the paint anyway. If there is no effect then this is equivalent to queuing a full redraw */ _clutter_actor_queue_redraw_full (self, 0, /* flags */ NULL, /* clip */ priv->flatten_effect); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_OFFSCREEN_REDIRECT]); } } /** * clutter_actor_get_offscreen_redirect: * @self: a #ClutterActor * * Retrieves whether to redirect the actor to an offscreen buffer, as * set by clutter_actor_set_offscreen_redirect(). * * Return value: the value of the offscreen-redirect property of the actor * * Since: 1.8 */ ClutterOffscreenRedirect clutter_actor_get_offscreen_redirect (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); return self->priv->offscreen_redirect; } /** * clutter_actor_set_name: * @self: A #ClutterActor * @name: Textual tag to apply to actor * * Sets the given name to @self. The name can be used to identify * a #ClutterActor. */ void clutter_actor_set_name (ClutterActor *self, const gchar *name) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_free (self->priv->name); self->priv->name = g_strdup (name); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_NAME]); } /** * clutter_actor_get_name: * @self: A #ClutterActor * * Retrieves the name of @self. * * Return value: the name of the actor, or %NULL. The returned string is * owned by the actor and should not be modified or freed. */ const gchar * clutter_actor_get_name (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->name; } /** * clutter_actor_get_gid: * @self: A #ClutterActor * * Retrieves the unique id for @self. * * Return value: Globally unique value for this object instance. * * Since: 0.6 * * Deprecated: 1.8: The id is not used any longer, and this function * always returns 0. */ guint32 clutter_actor_get_gid (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); return 0; } static inline void clutter_actor_set_depth_internal (ClutterActor *self, float depth) { ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); if (info->z_position != depth) { /* Sets Z value - XXX 2.0: should we invert? */ info->z_position = depth; self->priv->transform_valid = FALSE; /* FIXME - remove this crap; sadly, there are still containers * in Clutter that depend on this utter brain damage */ clutter_container_sort_depth_order (CLUTTER_CONTAINER (self)); clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_DEPTH]); } } static inline void clutter_actor_set_z_position_internal (ClutterActor *self, float z_position) { ClutterTransformInfo *info; info = _clutter_actor_get_transform_info (self); if (memcmp (&info->z_position, &z_position, sizeof (float)) != 0) { info->z_position = z_position; self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_Z_POSITION]); } } /** * clutter_actor_set_z_position: * @self: a #ClutterActor * @z_position: the position on the Z axis * * Sets the actor's position on the Z axis. * * See #ClutterActor:z-position. * * Since: 1.12 */ void clutter_actor_set_z_position (ClutterActor *self, gfloat z_position) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_Z_POSITION], info->z_position, z_position); } /** * clutter_actor_get_z_position: * @self: a #ClutterActor * * Retrieves the actor's position on the Z axis. * * Return value: the position on the Z axis. * * Since: 1.12 */ gfloat clutter_actor_get_z_position (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.f); return _clutter_actor_get_transform_info_or_defaults (self)->z_position; } /** * clutter_actor_set_pivot_point: * @self: a #ClutterActor * @pivot_x: the normalized X coordinate of the pivot point * @pivot_y: the normalized Y coordinate of the pivot point * * Sets the position of the #ClutterActor:pivot-point around which the * scaling and rotation transformations occur. * * The pivot point's coordinates are in normalized space, with the (0, 0) * point being the top left corner of the actor, and the (1, 1) point being * the bottom right corner. * * Since: 1.12 */ void clutter_actor_set_pivot_point (ClutterActor *self, gfloat pivot_x, gfloat pivot_y) { ClutterPoint pivot = CLUTTER_POINT_INIT (pivot_x, pivot_y); const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_PIVOT_POINT], &info->pivot, &pivot); } /** * clutter_actor_get_pivot_point: * @self: a #ClutterActor * @pivot_x: (out) (allow-none): return location for the normalized X * coordinate of the pivot point, or %NULL * @pivot_y: (out) (allow-none): return location for the normalized Y * coordinate of the pivot point, or %NULL * * Retrieves the coordinates of the #ClutterActor:pivot-point. * * Since: 1.12 */ void clutter_actor_get_pivot_point (ClutterActor *self, gfloat *pivot_x, gfloat *pivot_y) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); if (pivot_x != NULL) *pivot_x = info->pivot.x; if (pivot_y != NULL) *pivot_y = info->pivot.y; } /** * clutter_actor_set_pivot_point_z: * @self: a #ClutterActor * @pivot_z: the Z coordinate of the actor's pivot point * * Sets the component on the Z axis of the #ClutterActor:pivot-point around * which the scaling and rotation transformations occur. * * The @pivot_z value is expressed as a distance along the Z axis. * * Since: 1.12 */ void clutter_actor_set_pivot_point_z (ClutterActor *self, gfloat pivot_z) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_PIVOT_POINT_Z], info->pivot_z, pivot_z); } /** * clutter_actor_get_pivot_point_z: * @self: a #ClutterActor * * Retrieves the Z component of the #ClutterActor:pivot-point. * * Since: 1.12 */ gfloat clutter_actor_get_pivot_point_z (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.f); return _clutter_actor_get_transform_info_or_defaults (self)->pivot_z; } /** * clutter_actor_set_depth: * @self: a #ClutterActor * @depth: Z co-ord * * Sets the Z coordinate of @self to @depth. * * The unit used by @depth is dependant on the perspective setup. See * also clutter_stage_set_perspective(). * * Deprecated: 1.12: Use clutter_actor_set_z_position() instead. */ void clutter_actor_set_depth (ClutterActor *self, gfloat depth) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_DEPTH], info->z_position, depth); } /** * clutter_actor_get_depth: * @self: a #ClutterActor * * Retrieves the depth of @self. * * Return value: the depth of the actor * * Deprecated: 1.12: Use clutter_actor_get_z_position() instead. */ gfloat clutter_actor_get_depth (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.0); return _clutter_actor_get_transform_info_or_defaults (self)->z_position; } /** * clutter_actor_set_rotation: * @self: a #ClutterActor * @axis: the axis of rotation * @angle: the angle of rotation * @x: X coordinate of the rotation center * @y: Y coordinate of the rotation center * @z: Z coordinate of the rotation center * * Sets the rotation angle of @self around the given axis. * * The rotation center coordinates used depend on the value of @axis: * * - %CLUTTER_X_AXIS requires @y and @z * - %CLUTTER_Y_AXIS requires @x and @z * - %CLUTTER_Z_AXIS requires @x and @y * * The rotation coordinates are relative to the anchor point of the * actor, set using clutter_actor_set_anchor_point(). If no anchor * point is set, the upper left corner is assumed as the origin. * * Since: 0.8 * * Deprecated: 1.12: Use clutter_actor_set_rotation_angle() and * clutter_actor_set_pivot_point() instead. */ void clutter_actor_set_rotation (ClutterActor *self, ClutterRotateAxis axis, gdouble angle, gfloat x, gfloat y, gfloat z) { ClutterVertex v; g_return_if_fail (CLUTTER_IS_ACTOR (self)); v.x = x; v.y = y; v.z = z; g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_rotation_angle (self, axis, angle); clutter_actor_set_rotation_center_internal (self, axis, &v); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_set_z_rotation_from_gravity: * @self: a #ClutterActor * @angle: the angle of rotation * @gravity: the center point of the rotation * * Sets the rotation angle of @self around the Z axis using the center * point specified as a compass point. For example to rotate such that * the center of the actor remains static you can use * %CLUTTER_GRAVITY_CENTER. If the actor changes size the center point * will move accordingly. * * Since: 1.0 * * Deprecated: 1.12: Use clutter_actor_set_rotation_angle() and * clutter_actor_set_pivot_point() instead. */ void clutter_actor_set_z_rotation_from_gravity (ClutterActor *self, gdouble angle, ClutterGravity gravity) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (gravity == CLUTTER_GRAVITY_NONE) clutter_actor_set_rotation (self, CLUTTER_Z_AXIS, angle, 0, 0, 0); else { GObject *obj = G_OBJECT (self); ClutterTransformInfo *info; GParamSpec *pspec; pspec = obj_props[PROP_ROTATION_ANGLE_Z]; info = _clutter_actor_get_transform_info (self); g_object_freeze_notify (obj); clutter_actor_set_rotation_angle_internal (self, angle, pspec); clutter_anchor_coord_set_gravity (&info->rz_center, gravity); g_object_notify_by_pspec (obj, obj_props[PROP_ROTATION_CENTER_Z_GRAVITY]); g_object_notify_by_pspec (obj, obj_props[PROP_ROTATION_CENTER_Z]); g_object_thaw_notify (obj); } } /** * clutter_actor_get_rotation: * @self: a #ClutterActor * @axis: the axis of rotation * @x: (out): return value for the X coordinate of the center of rotation * @y: (out): return value for the Y coordinate of the center of rotation * @z: (out): return value for the Z coordinate of the center of rotation * * Retrieves the angle and center of rotation on the given axis, * set using clutter_actor_set_rotation(). * * Return value: the angle of rotation * * Since: 0.8 * * Deprecated: 1.12: Use clutter_actor_get_rotation_angle() and * clutter_actor_get_pivot_point() instead. */ gdouble clutter_actor_get_rotation (ClutterActor *self, ClutterRotateAxis axis, gfloat *x, gfloat *y, gfloat *z) { const ClutterTransformInfo *info; const AnchorCoord *anchor_coord; gdouble retval = 0; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); info = _clutter_actor_get_transform_info_or_defaults (self); switch (axis) { case CLUTTER_X_AXIS: anchor_coord = &info->rx_center; retval = info->rx_angle; break; case CLUTTER_Y_AXIS: anchor_coord = &info->ry_center; retval = info->ry_angle; break; case CLUTTER_Z_AXIS: anchor_coord = &info->rz_center; retval = info->rz_angle; break; default: anchor_coord = NULL; retval = 0.0; break; } clutter_anchor_coord_get_units (self, anchor_coord, x, y, z); return retval; } /** * clutter_actor_get_z_rotation_gravity: * @self: A #ClutterActor * * Retrieves the center for the rotation around the Z axis as a * compass direction. If the center was specified in pixels or units * this will return %CLUTTER_GRAVITY_NONE. * * Return value: the Z rotation center * * Since: 1.0 * * Deprecated: 1.12: Use the #ClutterActor:pivot-point instead of * a #ClutterGravity */ ClutterGravity clutter_actor_get_z_rotation_gravity (ClutterActor *self) { const ClutterTransformInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_GRAVITY_NONE); info = _clutter_actor_get_transform_info_or_defaults (self); return clutter_anchor_coord_get_gravity (&info->rz_center); } /** * clutter_actor_set_clip: * @self: A #ClutterActor * @xoff: X offset of the clip rectangle * @yoff: Y offset of the clip rectangle * @width: Width of the clip rectangle * @height: Height of the clip rectangle * * Sets clip area for @self. The clip area is always computed from the * upper left corner of the actor, even if the anchor point is set * otherwise. * * Since: 0.6 */ void clutter_actor_set_clip (ClutterActor *self, gfloat xoff, gfloat yoff, gfloat width, gfloat height) { ClutterActorPrivate *priv; GObject *obj; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (priv->has_clip && priv->clip.origin.x == xoff && priv->clip.origin.y == yoff && priv->clip.size.width == width && priv->clip.size.height == height) return; obj = G_OBJECT (self); priv->clip.origin.x = xoff; priv->clip.origin.y = yoff; priv->clip.size.width = width; priv->clip.size.height = height; priv->has_clip = TRUE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (obj, obj_props[PROP_CLIP]); g_object_notify_by_pspec (obj, obj_props[PROP_CLIP_RECT]); g_object_notify_by_pspec (obj, obj_props[PROP_HAS_CLIP]); } /** * clutter_actor_remove_clip: * @self: A #ClutterActor * * Removes clip area from @self. */ void clutter_actor_remove_clip (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (!self->priv->has_clip) return; self->priv->has_clip = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_HAS_CLIP]); } /** * clutter_actor_has_clip: * @self: a #ClutterActor * * Determines whether the actor has a clip area set or not. * * Return value: %TRUE if the actor has a clip area set. * * Since: 0.2 */ gboolean clutter_actor_has_clip (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return self->priv->has_clip; } /** * clutter_actor_get_clip: * @self: a #ClutterActor * @xoff: (out) (allow-none): return location for the X offset of * the clip rectangle, or %NULL * @yoff: (out) (allow-none): return location for the Y offset of * the clip rectangle, or %NULL * @width: (out) (allow-none): return location for the width of * the clip rectangle, or %NULL * @height: (out) (allow-none): return location for the height of * the clip rectangle, or %NULL * * Gets the clip area for @self, if any is set. * * Since: 0.6 */ void clutter_actor_get_clip (ClutterActor *self, gfloat *xoff, gfloat *yoff, gfloat *width, gfloat *height) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (!priv->has_clip) return; if (xoff != NULL) *xoff = priv->clip.origin.x; if (yoff != NULL) *yoff = priv->clip.origin.y; if (width != NULL) *width = priv->clip.size.width; if (height != NULL) *height = priv->clip.size.height; } /** * clutter_actor_get_children: * @self: a #ClutterActor * * Retrieves the list of children of @self. * * Return value: (transfer container) (element-type ClutterActor): A newly * allocated #GList of #ClutterActors. Use g_list_free() when * done. * * Since: 1.10 */ GList * clutter_actor_get_children (ClutterActor *self) { ClutterActor *iter; GList *res; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); /* we walk the list backward so that we can use prepend(), * which is O(1) */ for (iter = self->priv->last_child, res = NULL; iter != NULL; iter = iter->priv->prev_sibling) { res = g_list_prepend (res, iter); } return res; } /*< private > * insert_child_at_depth: * @self: a #ClutterActor * @child: a #ClutterActor * * Inserts @child inside the list of children held by @self, using * the depth as the insertion criteria. * * This sadly makes the insertion not O(1), but we can keep the * list sorted so that the painters algorithm we use for painting * the children will work correctly. */ static void insert_child_at_depth (ClutterActor *self, ClutterActor *child, gpointer dummy G_GNUC_UNUSED) { ClutterActor *iter; float child_depth; child->priv->parent = self; child_depth = _clutter_actor_get_transform_info_or_defaults (child)->z_position; /* special-case the first child */ if (self->priv->n_children == 0) { self->priv->first_child = child; self->priv->last_child = child; child->priv->next_sibling = NULL; child->priv->prev_sibling = NULL; return; } /* Find the right place to insert the child so that it will still be sorted and the child will be after all of the actors at the same dept */ for (iter = self->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) { float iter_depth; iter_depth = _clutter_actor_get_transform_info_or_defaults (iter)->z_position; if (iter_depth > child_depth) break; } if (iter != NULL) { ClutterActor *tmp = iter->priv->prev_sibling; if (tmp != NULL) tmp->priv->next_sibling = child; /* Insert the node before the found one */ child->priv->prev_sibling = iter->priv->prev_sibling; child->priv->next_sibling = iter; iter->priv->prev_sibling = child; } else { ClutterActor *tmp = self->priv->last_child; if (tmp != NULL) tmp->priv->next_sibling = child; /* insert the node at the end of the list */ child->priv->prev_sibling = self->priv->last_child; child->priv->next_sibling = NULL; } if (child->priv->prev_sibling == NULL) self->priv->first_child = child; if (child->priv->next_sibling == NULL) self->priv->last_child = child; } static void insert_child_at_index (ClutterActor *self, ClutterActor *child, gpointer data_) { gint index_ = GPOINTER_TO_INT (data_); child->priv->parent = self; if (index_ == 0) { ClutterActor *tmp = self->priv->first_child; if (tmp != NULL) tmp->priv->prev_sibling = child; child->priv->prev_sibling = NULL; child->priv->next_sibling = tmp; } else if (index_ < 0 || index_ >= self->priv->n_children) { ClutterActor *tmp = self->priv->last_child; if (tmp != NULL) tmp->priv->next_sibling = child; child->priv->prev_sibling = tmp; child->priv->next_sibling = NULL; } else { ClutterActor *iter; int i; for (iter = self->priv->first_child, i = 0; iter != NULL; iter = iter->priv->next_sibling, i += 1) { if (index_ == i) { ClutterActor *tmp = iter->priv->prev_sibling; child->priv->prev_sibling = tmp; child->priv->next_sibling = iter; iter->priv->prev_sibling = child; if (tmp != NULL) tmp->priv->next_sibling = child; break; } } } if (child->priv->prev_sibling == NULL) self->priv->first_child = child; if (child->priv->next_sibling == NULL) self->priv->last_child = child; } static void insert_child_above (ClutterActor *self, ClutterActor *child, gpointer data) { ClutterActor *sibling = data; child->priv->parent = self; if (sibling == NULL) sibling = self->priv->last_child; child->priv->prev_sibling = sibling; if (sibling != NULL) { ClutterActor *tmp = sibling->priv->next_sibling; child->priv->next_sibling = tmp; if (tmp != NULL) tmp->priv->prev_sibling = child; sibling->priv->next_sibling = child; } else child->priv->next_sibling = NULL; if (child->priv->prev_sibling == NULL) self->priv->first_child = child; if (child->priv->next_sibling == NULL) self->priv->last_child = child; } static void insert_child_below (ClutterActor *self, ClutterActor *child, gpointer data) { ClutterActor *sibling = data; child->priv->parent = self; if (sibling == NULL) sibling = self->priv->first_child; child->priv->next_sibling = sibling; if (sibling != NULL) { ClutterActor *tmp = sibling->priv->prev_sibling; child->priv->prev_sibling = tmp; if (tmp != NULL) tmp->priv->next_sibling = child; sibling->priv->prev_sibling = child; } else child->priv->prev_sibling = NULL; if (child->priv->prev_sibling == NULL) self->priv->first_child = child; if (child->priv->next_sibling == NULL) self->priv->last_child = child; } typedef void (* ClutterActorAddChildFunc) (ClutterActor *parent, ClutterActor *child, gpointer data); typedef enum { ADD_CHILD_CREATE_META = 1 << 0, ADD_CHILD_EMIT_PARENT_SET = 1 << 1, ADD_CHILD_EMIT_ACTOR_ADDED = 1 << 2, ADD_CHILD_CHECK_STATE = 1 << 3, ADD_CHILD_NOTIFY_FIRST_LAST = 1 << 4, ADD_CHILD_SHOW_ON_SET_PARENT = 1 << 5, /* default flags for public API */ ADD_CHILD_DEFAULT_FLAGS = ADD_CHILD_CREATE_META | ADD_CHILD_EMIT_PARENT_SET | ADD_CHILD_EMIT_ACTOR_ADDED | ADD_CHILD_CHECK_STATE | ADD_CHILD_NOTIFY_FIRST_LAST | ADD_CHILD_SHOW_ON_SET_PARENT, /* flags for legacy/deprecated API */ ADD_CHILD_LEGACY_FLAGS = ADD_CHILD_EMIT_PARENT_SET | ADD_CHILD_CHECK_STATE | ADD_CHILD_NOTIFY_FIRST_LAST | ADD_CHILD_SHOW_ON_SET_PARENT } ClutterActorAddChildFlags; /*< private > * clutter_actor_add_child_internal: * @self: a #ClutterActor * @child: a #ClutterActor * @flags: control flags for actions * @add_func: delegate function * @data: (closure): data to pass to @add_func * * Adds @child to the list of children of @self. * * The actual insertion inside the list is delegated to @add_func: this * function will just set up the state, perform basic checks, and emit * signals. * * The @flags argument is used to perform additional operations. */ static inline void clutter_actor_add_child_internal (ClutterActor *self, ClutterActor *child, ClutterActorAddChildFlags flags, ClutterActorAddChildFunc add_func, gpointer data) { ClutterTextDirection text_dir; gboolean create_meta; gboolean emit_parent_set, emit_actor_added; gboolean check_state; gboolean notify_first_last; gboolean show_on_set_parent; ClutterActor *old_first_child, *old_last_child; GObject *obj; if (child->priv->parent != NULL) { g_warning ("The actor '%s' already has a parent, '%s'. You must " "use clutter_actor_remove_child() first.", _clutter_actor_get_debug_name (child), _clutter_actor_get_debug_name (child->priv->parent)); return; } if (CLUTTER_ACTOR_IS_TOPLEVEL (child)) { g_warning ("The actor '%s' is a top-level actor, and cannot be " "a child of another actor.", _clutter_actor_get_debug_name (child)); return; } /* the following check disallows calling methods that change the stacking * order within the destruction sequence, by triggering a critical * warning first, and leaving the actor in an undefined state, which * then ends up being caught by an assertion. * * the reproducible sequence is: * * - actor gets destroyed; * - another actor, linked to the first, will try to change the * stacking order of the first actor; * - changing the stacking order is a composite operation composed * by the following steps: * 1. ref() the child; * 2. remove_child_internal(), which removes the reference; * 3. add_child_internal(), which adds a reference; * - the state of the actor is not changed between (2) and (3), as * it could be an expensive recomputation; * - if (3) bails out, then the actor is in an undefined state, but * still alive; * - the destruction sequence terminates, but the actor is unparented * while its state indicates being parented instead. * - assertion failure. * * the obvious fix would be to decompose each set_child_*_sibling() * method into proper remove_child()/add_child(), with state validation; * this may cause excessive work, though, and trigger a cascade of other * bugs in code that assumes that a change in the stacking order is an * atomic operation. * * another potential fix is to just remove this check here, and let * code doing stacking order changes inside the destruction sequence * of an actor continue doing the stacking changes as before; this * option still performs more work than necessary. * * the third fix is to silently bail out early from every * set_child_*_sibling() and set_child_at_index() method, and avoid * doing stack changes altogether; Clutter implements this last option. * * see bug: https://bugzilla.gnome.org/show_bug.cgi?id=670647 */ if (CLUTTER_ACTOR_IN_DESTRUCTION (child)) { g_warning ("The actor '%s' is currently being destroyed, and " "cannot be added as a child of another actor.", _clutter_actor_get_debug_name (child)); return; } create_meta = (flags & ADD_CHILD_CREATE_META) != 0; emit_parent_set = (flags & ADD_CHILD_EMIT_PARENT_SET) != 0; emit_actor_added = (flags & ADD_CHILD_EMIT_ACTOR_ADDED) != 0; check_state = (flags & ADD_CHILD_CHECK_STATE) != 0; notify_first_last = (flags & ADD_CHILD_NOTIFY_FIRST_LAST) != 0; show_on_set_parent = (flags & ADD_CHILD_SHOW_ON_SET_PARENT) != 0; old_first_child = self->priv->first_child; old_last_child = self->priv->last_child; obj = G_OBJECT (self); g_object_freeze_notify (obj); if (create_meta) clutter_container_create_child_meta (CLUTTER_CONTAINER (self), child); g_object_ref_sink (child); child->priv->parent = NULL; child->priv->next_sibling = NULL; child->priv->prev_sibling = NULL; /* delegate the actual insertion */ add_func (self, child, data); g_assert (child->priv->parent == self); self->priv->n_children += 1; self->priv->age += 1; /* if push_internal() has been called then we automatically set * the flag on the actor */ if (self->priv->internal_child) CLUTTER_SET_PRIVATE_FLAGS (child, CLUTTER_INTERNAL_CHILD); /* children may cause their parent to expand, if they are set * to expand; if a child is not expanded then it cannot change * its parent's state. any further change later on will queue * an expand state check. * * this check, with the initial state of the needs_compute_expand * flag set to FALSE, should avoid recomputing the expand flags * state while building the actor tree. */ if (CLUTTER_ACTOR_IS_VISIBLE (child) && (child->priv->needs_compute_expand || child->priv->needs_x_expand || child->priv->needs_y_expand)) { clutter_actor_queue_compute_expand (self); } /* clutter_actor_reparent() will emit ::parent-set for us */ if (emit_parent_set && !CLUTTER_ACTOR_IN_REPARENT (child)) g_signal_emit (child, actor_signals[PARENT_SET], 0, NULL); if (check_state) { /* If parent is mapped or realized, we need to also be mapped or * realized once we're inside the parent. */ clutter_actor_update_map_state (child, MAP_STATE_CHECK); /* propagate the parent's text direction to the child */ text_dir = clutter_actor_get_text_direction (self); clutter_actor_set_text_direction (child, text_dir); } /* this may end up queueing a redraw, in case the actor is * not visible but the show-on-set-parent property is still * set. * * XXX:2.0 - remove this check and unconditionally show() the * actor once we remove the show-on-set-parent property */ if (show_on_set_parent && child->priv->show_on_set_parent) clutter_actor_show (child); /* on the other hand, this will catch any other case where * the actor is supposed to be visible when it's added */ if (CLUTTER_ACTOR_IS_MAPPED (child)) clutter_actor_queue_redraw (child); /* maintain the invariant that if an actor needs layout, * its parents do as well */ if (child->priv->needs_width_request || child->priv->needs_height_request || child->priv->needs_allocation) { /* we work around the short-circuiting we do * in clutter_actor_queue_relayout() since we * want to force a relayout */ child->priv->needs_width_request = TRUE; child->priv->needs_height_request = TRUE; child->priv->needs_allocation = TRUE; /* we only queue a relayout here, because any possible * redraw has already been queued either by show() or * by our call to queue_redraw() above */ _clutter_actor_queue_only_relayout (child->priv->parent); } if (emit_actor_added) g_signal_emit_by_name (self, "actor-added", child); if (notify_first_last) { if (old_first_child != self->priv->first_child) g_object_notify_by_pspec (obj, obj_props[PROP_FIRST_CHILD]); if (old_last_child != self->priv->last_child) g_object_notify_by_pspec (obj, obj_props[PROP_LAST_CHILD]); } g_object_thaw_notify (obj); } /** * clutter_actor_add_child: * @self: a #ClutterActor * @child: a #ClutterActor * * Adds @child to the children of @self. * * This function will acquire a reference on @child that will only * be released when calling clutter_actor_remove_child(). * * This function will take into consideration the #ClutterActor:depth * of @child, and will keep the list of children sorted. * * This function will emit the #ClutterContainer::actor-added signal * on @self. * * Since: 1.10 */ void clutter_actor_add_child (ClutterActor *self, ClutterActor *child) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (self != child); g_return_if_fail (child->priv->parent == NULL); clutter_actor_add_child_internal (self, child, ADD_CHILD_DEFAULT_FLAGS, insert_child_at_depth, NULL); } /** * clutter_actor_insert_child_at_index: * @self: a #ClutterActor * @child: a #ClutterActor * @index_: the index * * Inserts @child into the list of children of @self, using the * given @index_. If @index_ is greater than the number of children * in @self, or is less than 0, then the new child is added at the end. * * This function will acquire a reference on @child that will only * be released when calling clutter_actor_remove_child(). * * This function will not take into consideration the #ClutterActor:depth * of @child. * * This function will emit the #ClutterContainer::actor-added signal * on @self. * * Since: 1.10 */ void clutter_actor_insert_child_at_index (ClutterActor *self, ClutterActor *child, gint index_) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (self != child); g_return_if_fail (child->priv->parent == NULL); clutter_actor_add_child_internal (self, child, ADD_CHILD_DEFAULT_FLAGS, insert_child_at_index, GINT_TO_POINTER (index_)); } /** * clutter_actor_insert_child_above: * @self: a #ClutterActor * @child: a #ClutterActor * @sibling: (allow-none): a child of @self, or %NULL * * Inserts @child into the list of children of @self, above another * child of @self or, if @sibling is %NULL, above all the children * of @self. * * This function will acquire a reference on @child that will only * be released when calling clutter_actor_remove_child(). * * This function will not take into consideration the #ClutterActor:depth * of @child. * * This function will emit the #ClutterContainer::actor-added signal * on @self. * * Since: 1.10 */ void clutter_actor_insert_child_above (ClutterActor *self, ClutterActor *child, ClutterActor *sibling) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (self != child); g_return_if_fail (child != sibling); g_return_if_fail (child->priv->parent == NULL); g_return_if_fail (sibling == NULL || (CLUTTER_IS_ACTOR (sibling) && sibling->priv->parent == self)); clutter_actor_add_child_internal (self, child, ADD_CHILD_DEFAULT_FLAGS, insert_child_above, sibling); } /** * clutter_actor_insert_child_below: * @self: a #ClutterActor * @child: a #ClutterActor * @sibling: (allow-none): a child of @self, or %NULL * * Inserts @child into the list of children of @self, below another * child of @self or, if @sibling is %NULL, below all the children * of @self. * * This function will acquire a reference on @child that will only * be released when calling clutter_actor_remove_child(). * * This function will not take into consideration the #ClutterActor:depth * of @child. * * This function will emit the #ClutterContainer::actor-added signal * on @self. * * Since: 1.10 */ void clutter_actor_insert_child_below (ClutterActor *self, ClutterActor *child, ClutterActor *sibling) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (self != child); g_return_if_fail (child != sibling); g_return_if_fail (child->priv->parent == NULL); g_return_if_fail (sibling == NULL || (CLUTTER_IS_ACTOR (sibling) && sibling->priv->parent == self)); clutter_actor_add_child_internal (self, child, ADD_CHILD_DEFAULT_FLAGS, insert_child_below, sibling); } /** * clutter_actor_set_parent: * @self: A #ClutterActor * @parent: A new #ClutterActor parent * * Sets the parent of @self to @parent. * * This function will result in @parent acquiring a reference on @self, * eventually by sinking its floating reference first. The reference * will be released by clutter_actor_unparent(). * * This function should only be called by legacy #ClutterActors * implementing the #ClutterContainer interface. * * Deprecated: 1.10: Use clutter_actor_add_child() instead. */ void clutter_actor_set_parent (ClutterActor *self, ClutterActor *parent) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (parent)); g_return_if_fail (self != parent); g_return_if_fail (self->priv->parent == NULL); /* as this function will be called inside ClutterContainer::add * implementations or when building up a composite actor, we have * to preserve the old behaviour, and not create child meta or * emit the ::actor-added signal, to avoid recursion or double * emissions */ clutter_actor_add_child_internal (parent, self, ADD_CHILD_LEGACY_FLAGS, insert_child_at_depth, NULL); } /** * clutter_actor_get_parent: * @self: A #ClutterActor * * Retrieves the parent of @self. * * Return Value: (transfer none): The #ClutterActor parent, or %NULL * if no parent is set */ ClutterActor * clutter_actor_get_parent (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->parent; } /** * clutter_actor_get_paint_visibility: * @self: A #ClutterActor * * Retrieves the 'paint' visibility of an actor recursively checking for non * visible parents. * * This is by definition the same as %CLUTTER_ACTOR_IS_MAPPED. * * Return Value: %TRUE if the actor is visibile and will be painted. * * Since: 0.8 */ gboolean clutter_actor_get_paint_visibility (ClutterActor *actor) { g_return_val_if_fail (CLUTTER_IS_ACTOR (actor), FALSE); return CLUTTER_ACTOR_IS_MAPPED (actor); } /** * clutter_actor_remove_child: * @self: a #ClutterActor * @child: a #ClutterActor * * Removes @child from the children of @self. * * This function will release the reference added by * clutter_actor_add_child(), so if you want to keep using @child * you will have to acquire a referenced on it before calling this * function. * * This function will emit the #ClutterContainer::actor-removed * signal on @self. * * Since: 1.10 */ void clutter_actor_remove_child (ClutterActor *self, ClutterActor *child) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (self != child); g_return_if_fail (child->priv->parent != NULL); g_return_if_fail (child->priv->parent == self); clutter_actor_remove_child_internal (self, child, REMOVE_CHILD_DEFAULT_FLAGS); } /** * clutter_actor_remove_all_children: * @self: a #ClutterActor * * Removes all children of @self. * * This function releases the reference added by inserting a child actor * in the list of children of @self. * * If the reference count of a child drops to zero, the child will be * destroyed. If you want to ensure the destruction of all the children * of @self, use clutter_actor_destroy_all_children(). * * Since: 1.10 */ void clutter_actor_remove_all_children (ClutterActor *self) { ClutterActorIter iter; g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->n_children == 0) return; g_object_freeze_notify (G_OBJECT (self)); clutter_actor_iter_init (&iter, self); while (clutter_actor_iter_next (&iter, NULL)) clutter_actor_iter_remove (&iter); g_object_thaw_notify (G_OBJECT (self)); /* sanity check */ g_assert (self->priv->first_child == NULL); g_assert (self->priv->last_child == NULL); g_assert (self->priv->n_children == 0); } /** * clutter_actor_destroy_all_children: * @self: a #ClutterActor * * Destroys all children of @self. * * This function releases the reference added by inserting a child * actor in the list of children of @self, and ensures that the * #ClutterActor::destroy signal is emitted on each child of the * actor. * * By default, #ClutterActor will emit the #ClutterActor::destroy signal * when its reference count drops to 0; the default handler of the * #ClutterActor::destroy signal will destroy all the children of an * actor. This function ensures that all children are destroyed, instead * of just removed from @self, unlike clutter_actor_remove_all_children() * which will merely release the reference and remove each child. * * Unless you acquired an additional reference on each child of @self * prior to calling clutter_actor_remove_all_children() and want to reuse * the actors, you should use clutter_actor_destroy_all_children() in * order to make sure that children are destroyed and signal handlers * are disconnected even in cases where circular references prevent this * from automatically happening through reference counting alone. * * Since: 1.10 */ void clutter_actor_destroy_all_children (ClutterActor *self) { ClutterActorIter iter; g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->n_children == 0) return; g_object_freeze_notify (G_OBJECT (self)); clutter_actor_iter_init (&iter, self); while (clutter_actor_iter_next (&iter, NULL)) clutter_actor_iter_destroy (&iter); g_object_thaw_notify (G_OBJECT (self)); /* sanity check */ g_assert (self->priv->first_child == NULL); g_assert (self->priv->last_child == NULL); g_assert (self->priv->n_children == 0); } typedef struct _InsertBetweenData { ClutterActor *prev_sibling; ClutterActor *next_sibling; } InsertBetweenData; static void insert_child_between (ClutterActor *self, ClutterActor *child, gpointer data_) { InsertBetweenData *data = data_; ClutterActor *prev_sibling = data->prev_sibling; ClutterActor *next_sibling = data->next_sibling; child->priv->parent = self; child->priv->prev_sibling = prev_sibling; child->priv->next_sibling = next_sibling; if (prev_sibling != NULL) prev_sibling->priv->next_sibling = child; if (next_sibling != NULL) next_sibling->priv->prev_sibling = child; if (child->priv->prev_sibling == NULL) self->priv->first_child = child; if (child->priv->next_sibling == NULL) self->priv->last_child = child; } /** * clutter_actor_replace_child: * @self: a #ClutterActor * @old_child: the child of @self to replace * @new_child: the #ClutterActor to replace @old_child * * Replaces @old_child with @new_child in the list of children of @self. * * Since: 1.10 */ void clutter_actor_replace_child (ClutterActor *self, ClutterActor *old_child, ClutterActor *new_child) { ClutterActor *prev_sibling, *next_sibling; InsertBetweenData clos; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (old_child)); g_return_if_fail (old_child->priv->parent == self); g_return_if_fail (CLUTTER_IS_ACTOR (new_child)); g_return_if_fail (old_child != new_child); g_return_if_fail (new_child != self); g_return_if_fail (new_child->priv->parent == NULL); prev_sibling = old_child->priv->prev_sibling; next_sibling = old_child->priv->next_sibling; clutter_actor_remove_child_internal (self, old_child, REMOVE_CHILD_DEFAULT_FLAGS); clos.prev_sibling = prev_sibling; clos.next_sibling = next_sibling; clutter_actor_add_child_internal (self, new_child, ADD_CHILD_DEFAULT_FLAGS, insert_child_between, &clos); } /** * clutter_actor_unparent: * @self: a #ClutterActor * * Removes the parent of @self. * * This will cause the parent of @self to release the reference * acquired when calling clutter_actor_set_parent(), so if you * want to keep @self you will have to acquire a reference of * your own, through g_object_ref(). * * This function should only be called by legacy #ClutterActors * implementing the #ClutterContainer interface. * * Since: 0.2 * * Deprecated: 1.10: Use clutter_actor_remove_child() instead. */ void clutter_actor_unparent (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->parent == NULL) return; clutter_actor_remove_child_internal (self->priv->parent, self, REMOVE_CHILD_LEGACY_FLAGS); } /** * clutter_actor_reparent: * @self: a #ClutterActor * @new_parent: the new #ClutterActor parent * * Resets the parent actor of @self. * * This function is logically equivalent to calling clutter_actor_unparent() * and clutter_actor_set_parent(), but more efficiently implemented, as it * ensures the child is not finalized when unparented, and emits the * #ClutterActor::parent-set signal only once. * * In reality, calling this function is less useful than it sounds, as some * application code may rely on changes in the intermediate state between * removal and addition of the actor from its old parent to the @new_parent. * Thus, it is strongly encouraged to avoid using this function in application * code. * * Since: 0.2 * * Deprecated: 1.10: Use clutter_actor_remove_child() and * clutter_actor_add_child() instead; remember to take a reference on * the actor being removed before calling clutter_actor_remove_child() * to avoid the reference count dropping to zero and the actor being * destroyed. */ void clutter_actor_reparent (ClutterActor *self, ClutterActor *new_parent) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (new_parent)); g_return_if_fail (self != new_parent); if (CLUTTER_ACTOR_IS_TOPLEVEL (self)) { g_warning ("Cannot set a parent on a toplevel actor"); return; } if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) { g_warning ("Cannot set a parent currently being destroyed"); return; } priv = self->priv; if (priv->parent != new_parent) { ClutterActor *old_parent; CLUTTER_SET_PRIVATE_FLAGS (self, CLUTTER_IN_REPARENT); old_parent = priv->parent; g_object_ref (self); if (old_parent != NULL) { /* go through the Container implementation if this is a regular * child and not an internal one */ if (!CLUTTER_ACTOR_IS_INTERNAL_CHILD (self)) { ClutterContainer *parent = CLUTTER_CONTAINER (old_parent); /* this will have to call unparent() */ clutter_container_remove_actor (parent, self); } else clutter_actor_remove_child_internal (old_parent, self, REMOVE_CHILD_LEGACY_FLAGS); } /* Note, will call set_parent() */ if (!CLUTTER_ACTOR_IS_INTERNAL_CHILD (self)) clutter_container_add_actor (CLUTTER_CONTAINER (new_parent), self); else clutter_actor_add_child_internal (new_parent, self, ADD_CHILD_LEGACY_FLAGS, insert_child_at_depth, NULL); /* we emit the ::parent-set signal once */ g_signal_emit (self, actor_signals[PARENT_SET], 0, old_parent); CLUTTER_UNSET_PRIVATE_FLAGS (self, CLUTTER_IN_REPARENT); /* the IN_REPARENT flag suspends state updates */ clutter_actor_update_map_state (self, MAP_STATE_CHECK); g_object_unref (self); } } /** * clutter_actor_contains: * @self: A #ClutterActor * @descendant: A #ClutterActor, possibly contained in @self * * Determines if @descendant is contained inside @self (either as an * immediate child, or as a deeper descendant). If @self and * @descendant point to the same actor then it will also return %TRUE. * * Return value: whether @descendent is contained within @self * * Since: 1.4 */ gboolean clutter_actor_contains (ClutterActor *self, ClutterActor *descendant) { ClutterActor *actor; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); g_return_val_if_fail (CLUTTER_IS_ACTOR (descendant), FALSE); for (actor = descendant; actor; actor = actor->priv->parent) if (actor == self) return TRUE; return FALSE; } /** * clutter_actor_set_child_above_sibling: * @self: a #ClutterActor * @child: a #ClutterActor child of @self * @sibling: (allow-none): a #ClutterActor child of @self, or %NULL * * Sets @child to be above @sibling in the list of children of @self. * * If @sibling is %NULL, @child will be the new last child of @self. * * This function is logically equivalent to removing @child and using * clutter_actor_insert_child_above(), but it will not emit signals * or change state on @child. * * Since: 1.10 */ void clutter_actor_set_child_above_sibling (ClutterActor *self, ClutterActor *child, ClutterActor *sibling) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (child->priv->parent == self); g_return_if_fail (child != sibling); g_return_if_fail (sibling == NULL || CLUTTER_IS_ACTOR (sibling)); if (sibling != NULL) g_return_if_fail (sibling->priv->parent == self); if (CLUTTER_ACTOR_IN_DESTRUCTION (self) || CLUTTER_ACTOR_IN_DESTRUCTION (child) || (sibling != NULL && CLUTTER_ACTOR_IN_DESTRUCTION (sibling))) return; /* we don't want to change the state of child, or emit signals, or * regenerate ChildMeta instances here, but we still want to follow * the correct sequence of steps encoded in remove_child() and * add_child(), so that correctness is ensured, and we only go * through one known code path. */ g_object_ref (child); clutter_actor_remove_child_internal (self, child, 0); clutter_actor_add_child_internal (self, child, ADD_CHILD_NOTIFY_FIRST_LAST, insert_child_above, sibling); g_object_unref(child); clutter_actor_queue_relayout (self); } /** * clutter_actor_set_child_below_sibling: * @self: a #ClutterActor * @child: a #ClutterActor child of @self * @sibling: (allow-none): a #ClutterActor child of @self, or %NULL * * Sets @child to be below @sibling in the list of children of @self. * * If @sibling is %NULL, @child will be the new first child of @self. * * This function is logically equivalent to removing @self and using * clutter_actor_insert_child_below(), but it will not emit signals * or change state on @child. * * Since: 1.10 */ void clutter_actor_set_child_below_sibling (ClutterActor *self, ClutterActor *child, ClutterActor *sibling) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (child->priv->parent == self); g_return_if_fail (child != sibling); g_return_if_fail (sibling == NULL || CLUTTER_IS_ACTOR (sibling)); if (sibling != NULL) g_return_if_fail (sibling->priv->parent == self); if (CLUTTER_ACTOR_IN_DESTRUCTION (self) || CLUTTER_ACTOR_IN_DESTRUCTION (child) || (sibling != NULL && CLUTTER_ACTOR_IN_DESTRUCTION (sibling))) return; /* see the comment in set_child_above_sibling() */ g_object_ref (child); clutter_actor_remove_child_internal (self, child, 0); clutter_actor_add_child_internal (self, child, ADD_CHILD_NOTIFY_FIRST_LAST, insert_child_below, sibling); g_object_unref(child); clutter_actor_queue_relayout (self); } /** * clutter_actor_set_child_at_index: * @self: a #ClutterActor * @child: a #ClutterActor child of @self * @index_: the new index for @child * * Changes the index of @child in the list of children of @self. * * This function is logically equivalent to removing @child and * calling clutter_actor_insert_child_at_index(), but it will not * emit signals or change state on @child. * * Since: 1.10 */ void clutter_actor_set_child_at_index (ClutterActor *self, ClutterActor *child, gint index_) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTOR (child)); g_return_if_fail (child->priv->parent == self); g_return_if_fail (index_ <= self->priv->n_children); if (CLUTTER_ACTOR_IN_DESTRUCTION (self) || CLUTTER_ACTOR_IN_DESTRUCTION (child)) return; g_object_ref (child); clutter_actor_remove_child_internal (self, child, 0); clutter_actor_add_child_internal (self, child, ADD_CHILD_NOTIFY_FIRST_LAST, insert_child_at_index, GINT_TO_POINTER (index_)); g_object_unref (child); clutter_actor_queue_relayout (self); } /** * clutter_actor_raise: * @self: A #ClutterActor * @below: (allow-none): A #ClutterActor to raise above. * * Puts @self above @below. * * Both actors must have the same parent, and the parent must implement * the #ClutterContainer interface * * This function calls clutter_container_raise_child() internally. * * Deprecated: 1.10: Use clutter_actor_set_child_above_sibling() instead. */ void clutter_actor_raise (ClutterActor *self, ClutterActor *below) { ClutterActor *parent; g_return_if_fail (CLUTTER_IS_ACTOR (self)); parent = clutter_actor_get_parent (self); if (parent == NULL) { g_warning ("%s: Actor '%s' is not inside a container", G_STRFUNC, _clutter_actor_get_debug_name (self)); return; } if (below != NULL) { if (parent != clutter_actor_get_parent (below)) { g_warning ("%s Actor '%s' is not in the same container as " "actor '%s'", G_STRFUNC, _clutter_actor_get_debug_name (self), _clutter_actor_get_debug_name (below)); return; } } clutter_container_raise_child (CLUTTER_CONTAINER (parent), self, below); } /** * clutter_actor_lower: * @self: A #ClutterActor * @above: (allow-none): A #ClutterActor to lower below * * Puts @self below @above. * * Both actors must have the same parent, and the parent must implement * the #ClutterContainer interface. * * This function calls clutter_container_lower_child() internally. * * Deprecated: 1.10: Use clutter_actor_set_child_below_sibling() instead. */ void clutter_actor_lower (ClutterActor *self, ClutterActor *above) { ClutterActor *parent; g_return_if_fail (CLUTTER_IS_ACTOR (self)); parent = clutter_actor_get_parent (self); if (parent == NULL) { g_warning ("%s: Actor of type %s is not inside a container", G_STRFUNC, _clutter_actor_get_debug_name (self)); return; } if (above) { if (parent != clutter_actor_get_parent (above)) { g_warning ("%s: Actor '%s' is not in the same container as " "actor '%s'", G_STRFUNC, _clutter_actor_get_debug_name (self), _clutter_actor_get_debug_name (above)); return; } } clutter_container_lower_child (CLUTTER_CONTAINER (parent), self, above); } /** * clutter_actor_raise_top: * @self: A #ClutterActor * * Raises @self to the top. * * This function calls clutter_actor_raise() internally. * * Deprecated: 1.10: Use clutter_actor_set_child_above_sibling() with * a %NULL sibling, instead. */ void clutter_actor_raise_top (ClutterActor *self) { clutter_actor_raise (self, NULL); } /** * clutter_actor_lower_bottom: * @self: A #ClutterActor * * Lowers @self to the bottom. * * This function calls clutter_actor_lower() internally. * * Deprecated: 1.10: Use clutter_actor_set_child_below_sibling() with * a %NULL sibling, instead. */ void clutter_actor_lower_bottom (ClutterActor *self) { clutter_actor_lower (self, NULL); } /* * Event handling */ /** * clutter_actor_event: * @actor: a #ClutterActor * @event: a #ClutterEvent * @capture: %TRUE if event in in capture phase, %FALSE otherwise. * * This function is used to emit an event on the main stage. * You should rarely need to use this function, except for * synthetising events. * * Return value: the return value from the signal emission: %TRUE * if the actor handled the event, or %FALSE if the event was * not handled * * Since: 0.6 */ gboolean clutter_actor_event (ClutterActor *actor, const ClutterEvent *event, gboolean capture) { gboolean retval = FALSE; gint signal_num = -1; g_return_val_if_fail (CLUTTER_IS_ACTOR (actor), FALSE); g_return_val_if_fail (event != NULL, FALSE); g_object_ref (actor); if (capture) { g_signal_emit (actor, actor_signals[CAPTURED_EVENT], 0, event, &retval); goto out; } g_signal_emit (actor, actor_signals[EVENT], 0, event, &retval); if (!retval) { switch (event->type) { case CLUTTER_NOTHING: break; case CLUTTER_BUTTON_PRESS: signal_num = BUTTON_PRESS_EVENT; break; case CLUTTER_BUTTON_RELEASE: signal_num = BUTTON_RELEASE_EVENT; break; case CLUTTER_SCROLL: signal_num = SCROLL_EVENT; break; case CLUTTER_KEY_PRESS: signal_num = KEY_PRESS_EVENT; break; case CLUTTER_KEY_RELEASE: signal_num = KEY_RELEASE_EVENT; break; case CLUTTER_MOTION: signal_num = MOTION_EVENT; break; case CLUTTER_ENTER: signal_num = ENTER_EVENT; break; case CLUTTER_LEAVE: signal_num = LEAVE_EVENT; break; case CLUTTER_TOUCH_BEGIN: case CLUTTER_TOUCH_END: case CLUTTER_TOUCH_UPDATE: case CLUTTER_TOUCH_CANCEL: signal_num = TOUCH_EVENT; break; case CLUTTER_DELETE: case CLUTTER_DESTROY_NOTIFY: case CLUTTER_CLIENT_MESSAGE: default: signal_num = -1; break; } if (signal_num != -1) g_signal_emit (actor, actor_signals[signal_num], 0, event, &retval); } out: g_object_unref (actor); return retval; } /** * clutter_actor_set_reactive: * @actor: a #ClutterActor * @reactive: whether the actor should be reactive to events * * Sets @actor as reactive. Reactive actors will receive events. * * Since: 0.6 */ void clutter_actor_set_reactive (ClutterActor *actor, gboolean reactive) { g_return_if_fail (CLUTTER_IS_ACTOR (actor)); if (reactive == CLUTTER_ACTOR_IS_REACTIVE (actor)) return; if (reactive) CLUTTER_ACTOR_SET_FLAGS (actor, CLUTTER_ACTOR_REACTIVE); else CLUTTER_ACTOR_UNSET_FLAGS (actor, CLUTTER_ACTOR_REACTIVE); g_object_notify_by_pspec (G_OBJECT (actor), obj_props[PROP_REACTIVE]); } /** * clutter_actor_get_reactive: * @actor: a #ClutterActor * * Checks whether @actor is marked as reactive. * * Return value: %TRUE if the actor is reactive * * Since: 0.6 */ gboolean clutter_actor_get_reactive (ClutterActor *actor) { g_return_val_if_fail (CLUTTER_IS_ACTOR (actor), FALSE); return CLUTTER_ACTOR_IS_REACTIVE (actor) ? TRUE : FALSE; } /** * clutter_actor_get_anchor_point: * @self: a #ClutterActor * @anchor_x: (out): return location for the X coordinate of the anchor point * @anchor_y: (out): return location for the Y coordinate of the anchor point * * Gets the current anchor point of the @actor in pixels. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead */ void clutter_actor_get_anchor_point (ClutterActor *self, gfloat *anchor_x, gfloat *anchor_y) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); clutter_anchor_coord_get_units (self, &info->anchor, anchor_x, anchor_y, NULL); } /** * clutter_actor_set_anchor_point: * @self: a #ClutterActor * @anchor_x: X coordinate of the anchor point * @anchor_y: Y coordinate of the anchor point * * Sets an anchor point for @self. The anchor point is a point in the * coordinate space of an actor to which the actor position within its * parent is relative; the default is (0, 0), i.e. the top-left corner * of the actor. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead. */ void clutter_actor_set_anchor_point (ClutterActor *self, gfloat anchor_x, gfloat anchor_y) { ClutterTransformInfo *info; ClutterActorPrivate *priv; gboolean changed = FALSE; gfloat old_anchor_x, old_anchor_y; GObject *obj; g_return_if_fail (CLUTTER_IS_ACTOR (self)); obj = G_OBJECT (self); priv = self->priv; info = _clutter_actor_get_transform_info (self); g_object_freeze_notify (obj); clutter_anchor_coord_get_units (self, &info->anchor, &old_anchor_x, &old_anchor_y, NULL); if (info->anchor.is_fractional) g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_GRAVITY]); if (old_anchor_x != anchor_x) { g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_X]); changed = TRUE; } if (old_anchor_y != anchor_y) { g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_Y]); changed = TRUE; } clutter_anchor_coord_set_units (&info->anchor, anchor_x, anchor_y, 0); if (changed) { priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); } g_object_thaw_notify (obj); } /** * clutter_actor_get_anchor_point_gravity: * @self: a #ClutterActor * * Retrieves the anchor position expressed as a #ClutterGravity. If * the anchor point was specified using pixels or units this will * return %CLUTTER_GRAVITY_NONE. * * Return value: the #ClutterGravity used by the anchor point * * Since: 1.0 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead. */ ClutterGravity clutter_actor_get_anchor_point_gravity (ClutterActor *self) { const ClutterTransformInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_GRAVITY_NONE); info = _clutter_actor_get_transform_info_or_defaults (self); return clutter_anchor_coord_get_gravity (&info->anchor); } /** * clutter_actor_move_anchor_point: * @self: a #ClutterActor * @anchor_x: X coordinate of the anchor point * @anchor_y: Y coordinate of the anchor point * * Sets an anchor point for the actor, and adjusts the actor postion so that * the relative position of the actor toward its parent remains the same. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead. */ void clutter_actor_move_anchor_point (ClutterActor *self, gfloat anchor_x, gfloat anchor_y) { gfloat old_anchor_x, old_anchor_y; const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info (self); clutter_anchor_coord_get_units (self, &info->anchor, &old_anchor_x, &old_anchor_y, NULL); g_object_freeze_notify (G_OBJECT (self)); clutter_actor_set_anchor_point (self, anchor_x, anchor_y); if (self->priv->position_set) clutter_actor_move_by (self, anchor_x - old_anchor_x, anchor_y - old_anchor_y); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_move_anchor_point_from_gravity: * @self: a #ClutterActor * @gravity: #ClutterGravity. * * Sets an anchor point on the actor based on the given gravity, adjusting the * actor postion so that its relative position within its parent remains * unchanged. * * Since version 1.0 the anchor point will be stored as a gravity so * that if the actor changes size then the anchor point will move. For * example, if you set the anchor point to %CLUTTER_GRAVITY_SOUTH_EAST * and later double the size of the actor, the anchor point will move * to the bottom right. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead. */ void clutter_actor_move_anchor_point_from_gravity (ClutterActor *self, ClutterGravity gravity) { gfloat old_anchor_x, old_anchor_y, new_anchor_x, new_anchor_y; const ClutterTransformInfo *info; ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; info = _clutter_actor_get_transform_info (self); g_object_freeze_notify (G_OBJECT (self)); clutter_anchor_coord_get_units (self, &info->anchor, &old_anchor_x, &old_anchor_y, NULL); clutter_actor_set_anchor_point_from_gravity (self, gravity); clutter_anchor_coord_get_units (self, &info->anchor, &new_anchor_x, &new_anchor_y, NULL); if (priv->position_set) clutter_actor_move_by (self, new_anchor_x - old_anchor_x, new_anchor_y - old_anchor_y); g_object_thaw_notify (G_OBJECT (self)); } /** * clutter_actor_set_anchor_point_from_gravity: * @self: a #ClutterActor * @gravity: #ClutterGravity. * * Sets an anchor point on the actor, based on the given gravity (this is a * convenience function wrapping clutter_actor_set_anchor_point()). * * Since version 1.0 the anchor point will be stored as a gravity so * that if the actor changes size then the anchor point will move. For * example, if you set the anchor point to %CLUTTER_GRAVITY_SOUTH_EAST * and later double the size of the actor, the anchor point will move * to the bottom right. * * Since: 0.6 * * Deprecated: 1.12: Use #ClutterActor:pivot-point instead. */ void clutter_actor_set_anchor_point_from_gravity (ClutterActor *self, ClutterGravity gravity) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (gravity == CLUTTER_GRAVITY_NONE) clutter_actor_set_anchor_point (self, 0, 0); else { GObject *obj = G_OBJECT (self); ClutterTransformInfo *info; g_object_freeze_notify (obj); info = _clutter_actor_get_transform_info (self); clutter_anchor_coord_set_gravity (&info->anchor, gravity); g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_GRAVITY]); g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_X]); g_object_notify_by_pspec (obj, obj_props[PROP_ANCHOR_Y]); self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_thaw_notify (obj); } } static void clutter_actor_store_content_box (ClutterActor *self, const ClutterActorBox *box) { if (box != NULL) { self->priv->content_box = *box; self->priv->content_box_valid = TRUE; } else self->priv->content_box_valid = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_CONTENT_BOX]); } static void clutter_container_iface_init (ClutterContainerIface *iface) { /* we don't override anything, as ClutterContainer already has a default * implementation that we can use, and which calls into our own API. */ } typedef enum { PARSE_X, PARSE_Y, PARSE_WIDTH, PARSE_HEIGHT, PARSE_ANCHOR_X, PARSE_ANCHOR_Y } ParseDimension; static gfloat parse_units (ClutterActor *self, ParseDimension dimension, JsonNode *node) { GValue value = G_VALUE_INIT; gfloat retval = 0; if (JSON_NODE_TYPE (node) != JSON_NODE_VALUE) return 0; json_node_get_value (node, &value); if (G_VALUE_HOLDS (&value, G_TYPE_INT64)) { retval = (gfloat) g_value_get_int64 (&value); } else if (G_VALUE_HOLDS (&value, G_TYPE_DOUBLE)) { retval = g_value_get_double (&value); } else if (G_VALUE_HOLDS (&value, G_TYPE_STRING)) { ClutterUnits units; gboolean res; res = clutter_units_from_string (&units, g_value_get_string (&value)); if (res) retval = clutter_units_to_pixels (&units); else { g_warning ("Invalid value '%s': integers, strings or floating point " "values can be used for the x, y, width and height " "properties. Valid modifiers for strings are 'px', 'mm', " "'pt' and 'em'.", g_value_get_string (&value)); retval = 0; } } else { g_warning ("Invalid value of type '%s': integers, strings of floating " "point values can be used for the x, y, width, height " "anchor-x and anchor-y properties.", g_type_name (G_VALUE_TYPE (&value))); } g_value_unset (&value); return retval; } typedef struct { ClutterRotateAxis axis; gdouble angle; gfloat center_x; gfloat center_y; gfloat center_z; } RotationInfo; static inline gboolean parse_rotation_array (ClutterActor *actor, JsonArray *array, RotationInfo *info) { JsonNode *element; if (json_array_get_length (array) != 2) return FALSE; /* angle */ element = json_array_get_element (array, 0); if (JSON_NODE_TYPE (element) == JSON_NODE_VALUE) info->angle = json_node_get_double (element); else return FALSE; /* center */ element = json_array_get_element (array, 1); if (JSON_NODE_TYPE (element) == JSON_NODE_ARRAY) { JsonArray *center = json_node_get_array (element); if (json_array_get_length (center) != 2) return FALSE; switch (info->axis) { case CLUTTER_X_AXIS: info->center_y = parse_units (actor, PARSE_Y, json_array_get_element (center, 0)); info->center_z = parse_units (actor, PARSE_Y, json_array_get_element (center, 1)); return TRUE; case CLUTTER_Y_AXIS: info->center_x = parse_units (actor, PARSE_X, json_array_get_element (center, 0)); info->center_z = parse_units (actor, PARSE_X, json_array_get_element (center, 1)); return TRUE; case CLUTTER_Z_AXIS: info->center_x = parse_units (actor, PARSE_X, json_array_get_element (center, 0)); info->center_y = parse_units (actor, PARSE_Y, json_array_get_element (center, 1)); return TRUE; } } return FALSE; } static gboolean parse_rotation (ClutterActor *actor, JsonNode *node, RotationInfo *info) { JsonArray *array; guint len, i; gboolean retval = FALSE; if (JSON_NODE_TYPE (node) != JSON_NODE_ARRAY) { g_warning ("Invalid node of type '%s' found, expecting an array", json_node_type_name (node)); return FALSE; } array = json_node_get_array (node); len = json_array_get_length (array); for (i = 0; i < len; i++) { JsonNode *element = json_array_get_element (array, i); JsonObject *object; JsonNode *member; if (JSON_NODE_TYPE (element) != JSON_NODE_OBJECT) { g_warning ("Invalid node of type '%s' found, expecting an object", json_node_type_name (element)); return FALSE; } object = json_node_get_object (element); if (json_object_has_member (object, "x-axis")) { member = json_object_get_member (object, "x-axis"); info->axis = CLUTTER_X_AXIS; if (JSON_NODE_TYPE (member) == JSON_NODE_VALUE) { info->angle = json_node_get_double (member); retval = TRUE; } else if (JSON_NODE_TYPE (member) == JSON_NODE_ARRAY) retval = parse_rotation_array (actor, json_node_get_array (member), info); else retval = FALSE; } else if (json_object_has_member (object, "y-axis")) { member = json_object_get_member (object, "y-axis"); info->axis = CLUTTER_Y_AXIS; if (JSON_NODE_TYPE (member) == JSON_NODE_VALUE) { info->angle = json_node_get_double (member); retval = TRUE; } else if (JSON_NODE_TYPE (member) == JSON_NODE_ARRAY) retval = parse_rotation_array (actor, json_node_get_array (member), info); else retval = FALSE; } else if (json_object_has_member (object, "z-axis")) { member = json_object_get_member (object, "z-axis"); info->axis = CLUTTER_Z_AXIS; if (JSON_NODE_TYPE (member) == JSON_NODE_VALUE) { info->angle = json_node_get_double (member); retval = TRUE; } else if (JSON_NODE_TYPE (member) == JSON_NODE_ARRAY) retval = parse_rotation_array (actor, json_node_get_array (member), info); else retval = FALSE; } } return retval; } static GSList * parse_actor_metas (ClutterScript *script, ClutterActor *actor, JsonNode *node) { GList *elements, *l; GSList *retval = NULL; if (!JSON_NODE_HOLDS_ARRAY (node)) return NULL; elements = json_array_get_elements (json_node_get_array (node)); for (l = elements; l != NULL; l = l->next) { JsonNode *element = l->data; const gchar *id_ = _clutter_script_get_id_from_node (element); GObject *meta; if (id_ == NULL || *id_ == '\0') continue; meta = clutter_script_get_object (script, id_); if (meta == NULL) continue; retval = g_slist_prepend (retval, meta); } g_list_free (elements); return g_slist_reverse (retval); } static GSList * parse_behaviours (ClutterScript *script, ClutterActor *actor, JsonNode *node) { GList *elements, *l; GSList *retval = NULL; if (!JSON_NODE_HOLDS_ARRAY (node)) return NULL; elements = json_array_get_elements (json_node_get_array (node)); for (l = elements; l != NULL; l = l->next) { JsonNode *element = l->data; const gchar *id_ = _clutter_script_get_id_from_node (element); GObject *behaviour; if (id_ == NULL || *id_ == '\0') continue; behaviour = clutter_script_get_object (script, id_); if (behaviour == NULL) continue; retval = g_slist_prepend (retval, behaviour); } g_list_free (elements); return g_slist_reverse (retval); } static ClutterMargin * parse_margin (ClutterActor *self, JsonNode *node) { ClutterMargin *margin; JsonArray *array; if (!JSON_NODE_HOLDS_ARRAY (node)) { g_warning ("The margin property must be an array of 1 to 4 elements"); return NULL; } margin = clutter_margin_new (); array = json_node_get_array (node); switch (json_array_get_length (array)) { case 1: margin->top = margin->right = margin->bottom = margin->left = parse_units (self, 0, json_array_get_element (array, 0)); break; case 2: margin->top = margin->bottom = parse_units (self, 0, json_array_get_element (array, 0)); margin->right = margin->left = parse_units (self, 0, json_array_get_element (array, 1)); break; case 3: margin->top = parse_units (self, 0, json_array_get_element (array, 0)); margin->right = margin->left = parse_units (self, 0, json_array_get_element (array, 1)); margin->bottom = parse_units (self, 0, json_array_get_element (array, 2)); break; case 4: margin->top = parse_units (self, 0, json_array_get_element (array, 0)); margin->right = parse_units (self, 0, json_array_get_element (array, 1)); margin->bottom = parse_units (self, 0, json_array_get_element (array, 2)); margin->left = parse_units (self, 0, json_array_get_element (array, 3)); break; default: g_warning ("The margin property must be an array of 1 to 4 elements"); clutter_margin_free (margin); return NULL; } return margin; } static gboolean clutter_actor_parse_custom_node (ClutterScriptable *scriptable, ClutterScript *script, GValue *value, const gchar *name, JsonNode *node) { ClutterActor *actor = CLUTTER_ACTOR (scriptable); gboolean retval = FALSE; if ((name[0] == 'x' && name[1] == '\0') || (name[0] == 'y' && name[1] == '\0') || (strcmp (name, "width") == 0) || (strcmp (name, "height") == 0) || (strcmp (name, "anchor_x") == 0) || (strcmp (name, "anchor_y") == 0)) { ParseDimension dimension; gfloat units; if (name[0] == 'x') dimension = PARSE_X; else if (name[0] == 'y') dimension = PARSE_Y; else if (name[0] == 'w') dimension = PARSE_WIDTH; else if (name[0] == 'h') dimension = PARSE_HEIGHT; else if (name[0] == 'a' && name[7] == 'x') dimension = PARSE_ANCHOR_X; else if (name[0] == 'a' && name[7] == 'y') dimension = PARSE_ANCHOR_Y; else return FALSE; units = parse_units (actor, dimension, node); /* convert back to pixels: all properties are pixel-based */ g_value_init (value, G_TYPE_FLOAT); g_value_set_float (value, units); retval = TRUE; } else if (strcmp (name, "rotation") == 0) { RotationInfo *info; info = g_slice_new0 (RotationInfo); retval = parse_rotation (actor, node, info); if (retval) { g_value_init (value, G_TYPE_POINTER); g_value_set_pointer (value, info); } else g_slice_free (RotationInfo, info); } else if (strcmp (name, "behaviours") == 0) { GSList *l; #ifdef CLUTTER_ENABLE_DEBUG if (G_UNLIKELY (_clutter_diagnostic_enabled ())) _clutter_diagnostic_message ("The 'behaviours' key is deprecated " "and it should not be used in newly " "written ClutterScript definitions."); #endif l = parse_behaviours (script, actor, node); g_value_init (value, G_TYPE_POINTER); g_value_set_pointer (value, l); retval = TRUE; } else if (strcmp (name, "actions") == 0 || strcmp (name, "constraints") == 0 || strcmp (name, "effects") == 0) { GSList *l; l = parse_actor_metas (script, actor, node); g_value_init (value, G_TYPE_POINTER); g_value_set_pointer (value, l); retval = TRUE; } else if (strcmp (name, "margin") == 0) { ClutterMargin *margin = parse_margin (actor, node); if (margin) { g_value_init (value, CLUTTER_TYPE_MARGIN); g_value_set_boxed (value, margin); retval = TRUE; } } return retval; } static void clutter_actor_set_custom_property (ClutterScriptable *scriptable, ClutterScript *script, const gchar *name, const GValue *value) { ClutterActor *actor = CLUTTER_ACTOR (scriptable); #ifdef CLUTTER_ENABLE_DEBUG if (G_UNLIKELY (CLUTTER_HAS_DEBUG (SCRIPT))) { gchar *tmp = g_strdup_value_contents (value); CLUTTER_NOTE (SCRIPT, "in ClutterActor::set_custom_property('%s') = %s", name, tmp); g_free (tmp); } #endif /* CLUTTER_ENABLE_DEBUG */ if (strcmp (name, "rotation") == 0) { RotationInfo *info; if (!G_VALUE_HOLDS (value, G_TYPE_POINTER)) return; info = g_value_get_pointer (value); clutter_actor_set_rotation (actor, info->axis, info->angle, info->center_x, info->center_y, info->center_z); g_slice_free (RotationInfo, info); return; } if (strcmp (name, "behaviours") == 0) { GSList *behaviours, *l; if (!G_VALUE_HOLDS (value, G_TYPE_POINTER)) return; behaviours = g_value_get_pointer (value); for (l = behaviours; l != NULL; l = l->next) { ClutterBehaviour *behaviour = l->data; clutter_behaviour_apply (behaviour, actor); } g_slist_free (behaviours); return; } if (strcmp (name, "actions") == 0 || strcmp (name, "constraints") == 0 || strcmp (name, "effects") == 0) { GSList *metas, *l; if (!G_VALUE_HOLDS (value, G_TYPE_POINTER)) return; metas = g_value_get_pointer (value); for (l = metas; l != NULL; l = l->next) { if (name[0] == 'a') clutter_actor_add_action (actor, l->data); if (name[0] == 'c') clutter_actor_add_constraint (actor, l->data); if (name[0] == 'e') clutter_actor_add_effect (actor, l->data); } g_slist_free (metas); return; } if (strcmp (name, "margin") == 0) { clutter_actor_set_margin (actor, g_value_get_boxed (value)); return; } g_object_set_property (G_OBJECT (scriptable), name, value); } static void clutter_scriptable_iface_init (ClutterScriptableIface *iface) { iface->parse_custom_node = clutter_actor_parse_custom_node; iface->set_custom_property = clutter_actor_set_custom_property; } static ClutterActorMeta * get_meta_from_animation_property (ClutterActor *actor, const gchar *name, gchar **name_p) { ClutterActorPrivate *priv = actor->priv; ClutterActorMeta *meta = NULL; gchar **tokens; /* if this is not a special property, fall through */ if (name[0] != '@') return NULL; /* detect the properties named using the following spec: * * @
.. * * where
can be one of the following: * * - actions * - constraints * - effects * * and is the name set on a specific ActorMeta */ tokens = g_strsplit (name + 1, ".", -1); if (tokens == NULL || g_strv_length (tokens) != 3) { CLUTTER_NOTE (ANIMATION, "Invalid property name '%s'", name + 1); g_strfreev (tokens); return NULL; } if (strcmp (tokens[0], "actions") == 0) meta = _clutter_meta_group_get_meta (priv->actions, tokens[1]); if (strcmp (tokens[0], "constraints") == 0) meta = _clutter_meta_group_get_meta (priv->constraints, tokens[1]); if (strcmp (tokens[0], "effects") == 0) meta = _clutter_meta_group_get_meta (priv->effects, tokens[1]); if (name_p != NULL) *name_p = g_strdup (tokens[2]); CLUTTER_NOTE (ANIMATION, "Looking for property '%s' of object '%s' in section '%s'", tokens[2], tokens[1], tokens[0]); g_strfreev (tokens); return meta; } static GParamSpec * clutter_actor_find_property (ClutterAnimatable *animatable, const gchar *property_name) { ClutterActorMeta *meta = NULL; GObjectClass *klass = NULL; GParamSpec *pspec = NULL; gchar *p_name = NULL; meta = get_meta_from_animation_property (CLUTTER_ACTOR (animatable), property_name, &p_name); if (meta != NULL) { klass = G_OBJECT_GET_CLASS (meta); pspec = g_object_class_find_property (klass, p_name); } else { klass = G_OBJECT_GET_CLASS (animatable); pspec = g_object_class_find_property (klass, property_name); } g_free (p_name); return pspec; } static void clutter_actor_get_initial_state (ClutterAnimatable *animatable, const gchar *property_name, GValue *initial) { ClutterActorMeta *meta = NULL; gchar *p_name = NULL; meta = get_meta_from_animation_property (CLUTTER_ACTOR (animatable), property_name, &p_name); if (meta != NULL) g_object_get_property (G_OBJECT (meta), p_name, initial); else g_object_get_property (G_OBJECT (animatable), property_name, initial); g_free (p_name); } /* * clutter_actor_set_animatable_property: * @actor: a #ClutterActor * @prop_id: the paramspec id * @value: the value to set * @pspec: the paramspec * * Sets values of animatable properties. * * This is a variant of clutter_actor_set_property() that gets called * by the #ClutterAnimatable implementation of #ClutterActor for the * properties with the %CLUTTER_PARAM_ANIMATABLE flag set on their * #GParamSpec. * * Unlike the implementation of #GObjectClass.set_property(), this * function will not update the interval if a transition involving an * animatable property is in progress - this avoids cycles with the * transition API calling the public API. */ static void clutter_actor_set_animatable_property (ClutterActor *actor, guint prop_id, const GValue *value, GParamSpec *pspec) { GObject *obj = G_OBJECT (actor); g_object_freeze_notify (obj); switch (prop_id) { case PROP_X: clutter_actor_set_x_internal (actor, g_value_get_float (value)); break; case PROP_Y: clutter_actor_set_y_internal (actor, g_value_get_float (value)); break; case PROP_POSITION: clutter_actor_set_position_internal (actor, g_value_get_boxed (value)); break; case PROP_WIDTH: clutter_actor_set_width_internal (actor, g_value_get_float (value)); break; case PROP_HEIGHT: clutter_actor_set_height_internal (actor, g_value_get_float (value)); break; case PROP_SIZE: clutter_actor_set_size_internal (actor, g_value_get_boxed (value)); break; case PROP_ALLOCATION: clutter_actor_allocate_internal (actor, g_value_get_boxed (value), actor->priv->allocation_flags); clutter_actor_queue_redraw (actor); break; case PROP_DEPTH: clutter_actor_set_depth_internal (actor, g_value_get_float (value)); break; case PROP_Z_POSITION: clutter_actor_set_z_position_internal (actor, g_value_get_float (value)); break; case PROP_OPACITY: clutter_actor_set_opacity_internal (actor, g_value_get_uint (value)); break; case PROP_BACKGROUND_COLOR: clutter_actor_set_background_color_internal (actor, clutter_value_get_color (value)); break; case PROP_PIVOT_POINT: clutter_actor_set_pivot_point_internal (actor, g_value_get_boxed (value)); break; case PROP_PIVOT_POINT_Z: clutter_actor_set_pivot_point_z_internal (actor, g_value_get_float (value)); break; case PROP_TRANSLATION_X: case PROP_TRANSLATION_Y: case PROP_TRANSLATION_Z: clutter_actor_set_translation_internal (actor, g_value_get_float (value), pspec); break; case PROP_SCALE_X: case PROP_SCALE_Y: case PROP_SCALE_Z: clutter_actor_set_scale_factor_internal (actor, g_value_get_double (value), pspec); break; case PROP_ROTATION_ANGLE_X: case PROP_ROTATION_ANGLE_Y: case PROP_ROTATION_ANGLE_Z: clutter_actor_set_rotation_angle_internal (actor, g_value_get_double (value), pspec); break; case PROP_CONTENT_BOX: clutter_actor_store_content_box (actor, g_value_get_boxed (value)); break; case PROP_MARGIN_TOP: case PROP_MARGIN_BOTTOM: case PROP_MARGIN_LEFT: case PROP_MARGIN_RIGHT: clutter_actor_set_margin_internal (actor, g_value_get_float (value), pspec); break; case PROP_TRANSFORM: clutter_actor_set_transform_internal (actor, g_value_get_boxed (value)); break; case PROP_CHILD_TRANSFORM: clutter_actor_set_child_transform_internal (actor, g_value_get_boxed (value)); break; default: g_object_set_property (obj, pspec->name, value); break; } g_object_thaw_notify (obj); } static void clutter_actor_set_final_state (ClutterAnimatable *animatable, const gchar *property_name, const GValue *final) { ClutterActor *actor = CLUTTER_ACTOR (animatable); ClutterActorMeta *meta = NULL; gchar *p_name = NULL; meta = get_meta_from_animation_property (actor, property_name, &p_name); if (meta != NULL) g_object_set_property (G_OBJECT (meta), p_name, final); else { GObjectClass *obj_class = G_OBJECT_GET_CLASS (animatable); GParamSpec *pspec; pspec = g_object_class_find_property (obj_class, property_name); if ((pspec->flags & CLUTTER_PARAM_ANIMATABLE) != 0) { /* XXX - I'm going to the special hell for this */ clutter_actor_set_animatable_property (actor, pspec->param_id, final, pspec); } else g_object_set_property (G_OBJECT (animatable), pspec->name, final); } g_free (p_name); } static void clutter_animatable_iface_init (ClutterAnimatableIface *iface) { iface->find_property = clutter_actor_find_property; iface->get_initial_state = clutter_actor_get_initial_state; iface->set_final_state = clutter_actor_set_final_state; } /** * clutter_actor_transform_stage_point: * @self: A #ClutterActor * @x: (in): x screen coordinate of the point to unproject * @y: (in): y screen coordinate of the point to unproject * @x_out: (out): return location for the unprojected x coordinance * @y_out: (out): return location for the unprojected y coordinance * * This function translates screen coordinates (@x, @y) to * coordinates relative to the actor. For example, it can be used to translate * screen events from global screen coordinates into actor-local coordinates. * * The conversion can fail, notably if the transform stack results in the * actor being projected on the screen as a mere line. * * The conversion should not be expected to be pixel-perfect due to the * nature of the operation. In general the error grows when the skewing * of the actor rectangle on screen increases. * * This function can be computationally intensive. * * This function only works when the allocation is up-to-date, i.e. inside of * the #ClutterActorClass.paint() implementation * * Return value: %TRUE if conversion was successful. * * Since: 0.6 */ gboolean clutter_actor_transform_stage_point (ClutterActor *self, gfloat x, gfloat y, gfloat *x_out, gfloat *y_out) { ClutterVertex v[4]; float ST[3][3]; float RQ[3][3]; int du, dv, xi, yi; float px, py; float xf, yf, wf, det; ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); priv = self->priv; /* This implementation is based on the quad -> quad projection algorithm * described by Paul Heckbert in: * * http://www.cs.cmu.edu/~ph/texfund/texfund.pdf * * and the sample implementation at: * * http://www.cs.cmu.edu/~ph/src/texfund/ * * Our texture is a rectangle with origin [0, 0], so we are mapping from * quad to rectangle only, which significantly simplifies things; the * function calls have been unrolled, and most of the math is done in fixed * point. */ clutter_actor_get_abs_allocation_vertices (self, v); /* Keeping these as ints simplifies the multiplication (no significant * loss of precision here). */ du = (int) (priv->allocation.x2 - priv->allocation.x1); dv = (int) (priv->allocation.y2 - priv->allocation.y1); if (!du || !dv) return FALSE; #define UX2FP(x) (x) #define DET2FP(a,b,c,d) (((a) * (d)) - ((b) * (c))) /* First, find mapping from unit uv square to xy quadrilateral; this * equivalent to the pmap_square_quad() functions in the sample * implementation, which we can simplify, since our target is always * a rectangle. */ px = v[0].x - v[1].x + v[3].x - v[2].x; py = v[0].y - v[1].y + v[3].y - v[2].y; if (!px && !py) { /* affine transform */ RQ[0][0] = UX2FP (v[1].x - v[0].x); RQ[1][0] = UX2FP (v[3].x - v[1].x); RQ[2][0] = UX2FP (v[0].x); RQ[0][1] = UX2FP (v[1].y - v[0].y); RQ[1][1] = UX2FP (v[3].y - v[1].y); RQ[2][1] = UX2FP (v[0].y); RQ[0][2] = 0; RQ[1][2] = 0; RQ[2][2] = 1.0; } else { /* projective transform */ double dx1, dx2, dy1, dy2, del; dx1 = UX2FP (v[1].x - v[3].x); dx2 = UX2FP (v[2].x - v[3].x); dy1 = UX2FP (v[1].y - v[3].y); dy2 = UX2FP (v[2].y - v[3].y); del = DET2FP (dx1, dx2, dy1, dy2); if (!del) return FALSE; /* * The division here needs to be done in floating point for * precisions reasons. */ RQ[0][2] = (DET2FP (UX2FP (px), dx2, UX2FP (py), dy2) / del); RQ[1][2] = (DET2FP (dx1, UX2FP (px), dy1, UX2FP (py)) / del); RQ[1][2] = (DET2FP (dx1, UX2FP (px), dy1, UX2FP (py)) / del); RQ[2][2] = 1.0; RQ[0][0] = UX2FP (v[1].x - v[0].x) + (RQ[0][2] * UX2FP (v[1].x)); RQ[1][0] = UX2FP (v[2].x - v[0].x) + (RQ[1][2] * UX2FP (v[2].x)); RQ[2][0] = UX2FP (v[0].x); RQ[0][1] = UX2FP (v[1].y - v[0].y) + (RQ[0][2] * UX2FP (v[1].y)); RQ[1][1] = UX2FP (v[2].y - v[0].y) + (RQ[1][2] * UX2FP (v[2].y)); RQ[2][1] = UX2FP (v[0].y); } /* * Now combine with transform from our rectangle (u0,v0,u1,v1) to unit * square. Since our rectangle is based at 0,0 we only need to scale. */ RQ[0][0] /= du; RQ[1][0] /= dv; RQ[0][1] /= du; RQ[1][1] /= dv; RQ[0][2] /= du; RQ[1][2] /= dv; /* * Now RQ is transform from uv rectangle to xy quadrilateral; we need an * inverse of that. */ ST[0][0] = DET2FP (RQ[1][1], RQ[1][2], RQ[2][1], RQ[2][2]); ST[1][0] = DET2FP (RQ[1][2], RQ[1][0], RQ[2][2], RQ[2][0]); ST[2][0] = DET2FP (RQ[1][0], RQ[1][1], RQ[2][0], RQ[2][1]); ST[0][1] = DET2FP (RQ[2][1], RQ[2][2], RQ[0][1], RQ[0][2]); ST[1][1] = DET2FP (RQ[2][2], RQ[2][0], RQ[0][2], RQ[0][0]); ST[2][1] = DET2FP (RQ[2][0], RQ[2][1], RQ[0][0], RQ[0][1]); ST[0][2] = DET2FP (RQ[0][1], RQ[0][2], RQ[1][1], RQ[1][2]); ST[1][2] = DET2FP (RQ[0][2], RQ[0][0], RQ[1][2], RQ[1][0]); ST[2][2] = DET2FP (RQ[0][0], RQ[0][1], RQ[1][0], RQ[1][1]); /* * Check the resulting matrix is OK. */ det = (RQ[0][0] * ST[0][0]) + (RQ[0][1] * ST[0][1]) + (RQ[0][2] * ST[0][2]); if (!det) return FALSE; /* * Now transform our point with the ST matrix; the notional w * coordinate is 1, hence the last part is simply added. */ xi = (int) x; yi = (int) y; xf = xi * ST[0][0] + yi * ST[1][0] + ST[2][0]; yf = xi * ST[0][1] + yi * ST[1][1] + ST[2][1]; wf = xi * ST[0][2] + yi * ST[1][2] + ST[2][2]; if (x_out) *x_out = xf / wf; if (y_out) *y_out = yf / wf; #undef UX2FP #undef DET2FP return TRUE; } /** * clutter_actor_is_rotated: * @self: a #ClutterActor * * Checks whether any rotation is applied to the actor. * * Return value: %TRUE if the actor is rotated. * * Since: 0.6 */ gboolean clutter_actor_is_rotated (ClutterActor *self) { const ClutterTransformInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); info = _clutter_actor_get_transform_info_or_defaults (self); if (info->rx_angle || info->ry_angle || info->rz_angle) return TRUE; return FALSE; } /** * clutter_actor_is_scaled: * @self: a #ClutterActor * * Checks whether the actor is scaled in either dimension. * * Return value: %TRUE if the actor is scaled. * * Since: 0.6 */ gboolean clutter_actor_is_scaled (ClutterActor *self) { const ClutterTransformInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); info = _clutter_actor_get_transform_info_or_defaults (self); if (info->scale_x != 1.0 || info->scale_y != 1.0) return TRUE; return FALSE; } ClutterActor * _clutter_actor_get_stage_internal (ClutterActor *actor) { while (actor && !CLUTTER_ACTOR_IS_TOPLEVEL (actor)) actor = actor->priv->parent; return actor; } /** * clutter_actor_get_stage: * @actor: a #ClutterActor * * Retrieves the #ClutterStage where @actor is contained. * * Return value: (transfer none) (type Clutter.Stage): the stage * containing the actor, or %NULL * * Since: 0.8 */ ClutterActor * clutter_actor_get_stage (ClutterActor *actor) { g_return_val_if_fail (CLUTTER_IS_ACTOR (actor), NULL); return _clutter_actor_get_stage_internal (actor); } /** * clutter_actor_allocate_available_size: * @self: a #ClutterActor * @x: the actor's X coordinate * @y: the actor's Y coordinate * @available_width: the maximum available width, or -1 to use the * actor's natural width * @available_height: the maximum available height, or -1 to use the * actor's natural height * @flags: flags controlling the allocation * * Allocates @self taking into account the #ClutterActor's * preferred size, but limiting it to the maximum available width * and height provided. * * This function will do the right thing when dealing with the * actor's request mode. * * The implementation of this function is equivalent to: * * |[ * if (request_mode == CLUTTER_REQUEST_HEIGHT_FOR_WIDTH) * { * clutter_actor_get_preferred_width (self, available_height, * &min_width, * &natural_width); * width = CLAMP (natural_width, min_width, available_width); * * clutter_actor_get_preferred_height (self, width, * &min_height, * &natural_height); * height = CLAMP (natural_height, min_height, available_height); * } * else if (request_mode == CLUTTER_REQUEST_WIDTH_FOR_HEIGHT) * { * clutter_actor_get_preferred_height (self, available_width, * &min_height, * &natural_height); * height = CLAMP (natural_height, min_height, available_height); * * clutter_actor_get_preferred_width (self, height, * &min_width, * &natural_width); * width = CLAMP (natural_width, min_width, available_width); * } * else if (request_mode == CLUTTER_REQUEST_CONTENT_SIZE) * { * clutter_content_get_preferred_size (content, &natural_width, &natural_height); * * width = CLAMP (natural_width, 0, available_width); * height = CLAMP (natural_height, 0, available_height); * } * * box.x1 = x; box.y1 = y; * box.x2 = box.x1 + available_width; * box.y2 = box.y1 + available_height; * clutter_actor_allocate (self, &box, flags); * ]| * * This function can be used by fluid layout managers to allocate * an actor's preferred size without making it bigger than the area * available for the container. * * Since: 1.0 */ void clutter_actor_allocate_available_size (ClutterActor *self, gfloat x, gfloat y, gfloat available_width, gfloat available_height, ClutterAllocationFlags flags) { ClutterActorPrivate *priv; gfloat width, height; gfloat min_width, min_height; gfloat natural_width, natural_height; ClutterActorBox box; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; width = height = 0.0; switch (priv->request_mode) { case CLUTTER_REQUEST_HEIGHT_FOR_WIDTH: clutter_actor_get_preferred_width (self, available_height, &min_width, &natural_width); width = CLAMP (natural_width, min_width, available_width); clutter_actor_get_preferred_height (self, width, &min_height, &natural_height); height = CLAMP (natural_height, min_height, available_height); break; case CLUTTER_REQUEST_WIDTH_FOR_HEIGHT: clutter_actor_get_preferred_height (self, available_width, &min_height, &natural_height); height = CLAMP (natural_height, min_height, available_height); clutter_actor_get_preferred_width (self, height, &min_width, &natural_width); width = CLAMP (natural_width, min_width, available_width); break; case CLUTTER_REQUEST_CONTENT_SIZE: if (priv->content != NULL) { clutter_content_get_preferred_size (priv->content, &natural_width, &natural_height); width = CLAMP (natural_width, 0, available_width); height = CLAMP (natural_height, 0, available_height); } break; } box.x1 = x; box.y1 = y; box.x2 = box.x1 + width; box.y2 = box.y1 + height; clutter_actor_allocate (self, &box, flags); } /** * clutter_actor_allocate_preferred_size: * @self: a #ClutterActor * @flags: flags controlling the allocation * * Allocates the natural size of @self. * * This function is a utility call for #ClutterActor implementations * that allocates the actor's preferred natural size. It can be used * by fixed layout managers (like #ClutterGroup or so called * 'composite actors') inside the ClutterActor::allocate * implementation to give each child exactly how much space it * requires, regardless of the size of the parent. * * This function is not meant to be used by applications. It is also * not meant to be used outside the implementation of the * #ClutterActorClass.allocate virtual function. * * Since: 0.8 */ void clutter_actor_allocate_preferred_size (ClutterActor *self, ClutterAllocationFlags flags) { gfloat actor_x, actor_y; gfloat natural_width, natural_height; ClutterActorBox actor_box; ClutterActorPrivate *priv; const ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (priv->position_set) { info = _clutter_actor_get_layout_info_or_defaults (self); actor_x = info->fixed_pos.x; actor_y = info->fixed_pos.y; } else { actor_x = 0; actor_y = 0; } clutter_actor_get_preferred_size (self, NULL, NULL, &natural_width, &natural_height); actor_box.x1 = actor_x; actor_box.y1 = actor_y; actor_box.x2 = actor_box.x1 + natural_width; actor_box.y2 = actor_box.y1 + natural_height; clutter_actor_allocate (self, &actor_box, flags); } /** * clutter_actor_allocate_align_fill: * @self: a #ClutterActor * @box: a #ClutterActorBox, containing the available width and height * @x_align: the horizontal alignment, between 0 and 1 * @y_align: the vertical alignment, between 0 and 1 * @x_fill: whether the actor should fill horizontally * @y_fill: whether the actor should fill vertically * @flags: allocation flags to be passed to clutter_actor_allocate() * * Allocates @self by taking into consideration the available allocation * area; an alignment factor on either axis; and whether the actor should * fill the allocation on either axis. * * The @box should contain the available allocation width and height; * if the x1 and y1 members of #ClutterActorBox are not set to 0, the * allocation will be offset by their value. * * This function takes into consideration the geometry request specified by * the #ClutterActor:request-mode property, and the text direction. * * This function is useful for fluid layout managers using legacy alignment * flags. Newly written layout managers should use the #ClutterActor:x-align * and #ClutterActor:y-align properties, instead, and just call * clutter_actor_allocate() inside their #ClutterActorClass.allocate() * implementation. * * Since: 1.4 */ void clutter_actor_allocate_align_fill (ClutterActor *self, const ClutterActorBox *box, gdouble x_align, gdouble y_align, gboolean x_fill, gboolean y_fill, ClutterAllocationFlags flags) { ClutterActorPrivate *priv; ClutterActorBox allocation = CLUTTER_ACTOR_BOX_INIT_ZERO; gfloat x_offset, y_offset; gfloat available_width, available_height; gfloat child_width = 0.f, child_height = 0.f; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (box != NULL); g_return_if_fail (x_align >= 0.0 && x_align <= 1.0); g_return_if_fail (y_align >= 0.0 && y_align <= 1.0); priv = self->priv; clutter_actor_box_get_origin (box, &x_offset, &y_offset); clutter_actor_box_get_size (box, &available_width, &available_height); if (available_width <= 0) available_width = 0.f; if (available_height <= 0) available_height = 0.f; allocation.x1 = x_offset; allocation.y1 = y_offset; if (available_width == 0.f && available_height == 0.f) goto out; if (x_fill) child_width = available_width; if (y_fill) child_height = available_height; /* if we are filling horizontally and vertically then we're done */ if (x_fill && y_fill) goto out; if (priv->request_mode == CLUTTER_REQUEST_HEIGHT_FOR_WIDTH) { gfloat min_width, natural_width; gfloat min_height, natural_height; if (!x_fill) { clutter_actor_get_preferred_width (self, available_height, &min_width, &natural_width); child_width = CLAMP (natural_width, min_width, available_width); } if (!y_fill) { clutter_actor_get_preferred_height (self, child_width, &min_height, &natural_height); child_height = CLAMP (natural_height, min_height, available_height); } } else if (priv->request_mode == CLUTTER_REQUEST_WIDTH_FOR_HEIGHT) { gfloat min_width, natural_width; gfloat min_height, natural_height; if (!y_fill) { clutter_actor_get_preferred_height (self, available_width, &min_height, &natural_height); child_height = CLAMP (natural_height, min_height, available_height); } if (!x_fill) { clutter_actor_get_preferred_width (self, child_height, &min_width, &natural_width); child_width = CLAMP (natural_width, min_width, available_width); } } else if (priv->request_mode == CLUTTER_REQUEST_CONTENT_SIZE && priv->content != NULL) { gfloat natural_width, natural_height; clutter_content_get_preferred_size (priv->content, &natural_width, &natural_height); if (!x_fill) child_width = CLAMP (natural_width, 0, available_width); if (!y_fill) child_height = CLAMP (natural_height, 0, available_height); } /* invert the horizontal alignment for RTL languages */ if (priv->text_direction == CLUTTER_TEXT_DIRECTION_RTL) x_align = 1.0 - x_align; if (!x_fill) allocation.x1 += ((available_width - child_width) * x_align); if (!y_fill) allocation.y1 += ((available_height - child_height) * y_align); out: allocation.x1 = floorf (allocation.x1); allocation.y1 = floorf (allocation.y1); allocation.x2 = ceilf (allocation.x1 + MAX (child_width, 0)); allocation.y2 = ceilf (allocation.y1 + MAX (child_height, 0)); clutter_actor_allocate (self, &allocation, flags); } /** * clutter_actor_grab_key_focus: * @self: a #ClutterActor * * Sets the key focus of the #ClutterStage including @self * to this #ClutterActor. * * Since: 1.0 */ void clutter_actor_grab_key_focus (ClutterActor *self) { ClutterActor *stage; g_return_if_fail (CLUTTER_IS_ACTOR (self)); stage = _clutter_actor_get_stage_internal (self); if (stage != NULL) clutter_stage_set_key_focus (CLUTTER_STAGE (stage), self); } static void update_pango_context (ClutterBackend *backend, PangoContext *context) { ClutterSettings *settings; PangoFontDescription *font_desc; const cairo_font_options_t *font_options; gchar *font_name; PangoDirection pango_dir; gdouble resolution; settings = clutter_settings_get_default (); /* update the text direction */ if (clutter_get_default_text_direction () == CLUTTER_TEXT_DIRECTION_RTL) pango_dir = PANGO_DIRECTION_RTL; else pango_dir = PANGO_DIRECTION_LTR; pango_context_set_base_dir (context, pango_dir); g_object_get (settings, "font-name", &font_name, NULL); /* get the configuration for the PangoContext from the backend */ font_options = clutter_backend_get_font_options (backend); resolution = clutter_backend_get_resolution (backend); font_desc = pango_font_description_from_string (font_name); if (resolution < 0) resolution = 96.0; /* fall back */ pango_context_set_font_description (context, font_desc); pango_cairo_context_set_font_options (context, font_options); pango_cairo_context_set_resolution (context, resolution); pango_font_description_free (font_desc); g_free (font_name); } /** * clutter_actor_get_pango_context: * @self: a #ClutterActor * * Retrieves the #PangoContext for @self. The actor's #PangoContext * is already configured using the appropriate font map, resolution * and font options. * * Unlike clutter_actor_create_pango_context(), this context is owend * by the #ClutterActor and it will be updated each time the options * stored by the #ClutterBackend change. * * You can use the returned #PangoContext to create a #PangoLayout * and render text using cogl_pango_render_layout() to reuse the * glyphs cache also used by Clutter. * * Return value: (transfer none): the #PangoContext for a #ClutterActor. * The returned #PangoContext is owned by the actor and should not be * unreferenced by the application code * * Since: 1.0 */ PangoContext * clutter_actor_get_pango_context (ClutterActor *self) { ClutterActorPrivate *priv; ClutterBackend *backend = clutter_get_default_backend (); g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); priv = self->priv; if (G_UNLIKELY (priv->pango_context == NULL)) { priv->pango_context = clutter_actor_create_pango_context (self); g_signal_connect_object (backend, "resolution-changed", G_CALLBACK (update_pango_context), priv->pango_context, 0); g_signal_connect_object (backend, "font-changed", G_CALLBACK (update_pango_context), priv->pango_context, 0); } else update_pango_context (backend, priv->pango_context); return priv->pango_context; } /** * clutter_actor_create_pango_context: * @self: a #ClutterActor * * Creates a #PangoContext for the given actor. The #PangoContext * is already configured using the appropriate font map, resolution * and font options. * * See also clutter_actor_get_pango_context(). * * Return value: (transfer full): the newly created #PangoContext. * Use g_object_unref() on the returned value to deallocate its * resources * * Since: 1.0 */ PangoContext * clutter_actor_create_pango_context (ClutterActor *self) { CoglPangoFontMap *font_map; PangoContext *context; font_map = COGL_PANGO_FONT_MAP (clutter_get_font_map ()); context = cogl_pango_font_map_create_context (font_map); update_pango_context (clutter_get_default_backend (), context); pango_context_set_language (context, pango_language_get_default ()); return context; } /** * clutter_actor_create_pango_layout: * @self: a #ClutterActor * @text: (allow-none): the text to set on the #PangoLayout, or %NULL * * Creates a new #PangoLayout from the same #PangoContext used * by the #ClutterActor. The #PangoLayout is already configured * with the font map, resolution and font options, and the * given @text. * * If you want to keep around a #PangoLayout created by this * function you will have to connect to the #ClutterBackend::font-changed * and #ClutterBackend::resolution-changed signals, and call * pango_layout_context_changed() in response to them. * * Return value: (transfer full): the newly created #PangoLayout. * Use g_object_unref() when done * * Since: 1.0 */ PangoLayout * clutter_actor_create_pango_layout (ClutterActor *self, const gchar *text) { PangoContext *context; PangoLayout *layout; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); context = clutter_actor_get_pango_context (self); layout = pango_layout_new (context); if (text) pango_layout_set_text (layout, text, -1); return layout; } /** * clutter_actor_set_opacity_override: * @self: a #ClutterActor * @opacity: the override opacity value, or -1 to reset * * Allows overriding the calculated paint opacity (as returned by * clutter_actor_get_paint_opacity()). This is used internally by * ClutterClone and ClutterOffscreenEffect, and should be used by * actors that need to mimick those. * * In almost all cases this should not used by applications. * * Stability: unstable */ void clutter_actor_set_opacity_override (ClutterActor *self, gint opacity) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); /* ensure bounds */ if (opacity >= 0) opacity = CLAMP (opacity, 0, 255); else opacity = -1; self->priv->opacity_override = opacity; } /** * clutter_actor_get_opacity_override: * @self: a #ClutterActor * * See clutter_actor_set_opacity_override() * * Returns: the override value for the actor's opacity, or -1 if no override * is set. * * Since: 1.22 * * Stability: unstable */ gint clutter_actor_get_opacity_override (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), -1); return self->priv->opacity_override; } /* Allows you to disable applying the actors model view transform during * a paint. Used by ClutterClone. */ void _clutter_actor_set_enable_model_view_transform (ClutterActor *self, gboolean enable) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); self->priv->enable_model_view_transform = enable; } void _clutter_actor_set_enable_paint_unmapped (ClutterActor *self, gboolean enable) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; priv->enable_paint_unmapped = enable; if (priv->enable_paint_unmapped) { /* Make sure that the parents of the widget are realized first; * otherwise checks in clutter_actor_update_map_state() will * fail. */ clutter_actor_realize (self); clutter_actor_update_map_state (self, MAP_STATE_MAKE_MAPPED); } else { clutter_actor_update_map_state (self, MAP_STATE_MAKE_UNMAPPED); } } static void clutter_anchor_coord_get_units (ClutterActor *self, const AnchorCoord *coord, gfloat *x, gfloat *y, gfloat *z) { if (coord->is_fractional) { gfloat actor_width, actor_height; clutter_actor_get_size (self, &actor_width, &actor_height); if (x) *x = actor_width * coord->v.fraction.x; if (y) *y = actor_height * coord->v.fraction.y; if (z) *z = 0; } else { if (x) *x = coord->v.units.x; if (y) *y = coord->v.units.y; if (z) *z = coord->v.units.z; } } static void clutter_anchor_coord_set_units (AnchorCoord *coord, gfloat x, gfloat y, gfloat z) { coord->is_fractional = FALSE; coord->v.units.x = x; coord->v.units.y = y; coord->v.units.z = z; } static ClutterGravity clutter_anchor_coord_get_gravity (const AnchorCoord *coord) { if (coord->is_fractional) { if (coord->v.fraction.x == 0.0) { if (coord->v.fraction.y == 0.0) return CLUTTER_GRAVITY_NORTH_WEST; else if (coord->v.fraction.y == 0.5) return CLUTTER_GRAVITY_WEST; else if (coord->v.fraction.y == 1.0) return CLUTTER_GRAVITY_SOUTH_WEST; else return CLUTTER_GRAVITY_NONE; } else if (coord->v.fraction.x == 0.5) { if (coord->v.fraction.y == 0.0) return CLUTTER_GRAVITY_NORTH; else if (coord->v.fraction.y == 0.5) return CLUTTER_GRAVITY_CENTER; else if (coord->v.fraction.y == 1.0) return CLUTTER_GRAVITY_SOUTH; else return CLUTTER_GRAVITY_NONE; } else if (coord->v.fraction.x == 1.0) { if (coord->v.fraction.y == 0.0) return CLUTTER_GRAVITY_NORTH_EAST; else if (coord->v.fraction.y == 0.5) return CLUTTER_GRAVITY_EAST; else if (coord->v.fraction.y == 1.0) return CLUTTER_GRAVITY_SOUTH_EAST; else return CLUTTER_GRAVITY_NONE; } else return CLUTTER_GRAVITY_NONE; } else return CLUTTER_GRAVITY_NONE; } static void clutter_anchor_coord_set_gravity (AnchorCoord *coord, ClutterGravity gravity) { switch (gravity) { case CLUTTER_GRAVITY_NORTH: coord->v.fraction.x = 0.5; coord->v.fraction.y = 0.0; break; case CLUTTER_GRAVITY_NORTH_EAST: coord->v.fraction.x = 1.0; coord->v.fraction.y = 0.0; break; case CLUTTER_GRAVITY_EAST: coord->v.fraction.x = 1.0; coord->v.fraction.y = 0.5; break; case CLUTTER_GRAVITY_SOUTH_EAST: coord->v.fraction.x = 1.0; coord->v.fraction.y = 1.0; break; case CLUTTER_GRAVITY_SOUTH: coord->v.fraction.x = 0.5; coord->v.fraction.y = 1.0; break; case CLUTTER_GRAVITY_SOUTH_WEST: coord->v.fraction.x = 0.0; coord->v.fraction.y = 1.0; break; case CLUTTER_GRAVITY_WEST: coord->v.fraction.x = 0.0; coord->v.fraction.y = 0.5; break; case CLUTTER_GRAVITY_NORTH_WEST: coord->v.fraction.x = 0.0; coord->v.fraction.y = 0.0; break; case CLUTTER_GRAVITY_CENTER: coord->v.fraction.x = 0.5; coord->v.fraction.y = 0.5; break; default: coord->v.fraction.x = 0.0; coord->v.fraction.y = 0.0; break; } coord->is_fractional = TRUE; } static gboolean clutter_anchor_coord_is_zero (const AnchorCoord *coord) { if (coord->is_fractional) return coord->v.fraction.x == 0.0 && coord->v.fraction.y == 0.0; else return (coord->v.units.x == 0.0 && coord->v.units.y == 0.0 && coord->v.units.z == 0.0); } /** * clutter_actor_get_flags: * @self: a #ClutterActor * * Retrieves the flags set on @self * * Return value: a bitwise or of #ClutterActorFlags or 0 * * Since: 1.0 */ ClutterActorFlags clutter_actor_get_flags (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); return self->flags; } /** * clutter_actor_set_flags: * @self: a #ClutterActor * @flags: the flags to set * * Sets @flags on @self * * This function will emit notifications for the changed properties * * Since: 1.0 */ void clutter_actor_set_flags (ClutterActor *self, ClutterActorFlags flags) { ClutterActorFlags old_flags; GObject *obj; gboolean was_reactive_set, reactive_set; gboolean was_realized_set, realized_set; gboolean was_mapped_set, mapped_set; gboolean was_visible_set, visible_set; g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->flags == flags) return; obj = G_OBJECT (self); g_object_ref (obj); g_object_freeze_notify (obj); old_flags = self->flags; was_reactive_set = ((old_flags & CLUTTER_ACTOR_REACTIVE) != 0); was_realized_set = ((old_flags & CLUTTER_ACTOR_REALIZED) != 0); was_mapped_set = ((old_flags & CLUTTER_ACTOR_MAPPED) != 0); was_visible_set = ((old_flags & CLUTTER_ACTOR_VISIBLE) != 0); self->flags |= flags; reactive_set = ((self->flags & CLUTTER_ACTOR_REACTIVE) != 0); realized_set = ((self->flags & CLUTTER_ACTOR_REALIZED) != 0); mapped_set = ((self->flags & CLUTTER_ACTOR_MAPPED) != 0); visible_set = ((self->flags & CLUTTER_ACTOR_VISIBLE) != 0); if (reactive_set != was_reactive_set) g_object_notify_by_pspec (obj, obj_props[PROP_REACTIVE]); if (realized_set != was_realized_set) g_object_notify_by_pspec (obj, obj_props[PROP_REALIZED]); if (mapped_set != was_mapped_set) g_object_notify_by_pspec (obj, obj_props[PROP_MAPPED]); if (visible_set != was_visible_set) g_object_notify_by_pspec (obj, obj_props[PROP_VISIBLE]); g_object_thaw_notify (obj); g_object_unref (obj); } /** * clutter_actor_unset_flags: * @self: a #ClutterActor * @flags: the flags to unset * * Unsets @flags on @self * * This function will emit notifications for the changed properties * * Since: 1.0 */ void clutter_actor_unset_flags (ClutterActor *self, ClutterActorFlags flags) { ClutterActorFlags old_flags; GObject *obj; gboolean was_reactive_set, reactive_set; gboolean was_realized_set, realized_set; gboolean was_mapped_set, mapped_set; gboolean was_visible_set, visible_set; g_return_if_fail (CLUTTER_IS_ACTOR (self)); obj = G_OBJECT (self); g_object_freeze_notify (obj); old_flags = self->flags; was_reactive_set = ((old_flags & CLUTTER_ACTOR_REACTIVE) != 0); was_realized_set = ((old_flags & CLUTTER_ACTOR_REALIZED) != 0); was_mapped_set = ((old_flags & CLUTTER_ACTOR_MAPPED) != 0); was_visible_set = ((old_flags & CLUTTER_ACTOR_VISIBLE) != 0); self->flags &= ~flags; if (self->flags == old_flags) return; reactive_set = ((self->flags & CLUTTER_ACTOR_REACTIVE) != 0); realized_set = ((self->flags & CLUTTER_ACTOR_REALIZED) != 0); mapped_set = ((self->flags & CLUTTER_ACTOR_MAPPED) != 0); visible_set = ((self->flags & CLUTTER_ACTOR_VISIBLE) != 0); if (reactive_set != was_reactive_set) g_object_notify_by_pspec (obj, obj_props[PROP_REACTIVE]); if (realized_set != was_realized_set) g_object_notify_by_pspec (obj, obj_props[PROP_REALIZED]); if (mapped_set != was_mapped_set) g_object_notify_by_pspec (obj, obj_props[PROP_MAPPED]); if (visible_set != was_visible_set) g_object_notify_by_pspec (obj, obj_props[PROP_VISIBLE]); g_object_thaw_notify (obj); } /** * clutter_actor_get_transformation_matrix: * @self: a #ClutterActor * @matrix: (out caller-allocates): the return location for a #ClutterMatrix * * Retrieves the transformations applied to @self relative to its * parent. * * Since: 1.0 * * Deprecated: 1.12: Use clutter_actor_get_transform() instead */ void clutter_actor_get_transformation_matrix (ClutterActor *self, ClutterMatrix *matrix) { clutter_actor_get_transform (self, matrix); } static void clutter_actor_set_transform_internal (ClutterActor *self, const ClutterMatrix *transform) { ClutterTransformInfo *info; gboolean was_set; GObject *obj; obj = G_OBJECT (self); info = _clutter_actor_get_transform_info (self); was_set = info->transform_set; info->transform = *transform; info->transform_set = !cogl_matrix_is_identity (&info->transform); self->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (obj, obj_props[PROP_TRANSFORM]); if (was_set != info->transform_set) g_object_notify_by_pspec (obj, obj_props[PROP_TRANSFORM_SET]); } /** * clutter_actor_set_transform: * @self: a #ClutterActor * @transform: (allow-none): a #ClutterMatrix, or %NULL to * unset a custom transformation * * Overrides the transformations of a #ClutterActor with a custom * matrix, which will be applied relative to the origin of the * actor's allocation and to the actor's pivot point. * * The #ClutterActor:transform property is animatable. * * Since: 1.12 */ void clutter_actor_set_transform (ClutterActor *self, const ClutterMatrix *transform) { const ClutterTransformInfo *info; ClutterMatrix new_transform; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); if (transform != NULL) clutter_matrix_init_from_matrix (&new_transform, transform); else clutter_matrix_init_identity (&new_transform); _clutter_actor_create_transition (self, obj_props[PROP_TRANSFORM], &info->transform, &new_transform); } /** * clutter_actor_get_transform: * @self: a #ClutterActor * @transform: (out caller-allocates): a #ClutterMatrix * * Retrieves the current transformation matrix of a #ClutterActor. * * Since: 1.12 */ void clutter_actor_get_transform (ClutterActor *self, ClutterMatrix *transform) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (transform != NULL); cogl_matrix_init_identity (transform); _clutter_actor_apply_modelview_transform (self, transform); } void _clutter_actor_set_in_clone_paint (ClutterActor *self, gboolean is_in_clone_paint) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); self->priv->in_clone_paint = is_in_clone_paint; } /** * clutter_actor_is_in_clone_paint: * @self: a #ClutterActor * * Checks whether @self is being currently painted by a #ClutterClone * * This function is useful only inside the ::paint virtual function * implementations or within handlers for the #ClutterActor::paint * signal * * This function should not be used by applications * * Return value: %TRUE if the #ClutterActor is currently being painted * by a #ClutterClone, and %FALSE otherwise * * Since: 1.0 */ gboolean clutter_actor_is_in_clone_paint (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return self->priv->in_clone_paint; } static gboolean set_direction_recursive (ClutterActor *actor, gpointer user_data) { ClutterTextDirection text_dir = GPOINTER_TO_INT (user_data); clutter_actor_set_text_direction (actor, text_dir); return TRUE; } /** * clutter_actor_set_text_direction: * @self: a #ClutterActor * @text_dir: the text direction for @self * * Sets the #ClutterTextDirection for an actor * * The passed text direction must not be %CLUTTER_TEXT_DIRECTION_DEFAULT * * If @self implements #ClutterContainer then this function will recurse * inside all the children of @self (including the internal ones). * * Composite actors not implementing #ClutterContainer, or actors requiring * special handling when the text direction changes, should connect to * the #GObject::notify signal for the #ClutterActor:text-direction property * * Since: 1.2 */ void clutter_actor_set_text_direction (ClutterActor *self, ClutterTextDirection text_dir) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (text_dir != CLUTTER_TEXT_DIRECTION_DEFAULT); priv = self->priv; if (priv->text_direction != text_dir) { priv->text_direction = text_dir; /* we need to emit the notify::text-direction first, so that * the sub-classes can catch that and do specific handling of * the text direction; see clutter_text_direction_changed_cb() * inside clutter-text.c */ g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_TEXT_DIRECTION]); _clutter_actor_foreach_child (self, set_direction_recursive, GINT_TO_POINTER (text_dir)); clutter_actor_queue_relayout (self); } } void _clutter_actor_set_has_pointer (ClutterActor *self, gboolean has_pointer) { ClutterActorPrivate *priv = self->priv; if (priv->has_pointer != has_pointer) { priv->has_pointer = has_pointer; g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_HAS_POINTER]); } } /** * clutter_actor_get_text_direction: * @self: a #ClutterActor * * Retrieves the value set using clutter_actor_set_text_direction() * * If no text direction has been previously set, the default text * direction, as returned by clutter_get_default_text_direction(), will * be returned instead * * Return value: the #ClutterTextDirection for the actor * * Since: 1.2 */ ClutterTextDirection clutter_actor_get_text_direction (ClutterActor *self) { ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_TEXT_DIRECTION_LTR); priv = self->priv; /* if no direction has been set yet use the default */ if (priv->text_direction == CLUTTER_TEXT_DIRECTION_DEFAULT) priv->text_direction = clutter_get_default_text_direction (); return priv->text_direction; } /** * clutter_actor_push_internal: * @self: a #ClutterActor * * Should be used by actors implementing the #ClutterContainer and with * internal children added through clutter_actor_set_parent(), for instance: * * |[ * static void * my_actor_init (MyActor *self) * { * self->priv = my_actor_get_instance_private (self); * * clutter_actor_push_internal (CLUTTER_ACTOR (self)); * * // calling clutter_actor_set_parent() now will result in * // the internal flag being set on a child of MyActor * * // internal child - a background texture * self->priv->background_tex = clutter_texture_new (); * clutter_actor_set_parent (self->priv->background_tex, * CLUTTER_ACTOR (self)); * * // internal child - a label * self->priv->label = clutter_text_new (); * clutter_actor_set_parent (self->priv->label, * CLUTTER_ACTOR (self)); * * clutter_actor_pop_internal (CLUTTER_ACTOR (self)); * * // calling clutter_actor_set_parent() now will not result in * // the internal flag being set on a child of MyActor * } * ]| * * This function will be used by Clutter to toggle an "internal child" * flag whenever clutter_actor_set_parent() is called; internal children * are handled differently by Clutter, specifically when destroying their * parent. * * Call clutter_actor_pop_internal() when you finished adding internal * children. * * Nested calls to clutter_actor_push_internal() are allowed, but each * one must by followed by a clutter_actor_pop_internal() call. * * Since: 1.2 * * Deprecated: 1.10: All children of an actor are accessible through * the #ClutterActor API, and #ClutterActor implements the * #ClutterContainer interface, so this function is only useful * for legacy containers overriding the default implementation. */ void clutter_actor_push_internal (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); self->priv->internal_child += 1; } /** * clutter_actor_pop_internal: * @self: a #ClutterActor * * Disables the effects of clutter_actor_push_internal(). * * Since: 1.2 * * Deprecated: 1.10: All children of an actor are accessible through * the #ClutterActor API. This function is only useful for legacy * containers overriding the default implementation of the * #ClutterContainer interface. */ void clutter_actor_pop_internal (ClutterActor *self) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (priv->internal_child == 0) { g_warning ("Mismatched %s: you need to call " "clutter_actor_push_composite() at least once before " "calling this function", G_STRFUNC); return; } priv->internal_child -= 1; } /** * clutter_actor_has_pointer: * @self: a #ClutterActor * * Checks whether an actor contains the pointer of a * #ClutterInputDevice * * Return value: %TRUE if the actor contains the pointer, and * %FALSE otherwise * * Since: 1.2 */ gboolean clutter_actor_has_pointer (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return self->priv->has_pointer; } /* XXX: This is a workaround for not being able to break the ABI of * the QUEUE_REDRAW signal. It is an out-of-band argument. See * clutter_actor_queue_clipped_redraw() for details. */ ClutterPaintVolume * _clutter_actor_get_queue_redraw_clip (ClutterActor *self) { return g_object_get_data (G_OBJECT (self), "-clutter-actor-queue-redraw-clip"); } void _clutter_actor_set_queue_redraw_clip (ClutterActor *self, ClutterPaintVolume *clip) { g_object_set_data (G_OBJECT (self), "-clutter-actor-queue-redraw-clip", clip); } /** * clutter_actor_has_allocation: * @self: a #ClutterActor * * Checks if the actor has an up-to-date allocation assigned to * it. This means that the actor should have an allocation: it's * visible and has a parent. It also means that there is no * outstanding relayout request in progress for the actor or its * children (There might be other outstanding layout requests in * progress that will cause the actor to get a new allocation * when the stage is laid out, however). * * If this function returns %FALSE, then the actor will normally * be allocated before it is next drawn on the screen. * * Return value: %TRUE if the actor has an up-to-date allocation * * Since: 1.4 */ gboolean clutter_actor_has_allocation (ClutterActor *self) { ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); priv = self->priv; return priv->parent != NULL && CLUTTER_ACTOR_IS_VISIBLE (self) && !priv->needs_allocation; } /** * clutter_actor_add_action: * @self: a #ClutterActor * @action: a #ClutterAction * * Adds @action to the list of actions applied to @self * * A #ClutterAction can only belong to one actor at a time * * The #ClutterActor will hold a reference on @action until either * clutter_actor_remove_action() or clutter_actor_clear_actions() * is called * * Since: 1.4 */ void clutter_actor_add_action (ClutterActor *self, ClutterAction *action) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTION (action)); priv = self->priv; if (priv->actions == NULL) { priv->actions = g_object_new (CLUTTER_TYPE_META_GROUP, NULL); priv->actions->actor = self; } _clutter_meta_group_add_meta (priv->actions, CLUTTER_ACTOR_META (action)); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_ACTIONS]); } /** * clutter_actor_add_action_with_name: * @self: a #ClutterActor * @name: the name to set on the action * @action: a #ClutterAction * * A convenience function for setting the name of a #ClutterAction * while adding it to the list of actions applied to @self * * This function is the logical equivalent of: * * |[ * clutter_actor_meta_set_name (CLUTTER_ACTOR_META (action), name); * clutter_actor_add_action (self, action); * ]| * * Since: 1.4 */ void clutter_actor_add_action_with_name (ClutterActor *self, const gchar *name, ClutterAction *action) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); g_return_if_fail (CLUTTER_IS_ACTION (action)); clutter_actor_meta_set_name (CLUTTER_ACTOR_META (action), name); clutter_actor_add_action (self, action); } /** * clutter_actor_remove_action: * @self: a #ClutterActor * @action: a #ClutterAction * * Removes @action from the list of actions applied to @self * * The reference held by @self on the #ClutterAction will be released * * Since: 1.4 */ void clutter_actor_remove_action (ClutterActor *self, ClutterAction *action) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_ACTION (action)); priv = self->priv; if (priv->actions == NULL) return; _clutter_meta_group_remove_meta (priv->actions, CLUTTER_ACTOR_META (action)); if (_clutter_meta_group_peek_metas (priv->actions) == NULL) g_clear_object (&priv->actions); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_ACTIONS]); } /** * clutter_actor_remove_action_by_name: * @self: a #ClutterActor * @name: the name of the action to remove * * Removes the #ClutterAction with the given name from the list * of actions applied to @self * * Since: 1.4 */ void clutter_actor_remove_action_by_name (ClutterActor *self, const gchar *name) { ClutterActorPrivate *priv; ClutterActorMeta *meta; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); priv = self->priv; if (priv->actions == NULL) return; meta = _clutter_meta_group_get_meta (priv->actions, name); if (meta == NULL) return; _clutter_meta_group_remove_meta (priv->actions, meta); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_ACTIONS]); } /** * clutter_actor_get_actions: * @self: a #ClutterActor * * Retrieves the list of actions applied to @self * * Return value: (transfer container) (element-type Clutter.Action): a copy * of the list of #ClutterActions. The contents of the list are * owned by the #ClutterActor. Use g_list_free() to free the resources * allocated by the returned #GList * * Since: 1.4 */ GList * clutter_actor_get_actions (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); if (self->priv->actions == NULL) return NULL; return _clutter_meta_group_get_metas_no_internal (self->priv->actions); } /** * clutter_actor_get_action: * @self: a #ClutterActor * @name: the name of the action to retrieve * * Retrieves the #ClutterAction with the given name in the list * of actions applied to @self * * Return value: (transfer none): a #ClutterAction for the given * name, or %NULL. The returned #ClutterAction is owned by the * actor and it should not be unreferenced directly * * Since: 1.4 */ ClutterAction * clutter_actor_get_action (ClutterActor *self, const gchar *name) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); g_return_val_if_fail (name != NULL, NULL); if (self->priv->actions == NULL) return NULL; return CLUTTER_ACTION (_clutter_meta_group_get_meta (self->priv->actions, name)); } /** * clutter_actor_clear_actions: * @self: a #ClutterActor * * Clears the list of actions applied to @self * * Since: 1.4 */ void clutter_actor_clear_actions (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->actions == NULL) return; _clutter_meta_group_clear_metas_no_internal (self->priv->actions); } /** * clutter_actor_add_constraint: * @self: a #ClutterActor * @constraint: a #ClutterConstraint * * Adds @constraint to the list of #ClutterConstraints applied * to @self * * The #ClutterActor will hold a reference on the @constraint until * either clutter_actor_remove_constraint() or * clutter_actor_clear_constraints() is called. * * Since: 1.4 */ void clutter_actor_add_constraint (ClutterActor *self, ClutterConstraint *constraint) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_CONSTRAINT (constraint)); priv = self->priv; if (priv->constraints == NULL) { priv->constraints = g_object_new (CLUTTER_TYPE_META_GROUP, NULL); priv->constraints->actor = self; } _clutter_meta_group_add_meta (priv->constraints, CLUTTER_ACTOR_META (constraint)); clutter_actor_queue_relayout (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_CONSTRAINTS]); } /** * clutter_actor_add_constraint_with_name: * @self: a #ClutterActor * @name: the name to set on the constraint * @constraint: a #ClutterConstraint * * A convenience function for setting the name of a #ClutterConstraint * while adding it to the list of constraints applied to @self * * This function is the logical equivalent of: * * |[ * clutter_actor_meta_set_name (CLUTTER_ACTOR_META (constraint), name); * clutter_actor_add_constraint (self, constraint); * ]| * * Since: 1.4 */ void clutter_actor_add_constraint_with_name (ClutterActor *self, const gchar *name, ClutterConstraint *constraint) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); g_return_if_fail (CLUTTER_IS_CONSTRAINT (constraint)); clutter_actor_meta_set_name (CLUTTER_ACTOR_META (constraint), name); clutter_actor_add_constraint (self, constraint); } /** * clutter_actor_remove_constraint: * @self: a #ClutterActor * @constraint: a #ClutterConstraint * * Removes @constraint from the list of constraints applied to @self * * The reference held by @self on the #ClutterConstraint will be released * * Since: 1.4 */ void clutter_actor_remove_constraint (ClutterActor *self, ClutterConstraint *constraint) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_CONSTRAINT (constraint)); priv = self->priv; if (priv->constraints == NULL) return; _clutter_meta_group_remove_meta (priv->constraints, CLUTTER_ACTOR_META (constraint)); if (_clutter_meta_group_peek_metas (priv->constraints) == NULL) g_clear_object (&priv->constraints); clutter_actor_queue_relayout (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_CONSTRAINTS]); } /** * clutter_actor_remove_constraint_by_name: * @self: a #ClutterActor * @name: the name of the constraint to remove * * Removes the #ClutterConstraint with the given name from the list * of constraints applied to @self * * Since: 1.4 */ void clutter_actor_remove_constraint_by_name (ClutterActor *self, const gchar *name) { ClutterActorPrivate *priv; ClutterActorMeta *meta; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); priv = self->priv; if (priv->constraints == NULL) return; meta = _clutter_meta_group_get_meta (priv->constraints, name); if (meta == NULL) return; _clutter_meta_group_remove_meta (priv->constraints, meta); clutter_actor_queue_relayout (self); } /** * clutter_actor_get_constraints: * @self: a #ClutterActor * * Retrieves the list of constraints applied to @self * * Return value: (transfer container) (element-type Clutter.Constraint): a copy * of the list of #ClutterConstraints. The contents of the list are * owned by the #ClutterActor. Use g_list_free() to free the resources * allocated by the returned #GList * * Since: 1.4 */ GList * clutter_actor_get_constraints (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); if (self->priv->constraints == NULL) return NULL; return _clutter_meta_group_get_metas_no_internal (self->priv->constraints); } /** * clutter_actor_get_constraint: * @self: a #ClutterActor * @name: the name of the constraint to retrieve * * Retrieves the #ClutterConstraint with the given name in the list * of constraints applied to @self * * Return value: (transfer none): a #ClutterConstraint for the given * name, or %NULL. The returned #ClutterConstraint is owned by the * actor and it should not be unreferenced directly * * Since: 1.4 */ ClutterConstraint * clutter_actor_get_constraint (ClutterActor *self, const gchar *name) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); g_return_val_if_fail (name != NULL, NULL); if (self->priv->constraints == NULL) return NULL; return CLUTTER_CONSTRAINT (_clutter_meta_group_get_meta (self->priv->constraints, name)); } /** * clutter_actor_clear_constraints: * @self: a #ClutterActor * * Clears the list of constraints applied to @self * * Since: 1.4 */ void clutter_actor_clear_constraints (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->constraints == NULL) return; _clutter_meta_group_clear_metas_no_internal (self->priv->constraints); clutter_actor_queue_relayout (self); } /** * clutter_actor_set_clip_to_allocation: * @self: a #ClutterActor * @clip_set: %TRUE to apply a clip tracking the allocation * * Sets whether @self should be clipped to the same size as its * allocation * * Since: 1.4 */ void clutter_actor_set_clip_to_allocation (ClutterActor *self, gboolean clip_set) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); clip_set = !!clip_set; priv = self->priv; if (priv->clip_to_allocation != clip_set) { priv->clip_to_allocation = clip_set; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_CLIP_TO_ALLOCATION]); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_HAS_CLIP]); } } /** * clutter_actor_get_clip_to_allocation: * @self: a #ClutterActor * * Retrieves the value set using clutter_actor_set_clip_to_allocation() * * Return value: %TRUE if the #ClutterActor is clipped to its allocation * * Since: 1.4 */ gboolean clutter_actor_get_clip_to_allocation (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return self->priv->clip_to_allocation; } /** * clutter_actor_add_effect: * @self: a #ClutterActor * @effect: a #ClutterEffect * * Adds @effect to the list of #ClutterEffects applied to @self * * The #ClutterActor will hold a reference on the @effect until either * clutter_actor_remove_effect() or clutter_actor_clear_effects() is * called. * * Since: 1.4 */ void clutter_actor_add_effect (ClutterActor *self, ClutterEffect *effect) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_EFFECT (effect)); _clutter_actor_add_effect_internal (self, effect); clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_EFFECT]); } /** * clutter_actor_add_effect_with_name: * @self: a #ClutterActor * @name: the name to set on the effect * @effect: a #ClutterEffect * * A convenience function for setting the name of a #ClutterEffect * while adding it to the list of effectss applied to @self * * This function is the logical equivalent of: * * |[ * clutter_actor_meta_set_name (CLUTTER_ACTOR_META (effect), name); * clutter_actor_add_effect (self, effect); * ]| * * Since: 1.4 */ void clutter_actor_add_effect_with_name (ClutterActor *self, const gchar *name, ClutterEffect *effect) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); g_return_if_fail (CLUTTER_IS_EFFECT (effect)); clutter_actor_meta_set_name (CLUTTER_ACTOR_META (effect), name); clutter_actor_add_effect (self, effect); } /** * clutter_actor_remove_effect: * @self: a #ClutterActor * @effect: a #ClutterEffect * * Removes @effect from the list of effects applied to @self * * The reference held by @self on the #ClutterEffect will be released * * Since: 1.4 */ void clutter_actor_remove_effect (ClutterActor *self, ClutterEffect *effect) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (CLUTTER_IS_EFFECT (effect)); _clutter_actor_remove_effect_internal (self, effect); clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_EFFECT]); } /** * clutter_actor_remove_effect_by_name: * @self: a #ClutterActor * @name: the name of the effect to remove * * Removes the #ClutterEffect with the given name from the list * of effects applied to @self * * Since: 1.4 */ void clutter_actor_remove_effect_by_name (ClutterActor *self, const gchar *name) { ClutterActorPrivate *priv; ClutterActorMeta *meta; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); priv = self->priv; if (priv->effects == NULL) return; meta = _clutter_meta_group_get_meta (priv->effects, name); if (meta == NULL) return; clutter_actor_remove_effect (self, CLUTTER_EFFECT (meta)); } /** * clutter_actor_get_effects: * @self: a #ClutterActor * * Retrieves the #ClutterEffects applied on @self, if any * * Return value: (transfer container) (element-type Clutter.Effect): a list * of #ClutterEffects, or %NULL. The elements of the returned * list are owned by Clutter and they should not be freed. You should * free the returned list using g_list_free() when done * * Since: 1.4 */ GList * clutter_actor_get_effects (ClutterActor *self) { ClutterActorPrivate *priv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); priv = self->priv; if (priv->effects == NULL) return NULL; return _clutter_meta_group_get_metas_no_internal (priv->effects); } /** * clutter_actor_get_effect: * @self: a #ClutterActor * @name: the name of the effect to retrieve * * Retrieves the #ClutterEffect with the given name in the list * of effects applied to @self * * Return value: (transfer none): a #ClutterEffect for the given * name, or %NULL. The returned #ClutterEffect is owned by the * actor and it should not be unreferenced directly * * Since: 1.4 */ ClutterEffect * clutter_actor_get_effect (ClutterActor *self, const gchar *name) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); g_return_val_if_fail (name != NULL, NULL); if (self->priv->effects == NULL) return NULL; return CLUTTER_EFFECT (_clutter_meta_group_get_meta (self->priv->effects, name)); } /** * clutter_actor_clear_effects: * @self: a #ClutterActor * * Clears the list of effects applied to @self * * Since: 1.4 */ void clutter_actor_clear_effects (ClutterActor *self) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->effects == NULL) return; _clutter_meta_group_clear_metas_no_internal (self->priv->effects); clutter_actor_queue_redraw (self); } /** * clutter_actor_has_key_focus: * @self: a #ClutterActor * * Checks whether @self is the #ClutterActor that has key focus * * Return value: %TRUE if the actor has key focus, and %FALSE otherwise * * Since: 1.4 */ gboolean clutter_actor_has_key_focus (ClutterActor *self) { ClutterActor *stage; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); stage = _clutter_actor_get_stage_internal (self); if (stage == NULL) return FALSE; return clutter_stage_get_key_focus (CLUTTER_STAGE (stage)) == self; } static gboolean _clutter_actor_get_paint_volume_real (ClutterActor *self, ClutterPaintVolume *pv) { ClutterActorPrivate *priv = self->priv; /* Actors are only expected to report a valid paint volume * while they have a valid allocation. */ if (G_UNLIKELY (priv->needs_allocation)) { CLUTTER_NOTE (CLIPPING, "Bail from get_paint_volume (%s): " "Actor needs allocation", _clutter_actor_get_debug_name (self)); return FALSE; } /* Check if there are any handlers connected to the paint * signal. If there are then all bets are off for what the paint * volume for this actor might possibly be! * * XXX: It's expected that this is going to end up being quite a * costly check to have to do here, but we haven't come up with * another solution that can reliably catch paint signal handlers at * the right time to either avoid artefacts due to invalid stage * clipping or due to incorrect culling. * * Previously we checked in clutter_actor_paint(), but at that time * we may already be using a stage clip that could be derived from * an invalid paint-volume. We used to try and handle that by * queuing a follow up, unclipped, redraw but still the previous * checking wasn't enough to catch invalid volumes involved in * culling (considering that containers may derive their volume from * children that haven't yet been painted) * * Longer term, improved solutions could be: * - Disallow painting in the paint signal, only allow using it * for tracking when paints happen. We can add another API that * allows monkey patching the paint of arbitrary actors but in a * more controlled way and that also supports modifying the * paint-volume. * - If we could be notified somehow when signal handlers are * connected we wouldn't have to poll for handlers like this. * * XXX:2.0 - Remove when we remove the paint signal */ if (g_signal_has_handler_pending (self, actor_signals[PAINT], 0, TRUE)) { CLUTTER_NOTE (CLIPPING, "Bail from get_paint_volume (%s): " "Actor has \"paint\" signal handlers", _clutter_actor_get_debug_name (self)); return FALSE; } _clutter_paint_volume_init_static (pv, self); if (!CLUTTER_ACTOR_GET_CLASS (self)->get_paint_volume (self, pv)) { clutter_paint_volume_free (pv); CLUTTER_NOTE (CLIPPING, "Bail from get_paint_volume (%s): " "Actor failed to report a volume", _clutter_actor_get_debug_name (self)); return FALSE; } /* since effects can modify the paint volume, we allow them to actually * do this by making get_paint_volume() "context sensitive" */ if (priv->effects != NULL) { if (priv->current_effect != NULL) { const GList *effects, *l; /* if we are being called from within the paint sequence of * an actor, get the paint volume up to the current effect */ effects = _clutter_meta_group_peek_metas (priv->effects); for (l = effects; l != NULL || (l != NULL && l->data != priv->current_effect); l = l->next) { if (!_clutter_effect_get_paint_volume (l->data, pv)) { clutter_paint_volume_free (pv); CLUTTER_NOTE (CLIPPING, "Bail from get_paint_volume (%s): " "Effect (%s) failed to report a volume", _clutter_actor_get_debug_name (self), _clutter_actor_meta_get_debug_name (l->data)); return FALSE; } } } else { const GList *effects, *l; /* otherwise, get the cumulative volume */ effects = _clutter_meta_group_peek_metas (priv->effects); for (l = effects; l != NULL; l = l->next) if (!_clutter_effect_get_paint_volume (l->data, pv)) { clutter_paint_volume_free (pv); CLUTTER_NOTE (CLIPPING, "Bail from get_paint_volume (%s): " "Effect (%s) failed to report a volume", _clutter_actor_get_debug_name (self), _clutter_actor_meta_get_debug_name (l->data)); return FALSE; } } } return TRUE; } /* The public clutter_actor_get_paint_volume API returns a const * pointer since we return a pointer directly to the cached * PaintVolume associated with the actor and don't want the user to * inadvertently modify it, but for internal uses we sometimes need * access to the same PaintVolume but need to apply some book-keeping * modifications to it so we don't want a const pointer. */ static ClutterPaintVolume * _clutter_actor_get_paint_volume_mutable (ClutterActor *self) { ClutterActorPrivate *priv; priv = self->priv; if (priv->paint_volume_valid) clutter_paint_volume_free (&priv->paint_volume); if (_clutter_actor_get_paint_volume_real (self, &priv->paint_volume)) { priv->paint_volume_valid = TRUE; return &priv->paint_volume; } else { priv->paint_volume_valid = FALSE; return NULL; } } /** * clutter_actor_get_paint_volume: * @self: a #ClutterActor * * Retrieves the paint volume of the passed #ClutterActor, or %NULL * when a paint volume can't be determined. * * The paint volume is defined as the 3D space occupied by an actor * when being painted. * * This function will call the #ClutterActorClass.get_paint_volume() * virtual function of the #ClutterActor class. Sub-classes of #ClutterActor * should not usually care about overriding the default implementation, * unless they are, for instance: painting outside their allocation, or * actors with a depth factor (not in terms of #ClutterActor:depth but real * 3D depth). * * Note: 2D actors overriding #ClutterActorClass.get_paint_volume() * should ensure that their volume has a depth of 0. (This will be true * as long as you don't call clutter_paint_volume_set_depth().) * * Return value: (transfer none): a pointer to a #ClutterPaintVolume, * or %NULL if no volume could be determined. The returned pointer * is not guaranteed to be valid across multiple frames; if you want * to keep it, you will need to copy it using clutter_paint_volume_copy(). * * Since: 1.6 */ const ClutterPaintVolume * clutter_actor_get_paint_volume (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return _clutter_actor_get_paint_volume_mutable (self); } /** * clutter_actor_get_transformed_paint_volume: * @self: a #ClutterActor * @relative_to_ancestor: A #ClutterActor that is an ancestor of @self * (or %NULL for the stage) * * Retrieves the 3D paint volume of an actor like * clutter_actor_get_paint_volume() does (Please refer to the * documentation of clutter_actor_get_paint_volume() for more * details.) and it additionally transforms the paint volume into the * coordinate space of @relative_to_ancestor. (Or the stage if %NULL * is passed for @relative_to_ancestor) * * This can be used by containers that base their paint volume on * the volume of their children. Such containers can query the * transformed paint volume of all of its children and union them * together using clutter_paint_volume_union(). * * Return value: (transfer none): a pointer to a #ClutterPaintVolume, * or %NULL if no volume could be determined. The returned pointer is * not guaranteed to be valid across multiple frames; if you wish to * keep it, you will have to copy it using clutter_paint_volume_copy(). * * Since: 1.6 */ const ClutterPaintVolume * clutter_actor_get_transformed_paint_volume (ClutterActor *self, ClutterActor *relative_to_ancestor) { const ClutterPaintVolume *volume; ClutterActor *stage; ClutterPaintVolume *transformed_volume; stage = _clutter_actor_get_stage_internal (self); if (G_UNLIKELY (stage == NULL)) return NULL; if (relative_to_ancestor == NULL) relative_to_ancestor = stage; volume = clutter_actor_get_paint_volume (self); if (volume == NULL) return NULL; transformed_volume = _clutter_stage_paint_volume_stack_allocate (CLUTTER_STAGE (stage)); _clutter_paint_volume_copy_static (volume, transformed_volume); _clutter_paint_volume_transform_relative (transformed_volume, relative_to_ancestor); return transformed_volume; } /** * clutter_actor_get_paint_box: * @self: a #ClutterActor * @box: (out): return location for a #ClutterActorBox * * Retrieves the paint volume of the passed #ClutterActor, and * transforms it into a 2D bounding box in stage coordinates. * * This function is useful to determine the on screen area occupied by * the actor. The box is only an approximation and may often be * considerably larger due to the optimizations used to calculate the * box. The box is never smaller though, so it can reliably be used * for culling. * * There are times when a 2D paint box can't be determined, e.g. * because the actor isn't yet parented under a stage or because * the actor is unable to determine a paint volume. * * Return value: %TRUE if a 2D paint box could be determined, else * %FALSE. * * Since: 1.6 */ gboolean clutter_actor_get_paint_box (ClutterActor *self, ClutterActorBox *box) { ClutterActor *stage; ClutterPaintVolume *pv; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); g_return_val_if_fail (box != NULL, FALSE); stage = _clutter_actor_get_stage_internal (self); if (G_UNLIKELY (!stage)) return FALSE; pv = _clutter_actor_get_paint_volume_mutable (self); if (G_UNLIKELY (!pv)) return FALSE; _clutter_paint_volume_get_stage_paint_box (pv, CLUTTER_STAGE (stage), box); return TRUE; } /** * clutter_actor_has_overlaps: * @self: A #ClutterActor * * Asks the actor's implementation whether it may contain overlapping * primitives. * * For example; Clutter may use this to determine whether the painting * should be redirected to an offscreen buffer to correctly implement * the opacity property. * * Custom actors can override the default response by implementing the * #ClutterActorClass.has_overlaps() virtual function. See * clutter_actor_set_offscreen_redirect() for more information. * * Return value: %TRUE if the actor may have overlapping primitives, and * %FALSE otherwise * * Since: 1.8 */ gboolean clutter_actor_has_overlaps (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), TRUE); return CLUTTER_ACTOR_GET_CLASS (self)->has_overlaps (self); } /** * clutter_actor_has_effects: * @self: A #ClutterActor * * Returns whether the actor has any effects applied. * * Return value: %TRUE if the actor has any effects, * %FALSE otherwise * * Since: 1.10 */ gboolean clutter_actor_has_effects (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); if (self->priv->effects == NULL) return FALSE; return _clutter_meta_group_has_metas_no_internal (self->priv->effects); } /** * clutter_actor_has_constraints: * @self: A #ClutterActor * * Returns whether the actor has any constraints applied. * * Return value: %TRUE if the actor has any constraints, * %FALSE otherwise * * Since: 1.10 */ gboolean clutter_actor_has_constraints (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); if (self->priv->constraints == NULL) return FALSE; return _clutter_meta_group_has_metas_no_internal (self->priv->constraints); } /** * clutter_actor_has_actions: * @self: A #ClutterActor * * Returns whether the actor has any actions applied. * * Return value: %TRUE if the actor has any actions, * %FALSE otherwise * * Since: 1.10 */ gboolean clutter_actor_has_actions (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); if (self->priv->actions == NULL) return FALSE; return _clutter_meta_group_has_metas_no_internal (self->priv->actions); } /** * clutter_actor_get_n_children: * @self: a #ClutterActor * * Retrieves the number of children of @self. * * Return value: the number of children of an actor * * Since: 1.10 */ gint clutter_actor_get_n_children (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); return self->priv->n_children; } /** * clutter_actor_get_child_at_index: * @self: a #ClutterActor * @index_: the position in the list of children * * Retrieves the actor at the given @index_ inside the list of * children of @self. * * Return value: (transfer none): a pointer to a #ClutterActor, or %NULL * * Since: 1.10 */ ClutterActor * clutter_actor_get_child_at_index (ClutterActor *self, gint index_) { ClutterActor *iter; int i; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); g_return_val_if_fail (index_ <= self->priv->n_children, NULL); for (iter = self->priv->first_child, i = 0; iter != NULL && i < index_; iter = iter->priv->next_sibling, i += 1) ; return iter; } /*< private > * _clutter_actor_foreach_child: * @actor: The actor whos children you want to iterate * @callback: The function to call for each child * @user_data: Private data to pass to @callback * * Calls a given @callback once for each child of the specified @actor and * passing the @user_data pointer each time. * * Return value: returns %TRUE if all children were iterated, else * %FALSE if a callback broke out of iteration early. */ gboolean _clutter_actor_foreach_child (ClutterActor *self, ClutterForeachCallback callback, gpointer user_data) { ClutterActor *iter; gboolean cont; if (self->priv->first_child == NULL) return TRUE; cont = TRUE; iter = self->priv->first_child; /* we use this form so that it's safe to change the children * list while iterating it */ while (cont && iter != NULL) { ClutterActor *next = iter->priv->next_sibling; cont = callback (iter, user_data); iter = next; } return cont; } #if 0 /* For debugging purposes this gives us a simple way to print out * the scenegraph e.g in gdb using: * [| * _clutter_actor_traverse (stage, * 0, * clutter_debug_print_actor_cb, * NULL, * NULL); * |] */ static ClutterActorTraverseVisitFlags clutter_debug_print_actor_cb (ClutterActor *actor, int depth, void *user_data) { g_print ("%*s%s:%p\n", depth * 2, "", _clutter_actor_get_debug_name (actor), actor); return CLUTTER_ACTOR_TRAVERSE_VISIT_CONTINUE; } #endif static void _clutter_actor_traverse_breadth (ClutterActor *actor, ClutterTraverseCallback callback, gpointer user_data) { GQueue *queue = g_queue_new (); ClutterActor dummy; int current_depth = 0; g_queue_push_tail (queue, actor); g_queue_push_tail (queue, &dummy); /* use to delimit depth changes */ while ((actor = g_queue_pop_head (queue))) { ClutterActorTraverseVisitFlags flags; if (actor == &dummy) { current_depth++; g_queue_push_tail (queue, &dummy); continue; } flags = callback (actor, current_depth, user_data); if (flags & CLUTTER_ACTOR_TRAVERSE_VISIT_BREAK) break; else if (!(flags & CLUTTER_ACTOR_TRAVERSE_VISIT_SKIP_CHILDREN)) { ClutterActor *iter; for (iter = actor->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) { g_queue_push_tail (queue, iter); } } } g_queue_free (queue); } static ClutterActorTraverseVisitFlags _clutter_actor_traverse_depth (ClutterActor *actor, ClutterTraverseCallback before_children_callback, ClutterTraverseCallback after_children_callback, int current_depth, gpointer user_data) { ClutterActorTraverseVisitFlags flags; flags = before_children_callback (actor, current_depth, user_data); if (flags & CLUTTER_ACTOR_TRAVERSE_VISIT_BREAK) return CLUTTER_ACTOR_TRAVERSE_VISIT_BREAK; if (!(flags & CLUTTER_ACTOR_TRAVERSE_VISIT_SKIP_CHILDREN)) { ClutterActor *iter; for (iter = actor->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) { flags = _clutter_actor_traverse_depth (iter, before_children_callback, after_children_callback, current_depth + 1, user_data); if (flags & CLUTTER_ACTOR_TRAVERSE_VISIT_BREAK) return CLUTTER_ACTOR_TRAVERSE_VISIT_BREAK; } } if (after_children_callback) return after_children_callback (actor, current_depth, user_data); else return CLUTTER_ACTOR_TRAVERSE_VISIT_CONTINUE; } /* _clutter_actor_traverse: * @actor: The actor to start traversing the graph from * @flags: These flags may affect how the traversal is done * @before_children_callback: A function to call before visiting the * children of the current actor. * @after_children_callback: A function to call after visiting the * children of the current actor. (Ignored if * %CLUTTER_ACTOR_TRAVERSE_BREADTH_FIRST is passed to @flags.) * @user_data: The private data to pass to the callbacks * * Traverses the scenegraph starting at the specified @actor and * descending through all its children and its children's children. * For each actor traversed @before_children_callback and * @after_children_callback are called with the specified * @user_data, before and after visiting that actor's children. * * The callbacks can return flags that affect the ongoing traversal * such as by skipping over an actors children or bailing out of * any further traversing. */ void _clutter_actor_traverse (ClutterActor *actor, ClutterActorTraverseFlags flags, ClutterTraverseCallback before_children_callback, ClutterTraverseCallback after_children_callback, gpointer user_data) { if (flags & CLUTTER_ACTOR_TRAVERSE_BREADTH_FIRST) _clutter_actor_traverse_breadth (actor, before_children_callback, user_data); else /* DEPTH_FIRST */ _clutter_actor_traverse_depth (actor, before_children_callback, after_children_callback, 0, /* start depth */ user_data); } static void on_layout_manager_changed (ClutterLayoutManager *manager, ClutterActor *self) { clutter_actor_queue_relayout (self); } /** * clutter_actor_set_layout_manager: * @self: a #ClutterActor * @manager: (allow-none): a #ClutterLayoutManager, or %NULL to unset it * * Sets the #ClutterLayoutManager delegate object that will be used to * lay out the children of @self. * * The #ClutterActor will take a reference on the passed @manager which * will be released either when the layout manager is removed, or when * the actor is destroyed. * * Since: 1.10 */ void clutter_actor_set_layout_manager (ClutterActor *self, ClutterLayoutManager *manager) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (manager == NULL || CLUTTER_IS_LAYOUT_MANAGER (manager)); priv = self->priv; if (priv->layout_manager != NULL) { g_signal_handlers_disconnect_by_func (priv->layout_manager, G_CALLBACK (on_layout_manager_changed), self); clutter_layout_manager_set_container (priv->layout_manager, NULL); g_clear_object (&priv->layout_manager); } priv->layout_manager = manager; if (priv->layout_manager != NULL) { g_object_ref_sink (priv->layout_manager); clutter_layout_manager_set_container (priv->layout_manager, CLUTTER_CONTAINER (self)); g_signal_connect (priv->layout_manager, "layout-changed", G_CALLBACK (on_layout_manager_changed), self); } clutter_actor_queue_relayout (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_LAYOUT_MANAGER]); } /** * clutter_actor_get_layout_manager: * @self: a #ClutterActor * * Retrieves the #ClutterLayoutManager used by @self. * * Return value: (transfer none): a pointer to the #ClutterLayoutManager, * or %NULL * * Since: 1.10 */ ClutterLayoutManager * clutter_actor_get_layout_manager (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->layout_manager; } static const ClutterLayoutInfo default_layout_info = { CLUTTER_POINT_INIT_ZERO, /* fixed-pos */ { 0, 0, 0, 0 }, /* margin */ CLUTTER_ACTOR_ALIGN_FILL, /* x-align */ CLUTTER_ACTOR_ALIGN_FILL, /* y-align */ FALSE, FALSE, /* expand */ CLUTTER_SIZE_INIT_ZERO, /* minimum */ CLUTTER_SIZE_INIT_ZERO, /* natural */ }; static void layout_info_free (gpointer data) { if (G_LIKELY (data != NULL)) g_slice_free (ClutterLayoutInfo, data); } /*< private > * _clutter_actor_peek_layout_info: * @self: a #ClutterActor * * Retrieves a pointer to the ClutterLayoutInfo structure. * * If the actor does not have a ClutterLayoutInfo associated to it, %NULL is returned. * * Return value: (transfer none): a pointer to the ClutterLayoutInfo structure */ ClutterLayoutInfo * _clutter_actor_peek_layout_info (ClutterActor *self) { return g_object_get_qdata (G_OBJECT (self), quark_actor_layout_info); } /*< private > * _clutter_actor_get_layout_info: * @self: a #ClutterActor * * Retrieves a pointer to the ClutterLayoutInfo structure. * * If the actor does not have a ClutterLayoutInfo associated to it, one * will be created and initialized to the default values. * * This function should be used for setters. * * For getters, you should use _clutter_actor_get_layout_info_or_defaults() * instead. * * Return value: (transfer none): a pointer to the ClutterLayoutInfo structure */ ClutterLayoutInfo * _clutter_actor_get_layout_info (ClutterActor *self) { ClutterLayoutInfo *retval; retval = _clutter_actor_peek_layout_info (self); if (retval == NULL) { retval = g_slice_new (ClutterLayoutInfo); *retval = default_layout_info; g_object_set_qdata_full (G_OBJECT (self), quark_actor_layout_info, retval, layout_info_free); } return retval; } /*< private > * _clutter_actor_get_layout_info_or_defaults: * @self: a #ClutterActor * * Retrieves the ClutterLayoutInfo structure associated to an actor. * * If the actor does not have a ClutterLayoutInfo structure associated to it, * then the default structure will be returned. * * This function should only be used for getters. * * Return value: a const pointer to the ClutterLayoutInfo structure */ const ClutterLayoutInfo * _clutter_actor_get_layout_info_or_defaults (ClutterActor *self) { const ClutterLayoutInfo *info; info = _clutter_actor_peek_layout_info (self); if (info == NULL) return &default_layout_info; return info; } /** * clutter_actor_set_x_align: * @self: a #ClutterActor * @x_align: the horizontal alignment policy * * Sets the horizontal alignment policy of a #ClutterActor, in case the * actor received extra horizontal space. * * See also the #ClutterActor:x-align property. * * Since: 1.10 */ void clutter_actor_set_x_align (ClutterActor *self, ClutterActorAlign x_align) { ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_layout_info (self); if (info->x_align != x_align) { info->x_align = x_align; clutter_actor_queue_relayout (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_X_ALIGN]); } } /** * clutter_actor_get_x_align: * @self: a #ClutterActor * * Retrieves the horizontal alignment policy set using * clutter_actor_set_x_align(). * * Return value: the horizontal alignment policy. * * Since: 1.10 */ ClutterActorAlign clutter_actor_get_x_align (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_ACTOR_ALIGN_FILL); return _clutter_actor_get_layout_info_or_defaults (self)->x_align; } /** * clutter_actor_set_y_align: * @self: a #ClutterActor * @y_align: the vertical alignment policy * * Sets the vertical alignment policy of a #ClutterActor, in case the * actor received extra vertical space. * * See also the #ClutterActor:y-align property. * * Since: 1.10 */ void clutter_actor_set_y_align (ClutterActor *self, ClutterActorAlign y_align) { ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_layout_info (self); if (info->y_align != y_align) { info->y_align = y_align; clutter_actor_queue_relayout (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_Y_ALIGN]); } } /** * clutter_actor_get_y_align: * @self: a #ClutterActor * * Retrieves the vertical alignment policy set using * clutter_actor_set_y_align(). * * Return value: the vertical alignment policy. * * Since: 1.10 */ ClutterActorAlign clutter_actor_get_y_align (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_ACTOR_ALIGN_FILL); return _clutter_actor_get_layout_info_or_defaults (self)->y_align; } static inline void clutter_actor_set_margin_internal (ClutterActor *self, gfloat margin, GParamSpec *pspec) { ClutterLayoutInfo *info; info = _clutter_actor_get_layout_info (self); if (pspec == obj_props[PROP_MARGIN_TOP]) info->margin.top = margin; else if (pspec == obj_props[PROP_MARGIN_RIGHT]) info->margin.right = margin; else if (pspec == obj_props[PROP_MARGIN_BOTTOM]) info->margin.bottom = margin; else info->margin.left = margin; clutter_actor_queue_relayout (self); g_object_notify_by_pspec (G_OBJECT (self), pspec); } /** * clutter_actor_set_margin: * @self: a #ClutterActor * @margin: a #ClutterMargin * * Sets all the components of the margin of a #ClutterActor. * * Since: 1.10 */ void clutter_actor_set_margin (ClutterActor *self, const ClutterMargin *margin) { ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (margin != NULL); info = _clutter_actor_get_layout_info (self); if (info->margin.top != margin->top) clutter_actor_set_margin_top (self, margin->top); if (info->margin.right != margin->right) clutter_actor_set_margin_right (self, margin->right); if (info->margin.bottom != margin->bottom) clutter_actor_set_margin_bottom (self, margin->bottom); if (info->margin.left != margin->left) clutter_actor_set_margin_left (self, margin->left); } /** * clutter_actor_get_margin: * @self: a #ClutterActor * @margin: (out caller-allocates): return location for a #ClutterMargin * * Retrieves all the components of the margin of a #ClutterActor. * * Since: 1.10 */ void clutter_actor_get_margin (ClutterActor *self, ClutterMargin *margin) { const ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (margin != NULL); info = _clutter_actor_get_layout_info_or_defaults (self); *margin = info->margin; } /** * clutter_actor_set_margin_top: * @self: a #ClutterActor * @margin: the top margin * * Sets the margin from the top of a #ClutterActor. * * The #ClutterActor:margin-top property is animatable. * * Since: 1.10 */ void clutter_actor_set_margin_top (ClutterActor *self, gfloat margin) { const ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (margin >= 0.f); info = _clutter_actor_get_layout_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_MARGIN_TOP], info->margin.top, margin); } /** * clutter_actor_get_margin_top: * @self: a #ClutterActor * * Retrieves the top margin of a #ClutterActor. * * Return value: the top margin * * Since: 1.10 */ gfloat clutter_actor_get_margin_top (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.f); return _clutter_actor_get_layout_info_or_defaults (self)->margin.top; } /** * clutter_actor_set_margin_bottom: * @self: a #ClutterActor * @margin: the bottom margin * * Sets the margin from the bottom of a #ClutterActor. * * The #ClutterActor:margin-bottom property is animatable. * * Since: 1.10 */ void clutter_actor_set_margin_bottom (ClutterActor *self, gfloat margin) { const ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (margin >= 0.f); info = _clutter_actor_get_layout_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_MARGIN_BOTTOM], info->margin.bottom, margin); } /** * clutter_actor_get_margin_bottom: * @self: a #ClutterActor * * Retrieves the bottom margin of a #ClutterActor. * * Return value: the bottom margin * * Since: 1.10 */ gfloat clutter_actor_get_margin_bottom (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.f); return _clutter_actor_get_layout_info_or_defaults (self)->margin.bottom; } /** * clutter_actor_set_margin_left: * @self: a #ClutterActor * @margin: the left margin * * Sets the margin from the left of a #ClutterActor. * * The #ClutterActor:margin-left property is animatable. * * Since: 1.10 */ void clutter_actor_set_margin_left (ClutterActor *self, gfloat margin) { const ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (margin >= 0.f); info = _clutter_actor_get_layout_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_MARGIN_LEFT], info->margin.left, margin); } /** * clutter_actor_get_margin_left: * @self: a #ClutterActor * * Retrieves the left margin of a #ClutterActor. * * Return value: the left margin * * Since: 1.10 */ gfloat clutter_actor_get_margin_left (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.f); return _clutter_actor_get_layout_info_or_defaults (self)->margin.left; } /** * clutter_actor_set_margin_right: * @self: a #ClutterActor * @margin: the right margin * * Sets the margin from the right of a #ClutterActor. * * The #ClutterActor:margin-right property is animatable. * * Since: 1.10 */ void clutter_actor_set_margin_right (ClutterActor *self, gfloat margin) { const ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (margin >= 0.f); info = _clutter_actor_get_layout_info_or_defaults (self); _clutter_actor_create_transition (self, obj_props[PROP_MARGIN_RIGHT], info->margin.right, margin); } /** * clutter_actor_get_margin_right: * @self: a #ClutterActor * * Retrieves the right margin of a #ClutterActor. * * Return value: the right margin * * Since: 1.10 */ gfloat clutter_actor_get_margin_right (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0.f); return _clutter_actor_get_layout_info_or_defaults (self)->margin.right; } static inline void clutter_actor_set_background_color_internal (ClutterActor *self, const ClutterColor *color) { ClutterActorPrivate *priv = self->priv; GObject *obj; if (priv->bg_color_set && clutter_color_equal (color, &priv->bg_color)) return; obj = G_OBJECT (self); priv->bg_color = *color; priv->bg_color_set = TRUE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (obj, obj_props[PROP_BACKGROUND_COLOR_SET]); g_object_notify_by_pspec (obj, obj_props[PROP_BACKGROUND_COLOR]); } /** * clutter_actor_set_background_color: * @self: a #ClutterActor * @color: (allow-none): a #ClutterColor, or %NULL to unset a previously * set color * * Sets the background color of a #ClutterActor. * * The background color will be used to cover the whole allocation of the * actor. The default background color of an actor is transparent. * * To check whether an actor has a background color, you can use the * #ClutterActor:background-color-set actor property. * * The #ClutterActor:background-color property is animatable. * * Since: 1.10 */ void clutter_actor_set_background_color (ClutterActor *self, const ClutterColor *color) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (color == NULL) { GObject *obj = G_OBJECT (self); priv->bg_color_set = FALSE; clutter_actor_queue_redraw (self); g_object_notify_by_pspec (obj, obj_props[PROP_BACKGROUND_COLOR_SET]); } else _clutter_actor_create_transition (self, obj_props[PROP_BACKGROUND_COLOR], &priv->bg_color, color); } /** * clutter_actor_get_background_color: * @self: a #ClutterActor * @color: (out caller-allocates): return location for a #ClutterColor * * Retrieves the color set using clutter_actor_set_background_color(). * * Since: 1.10 */ void clutter_actor_get_background_color (ClutterActor *self, ClutterColor *color) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (color != NULL); *color = self->priv->bg_color; } /** * clutter_actor_get_previous_sibling: * @self: a #ClutterActor * * Retrieves the sibling of @self that comes before it in the list * of children of @self's parent. * * The returned pointer is only valid until the scene graph changes; it * is not safe to modify the list of children of @self while iterating * it. * * Return value: (transfer none): a pointer to a #ClutterActor, or %NULL * * Since: 1.10 */ ClutterActor * clutter_actor_get_previous_sibling (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->prev_sibling; } /** * clutter_actor_get_next_sibling: * @self: a #ClutterActor * * Retrieves the sibling of @self that comes after it in the list * of children of @self's parent. * * The returned pointer is only valid until the scene graph changes; it * is not safe to modify the list of children of @self while iterating * it. * * Return value: (transfer none): a pointer to a #ClutterActor, or %NULL * * Since: 1.10 */ ClutterActor * clutter_actor_get_next_sibling (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->next_sibling; } /** * clutter_actor_get_first_child: * @self: a #ClutterActor * * Retrieves the first child of @self. * * The returned pointer is only valid until the scene graph changes; it * is not safe to modify the list of children of @self while iterating * it. * * Return value: (transfer none): a pointer to a #ClutterActor, or %NULL * * Since: 1.10 */ ClutterActor * clutter_actor_get_first_child (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->first_child; } /** * clutter_actor_get_last_child: * @self: a #ClutterActor * * Retrieves the last child of @self. * * The returned pointer is only valid until the scene graph changes; it * is not safe to modify the list of children of @self while iterating * it. * * Return value: (transfer none): a pointer to a #ClutterActor, or %NULL * * Since: 1.10 */ ClutterActor * clutter_actor_get_last_child (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->last_child; } /* easy way to have properly named fields instead of the dummy ones * we use in the public structure */ typedef struct _RealActorIter { ClutterActor *root; /* dummy1 */ ClutterActor *current; /* dummy2 */ gpointer padding_1; /* dummy3 */ gint age; /* dummy4 */ gpointer padding_2; /* dummy5 */ } RealActorIter; /** * clutter_actor_iter_init: * @iter: a #ClutterActorIter * @root: a #ClutterActor * * Initializes a #ClutterActorIter, which can then be used to iterate * efficiently over a section of the scene graph, and associates it * with @root. * * Modifying the scene graph section that contains @root will invalidate * the iterator. * * |[ * ClutterActorIter iter; * ClutterActor *child; * * clutter_actor_iter_init (&iter, container); * while (clutter_actor_iter_next (&iter, &child)) * { * // do something with child * } * ]| * * Since: 1.10 */ void clutter_actor_iter_init (ClutterActorIter *iter, ClutterActor *root) { RealActorIter *ri = (RealActorIter *) iter; g_return_if_fail (iter != NULL); g_return_if_fail (CLUTTER_IS_ACTOR (root)); ri->root = root; ri->current = NULL; ri->age = root->priv->age; } /** * clutter_actor_iter_is_valid: * @iter: a #ClutterActorIter * * Checks whether a #ClutterActorIter is still valid. * * An iterator is considered valid if it has been initialized, and * if the #ClutterActor that it refers to hasn't been modified after * the initialization. * * Return value: %TRUE if the iterator is valid, and %FALSE otherwise * * Since: 1.12 */ gboolean clutter_actor_iter_is_valid (const ClutterActorIter *iter) { RealActorIter *ri = (RealActorIter *) iter; g_return_val_if_fail (iter != NULL, FALSE); if (ri->root == NULL) return FALSE; return ri->root->priv->age == ri->age; } /** * clutter_actor_iter_next: * @iter: a #ClutterActorIter * @child: (out) (transfer none): return location for a #ClutterActor * * Advances the @iter and retrieves the next child of the root #ClutterActor * that was used to initialize the #ClutterActorIterator. * * If the iterator can advance, this function returns %TRUE and sets the * @child argument. * * If the iterator cannot advance, this function returns %FALSE, and * the contents of @child are undefined. * * Return value: %TRUE if the iterator could advance, and %FALSE otherwise. * * Since: 1.10 */ gboolean clutter_actor_iter_next (ClutterActorIter *iter, ClutterActor **child) { RealActorIter *ri = (RealActorIter *) iter; g_return_val_if_fail (iter != NULL, FALSE); g_return_val_if_fail (ri->root != NULL, FALSE); #ifndef G_DISABLE_ASSERT g_return_val_if_fail (ri->age == ri->root->priv->age, FALSE); #endif if (ri->current == NULL) ri->current = ri->root->priv->first_child; else ri->current = ri->current->priv->next_sibling; if (child != NULL) *child = ri->current; return ri->current != NULL; } /** * clutter_actor_iter_prev: * @iter: a #ClutterActorIter * @child: (out) (transfer none): return location for a #ClutterActor * * Advances the @iter and retrieves the previous child of the root * #ClutterActor that was used to initialize the #ClutterActorIterator. * * If the iterator can advance, this function returns %TRUE and sets the * @child argument. * * If the iterator cannot advance, this function returns %FALSE, and * the contents of @child are undefined. * * Return value: %TRUE if the iterator could advance, and %FALSE otherwise. * * Since: 1.10 */ gboolean clutter_actor_iter_prev (ClutterActorIter *iter, ClutterActor **child) { RealActorIter *ri = (RealActorIter *) iter; g_return_val_if_fail (iter != NULL, FALSE); g_return_val_if_fail (ri->root != NULL, FALSE); #ifndef G_DISABLE_ASSERT g_return_val_if_fail (ri->age == ri->root->priv->age, FALSE); #endif if (ri->current == NULL) ri->current = ri->root->priv->last_child; else ri->current = ri->current->priv->prev_sibling; if (child != NULL) *child = ri->current; return ri->current != NULL; } /** * clutter_actor_iter_remove: * @iter: a #ClutterActorIter * * Safely removes the #ClutterActor currently pointer to by the iterator * from its parent. * * This function can only be called after clutter_actor_iter_next() or * clutter_actor_iter_prev() returned %TRUE, and cannot be called more * than once for the same actor. * * This function will call clutter_actor_remove_child() internally. * * Since: 1.10 */ void clutter_actor_iter_remove (ClutterActorIter *iter) { RealActorIter *ri = (RealActorIter *) iter; ClutterActor *cur; g_return_if_fail (iter != NULL); g_return_if_fail (ri->root != NULL); #ifndef G_DISABLE_ASSERT g_return_if_fail (ri->age == ri->root->priv->age); #endif g_return_if_fail (ri->current != NULL); cur = ri->current; if (cur != NULL) { ri->current = cur->priv->prev_sibling; clutter_actor_remove_child_internal (ri->root, cur, REMOVE_CHILD_DEFAULT_FLAGS); ri->age += 1; } } /** * clutter_actor_iter_destroy: * @iter: a #ClutterActorIter * * Safely destroys the #ClutterActor currently pointer to by the iterator * from its parent. * * This function can only be called after clutter_actor_iter_next() or * clutter_actor_iter_prev() returned %TRUE, and cannot be called more * than once for the same actor. * * This function will call clutter_actor_destroy() internally. * * Since: 1.10 */ void clutter_actor_iter_destroy (ClutterActorIter *iter) { RealActorIter *ri = (RealActorIter *) iter; ClutterActor *cur; g_return_if_fail (iter != NULL); g_return_if_fail (ri->root != NULL); #ifndef G_DISABLE_ASSERT g_return_if_fail (ri->age == ri->root->priv->age); #endif g_return_if_fail (ri->current != NULL); cur = ri->current; if (cur != NULL) { ri->current = cur->priv->prev_sibling; clutter_actor_destroy (cur); ri->age += 1; } } static const ClutterAnimationInfo default_animation_info = { NULL, /* transitions */ NULL, /* states */ NULL, /* cur_state */ }; static void clutter_animation_info_free (gpointer data) { if (data != NULL) { ClutterAnimationInfo *info = data; if (info->transitions != NULL) g_hash_table_unref (info->transitions); if (info->states != NULL) g_array_unref (info->states); g_slice_free (ClutterAnimationInfo, info); } } const ClutterAnimationInfo * _clutter_actor_get_animation_info_or_defaults (ClutterActor *self) { const ClutterAnimationInfo *res; GObject *obj = G_OBJECT (self); res = g_object_get_qdata (obj, quark_actor_animation_info); if (res != NULL) return res; return &default_animation_info; } ClutterAnimationInfo * _clutter_actor_get_animation_info (ClutterActor *self) { GObject *obj = G_OBJECT (self); ClutterAnimationInfo *res; res = g_object_get_qdata (obj, quark_actor_animation_info); if (res == NULL) { res = g_slice_new (ClutterAnimationInfo); *res = default_animation_info; g_object_set_qdata_full (obj, quark_actor_animation_info, res, clutter_animation_info_free); } return res; } ClutterTransition * _clutter_actor_get_transition (ClutterActor *actor, GParamSpec *pspec) { const ClutterAnimationInfo *info; info = _clutter_actor_get_animation_info_or_defaults (actor); if (info->transitions == NULL) return NULL; return g_hash_table_lookup (info->transitions, pspec->name); } static void transition_closure_free (gpointer data) { if (G_LIKELY (data != NULL)) { TransitionClosure *clos = data; ClutterTimeline *timeline; timeline = CLUTTER_TIMELINE (clos->transition); /* we disconnect the signal handler before stopping the timeline, * so that we don't end up inside on_transition_stopped() from * a call to g_hash_table_remove(). */ g_signal_handler_disconnect (clos->transition, clos->completed_id); if (clutter_timeline_is_playing (timeline)) clutter_timeline_stop (timeline); /* remove the reference added in add_transition_internal() */ g_object_unref (clos->transition); g_free (clos->name); g_slice_free (TransitionClosure, clos); } } static void on_transition_stopped (ClutterTransition *transition, gboolean is_finished, TransitionClosure *clos) { ClutterActor *actor = clos->actor; ClutterAnimationInfo *info; GQuark t_quark; gchar *t_name; if (clos->name == NULL) return; /* reset the caches used by animations */ clutter_actor_store_content_box (actor, NULL); info = _clutter_actor_get_animation_info (actor); /* we need copies because we emit the signal after the * TransitionClosure data structure has been freed */ t_quark = g_quark_from_string (clos->name); t_name = g_strdup (clos->name); if (clos->is_implicit || clutter_transition_get_remove_on_complete (transition)) { /* we take a reference here because removing the closure * will release the reference on the transition, and we * want the transition to survive the signal emission */ g_object_ref (transition); /* this is safe, because the timeline has now stopped, * so we won't recurse; the reference on the Animatable * will be dropped by the ::stopped signal closure in * ClutterTransition, which is RUN_LAST, and thus will * be called after this handler */ g_hash_table_remove (info->transitions, clos->name); } /* we emit the ::transition-stopped after removing the * transition, so that we can chain up new transitions * without interfering with the one that just finished */ g_signal_emit (actor, actor_signals[TRANSITION_STOPPED], t_quark, t_name, is_finished); g_free (t_name); /* if it's the last transition then we clean up */ if (g_hash_table_size (info->transitions) == 0) { g_hash_table_unref (info->transitions); info->transitions = NULL; CLUTTER_NOTE (ANIMATION, "Transitions for '%s' completed", _clutter_actor_get_debug_name (actor)); g_signal_emit (actor, actor_signals[TRANSITIONS_COMPLETED], 0); } } static void clutter_actor_add_transition_internal (ClutterActor *self, const gchar *name, ClutterTransition *transition, gboolean is_implicit) { ClutterTimeline *timeline; TransitionClosure *clos; ClutterAnimationInfo *info; info = _clutter_actor_get_animation_info (self); if (info->transitions == NULL) info->transitions = g_hash_table_new_full (g_str_hash, g_str_equal, NULL, transition_closure_free); if (g_hash_table_lookup (info->transitions, name) != NULL) { g_warning ("A transition with name '%s' already exists for " "the actor '%s'", name, _clutter_actor_get_debug_name (self)); return; } clutter_transition_set_animatable (transition, CLUTTER_ANIMATABLE (self)); timeline = CLUTTER_TIMELINE (transition); clos = g_slice_new (TransitionClosure); clos->actor = self; clos->transition = g_object_ref (transition); clos->name = g_strdup (name); clos->is_implicit = is_implicit; clos->completed_id = g_signal_connect (timeline, "stopped", G_CALLBACK (on_transition_stopped), clos); CLUTTER_NOTE (ANIMATION, "Adding transition '%s' [%p] to actor '%s'", clos->name, clos->transition, _clutter_actor_get_debug_name (self)); g_hash_table_insert (info->transitions, clos->name, clos); clutter_timeline_start (timeline); } static gboolean should_skip_implicit_transition (ClutterActor *self, GParamSpec *pspec) { ClutterActorPrivate *priv = self->priv; const ClutterAnimationInfo *info; /* this function is called from _clutter_actor_create_transition() which * calls _clutter_actor_get_animation_info() first, so we're guaranteed * to have the correct ClutterAnimationInfo pointer */ info = _clutter_actor_get_animation_info_or_defaults (self); /* if the easing state has a non-zero duration we always want an * implicit transition to occur */ if (info->cur_state->easing_duration == 0) return TRUE; /* on the other hand, if the actor hasn't been allocated yet, we want to * skip all transitions on the :allocation, to avoid actors "flying in" * into their new position and size */ if (pspec == obj_props[PROP_ALLOCATION] && priv->needs_allocation) return TRUE; /* if the actor is not mapped and is not part of a branch of the scene * graph that is being cloned, then we always skip implicit transitions * on the account of the fact that the actor is not going to be visible * when those transitions happen */ if (!CLUTTER_ACTOR_IS_MAPPED (self) && priv->in_cloned_branch == 0 && !clutter_actor_has_mapped_clones (self)) return TRUE; return FALSE; } /*< private >* * _clutter_actor_create_transition: * @actor: a #ClutterActor * @pspec: the property used for the transition * @...: initial and final state * * Creates a #ClutterTransition for the property represented by @pspec. * * Return value: a #ClutterTransition */ ClutterTransition * _clutter_actor_create_transition (ClutterActor *actor, GParamSpec *pspec, ...) { ClutterTimeline *timeline; ClutterInterval *interval; ClutterAnimationInfo *info; ClutterTransition *res = NULL; gboolean call_restore = FALSE; TransitionClosure *clos; va_list var_args; GValue initial = G_VALUE_INIT; GValue final = G_VALUE_INIT; GType ptype; char *error; g_assert (pspec != NULL); g_assert ((pspec->flags & CLUTTER_PARAM_ANIMATABLE) != 0); info = _clutter_actor_get_animation_info (actor); /* XXX - this will go away in 2.0 * * if no state has been pushed, we assume that the easing state is * in "compatibility mode": all transitions have a duration of 0 * msecs, which means that they happen immediately. in Clutter 2.0 * this will turn into a g_assert(info->states != NULL), as every * actor will start with a predefined easing state */ if (info->states == NULL) { clutter_actor_save_easing_state (actor); clutter_actor_set_easing_duration (actor, 0); call_restore = TRUE; } if (info->transitions == NULL) info->transitions = g_hash_table_new_full (g_str_hash, g_str_equal, NULL, transition_closure_free); va_start (var_args, pspec); ptype = G_PARAM_SPEC_VALUE_TYPE (pspec); G_VALUE_COLLECT_INIT (&initial, ptype, var_args, 0, &error); if (error != NULL) { g_critical ("%s: %s", G_STRLOC, error); g_free (error); goto out; } G_VALUE_COLLECT_INIT (&final, ptype, var_args, 0, &error); if (error != NULL) { g_critical ("%s: %s", G_STRLOC, error); g_value_unset (&initial); g_free (error); goto out; } if (should_skip_implicit_transition (actor, pspec)) { CLUTTER_NOTE (ANIMATION, "Skipping implicit transition for '%s::%s'", _clutter_actor_get_debug_name (actor), pspec->name); /* remove a transition, if one exists */ clutter_actor_remove_transition (actor, pspec->name); /* we don't go through the Animatable interface because we * already know we got here through an animatable property. */ clutter_actor_set_animatable_property (actor, pspec->param_id, &final, pspec); g_value_unset (&initial); g_value_unset (&final); goto out; } clos = g_hash_table_lookup (info->transitions, pspec->name); if (clos == NULL) { res = clutter_property_transition_new (pspec->name); interval = clutter_interval_new_with_values (ptype, &initial, &final); clutter_transition_set_interval (res, interval); timeline = CLUTTER_TIMELINE (res); clutter_timeline_set_delay (timeline, info->cur_state->easing_delay); clutter_timeline_set_duration (timeline, info->cur_state->easing_duration); clutter_timeline_set_progress_mode (timeline, info->cur_state->easing_mode); #ifdef CLUTTER_ENABLE_DEBUG if (CLUTTER_HAS_DEBUG (ANIMATION)) { gchar *initial_v, *final_v; initial_v = g_strdup_value_contents (&initial); final_v = g_strdup_value_contents (&final); CLUTTER_NOTE (ANIMATION, "Created transition for %s:%s " "(len:%u, mode:%s, delay:%u) " "initial:%s, final:%s", _clutter_actor_get_debug_name (actor), pspec->name, info->cur_state->easing_duration, clutter_get_easing_name_for_mode (info->cur_state->easing_mode), info->cur_state->easing_delay, initial_v, final_v); g_free (initial_v); g_free (final_v); } #endif /* CLUTTER_ENABLE_DEBUG */ /* this will start the transition as well */ clutter_actor_add_transition_internal (actor, pspec->name, res, TRUE); /* the actor now owns the transition */ g_object_unref (res); g_value_unset (&initial); g_value_unset (&final); } else { ClutterAnimationMode cur_mode; guint cur_duration; CLUTTER_NOTE (ANIMATION, "Existing transition for %s:%s", _clutter_actor_get_debug_name (actor), pspec->name); timeline = CLUTTER_TIMELINE (clos->transition); cur_duration = clutter_timeline_get_duration (timeline); if (cur_duration != info->cur_state->easing_duration) clutter_timeline_set_duration (timeline, info->cur_state->easing_duration); cur_mode = clutter_timeline_get_progress_mode (timeline); if (cur_mode != info->cur_state->easing_mode) clutter_timeline_set_progress_mode (timeline, info->cur_state->easing_mode); clutter_timeline_rewind (timeline); interval = clutter_transition_get_interval (clos->transition); clutter_interval_set_initial_value (interval, &initial); clutter_interval_set_final_value (interval, &final); res = clos->transition; } out: if (call_restore) clutter_actor_restore_easing_state (actor); va_end (var_args); return res; } /** * clutter_actor_add_transition: * @self: a #ClutterActor * @name: the name of the transition to add * @transition: the #ClutterTransition to add * * Adds a @transition to the #ClutterActor's list of animations. * * The @name string is a per-actor unique identifier of the @transition: only * one #ClutterTransition can be associated to the specified @name. * * The @transition will be started once added. * * This function will take a reference on the @transition. * * This function is usually called implicitly when modifying an animatable * property. * * Since: 1.10 */ void clutter_actor_add_transition (ClutterActor *self, const char *name, ClutterTransition *transition) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); g_return_if_fail (CLUTTER_IS_TRANSITION (transition)); clutter_actor_add_transition_internal (self, name, transition, FALSE); } /** * clutter_actor_remove_transition: * @self: a #ClutterActor * @name: the name of the transition to remove * * Removes the transition stored inside a #ClutterActor using @name * identifier. * * If the transition is currently in progress, it will be stopped. * * This function releases the reference acquired when the transition * was added to the #ClutterActor. * * Since: 1.10 */ void clutter_actor_remove_transition (ClutterActor *self, const char *name) { const ClutterAnimationInfo *info; TransitionClosure *clos; gboolean was_playing; GQuark t_quark; gchar *t_name; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (name != NULL); info = _clutter_actor_get_animation_info_or_defaults (self); if (info->transitions == NULL) return; clos = g_hash_table_lookup (info->transitions, name); if (clos == NULL) return; was_playing = clutter_timeline_is_playing (CLUTTER_TIMELINE (clos->transition)); t_quark = g_quark_from_string (clos->name); t_name = g_strdup (clos->name); g_hash_table_remove (info->transitions, name); /* we want to maintain the invariant that ::transition-stopped is * emitted after the transition has been removed, to allow replacing * or chaining; removing the transition from the hash table will * stop it, but transition_closure_free() will disconnect the signal * handler we install in add_transition_internal(), to avoid loops * or segfaults. * * since we know already that a transition will stop once it's removed * from an actor, we can simply emit the ::transition-stopped here * ourselves, if the timeline was playing (if it wasn't, then the * signal was already emitted at least once). */ if (was_playing) { g_signal_emit (self, actor_signals[TRANSITION_STOPPED], t_quark, t_name, FALSE); } g_free (t_name); } /** * clutter_actor_remove_all_transitions: * @self: a #ClutterActor * * Removes all transitions associated to @self. * * Since: 1.10 */ void clutter_actor_remove_all_transitions (ClutterActor *self) { const ClutterAnimationInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_animation_info_or_defaults (self); if (info->transitions == NULL) return; g_hash_table_remove_all (info->transitions); } /** * clutter_actor_set_easing_duration: * @self: a #ClutterActor * @msecs: the duration of the easing, or %NULL * * Sets the duration of the tweening for animatable properties * of @self for the current easing state. * * Since: 1.10 */ void clutter_actor_set_easing_duration (ClutterActor *self, guint msecs) { ClutterAnimationInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_animation_info (self); if (info->cur_state == NULL) { g_warning ("You must call clutter_actor_save_easing_state() prior " "to calling clutter_actor_set_easing_duration()."); return; } if (info->cur_state->easing_duration != msecs) info->cur_state->easing_duration = msecs; } /** * clutter_actor_get_easing_duration: * @self: a #ClutterActor * * Retrieves the duration of the tweening for animatable * properties of @self for the current easing state. * * Return value: the duration of the tweening, in milliseconds * * Since: 1.10 */ guint clutter_actor_get_easing_duration (ClutterActor *self) { const ClutterAnimationInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); info = _clutter_actor_get_animation_info_or_defaults (self); if (info->cur_state != NULL) return info->cur_state->easing_duration; return 0; } /** * clutter_actor_set_easing_mode: * @self: a #ClutterActor * @mode: an easing mode, excluding %CLUTTER_CUSTOM_MODE * * Sets the easing mode for the tweening of animatable properties * of @self. * * Since: 1.10 */ void clutter_actor_set_easing_mode (ClutterActor *self, ClutterAnimationMode mode) { ClutterAnimationInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (mode != CLUTTER_CUSTOM_MODE); g_return_if_fail (mode < CLUTTER_ANIMATION_LAST); info = _clutter_actor_get_animation_info (self); if (info->cur_state == NULL) { g_warning ("You must call clutter_actor_save_easing_state() prior " "to calling clutter_actor_set_easing_mode()."); return; } if (info->cur_state->easing_mode != mode) info->cur_state->easing_mode = mode; } /** * clutter_actor_get_easing_mode: * @self: a #ClutterActor * * Retrieves the easing mode for the tweening of animatable properties * of @self for the current easing state. * * Return value: an easing mode * * Since: 1.10 */ ClutterAnimationMode clutter_actor_get_easing_mode (ClutterActor *self) { const ClutterAnimationInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_EASE_OUT_CUBIC); info = _clutter_actor_get_animation_info_or_defaults (self); if (info->cur_state != NULL) return info->cur_state->easing_mode; return CLUTTER_EASE_OUT_CUBIC; } /** * clutter_actor_set_easing_delay: * @self: a #ClutterActor * @msecs: the delay before the start of the tweening, in milliseconds * * Sets the delay that should be applied before tweening animatable * properties. * * Since: 1.10 */ void clutter_actor_set_easing_delay (ClutterActor *self, guint msecs) { ClutterAnimationInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_animation_info (self); if (info->cur_state == NULL) { g_warning ("You must call clutter_actor_save_easing_state() prior " "to calling clutter_actor_set_easing_delay()."); return; } if (info->cur_state->easing_delay != msecs) info->cur_state->easing_delay = msecs; } /** * clutter_actor_get_easing_delay: * @self: a #ClutterActor * * Retrieves the delay that should be applied when tweening animatable * properties. * * Return value: a delay, in milliseconds * * Since: 1.10 */ guint clutter_actor_get_easing_delay (ClutterActor *self) { const ClutterAnimationInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), 0); info = _clutter_actor_get_animation_info_or_defaults (self); if (info->cur_state != NULL) return info->cur_state->easing_delay; return 0; } /** * clutter_actor_get_transition: * @self: a #ClutterActor * @name: the name of the transition * * Retrieves the #ClutterTransition of a #ClutterActor by using the * transition @name. * * Transitions created for animatable properties use the name of the * property itself, for instance the code below: * * |[ * clutter_actor_set_easing_duration (actor, 1000); * clutter_actor_set_rotation (actor, CLUTTER_Y_AXIS, 360.0, x, y, z); * * transition = clutter_actor_get_transition (actor, "rotation-angle-y"); * g_signal_connect (transition, "stopped", * G_CALLBACK (on_transition_stopped), * actor); * ]| * * will call the `on_transition_stopped` callback when the transition * is finished. * * If you just want to get notifications of the completion of a transition, * you should use the #ClutterActor::transition-stopped signal, using the * transition name as the signal detail. * * Return value: (transfer none): a #ClutterTransition, or %NULL is none * was found to match the passed name; the returned instance is owned * by Clutter and it should not be freed * * Since: 1.10 */ ClutterTransition * clutter_actor_get_transition (ClutterActor *self, const char *name) { TransitionClosure *clos; const ClutterAnimationInfo *info; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); g_return_val_if_fail (name != NULL, NULL); info = _clutter_actor_get_animation_info_or_defaults (self); if (info->transitions == NULL) return NULL; clos = g_hash_table_lookup (info->transitions, name); if (clos == NULL) return NULL; return clos->transition; } /** * clutter_actor_save_easing_state: * @self: a #ClutterActor * * Saves the current easing state for animatable properties, and creates * a new state with the default values for easing mode and duration. * * New transitions created after calling this function will inherit the * duration, easing mode, and delay of the new easing state; this also * applies to transitions modified in flight. * * Since: 1.10 */ void clutter_actor_save_easing_state (ClutterActor *self) { ClutterAnimationInfo *info; AState new_state; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_animation_info (self); if (info->states == NULL) info->states = g_array_new (FALSE, FALSE, sizeof (AState)); new_state.easing_mode = CLUTTER_EASE_OUT_CUBIC; new_state.easing_duration = 250; new_state.easing_delay = 0; g_array_append_val (info->states, new_state); info->cur_state = &g_array_index (info->states, AState, info->states->len - 1); } /** * clutter_actor_restore_easing_state: * @self: a #ClutterActor * * Restores the easing state as it was prior to a call to * clutter_actor_save_easing_state(). * * Since: 1.10 */ void clutter_actor_restore_easing_state (ClutterActor *self) { ClutterAnimationInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_animation_info (self); if (info->states == NULL) { g_critical ("The function clutter_actor_restore_easing_state() has " "been called without a previous call to " "clutter_actor_save_easing_state()."); return; } g_array_remove_index (info->states, info->states->len - 1); if (info->states->len > 0) info->cur_state = &g_array_index (info->states, AState, info->states->len - 1); else { g_array_unref (info->states); info->states = NULL; info->cur_state = NULL; } } /** * clutter_actor_set_content: * @self: a #ClutterActor * @content: (allow-none): a #ClutterContent, or %NULL * * Sets the contents of a #ClutterActor. * * Since: 1.10 */ void clutter_actor_set_content (ClutterActor *self, ClutterContent *content) { ClutterActorPrivate *priv; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (content == NULL || CLUTTER_IS_CONTENT (content)); priv = self->priv; if (priv->content == content) return; if (priv->content != NULL) { _clutter_content_detached (priv->content, self); g_clear_object (&priv->content); } priv->content = content; if (priv->content != NULL) { g_object_ref (priv->content); _clutter_content_attached (priv->content, self); } /* if the actor's preferred size is the content's preferred size, * then we need to conditionally queue a relayout here... */ if (priv->request_mode == CLUTTER_REQUEST_CONTENT_SIZE) _clutter_actor_queue_only_relayout (self); clutter_actor_queue_redraw (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_CONTENT]); /* if the content gravity is not resize-fill, and the new content has a * different preferred size than the previous one, then the content box * may have been changed. since we compute that lazily, we just notify * here, and let whomever watches :content-box do whatever they need to * do. */ if (priv->content_gravity != CLUTTER_CONTENT_GRAVITY_RESIZE_FILL) { if (priv->content_box_valid) { ClutterActorBox from_box, to_box; clutter_actor_get_content_box (self, &from_box); /* invalidate the cached content box */ priv->content_box_valid = FALSE; clutter_actor_get_content_box (self, &to_box); if (!clutter_actor_box_equal (&from_box, &to_box)) _clutter_actor_create_transition (self, obj_props[PROP_CONTENT_BOX], &from_box, &to_box); } g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_CONTENT_BOX]); } } /** * clutter_actor_get_content: * @self: a #ClutterActor * * Retrieves the contents of @self. * * Return value: (transfer none): a pointer to the #ClutterContent instance, * or %NULL if none was set * * Since: 1.10 */ ClutterContent * clutter_actor_get_content (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), NULL); return self->priv->content; } /** * clutter_actor_set_content_gravity: * @self: a #ClutterActor * @gravity: the #ClutterContentGravity * * Sets the gravity of the #ClutterContent used by @self. * * See the description of the #ClutterActor:content-gravity property for * more information. * * The #ClutterActor:content-gravity property is animatable. * * Since: 1.10 */ void clutter_actor_set_content_gravity (ClutterActor *self, ClutterContentGravity gravity) { ClutterActorPrivate *priv; ClutterActorBox from_box, to_box; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; if (priv->content_gravity == gravity) return; priv->content_box_valid = FALSE; clutter_actor_get_content_box (self, &from_box); priv->content_gravity = gravity; clutter_actor_get_content_box (self, &to_box); _clutter_actor_create_transition (self, obj_props[PROP_CONTENT_BOX], &from_box, &to_box); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_CONTENT_GRAVITY]); } /** * clutter_actor_get_content_gravity: * @self: a #ClutterActor * * Retrieves the content gravity as set using * clutter_actor_set_content_gravity(). * * Return value: the content gravity * * Since: 1.10 */ ClutterContentGravity clutter_actor_get_content_gravity (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_CONTENT_GRAVITY_RESIZE_FILL); return self->priv->content_gravity; } /** * clutter_actor_get_content_box: * @self: a #ClutterActor * @box: (out caller-allocates): the return location for the bounding * box for the #ClutterContent * * Retrieves the bounding box for the #ClutterContent of @self. * * The bounding box is relative to the actor's allocation. * * If no #ClutterContent is set for @self, or if @self has not been * allocated yet, then the result is undefined. * * The content box is guaranteed to be, at most, as big as the allocation * of the #ClutterActor. * * If the #ClutterContent used by the actor has a preferred size, then * it is possible to modify the content box by using the * #ClutterActor:content-gravity property. * * Since: 1.10 */ void clutter_actor_get_content_box (ClutterActor *self, ClutterActorBox *box) { ClutterActorPrivate *priv; gfloat content_w, content_h; gfloat alloc_w, alloc_h; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (box != NULL); priv = self->priv; box->x1 = 0.f; box->y1 = 0.f; box->x2 = priv->allocation.x2 - priv->allocation.x1; box->y2 = priv->allocation.y2 - priv->allocation.y1; if (priv->content_box_valid) { *box = priv->content_box; return; } /* no need to do any more work */ if (priv->content_gravity == CLUTTER_CONTENT_GRAVITY_RESIZE_FILL) return; if (priv->content == NULL) return; /* if the content does not have a preferred size then there is * no point in computing the content box */ if (!clutter_content_get_preferred_size (priv->content, &content_w, &content_h)) return; alloc_w = box->x2; alloc_h = box->y2; switch (priv->content_gravity) { case CLUTTER_CONTENT_GRAVITY_TOP_LEFT: box->x2 = box->x1 + MIN (content_w, alloc_w); box->y2 = box->y1 + MIN (content_h, alloc_h); break; case CLUTTER_CONTENT_GRAVITY_TOP: if (alloc_w > content_w) { box->x1 += ceilf ((alloc_w - content_w) / 2.0); box->x2 = box->x1 + content_w; } box->y2 = box->y1 + MIN (content_h, alloc_h); break; case CLUTTER_CONTENT_GRAVITY_TOP_RIGHT: if (alloc_w > content_w) { box->x1 += (alloc_w - content_w); box->x2 = box->x1 + content_w; } box->y2 = box->y1 + MIN (content_h, alloc_h); break; case CLUTTER_CONTENT_GRAVITY_LEFT: box->x2 = box->x1 + MIN (content_w, alloc_w); if (alloc_h > content_h) { box->y1 += ceilf ((alloc_h - content_h) / 2.0); box->y2 = box->y1 + content_h; } break; case CLUTTER_CONTENT_GRAVITY_CENTER: if (alloc_w > content_w) { box->x1 += ceilf ((alloc_w - content_w) / 2.0); box->x2 = box->x1 + content_w; } if (alloc_h > content_h) { box->y1 += ceilf ((alloc_h - content_h) / 2.0); box->y2 = box->y1 + content_h; } break; case CLUTTER_CONTENT_GRAVITY_RIGHT: if (alloc_w > content_w) { box->x1 += (alloc_w - content_w); box->x2 = box->x1 + content_w; } if (alloc_h > content_h) { box->y1 += ceilf ((alloc_h - content_h) / 2.0); box->y2 = box->y1 + content_h; } break; case CLUTTER_CONTENT_GRAVITY_BOTTOM_LEFT: box->x2 = box->x1 + MIN (content_w, alloc_w); if (alloc_h > content_h) { box->y1 += (alloc_h - content_h); box->y2 = box->y1 + content_h; } break; case CLUTTER_CONTENT_GRAVITY_BOTTOM: if (alloc_w > content_w) { box->x1 += ceilf ((alloc_w - content_w) / 2.0); box->x2 = box->x1 + content_w; } if (alloc_h > content_h) { box->y1 += (alloc_h - content_h); box->y2 = box->y1 + content_h; } break; case CLUTTER_CONTENT_GRAVITY_BOTTOM_RIGHT: if (alloc_w > content_w) { box->x1 += (alloc_w - content_w); box->x2 = box->x1 + content_w; } if (alloc_h > content_h) { box->y1 += (alloc_h - content_h); box->y2 = box->y1 + content_h; } break; case CLUTTER_CONTENT_GRAVITY_RESIZE_FILL: g_assert_not_reached (); break; case CLUTTER_CONTENT_GRAVITY_RESIZE_ASPECT: { double r_c = content_w / content_h; if ((alloc_w / r_c) > alloc_h) { box->y1 = 0.f; box->y2 = alloc_h; box->x1 = (alloc_w - (alloc_h * r_c)) / 2.0f; box->x2 = box->x1 + (alloc_h * r_c); } else { box->x1 = 0.f; box->x2 = alloc_w; box->y1 = (alloc_h - (alloc_w / r_c)) / 2.0f; box->y2 = box->y1 + (alloc_w / r_c); } CLUTTER_NOTE (LAYOUT, "r_c: %.3f, r_a: %.3f\t" "a: [%.2fx%.2f], c: [%.2fx%.2f]\t" "b: [%.2f, %.2f, %.2f, %.2f]", r_c, alloc_w / alloc_h, alloc_w, alloc_h, content_w, content_h, box->x1, box->y1, box->x2, box->y2); } break; } } /** * clutter_actor_set_content_scaling_filters: * @self: a #ClutterActor * @min_filter: the minification filter for the content * @mag_filter: the magnification filter for the content * * Sets the minification and magnification filter to be applied when * scaling the #ClutterActor:content of a #ClutterActor. * * The #ClutterActor:minification-filter will be used when reducing * the size of the content; the #ClutterActor:magnification-filter * will be used when increasing the size of the content. * * Since: 1.10 */ void clutter_actor_set_content_scaling_filters (ClutterActor *self, ClutterScalingFilter min_filter, ClutterScalingFilter mag_filter) { ClutterActorPrivate *priv; gboolean changed; GObject *obj; g_return_if_fail (CLUTTER_IS_ACTOR (self)); priv = self->priv; obj = G_OBJECT (self); g_object_freeze_notify (obj); changed = FALSE; if (priv->min_filter != min_filter) { priv->min_filter = min_filter; changed = TRUE; g_object_notify_by_pspec (obj, obj_props[PROP_MINIFICATION_FILTER]); } if (priv->mag_filter != mag_filter) { priv->mag_filter = mag_filter; changed = TRUE; g_object_notify_by_pspec (obj, obj_props[PROP_MAGNIFICATION_FILTER]); } if (changed) clutter_actor_queue_redraw (self); g_object_thaw_notify (obj); } /** * clutter_actor_get_content_scaling_filters: * @self: a #ClutterActor * @min_filter: (out) (allow-none): return location for the minification * filter, or %NULL * @mag_filter: (out) (allow-none): return location for the magnification * filter, or %NULL * * Retrieves the values set using clutter_actor_set_content_scaling_filters(). * * Since: 1.10 */ void clutter_actor_get_content_scaling_filters (ClutterActor *self, ClutterScalingFilter *min_filter, ClutterScalingFilter *mag_filter) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (min_filter != NULL) *min_filter = self->priv->min_filter; if (mag_filter != NULL) *mag_filter = self->priv->mag_filter; } /* * clutter_actor_queue_compute_expand: * @self: a #ClutterActor * * Invalidates the needs_x_expand and needs_y_expand flags on @self * and its parents up to the top-level actor. * * This function also queues a relayout if anything changed. */ static inline void clutter_actor_queue_compute_expand (ClutterActor *self) { ClutterActor *parent; gboolean changed; if (self->priv->needs_compute_expand) return; changed = FALSE; parent = self; while (parent != NULL) { if (!parent->priv->needs_compute_expand) { parent->priv->needs_compute_expand = TRUE; changed = TRUE; } parent = parent->priv->parent; } if (changed) clutter_actor_queue_relayout (self); } /** * clutter_actor_set_x_expand: * @self: a #ClutterActor * @expand: whether the actor should expand horizontally * * Sets whether a #ClutterActor should expand horizontally; this means * that layout manager should allocate extra space for the actor, if * possible. * * Setting an actor to expand will also make all its parent expand, so * that it's possible to build an actor tree and only set this flag on * its leaves and not on every single actor. * * Since: 1.12 */ void clutter_actor_set_x_expand (ClutterActor *self, gboolean expand) { ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); expand = !!expand; info = _clutter_actor_get_layout_info (self); if (info->x_expand != expand) { info->x_expand = expand; self->priv->x_expand_set = TRUE; clutter_actor_queue_compute_expand (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_X_EXPAND]); } } /** * clutter_actor_get_x_expand: * @self: a #ClutterActor * * Retrieves the value set with clutter_actor_set_x_expand(). * * See also: clutter_actor_needs_expand() * * Return value: %TRUE if the actor has been set to expand * * Since: 1.12 */ gboolean clutter_actor_get_x_expand (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return _clutter_actor_get_layout_info_or_defaults (self)->x_expand; } /** * clutter_actor_set_y_expand: * @self: a #ClutterActor * @expand: whether the actor should expand vertically * * Sets whether a #ClutterActor should expand horizontally; this means * that layout manager should allocate extra space for the actor, if * possible. * * Setting an actor to expand will also make all its parent expand, so * that it's possible to build an actor tree and only set this flag on * its leaves and not on every single actor. * * Since: 1.12 */ void clutter_actor_set_y_expand (ClutterActor *self, gboolean expand) { ClutterLayoutInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); expand = !!expand; info = _clutter_actor_get_layout_info (self); if (info->y_expand != expand) { info->y_expand = expand; self->priv->y_expand_set = TRUE; clutter_actor_queue_compute_expand (self); g_object_notify_by_pspec (G_OBJECT (self), obj_props[PROP_Y_EXPAND]); } } /** * clutter_actor_get_y_expand: * @self: a #ClutterActor * * Retrieves the value set with clutter_actor_set_y_expand(). * * See also: clutter_actor_needs_expand() * * Return value: %TRUE if the actor has been set to expand * * Since: 1.12 */ gboolean clutter_actor_get_y_expand (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); return _clutter_actor_get_layout_info_or_defaults (self)->y_expand; } static void clutter_actor_compute_expand_recursive (ClutterActor *self, gboolean *x_expand_p, gboolean *y_expand_p) { ClutterActorIter iter; ClutterActor *child; gboolean x_expand, y_expand; x_expand = y_expand = FALSE; /* note that we don't recurse into children if we're already set to expand; * this avoids traversing the whole actor tree, even if it may lead to some * child left with the needs_compute_expand flag set. */ clutter_actor_iter_init (&iter, self); while (clutter_actor_iter_next (&iter, &child)) { x_expand = x_expand || clutter_actor_needs_expand (child, CLUTTER_ORIENTATION_HORIZONTAL); y_expand = y_expand || clutter_actor_needs_expand (child, CLUTTER_ORIENTATION_VERTICAL); } *x_expand_p = x_expand; *y_expand_p = y_expand; } static void clutter_actor_compute_expand (ClutterActor *self) { if (self->priv->needs_compute_expand) { const ClutterLayoutInfo *info; gboolean x_expand, y_expand; info = _clutter_actor_get_layout_info_or_defaults (self); if (self->priv->x_expand_set) x_expand = info->x_expand; else x_expand = FALSE; if (self->priv->y_expand_set) y_expand = info->y_expand; else y_expand = FALSE; /* we don't need to recurse down to the children if the * actor has been forcibly set to expand */ if (!(self->priv->x_expand_set && self->priv->y_expand_set)) { if (self->priv->n_children != 0) { gboolean *x_expand_p, *y_expand_p; gboolean ignored = FALSE; x_expand_p = self->priv->x_expand_set ? &ignored : &x_expand; y_expand_p = self->priv->y_expand_set ? &ignored : &y_expand; clutter_actor_compute_expand_recursive (self, x_expand_p, y_expand_p); } } self->priv->needs_compute_expand = FALSE; self->priv->needs_x_expand = (x_expand != FALSE); self->priv->needs_y_expand = (y_expand != FALSE); } } /** * clutter_actor_needs_expand: * @self: a #ClutterActor * @orientation: the direction of expansion * * Checks whether an actor, or any of its children, is set to expand * horizontally or vertically. * * This function should only be called by layout managers that can * assign extra space to their children. * * If you want to know whether the actor was explicitly set to expand, * use clutter_actor_get_x_expand() or clutter_actor_get_y_expand(). * * Return value: %TRUE if the actor should expand * * Since: 1.12 */ gboolean clutter_actor_needs_expand (ClutterActor *self, ClutterOrientation orientation) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); if (!CLUTTER_ACTOR_IS_VISIBLE (self)) return FALSE; if (CLUTTER_ACTOR_IN_DESTRUCTION (self)) return FALSE; clutter_actor_compute_expand (self); switch (orientation) { case CLUTTER_ORIENTATION_HORIZONTAL: return self->priv->needs_x_expand; case CLUTTER_ORIENTATION_VERTICAL: return self->priv->needs_y_expand; } return FALSE; } /** * clutter_actor_set_content_repeat: * @self: a #ClutterActor * @repeat: the repeat policy * * Sets the policy for repeating the #ClutterActor:content of a * #ClutterActor. The behaviour is deferred to the #ClutterContent * implementation. * * Since: 1.12 */ void clutter_actor_set_content_repeat (ClutterActor *self, ClutterContentRepeat repeat) { g_return_if_fail (CLUTTER_IS_ACTOR (self)); if (self->priv->content_repeat == repeat) return; self->priv->content_repeat = repeat; clutter_actor_queue_redraw (self); } /** * clutter_actor_get_content_repeat: * @self: a #ClutterActor * * Retrieves the repeat policy for a #ClutterActor set by * clutter_actor_set_content_repeat(). * * Return value: the content repeat policy * * Since: 1.12 */ ClutterContentRepeat clutter_actor_get_content_repeat (ClutterActor *self) { g_return_val_if_fail (CLUTTER_IS_ACTOR (self), CLUTTER_REPEAT_NONE); return self->priv->content_repeat; } void _clutter_actor_handle_event (ClutterActor *self, const ClutterEvent *event) { GPtrArray *event_tree; ClutterActor *iter; gboolean is_key_event; gint i = 0; /* XXX - for historical reasons that are now lost in the mists of time, * key events are delivered regardless of whether an actor is set as * reactive; this should be changed for 2.0. */ is_key_event = event->type == CLUTTER_KEY_PRESS || event->type == CLUTTER_KEY_RELEASE; event_tree = g_ptr_array_sized_new (64); g_ptr_array_set_free_func (event_tree, (GDestroyNotify) g_object_unref); /* build the list of of emitters for the event */ iter = self; while (iter != NULL) { ClutterActor *parent = iter->priv->parent; if (CLUTTER_ACTOR_IS_REACTIVE (iter) || /* an actor must be reactive */ parent == NULL || /* unless it's the stage */ is_key_event) /* or this is a key event */ { /* keep a reference on the actor, so that it remains valid * for the duration of the signal emission */ g_ptr_array_add (event_tree, g_object_ref (iter)); } iter = parent; } /* Capture: from top-level downwards */ for (i = event_tree->len - 1; i >= 0; i--) if (clutter_actor_event (g_ptr_array_index (event_tree, i), event, TRUE)) goto done; /* Bubble: from source upwards */ for (i = 0; i < event_tree->len; i++) if (clutter_actor_event (g_ptr_array_index (event_tree, i), event, FALSE)) goto done; done: g_ptr_array_free (event_tree, TRUE); } static void clutter_actor_set_child_transform_internal (ClutterActor *self, const ClutterMatrix *transform) { ClutterTransformInfo *info = _clutter_actor_get_transform_info (self); ClutterActorIter iter; ClutterActor *child; GObject *obj; gboolean was_set = info->child_transform_set; clutter_matrix_init_from_matrix (&info->child_transform, transform); /* if it's the identity matrix, we need to toggle the boolean flag */ info->child_transform_set = !cogl_matrix_is_identity (transform); /* we need to reset the transform_valid flag on each child */ clutter_actor_iter_init (&iter, self); while (clutter_actor_iter_next (&iter, &child)) child->priv->transform_valid = FALSE; clutter_actor_queue_redraw (self); obj = G_OBJECT (self); g_object_notify_by_pspec (obj, obj_props[PROP_CHILD_TRANSFORM]); if (was_set != info->child_transform_set) g_object_notify_by_pspec (obj, obj_props[PROP_CHILD_TRANSFORM_SET]); } /** * clutter_actor_set_child_transform: * @self: a #ClutterActor * @transform: (allow-none): a #ClutterMatrix, or %NULL * * Sets the transformation matrix to be applied to all the children * of @self prior to their own transformations. The default child * transformation is the identity matrix. * * If @transform is %NULL, the child transform will be unset. * * The #ClutterActor:child-transform property is animatable. * * Since: 1.12 */ void clutter_actor_set_child_transform (ClutterActor *self, const ClutterMatrix *transform) { const ClutterTransformInfo *info; ClutterMatrix new_transform; g_return_if_fail (CLUTTER_IS_ACTOR (self)); info = _clutter_actor_get_transform_info_or_defaults (self); if (transform != NULL) clutter_matrix_init_from_matrix (&new_transform, transform); else clutter_matrix_init_identity (&new_transform); _clutter_actor_create_transition (self, obj_props[PROP_CHILD_TRANSFORM], &info->child_transform, &new_transform); } /** * clutter_actor_get_child_transform: * @self: a #ClutterActor * @transform: (out caller-allocates): a #ClutterMatrix * * Retrieves the child transformation matrix set using * clutter_actor_set_child_transform(); if none is currently set, * the @transform matrix will be initialized to the identity matrix. * * Since: 1.12 */ void clutter_actor_get_child_transform (ClutterActor *self, ClutterMatrix *transform) { const ClutterTransformInfo *info; g_return_if_fail (CLUTTER_IS_ACTOR (self)); g_return_if_fail (transform != NULL); info = _clutter_actor_get_transform_info_or_defaults (self); if (info->child_transform_set) clutter_matrix_init_from_matrix (transform, &info->child_transform); else clutter_matrix_init_identity (transform); } static void clutter_actor_push_in_cloned_branch (ClutterActor *self) { ClutterActor *iter; for (iter = self->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) clutter_actor_push_in_cloned_branch (iter); self->priv->in_cloned_branch += 1; } static void clutter_actor_pop_in_cloned_branch (ClutterActor *self) { ClutterActor *iter; self->priv->in_cloned_branch -= 1; for (iter = self->priv->first_child; iter != NULL; iter = iter->priv->next_sibling) clutter_actor_pop_in_cloned_branch (iter); } void _clutter_actor_attach_clone (ClutterActor *actor, ClutterActor *clone) { ClutterActorPrivate *priv = actor->priv; g_assert (clone != NULL); if (priv->clones == NULL) priv->clones = g_hash_table_new (NULL, NULL); g_hash_table_add (priv->clones, clone); clutter_actor_push_in_cloned_branch (actor); } void _clutter_actor_detach_clone (ClutterActor *actor, ClutterActor *clone) { ClutterActorPrivate *priv = actor->priv; g_assert (clone != NULL); if (priv->clones == NULL || g_hash_table_lookup (priv->clones, clone) == NULL) return; clutter_actor_pop_in_cloned_branch (actor); g_hash_table_remove (priv->clones, clone); if (g_hash_table_size (priv->clones) == 0) { g_hash_table_unref (priv->clones); priv->clones = NULL; } } void _clutter_actor_queue_redraw_on_clones (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; GHashTableIter iter; gpointer key; if (priv->clones == NULL) return; g_hash_table_iter_init (&iter, priv->clones); while (g_hash_table_iter_next (&iter, &key, NULL)) clutter_actor_queue_redraw (key); } void _clutter_actor_queue_relayout_on_clones (ClutterActor *self) { ClutterActorPrivate *priv = self->priv; GHashTableIter iter; gpointer key; if (priv->clones == NULL) return; g_hash_table_iter_init (&iter, priv->clones); while (g_hash_table_iter_next (&iter, &key, NULL)) clutter_actor_queue_relayout (key); } /** * clutter_actor_has_mapped_clones: * @self: a #ClutterActor * * Returns whether a #ClutterActor has any mapped clones. * * Return: %TRUE if the actor has mapped clones, and %FALSE otherwise * * Since: 1.16 */ gboolean clutter_actor_has_mapped_clones (ClutterActor *self) { ClutterActorPrivate *priv; GHashTableIter iter; gpointer key; g_return_val_if_fail (CLUTTER_IS_ACTOR (self), FALSE); priv = self->priv; if (priv->clones == NULL) return FALSE; g_hash_table_iter_init (&iter, priv->clones); while (g_hash_table_iter_next (&iter, &key, NULL)) { if (CLUTTER_ACTOR_IS_MAPPED (key)) return TRUE; } return FALSE; } CoglFramebuffer * _clutter_actor_get_active_framebuffer (ClutterActor *self) { ClutterStage *stage; if (!CLUTTER_ACTOR_IN_PAINT (self)) { g_critical ("The active framebuffer of actor '%s' can only be " "retrieved during the paint sequence. Please, check " "your code.", _clutter_actor_get_debug_name (self)); return NULL; } stage = (ClutterStage *) _clutter_actor_get_stage_internal (self); if (stage == NULL) { g_critical ("The active framebuffer of actor '%s' is only available " "if the actor is associated to a ClutterStage.", _clutter_actor_get_debug_name (self)); return NULL; } return _clutter_stage_get_active_framebuffer (stage); }