180 lines
8.7 KiB
C
180 lines
8.7 KiB
C
/**
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* SECTION:clutter-constraint
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* @Title: ClutterConstraint
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* @Short_Description: Abstract class for constraints on position or size
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* @See_Also: #ClutterAction
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*
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* #ClutterConstraint is a base abstract class for modifiers of a #ClutterActor
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* position or size.
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*
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* A #ClutterConstraint sub-class should contain the logic for modifying
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* the position or size of the #ClutterActor to which it is applied, by
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* updating the actor's allocation. Each #ClutterConstraint can change the
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* allocation of the actor to which they are applied by overriding the
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* <function>update_allocation()</function> virtual function.
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*
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* <refsect2 id="ClutterConstraint-usage">
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* <title>Using Constraints</title>
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* <para>Constraints can be used with fixed layout managers, like
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* #ClutterFixedLayout, or with actors implicitly using a fixed layout
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* manager, like #ClutterGroup and #ClutterStage.</para>
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* <para>Constraints provide a way to build user interfaces by using
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* relations between #ClutterActor<!-- -->s, without explicit fixed
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* positioning and sizing, similarly to how fluid layout managers like
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* #ClutterBoxLayout and #ClutterTableLayout lay out their children.</para>
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* <para>Constraints are attached to a #ClutterActor, and are available
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* for inspection using clutter_actor_get_constraints().</para>
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* <para>Clutter provides different implementation of the #ClutterConstraint
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* abstract class, for instance:</para>
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* <variablelist>
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* <varlistentry>
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* <term>#ClutterAlignConstraint</term>
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* <listitem><simpara>this constraint can be used to align an actor
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* to another one, on either the horizontal or the vertical axis; the
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* #ClutterAlignConstraint uses a normalized offset between 0.0 (the
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* top or the left of the source actor, depending on the axis) and
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* 1.0 (the bottom or the right of the source actor, depending on the
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* axis).</simpara></listitem>
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* </varlistentry>
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* <varlistentry>
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* <term>#ClutterBindConstraint</term>
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* <listitem><simpara>this constraint binds the X, Y, width or height
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* of an actor to the corresponding position or size of a source
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* actor; it can also apply an offset.</simpara></listitem>
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* </varlistentry>
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* <varlistentry>
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* <term>#ClutterSnapConstraint</term>
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* <listitem><simpara>this constraint "snaps" together the edges of
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* two #ClutterActor<!-- -->s; if an actor uses two constraints on
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* both its horizontal or vertical edges then it can also expand to
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* fit the empty space.</simpara></listitem>
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* </varlistentry>
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* </variablelist>
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* <example id="ClutterConstraint-usage-example">
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* <title>Usage of constraints</title>
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* <para>The example below uses various #ClutterConstraint<!-- -->s to
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* lay out three actors on a resizable stage. Only the central actor has
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* an explicit size, and no actor has an explicit position.</para>
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* <orderedlist>
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* <listitem><simpara>The #ClutterRectangle with #ClutterActor:name
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* <emphasis>layerA</emphasis> is explicitly sized to 100 pixels by 25
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* pixels, and it's added to the #ClutterStage;</simpara></listitem>
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* <listitem><simpara>two #ClutterAlignConstraint<!-- -->s are used
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* to anchor <emphasis>layerA</emphasis> to the center of the stage,
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* by using 0.5 as the alignment #ClutterAlignConstraint:factor on
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* both the X and Y axis.</simpara></listitem>
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* <listitem><simpara>the #ClutterRectangle with #ClutterActor:name
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* <emphasis>layerB</emphasis> is added to the #ClutterStage with
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* no explicit size;</simpara></listitem>
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* <listitem><simpara>the #ClutterActor:x and #ClutterActor:width
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* of <emphasis>layerB</emphasis> are bound to the same properties
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* of <emphasis>layerA</emphasis> using two #ClutterBindConstraint
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* objects, thus keeping <emphasis>layerB</emphasis> aligned to
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* <emphasis>layerA</emphasis>;</simpara></listitem>
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* <listitem><simpara>the top edge of <emphasis>layerB</emphasis> is
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* snapped together with the bottom edge of <emphasis>layerA</emphasis>;
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* the bottom edge of <emphasis>layerB</emphasis> is also snapped
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* together with the bottom edge of the #ClutterStage; an offset is
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* given to the two #ClutterSnapConstraint<!-- -->s to allow for some
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* padding; since <emphasis>layerB</emphasis> is snapped between two
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* different #ClutterActor<!-- -->s, its height is stretched to match
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* the gap;</simpara></listitem>
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* <listitem><simpara>the #ClutterRectangle with #ClutterActor:name
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* <emphasis>layerC</emphasis> mirrors <emphasis>layerB</emphasis>,
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* snapping the top edge of the #ClutterStage to the top edge of
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* <emphasis>layerC</emphasis> and the top edge of
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* <emphasis>layerA</emphasis> to the bottom edge of
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* <emphasis>layerC</emphasis>;</simpara></listitem>
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* </orderedlist>
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* <figure id="constraints-example">
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* <title>Constraints</title>
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* <graphic fileref="constraints-example.png" format="PNG"/>
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* </figure>
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* <programlisting>
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*<xi:include xmlns:xi="http://www.w3.org/2001/XInclude" href="../../../../tests/interactive/test-snap-constraint.c" parse="text"><xi:fallback>FIXME: MISSING XINCLUDE CONTENT</xi:fallback></xi:include>
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* </programlisting>
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* <para>You can try resizing interactively the #ClutterStage and verify
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* that the three #ClutterActor<!-- -->s maintain the same position and
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* size relative to each other, and to the #ClutterStage.</para>
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* </example>
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* <warning><para>It's important to note that Clutter does not avoid loops
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* or competing constraints; if two or more #ClutterConstraint<!-- -->s
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* are operating on the same positional or dimensional attributes of an
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* actor, or if the constraints on two different actors depend on each
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* other, then the behavior is undefined.</para></warning>
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* </refsect2>
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*
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* <refsect2 id="ClutterConstraint-implementation">
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* <title>Implementing a ClutterConstraint</title>
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* <para>Creating a sub-class of #ClutterConstraint requires the
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* implementation of the <function>update_allocation()</function>
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* virtual function.</para>
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* <para>The <function>update_allocation()</function> virtual function
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* is called during the allocation sequence of a #ClutterActor, and
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* allows any #ClutterConstraint attached to that actor to modify the
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* allocation before it is passed to the <function>allocate()</function>
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* implementation.</para>
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* <para>The #ClutterActorBox passed to the
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* <function>update_allocation()</function> implementation contains the
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* original allocation of the #ClutterActor, plus the eventual modifications
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* applied by the other #ClutterConstraint<!-- -->s.</para>
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* <note><para>Constraints are queried in the same order as they were
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* applied using clutter_actor_add_constraint() or
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* clutter_actor_add_constraint_with_name().</para></note>
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* <para>It is not necessary for a #ClutterConstraint sub-class to chain
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* up to the parent's implementation.</para>
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* <para>If a #ClutterConstraint is parametrized - i.e. if it contains
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* properties that affect the way the constraint is implemented - it should
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* call clutter_actor_queue_relayout() on the actor to which it is attached
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* to whenever any parameter is changed. The actor to which it is attached
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* can be recovered at any point using clutter_actor_meta_get_actor().</para>
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* </refsect2>
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*
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* #ClutterConstraint is available since Clutter 1.4
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "clutter-constraint.h"
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#include "clutter-actor.h"
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#include "clutter-actor-meta-private.h"
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G_DEFINE_ABSTRACT_TYPE (ClutterConstraint,
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clutter_constraint,
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CLUTTER_TYPE_ACTOR_META);
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static void
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constraint_update_allocation (ClutterConstraint *constraint,
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ClutterActor *actor,
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ClutterActorBox *allocation)
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{
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}
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static void
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clutter_constraint_class_init (ClutterConstraintClass *klass)
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{
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klass->update_allocation = constraint_update_allocation;
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}
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static void
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clutter_constraint_init (ClutterConstraint *self)
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{
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}
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void
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_clutter_constraint_update_allocation (ClutterConstraint *constraint,
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ClutterActor *actor,
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ClutterActorBox *allocation)
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{
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g_return_if_fail (CLUTTER_IS_CONSTRAINT (constraint));
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g_return_if_fail (CLUTTER_IS_ACTOR (actor));
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g_return_if_fail (allocation != NULL);
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CLUTTER_CONSTRAINT_GET_CLASS (constraint)->update_allocation (constraint,
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actor,
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allocation);
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}
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