mutter/src/compositor/meta-window-actor.c

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/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
/**
* SECTION:meta-window-actor
* @title: MetaWindowActor
* @short_description: An actor representing a top-level window in the scene graph
*/
#include <config.h>
#include <math.h>
#include <X11/extensions/Xcomposite.h>
#include <X11/extensions/Xdamage.h>
#include <X11/extensions/Xrender.h>
#include <clutter/x11/clutter-x11.h>
#include <cogl/cogl-texture-pixmap-x11.h>
#include <gdk/gdk.h> /* for gdk_rectangle_union() */
#include <string.h>
#include <meta/display.h>
#include <meta/errors.h>
#include "frame.h"
#include <meta/window.h>
#include <meta/meta-shaped-texture.h>
#include "xprops.h"
#include "compositor-private.h"
#include "meta-shaped-texture-private.h"
#include "meta-shadow-factory-private.h"
#include "meta-window-actor-private.h"
#include "meta-texture-rectangle.h"
#include "region-utils.h"
#include "meta-wayland-private.h"
#include "monitor-private.h"
enum {
POSITION_CHANGED,
SIZE_CHANGED,
LAST_SIGNAL
};
static guint signals[LAST_SIGNAL] = {0};
struct _MetaWindowActorPrivate
{
MetaWindow *window;
Window xwindow;
MetaScreen *screen;
ClutterActor *actor;
/* MetaShadowFactory only caches shadows that are actually in use;
* to avoid unnecessary recomputation we do two things: 1) we store
* both a focused and unfocused shadow for the window. If the window
* doesn't have different focused and unfocused shadow parameters,
* these will be the same. 2) when the shadow potentially changes we
* don't immediately unreference the old shadow, we just flag it as
* dirty and recompute it when we next need it (recompute_focused_shadow,
* recompute_unfocused_shadow.) Because of our extraction of
* size-invariant window shape, we'll often find that the new shadow
* is the same as the old shadow.
*/
MetaShadow *focused_shadow;
MetaShadow *unfocused_shadow;
guint8 opacity;
/* A region that matches the shape of the window, including frame bounds */
cairo_region_t *shape_region;
/* If the window has an input shape, a region that matches the shape */
cairo_region_t *input_region;
/* The opaque region, from _NET_WM_OPAQUE_REGION, intersected with
* the shape region. */
cairo_region_t *opaque_region;
/* The region we should clip to when painting the shadow */
cairo_region_t *shadow_clip;
/* The region that is visible, used to optimize out redraws */
cairo_region_t *unobscured_region;
guint send_frame_messages_timer;
gint64 frame_drawn_time;
/* Extracted size-invariant shape used for shadows */
MetaWindowShape *shadow_shape;
gint last_width;
gint last_height;
gint freeze_count;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
char * shadow_class;
/*
* These need to be counters rather than flags, since more plugins
* can implement same effect; the practicality of stacking effects
* might be dubious, but we have to at least handle it correctly.
*/
gint minimize_in_progress;
gint maximize_in_progress;
gint unmaximize_in_progress;
gint map_in_progress;
gint destroy_in_progress;
/* List of FrameData for recent frames */
GList *frames;
Pixmap back_pixmap; /* Not used in wayland compositor mode */
Damage damage; /* Not used in wayland compositor mode */
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
guint visible : 1;
guint mapped : 1;
guint argb32 : 1;
guint disposed : 1;
guint redecorating : 1;
/* If set, the client needs to be sent a _NET_WM_FRAME_DRAWN
* client message using the most recent frame in ->frames */
guint needs_frame_drawn : 1;
guint repaint_scheduled : 1;
guint needs_reshape : 1;
guint recompute_focused_shadow : 1;
guint recompute_unfocused_shadow : 1;
guint needs_destroy : 1;
guint no_shadow : 1;
/*
* None of these are used in wayland compositor mode...
*/
guint needs_damage_all : 1;
guint received_x11_damage : 1;
guint needs_pixmap : 1;
guint x11_size_changed : 1;
guint updates_frozen : 1;
guint unredirected : 1;
/* This is used to detect fullscreen windows that need to be unredirected */
guint full_damage_frames_count;
guint does_full_damage : 1;
};
typedef struct _FrameData FrameData;
struct _FrameData
{
int64_t frame_counter;
guint64 sync_request_serial;
gint64 frame_drawn_time;
};
enum
{
PROP_META_WINDOW = 1,
PROP_META_SCREEN,
PROP_X_WINDOW,
PROP_NO_SHADOW,
PROP_SHADOW_CLASS
};
static void meta_window_actor_dispose (GObject *object);
static void meta_window_actor_finalize (GObject *object);
static void meta_window_actor_constructed (GObject *object);
static void meta_window_actor_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec);
static void meta_window_actor_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec);
static void meta_window_actor_paint (ClutterActor *actor);
static gboolean meta_window_actor_get_paint_volume (ClutterActor *actor,
ClutterPaintVolume *volume);
static void meta_window_actor_detach_x11_pixmap (MetaWindowActor *self);
static gboolean meta_window_actor_has_shadow (MetaWindowActor *self);
static void meta_window_actor_handle_updates (MetaWindowActor *self);
static void check_needs_reshape (MetaWindowActor *self);
static void do_send_frame_drawn (MetaWindowActor *self, FrameData *frame);
static void do_send_frame_timings (MetaWindowActor *self,
FrameData *frame,
gint refresh_interval,
gint64 presentation_time);
G_DEFINE_TYPE (MetaWindowActor, meta_window_actor, CLUTTER_TYPE_ACTOR);
static void
frame_data_free (FrameData *frame)
{
g_slice_free (FrameData, frame);
}
static void
meta_window_actor_class_init (MetaWindowActorClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
ClutterActorClass *actor_class = CLUTTER_ACTOR_CLASS (klass);
GParamSpec *pspec;
g_type_class_add_private (klass, sizeof (MetaWindowActorPrivate));
object_class->dispose = meta_window_actor_dispose;
object_class->finalize = meta_window_actor_finalize;
object_class->set_property = meta_window_actor_set_property;
object_class->get_property = meta_window_actor_get_property;
object_class->constructed = meta_window_actor_constructed;
actor_class->paint = meta_window_actor_paint;
actor_class->get_paint_volume = meta_window_actor_get_paint_volume;
pspec = g_param_spec_object ("meta-window",
"MetaWindow",
"The displayed MetaWindow",
META_TYPE_WINDOW,
G_PARAM_READWRITE | G_PARAM_CONSTRUCT);
g_object_class_install_property (object_class,
PROP_META_WINDOW,
pspec);
pspec = g_param_spec_pointer ("meta-screen",
"MetaScreen",
"MetaScreen",
G_PARAM_READWRITE | G_PARAM_CONSTRUCT);
g_object_class_install_property (object_class,
PROP_META_SCREEN,
pspec);
pspec = g_param_spec_ulong ("x-window",
"Window",
"Window",
0,
G_MAXULONG,
0,
G_PARAM_READWRITE | G_PARAM_CONSTRUCT);
g_object_class_install_property (object_class,
PROP_X_WINDOW,
pspec);
pspec = g_param_spec_boolean ("no-shadow",
"No shadow",
"Do not add shaddow to this window",
FALSE,
G_PARAM_READWRITE);
g_object_class_install_property (object_class,
PROP_NO_SHADOW,
pspec);
pspec = g_param_spec_string ("shadow-class",
"Name of the shadow class for this window.",
"NULL means to use the default shadow class for this window type",
NULL,
G_PARAM_READWRITE);
g_object_class_install_property (object_class,
PROP_SHADOW_CLASS,
pspec);
signals[POSITION_CHANGED] =
g_signal_new ("position-changed",
G_TYPE_FROM_CLASS (klass),
G_SIGNAL_RUN_LAST,
0, NULL, NULL, NULL,
G_TYPE_NONE, 0);
signals[SIZE_CHANGED] =
g_signal_new ("size-changed",
G_TYPE_FROM_CLASS (klass),
G_SIGNAL_RUN_LAST,
0, NULL, NULL, NULL,
G_TYPE_NONE, 0);
}
static void
meta_window_actor_init (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv;
priv = self->priv = G_TYPE_INSTANCE_GET_PRIVATE (self,
META_TYPE_WINDOW_ACTOR,
MetaWindowActorPrivate);
priv->opacity = 0xff;
priv->shadow_class = NULL;
}
static void
window_decorated_notify (MetaWindow *mw,
GParamSpec *arg1,
gpointer data)
{
MetaWindowActor *self = META_WINDOW_ACTOR (data);
MetaWindowActorPrivate *priv = self->priv;
MetaFrame *frame = meta_window_get_frame (mw);
MetaScreen *screen = priv->screen;
MetaDisplay *display = meta_screen_get_display (screen);
Display *xdisplay = meta_display_get_xdisplay (display);
Window new_xwindow;
/*
* Basically, we have to reconstruct the the internals of this object
* from scratch, as everything has changed.
*/
priv->redecorating = TRUE;
if (frame)
new_xwindow = meta_frame_get_xwindow (frame);
else
new_xwindow = meta_window_get_xwindow (mw);
if (!meta_is_wayland_compositor ())
{
meta_window_actor_detach_x11_pixmap (self);
/*
* First of all, clean up any resources we are currently using and will
* be replacing.
*/
if (priv->damage != None)
{
meta_error_trap_push (display);
XDamageDestroy (xdisplay, priv->damage);
meta_error_trap_pop (display);
priv->damage = None;
}
}
priv->xwindow = new_xwindow;
/*
* Recreate the contents.
*/
meta_window_actor_constructed (G_OBJECT (self));
}
static void
window_appears_focused_notify (MetaWindow *mw,
GParamSpec *arg1,
gpointer data)
{
clutter_actor_queue_redraw (CLUTTER_ACTOR (data));
}
static void
meta_window_actor_constructed (GObject *object)
{
MetaWindowActor *self = META_WINDOW_ACTOR (object);
MetaWindowActorPrivate *priv = self->priv;
MetaScreen *screen = priv->screen;
MetaDisplay *display = meta_screen_get_display (screen);
Window xwindow = priv->xwindow;
MetaWindow *window = priv->window;
Display *xdisplay = meta_display_get_xdisplay (display);
if (!meta_is_wayland_compositor ())
priv->damage = XDamageCreate (xdisplay, xwindow,
XDamageReportBoundingBox);
if (window->client_type == META_WINDOW_CLIENT_TYPE_X11)
{
XRenderPictFormat *format;
format = XRenderFindVisualFormat (xdisplay, window->xvisual);
if (format && format->type == PictTypeDirect && format->direct.alphaMask)
priv->argb32 = TRUE;
}
else
{
/* XXX: parse shm formats to determine argb32 */
priv->argb32 = TRUE;
}
if (!priv->actor)
{
if (meta_is_wayland_compositor ())
priv->actor = meta_shaped_texture_new_with_wayland_surface (window->surface);
else
priv->actor = meta_shaped_texture_new_with_xwindow (xwindow);
clutter_actor_add_child (CLUTTER_ACTOR (self), priv->actor);
if (meta_is_wayland_compositor ())
clutter_actor_set_reactive (priv->actor, TRUE);
/*
* Since we are holding a pointer to this actor independently of the
* ClutterContainer internals, and provide a public API to access it,
* add a reference here, so that if someone is messing about with us
* via the container interface, we do not end up with a dangling pointer.
* We will release it in dispose().
*/
g_object_ref (priv->actor);
g_signal_connect_object (window, "notify::decorated",
G_CALLBACK (window_decorated_notify), self, 0);
g_signal_connect_object (window, "notify::appears-focused",
G_CALLBACK (window_appears_focused_notify), self, 0);
}
else
{
/*
* This is the case where existing window is gaining/loosing frame.
* Just ensure the actor is top most (i.e., above shadow).
*/
clutter_actor_set_child_above_sibling (CLUTTER_ACTOR (self), priv->actor, NULL);
}
meta_window_actor_update_opacity (self);
/* Start off with empty regions to maintain the invariant that
these regions are always set */
priv->shape_region = cairo_region_create ();
priv->input_region = cairo_region_create ();
}
static void
meta_window_actor_dispose (GObject *object)
{
MetaWindowActor *self = META_WINDOW_ACTOR (object);
MetaWindowActorPrivate *priv = self->priv;
MetaScreen *screen;
MetaDisplay *display;
Display *xdisplay;
MetaCompScreen *info;
if (priv->disposed)
return;
priv->disposed = TRUE;
screen = priv->screen;
info = meta_screen_get_compositor_data (screen);
if (!meta_is_wayland_compositor ())
meta_window_actor_detach_x11_pixmap (self);
if (priv->send_frame_messages_timer != 0)
{
g_source_remove (priv->send_frame_messages_timer);
priv->send_frame_messages_timer = 0;
}
g_clear_pointer (&priv->unobscured_region, cairo_region_destroy);
g_clear_pointer (&priv->shape_region, cairo_region_destroy);
g_clear_pointer (&priv->input_region, cairo_region_destroy);
g_clear_pointer (&priv->opaque_region, cairo_region_destroy);
g_clear_pointer (&priv->shadow_clip, cairo_region_destroy);
g_clear_pointer (&priv->shadow_class, g_free);
g_clear_pointer (&priv->focused_shadow, meta_shadow_unref);
g_clear_pointer (&priv->unfocused_shadow, meta_shadow_unref);
g_clear_pointer (&priv->shadow_shape, meta_window_shape_unref);
if (!meta_is_wayland_compositor () && priv->damage != None)
{
display = meta_screen_get_display (screen);
xdisplay = meta_display_get_xdisplay (display);
meta_error_trap_push (display);
XDamageDestroy (xdisplay, priv->damage);
meta_error_trap_pop (display);
priv->damage = None;
}
info->windows = g_list_remove (info->windows, (gconstpointer) self);
g_clear_object (&priv->window);
/*
* Release the extra reference we took on the actor.
*/
g_clear_object (&priv->actor);
G_OBJECT_CLASS (meta_window_actor_parent_class)->dispose (object);
}
static void
meta_window_actor_finalize (GObject *object)
{
MetaWindowActor *self = META_WINDOW_ACTOR (object);
MetaWindowActorPrivate *priv = self->priv;
g_list_free_full (priv->frames, (GDestroyNotify) frame_data_free);
G_OBJECT_CLASS (meta_window_actor_parent_class)->finalize (object);
}
static void
meta_window_actor_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
MetaWindowActor *self = META_WINDOW_ACTOR (object);
MetaWindowActorPrivate *priv = self->priv;
switch (prop_id)
{
case PROP_META_WINDOW:
{
if (priv->window)
g_object_unref (priv->window);
priv->window = g_value_dup_object (value);
}
break;
case PROP_META_SCREEN:
priv->screen = g_value_get_pointer (value);
break;
case PROP_X_WINDOW:
priv->xwindow = g_value_get_ulong (value);
break;
case PROP_NO_SHADOW:
{
gboolean newv = g_value_get_boolean (value);
if (newv == priv->no_shadow)
return;
priv->no_shadow = newv;
meta_window_actor_invalidate_shadow (self);
}
break;
case PROP_SHADOW_CLASS:
{
const char *newv = g_value_get_string (value);
if (g_strcmp0 (newv, priv->shadow_class) == 0)
return;
g_free (priv->shadow_class);
priv->shadow_class = g_strdup (newv);
meta_window_actor_invalidate_shadow (self);
}
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
static void
meta_window_actor_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
MetaWindowActorPrivate *priv = META_WINDOW_ACTOR (object)->priv;
switch (prop_id)
{
case PROP_META_WINDOW:
g_value_set_object (value, priv->window);
break;
case PROP_META_SCREEN:
g_value_set_pointer (value, priv->screen);
break;
case PROP_X_WINDOW:
g_value_set_ulong (value, priv->xwindow);
break;
case PROP_NO_SHADOW:
g_value_set_boolean (value, priv->no_shadow);
break;
case PROP_SHADOW_CLASS:
g_value_set_string (value, priv->shadow_class);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
static const char *
meta_window_actor_get_shadow_class (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
if (priv->shadow_class != NULL)
return priv->shadow_class;
else
{
MetaWindowType window_type = meta_window_get_window_type (priv->window);
switch (window_type)
{
case META_WINDOW_DROPDOWN_MENU:
return "dropdown-menu";
case META_WINDOW_POPUP_MENU:
return "popup-menu";
default:
{
MetaFrameType frame_type = meta_window_get_frame_type (priv->window);
return meta_frame_type_to_string (frame_type);
}
}
}
}
static void
meta_window_actor_get_shadow_params (MetaWindowActor *self,
gboolean appears_focused,
MetaShadowParams *params)
{
const char *shadow_class = meta_window_actor_get_shadow_class (self);
meta_shadow_factory_get_params (meta_shadow_factory_get_default (),
shadow_class, appears_focused,
params);
}
void
meta_window_actor_get_shape_bounds (MetaWindowActor *self,
cairo_rectangle_int_t *bounds)
{
MetaWindowActorPrivate *priv = self->priv;
cairo_region_get_extents (priv->shape_region, bounds);
}
static void
meta_window_actor_get_shadow_bounds (MetaWindowActor *self,
gboolean appears_focused,
cairo_rectangle_int_t *bounds)
{
MetaWindowActorPrivate *priv = self->priv;
MetaShadow *shadow = appears_focused ? priv->focused_shadow : priv->unfocused_shadow;
cairo_rectangle_int_t shape_bounds;
MetaShadowParams params;
meta_window_actor_get_shape_bounds (self, &shape_bounds);
meta_window_actor_get_shadow_params (self, appears_focused, &params);
meta_shadow_get_bounds (shadow,
params.x_offset + shape_bounds.x,
params.y_offset + shape_bounds.y,
shape_bounds.width,
shape_bounds.height,
bounds);
}
/* If we have an ARGB32 window that we decorate with a frame, it's
* probably something like a translucent terminal - something where
* the alpha channel represents transparency rather than a shape. We
* don't want to show the shadow through the translucent areas since
* the shadow is wrong for translucent windows (it should be
* translucent itself and colored), and not only that, will /look/
* horribly wrong - a misplaced big black blob. As a hack, what we
* want to do is just draw the shadow as normal outside the frame, and
* inside the frame draw no shadow. This is also not even close to
* the right result, but looks OK. We also apply this approach to
* windows set to be partially translucent with _NET_WM_WINDOW_OPACITY.
*/
static gboolean
clip_shadow_under_window (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
return (priv->argb32 || priv->opacity != 0xff) && priv->window->frame;
}
static void
meta_window_actor_paint (ClutterActor *actor)
{
MetaWindowActor *self = META_WINDOW_ACTOR (actor);
MetaWindowActorPrivate *priv = self->priv;
gboolean appears_focused = meta_window_appears_focused (priv->window);
MetaShadow *shadow = appears_focused ? priv->focused_shadow : priv->unfocused_shadow;
/* This window got damage when obscured; we set up a timer
* to send frame completion events, but since we're drawing
* the window now (for some other reason) cancel the timer
* and send the completion events normally */
if (priv->send_frame_messages_timer != 0)
{
g_source_remove (priv->send_frame_messages_timer);
priv->send_frame_messages_timer = 0;
}
if (shadow != NULL)
{
MetaShadowParams params;
cairo_rectangle_int_t shape_bounds;
cairo_region_t *clip = priv->shadow_clip;
meta_window_actor_get_shape_bounds (self, &shape_bounds);
meta_window_actor_get_shadow_params (self, appears_focused, &params);
/* The frame bounds are already subtracted from priv->shadow_clip
* if that exists.
*/
if (!clip && clip_shadow_under_window (self))
{
cairo_region_t *frame_bounds = meta_window_get_frame_bounds (priv->window);
cairo_rectangle_int_t bounds;
meta_window_actor_get_shadow_bounds (self, appears_focused, &bounds);
clip = cairo_region_create_rectangle (&bounds);
cairo_region_subtract (clip, frame_bounds);
}
meta_shadow_paint (shadow,
params.x_offset + shape_bounds.x,
params.y_offset + shape_bounds.y,
shape_bounds.width,
shape_bounds.height,
(clutter_actor_get_paint_opacity (actor) * params.opacity * priv->opacity) / (255 * 255),
clip,
clip_shadow_under_window (self)); /* clip_strictly - not just as an optimization */
if (clip && clip != priv->shadow_clip)
cairo_region_destroy (clip);
}
CLUTTER_ACTOR_CLASS (meta_window_actor_parent_class)->paint (actor);
}
static gboolean
meta_window_actor_get_paint_volume (ClutterActor *actor,
ClutterPaintVolume *volume)
{
MetaWindowActor *self = META_WINDOW_ACTOR (actor);
MetaWindowActorPrivate *priv = self->priv;
cairo_rectangle_int_t bounds;
gboolean appears_focused = meta_window_appears_focused (priv->window);
ClutterVertex origin;
/* The paint volume is computed before paint functions are called
* so our bounds might not be updated yet. Force an update. */
meta_window_actor_handle_updates (self);
meta_window_actor_get_shape_bounds (self, &bounds);
if (appears_focused ? priv->focused_shadow : priv->unfocused_shadow)
{
cairo_rectangle_int_t shadow_bounds;
/* We could compute an full clip region as we do for the window
* texture, but the shadow is relatively cheap to draw, and
* a little more complex to clip, so we just catch the case where
* the shadow is completely obscured and doesn't need to be drawn
* at all.
*/
meta_window_actor_get_shadow_bounds (self, appears_focused, &shadow_bounds);
gdk_rectangle_union (&bounds, &shadow_bounds, &bounds);
}
if (priv->unobscured_region)
cairo_region_intersect_rectangle (priv->unobscured_region, &bounds);
origin.x = bounds.x;
origin.y = bounds.y;
origin.z = 0.0f;
clutter_paint_volume_set_origin (volume, &origin);
clutter_paint_volume_set_width (volume, bounds.width);
clutter_paint_volume_set_height (volume, bounds.height);
return TRUE;
}
static gboolean
meta_window_actor_has_shadow (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaWindowType window_type = meta_window_get_window_type (priv->window);
if (priv->no_shadow)
return FALSE;
/* Leaving out shadows for maximized and fullscreen windows is an effeciency
* win and also prevents the unsightly effect of the shadow of maximized
* window appearing on an adjacent window */
if ((meta_window_get_maximized (priv->window) == (META_MAXIMIZE_HORIZONTAL | META_MAXIMIZE_VERTICAL)) ||
meta_window_is_fullscreen (priv->window))
return FALSE;
/*
* If we have two snap-tiled windows, we don't want the shadow to obstruct
* the other window.
*/
if (meta_window_get_tile_match (priv->window))
return FALSE;
/*
* Always put a shadow around windows with a frame - This should override
* the restriction about not putting a shadow around ARGB windows.
*/
if (meta_window_get_frame (priv->window))
return TRUE;
/*
* Do not add shadows to ARGB windows; eventually we should generate a
* shadow from the input shape for such windows.
*/
if (priv->argb32 || priv->opacity != 0xff)
return FALSE;
/*
* Add shadows to override redirect windows (e.g., Gtk menus).
*/
if (priv->window->override_redirect)
return TRUE;
/*
* Don't put shadow around DND icon windows
*/
if (window_type == META_WINDOW_DND ||
window_type == META_WINDOW_DESKTOP)
return FALSE;
if (window_type == META_WINDOW_MENU
#if 0
|| window_type == META_WINDOW_DROPDOWN_MENU
#endif
)
return TRUE;
#if 0
if (window_type == META_WINDOW_TOOLTIP)
return TRUE;
#endif
return FALSE;
}
/**
* meta_window_actor_get_x_window: (skip)
* @self: a #MetaWindowActor
*
*/
Window
meta_window_actor_get_x_window (MetaWindowActor *self)
{
if (!self)
return None;
return self->priv->xwindow;
}
/**
* meta_window_actor_get_meta_window:
* @self: a #MetaWindowActor
*
2011-10-17 22:10:00 -04:00
* Gets the #MetaWindow object that the the #MetaWindowActor is displaying
*
2011-10-17 22:10:00 -04:00
* Return value: (transfer none): the displayed #MetaWindow
*/
MetaWindow *
meta_window_actor_get_meta_window (MetaWindowActor *self)
{
return self->priv->window;
}
/**
* meta_window_actor_get_texture:
* @self: a #MetaWindowActor
*
* Gets the ClutterActor that is used to display the contents of the window
*
2011-10-17 22:10:00 -04:00
* Return value: (transfer none): the #ClutterActor for the contents
*/
ClutterActor *
meta_window_actor_get_texture (MetaWindowActor *self)
{
return self->priv->actor;
}
/**
* meta_window_actor_is_destroyed:
* @self: a #MetaWindowActor
*
* Gets whether the X window that the actor was displaying has been destroyed
*
* Return value: %TRUE when the window is destroyed, otherwise %FALSE
*/
gboolean
meta_window_actor_is_destroyed (MetaWindowActor *self)
{
return self->priv->disposed;
}
gboolean
meta_window_actor_is_override_redirect (MetaWindowActor *self)
{
return meta_window_is_override_redirect (self->priv->window);
}
/**
* meta_window_actor_get_workspace:
* @self: #MetaWindowActor
*
* Returns the index of workspace on which this window is located; if the
* window is sticky, or is not currently located on any workspace, returns -1.
* This function is deprecated and should not be used in newly written code;
* meta_window_get_workspace() instead.
*
* Return value: (transfer none): index of workspace on which this window is
* located.
*/
gint
meta_window_actor_get_workspace (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv;
MetaWorkspace *workspace;
if (!self)
return -1;
priv = self->priv;
if (!priv->window || meta_window_is_on_all_workspaces (priv->window))
return -1;
workspace = meta_window_get_workspace (priv->window);
if (!workspace)
return -1;
return meta_workspace_index (workspace);
}
gboolean
meta_window_actor_showing_on_its_workspace (MetaWindowActor *self)
{
if (!self)
return FALSE;
/* If override redirect: */
if (!self->priv->window)
return TRUE;
return meta_window_showing_on_its_workspace (self->priv->window);
}
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
static void
meta_window_actor_freeze (MetaWindowActor *self)
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
{
if (!meta_is_wayland_compositor ())
self->priv->freeze_count++;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
}
static
gboolean send_frame_messages_timeout (gpointer data)
{
MetaWindowActor *self = (MetaWindowActor *) data;
MetaWindowActorPrivate *priv = self->priv;
FrameData *frame = g_slice_new0 (FrameData);
frame->sync_request_serial = priv->window->sync_request_serial;
do_send_frame_drawn (self, frame);
do_send_frame_timings (self, frame, 0, 0);
priv->needs_frame_drawn = FALSE;
priv->send_frame_messages_timer = 0;
frame_data_free (frame);
return FALSE;
}
static void
queue_send_frame_messages_timeout (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaScreen *screen = priv->screen;
MetaDisplay *display = meta_screen_get_display (screen);
gint64 current_time = meta_compositor_monotonic_time_to_server_time (display, g_get_monotonic_time ());
MetaMonitorManager *monitor_manager = meta_monitor_manager_get ();
MetaWindow *window = priv->window;
MetaOutput *outputs;
guint n_outputs, i;
float refresh_rate = 60.0f;
gint interval, offset;
outputs = meta_monitor_manager_get_outputs (monitor_manager, &n_outputs);
for (i = 0; i < n_outputs; i++)
{
if (outputs[i].output_id == window->monitor->output_id && outputs[i].crtc)
{
refresh_rate = outputs[i].crtc->current_mode->refresh_rate;
break;
}
}
interval = (int)(1000000 / refresh_rate) * 6;
offset = MAX (0, priv->frame_drawn_time + interval - current_time) / 1000;
/* The clutter master clock source has already been added with META_PRIORITY_REDRAW,
* so the timer will run *after* the clutter frame handling, if a frame is ready
* to be drawn when the timer expires.
*/
priv->send_frame_messages_timer = g_timeout_add_full (META_PRIORITY_REDRAW, offset, send_frame_messages_timeout, self, NULL);
}
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
static void
meta_window_actor_damage_all (MetaWindowActor *self)
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
{
MetaWindowActorPrivate *priv = self->priv;
CoglTexture *texture;
gboolean redraw_queued;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (!priv->needs_damage_all)
return;
texture = meta_shaped_texture_get_texture (META_SHAPED_TEXTURE (priv->actor));
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (!priv->mapped || priv->needs_pixmap)
return;
redraw_queued = meta_shaped_texture_update_area (META_SHAPED_TEXTURE (priv->actor),
0, 0,
cogl_texture_get_width (texture),
cogl_texture_get_height (texture),
clutter_actor_has_mapped_clones (priv->actor) ?
NULL : priv->unobscured_region);
priv->repaint_scheduled = priv->repaint_scheduled || redraw_queued;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
priv->needs_damage_all = FALSE;
}
static void
meta_window_actor_thaw (MetaWindowActor *self)
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
{
if (!meta_is_wayland_compositor ())
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
{
self->priv->freeze_count--;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (G_UNLIKELY (self->priv->freeze_count < 0))
{
g_warning ("Error in freeze/thaw accounting.");
self->priv->freeze_count = 0;
return;
}
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (self->priv->freeze_count)
return;
/* We sometimes ignore moves and resizes on frozen windows */
meta_window_actor_sync_actor_geometry (self, FALSE);
/* We do this now since we might be going right back into the
* frozen state */
meta_window_actor_handle_updates (self);
/* Since we ignore damage events while a window is frozen for certain effects
* we may need to issue an update_area() covering the whole pixmap if we
* don't know what real damage has happened. */
if (self->priv->needs_damage_all)
meta_window_actor_damage_all (self);
}
}
void
meta_window_actor_queue_frame_drawn (MetaWindowActor *self,
gboolean no_delay_frame)
{
MetaWindowActorPrivate *priv = self->priv;
FrameData *frame = g_slice_new0 (FrameData);
priv->needs_frame_drawn = TRUE;
frame->sync_request_serial = priv->window->sync_request_serial;
priv->frames = g_list_prepend (priv->frames, frame);
if (no_delay_frame)
{
ClutterActor *stage = clutter_actor_get_stage (CLUTTER_ACTOR (self));
clutter_stage_skip_sync_delay (CLUTTER_STAGE (stage));
}
if (!priv->repaint_scheduled)
{
gboolean is_obscured = FALSE;
/* Find out whether the window is completly obscured */
if (priv->unobscured_region)
{
cairo_region_t *unobscured_window_region;
unobscured_window_region = cairo_region_copy (priv->shape_region);
cairo_region_intersect (unobscured_window_region, priv->unobscured_region);
is_obscured = cairo_region_is_empty (unobscured_window_region);
cairo_region_destroy (unobscured_window_region);
}
/* A frame was marked by the client without actually doing any
* damage or any unobscured, or while we had the window frozen
* (e.g. during an interactive resize.) We need to make sure that the
* pre_paint/post_paint functions get called, enabling us to
* send a _NET_WM_FRAME_DRAWN. We do a 1-pixel redraw to get
* consistent timing with non-empty frames. If the window
* is completely obscured we fire off the send_frame_messages timeout.
*/
if (is_obscured)
{
queue_send_frame_messages_timeout (self);
}
else if (priv->mapped && (!meta_is_wayland_compositor () || !priv->needs_pixmap))
{
const cairo_rectangle_int_t clip = { 0, 0, 1, 1 };
clutter_actor_queue_redraw_with_clip (priv->actor, &clip);
priv->repaint_scheduled = TRUE;
}
}
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
}
gboolean
meta_window_actor_effect_in_progress (MetaWindowActor *self)
{
return (self->priv->minimize_in_progress ||
self->priv->maximize_in_progress ||
self->priv->unmaximize_in_progress ||
self->priv->map_in_progress ||
self->priv->destroy_in_progress);
}
static gboolean
is_frozen (MetaWindowActor *self)
{
return self->priv->freeze_count ? TRUE : FALSE;
}
static void
meta_window_actor_queue_create_x11_pixmap (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
priv->needs_pixmap = TRUE;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (!priv->mapped)
return;
if (is_frozen (self))
return;
/* This will cause the compositor paint function to be run
* if the actor is visible or a clone of the actor is visible.
* if the actor isn't visible in any way, then we don't
* need to repair the window anyways, and can wait until
* the stage is redrawn for some other reason
*
* The compositor paint function repairs all windows.
*/
clutter_actor_queue_redraw (priv->actor);
}
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
static gboolean
is_freeze_thaw_effect (gulong event)
{
switch (event)
{
case META_PLUGIN_DESTROY:
case META_PLUGIN_MAXIMIZE:
case META_PLUGIN_UNMAXIMIZE:
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
return TRUE;
break;
default:
return FALSE;
}
}
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
static gboolean
start_simple_effect (MetaWindowActor *self,
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
gulong event)
{
MetaWindowActorPrivate *priv = self->priv;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
MetaCompScreen *info = meta_screen_get_compositor_data (priv->screen);
gint *counter = NULL;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
gboolean use_freeze_thaw = FALSE;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (!info->plugin_mgr)
return FALSE;
switch (event)
{
case META_PLUGIN_MINIMIZE:
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
counter = &priv->minimize_in_progress;
break;
case META_PLUGIN_MAP:
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
counter = &priv->map_in_progress;
break;
case META_PLUGIN_DESTROY:
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
counter = &priv->destroy_in_progress;
break;
case META_PLUGIN_UNMAXIMIZE:
case META_PLUGIN_MAXIMIZE:
case META_PLUGIN_SWITCH_WORKSPACE:
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
g_assert_not_reached ();
break;
}
g_assert (counter);
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
use_freeze_thaw = is_freeze_thaw_effect (event);
if (use_freeze_thaw)
meta_window_actor_freeze (self);
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
(*counter)++;
if (!meta_plugin_manager_event_simple (info->plugin_mgr,
self,
event))
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
{
(*counter)--;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (use_freeze_thaw)
meta_window_actor_thaw (self);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
return FALSE;
}
return TRUE;
}
static void
meta_window_actor_after_effects (MetaWindowActor *self)
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
{
MetaWindowActorPrivate *priv = self->priv;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (priv->needs_destroy)
{
clutter_actor_destroy (CLUTTER_ACTOR (self));
return;
}
meta_window_actor_sync_visibility (self);
meta_window_actor_sync_actor_geometry (self, FALSE);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (!meta_is_wayland_compositor ())
{
if (!meta_window_is_mapped (priv->window))
meta_window_actor_detach_x11_pixmap (self);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (priv->needs_pixmap)
clutter_actor_queue_redraw (priv->actor);
}
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
}
void
meta_window_actor_effect_completed (MetaWindowActor *self,
gulong event)
{
MetaWindowActorPrivate *priv = self->priv;
/* NB: Keep in mind that when effects get completed it possible
* that the corresponding MetaWindow may have be been destroyed.
* In this case priv->window will == NULL */
switch (event)
{
case META_PLUGIN_MINIMIZE:
{
priv->minimize_in_progress--;
if (priv->minimize_in_progress < 0)
{
g_warning ("Error in minimize accounting.");
priv->minimize_in_progress = 0;
}
}
break;
case META_PLUGIN_MAP:
/*
* Make sure that the actor is at the correct place in case
* the plugin fscked.
*/
priv->map_in_progress--;
if (priv->map_in_progress < 0)
{
g_warning ("Error in map accounting.");
priv->map_in_progress = 0;
}
break;
case META_PLUGIN_DESTROY:
priv->destroy_in_progress--;
if (priv->destroy_in_progress < 0)
{
g_warning ("Error in destroy accounting.");
priv->destroy_in_progress = 0;
}
break;
case META_PLUGIN_UNMAXIMIZE:
priv->unmaximize_in_progress--;
if (priv->unmaximize_in_progress < 0)
{
g_warning ("Error in unmaximize accounting.");
priv->unmaximize_in_progress = 0;
}
break;
case META_PLUGIN_MAXIMIZE:
priv->maximize_in_progress--;
if (priv->maximize_in_progress < 0)
{
g_warning ("Error in maximize accounting.");
priv->maximize_in_progress = 0;
}
break;
case META_PLUGIN_SWITCH_WORKSPACE:
g_assert_not_reached ();
break;
}
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (is_freeze_thaw_effect (event))
meta_window_actor_thaw (self);
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (!meta_window_actor_effect_in_progress (self))
meta_window_actor_after_effects (self);
}
/* Called to drop our reference to a window backing pixmap that we
* previously obtained with XCompositeNameWindowPixmap. We do this
* when the window is unmapped or when we want to update to a new
* pixmap for a new size.
*/
static void
meta_window_actor_detach_x11_pixmap (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaScreen *screen = priv->screen;
MetaDisplay *display = meta_screen_get_display (screen);
Display *xdisplay = meta_display_get_xdisplay (display);
if (!priv->back_pixmap)
return;
/* Get rid of all references to the pixmap before freeing it; it's unclear whether
* you are supposed to be able to free a GLXPixmap after freeing the underlying
* pixmap, but it certainly doesn't work with current DRI/Mesa
*/
meta_shaped_texture_set_pixmap (META_SHAPED_TEXTURE (priv->actor),
None);
cogl_flush();
XFreePixmap (xdisplay, priv->back_pixmap);
priv->back_pixmap = None;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
meta_window_actor_queue_create_x11_pixmap (self);
}
gboolean
meta_window_actor_should_unredirect (MetaWindowActor *self)
{
MetaWindow *metaWindow = meta_window_actor_get_meta_window (self);
MetaWindowActorPrivate *priv = self->priv;
if (meta_window_requested_dont_bypass_compositor (metaWindow))
return FALSE;
if (priv->opacity != 0xff)
return FALSE;
if (metaWindow->shape_region != NULL)
return FALSE;
if (priv->argb32 && !meta_window_requested_bypass_compositor (metaWindow))
return FALSE;
if (!meta_window_is_monitor_sized (metaWindow))
return FALSE;
if (meta_window_requested_bypass_compositor (metaWindow))
return TRUE;
if (meta_window_is_override_redirect (metaWindow))
return TRUE;
if (!meta_is_wayland_compositor () && priv->does_full_damage)
return TRUE;
return FALSE;
}
void
meta_window_actor_set_redirected (MetaWindowActor *self, gboolean state)
{
MetaWindow *metaWindow = meta_window_actor_get_meta_window (self);
MetaDisplay *display = meta_window_get_display (metaWindow);
Display *xdisplay = meta_display_get_xdisplay (display);
Window xwin = meta_window_actor_get_x_window (self);
if (state)
{
meta_error_trap_push (display);
XCompositeRedirectWindow (xdisplay, xwin, CompositeRedirectManual);
meta_error_trap_pop (display);
meta_window_actor_detach_x11_pixmap (self);
self->priv->unredirected = FALSE;
}
else
{
meta_error_trap_push (display);
XCompositeUnredirectWindow (xdisplay, xwin, CompositeRedirectManual);
meta_error_trap_pop (display);
self->priv->unredirected = TRUE;
}
}
void
meta_window_actor_destroy (MetaWindowActor *self)
{
MetaWindow *window;
MetaCompScreen *info;
MetaWindowActorPrivate *priv;
MetaWindowType window_type;
priv = self->priv;
if (meta_is_wayland_compositor ())
meta_shaped_texture_set_wayland_surface (META_SHAPED_TEXTURE (priv->actor), NULL);
window = priv->window;
window_type = meta_window_get_window_type (window);
meta_window_set_compositor_private (window, NULL);
/*
* We remove the window from internal lookup hashes and thus any other
* unmap events etc fail
*/
info = meta_screen_get_compositor_data (priv->screen);
info->windows = g_list_remove (info->windows, (gconstpointer) self);
if (window_type == META_WINDOW_DROPDOWN_MENU ||
window_type == META_WINDOW_POPUP_MENU ||
window_type == META_WINDOW_TOOLTIP ||
window_type == META_WINDOW_NOTIFICATION ||
window_type == META_WINDOW_COMBO ||
window_type == META_WINDOW_DND ||
window_type == META_WINDOW_OVERRIDE_OTHER)
{
/*
* No effects, just kill it.
*/
clutter_actor_destroy (CLUTTER_ACTOR (self));
return;
}
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
priv->needs_destroy = TRUE;
if (!meta_window_actor_effect_in_progress (self))
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
clutter_actor_destroy (CLUTTER_ACTOR (self));
}
void
meta_window_actor_sync_actor_geometry (MetaWindowActor *self,
gboolean did_placement)
{
MetaWindowActorPrivate *priv = self->priv;
MetaRectangle window_rect;
meta_window_get_input_rect (priv->window, &window_rect);
/* When running as a display server we catch size changes when new
buffers are attached */
if (!meta_is_wayland_compositor ())
{
if (priv->last_width != window_rect.width ||
priv->last_height != window_rect.height)
{
priv->x11_size_changed = TRUE;
priv->last_width = window_rect.width;
priv->last_height = window_rect.height;
}
}
/* Normally we want freezing a window to also freeze its position; this allows
* windows to atomically move and resize together, either under app control,
* or because the user is resizing from the left/top. But on initial placement
* we need to assign a position, since immediately after the window
* is shown, the map effect will go into effect and prevent further geometry
* updates.
*/
if (is_frozen (self) && !did_placement)
return;
if (!meta_is_wayland_compositor ())
{
if (priv->x11_size_changed)
{
meta_window_actor_queue_create_x11_pixmap (self);
meta_window_actor_update_shape (self);
}
}
if (meta_window_actor_effect_in_progress (self))
return;
clutter_actor_set_position (CLUTTER_ACTOR (self),
window_rect.x, window_rect.y);
clutter_actor_set_size (CLUTTER_ACTOR (self),
window_rect.width, window_rect.height);
g_signal_emit (self, signals[POSITION_CHANGED], 0);
}
void
meta_window_actor_show (MetaWindowActor *self,
MetaCompEffect effect)
{
MetaWindowActorPrivate *priv;
MetaCompScreen *info;
gulong event;
priv = self->priv;
info = meta_screen_get_compositor_data (priv->screen);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
g_return_if_fail (!priv->visible);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
self->priv->visible = TRUE;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
event = 0;
switch (effect)
{
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
case META_COMP_EFFECT_CREATE:
event = META_PLUGIN_MAP;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
break;
case META_COMP_EFFECT_UNMINIMIZE:
/* FIXME: should have META_PLUGIN_UNMINIMIZE */
event = META_PLUGIN_MAP;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
break;
case META_COMP_EFFECT_NONE:
break;
case META_COMP_EFFECT_DESTROY:
case META_COMP_EFFECT_MINIMIZE:
g_assert_not_reached();
}
if (priv->redecorating ||
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
info->switch_workspace_in_progress ||
event == 0 ||
!start_simple_effect (self, event))
{
clutter_actor_show (CLUTTER_ACTOR (self));
priv->redecorating = FALSE;
}
}
void
meta_window_actor_hide (MetaWindowActor *self,
MetaCompEffect effect)
{
MetaWindowActorPrivate *priv;
MetaCompScreen *info;
gulong event;
priv = self->priv;
info = meta_screen_get_compositor_data (priv->screen);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
g_return_if_fail (priv->visible);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
priv->visible = FALSE;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
/* If a plugin is animating a workspace transition, we have to
* hold off on hiding the window, and do it after the workspace
* switch completes
*/
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (info->switch_workspace_in_progress)
return;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
event = 0;
switch (effect)
{
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
case META_COMP_EFFECT_DESTROY:
event = META_PLUGIN_DESTROY;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
break;
case META_COMP_EFFECT_MINIMIZE:
event = META_PLUGIN_MINIMIZE;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
break;
case META_COMP_EFFECT_NONE:
break;
case META_COMP_EFFECT_UNMINIMIZE:
case META_COMP_EFFECT_CREATE:
g_assert_not_reached();
}
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (event == 0 ||
!start_simple_effect (self, event))
clutter_actor_hide (CLUTTER_ACTOR (self));
}
void
meta_window_actor_maximize (MetaWindowActor *self,
MetaRectangle *old_rect,
MetaRectangle *new_rect)
{
MetaCompScreen *info = meta_screen_get_compositor_data (self->priv->screen);
/* The window has already been resized (in order to compute new_rect),
* which by side effect caused the actor to be resized. Restore it to the
* old size and position */
clutter_actor_set_position (CLUTTER_ACTOR (self), old_rect->x, old_rect->y);
clutter_actor_set_size (CLUTTER_ACTOR (self), old_rect->width, old_rect->height);
self->priv->maximize_in_progress++;
meta_window_actor_freeze (self);
if (!info->plugin_mgr ||
!meta_plugin_manager_event_maximize (info->plugin_mgr,
self,
META_PLUGIN_MAXIMIZE,
new_rect->x, new_rect->y,
new_rect->width, new_rect->height))
{
self->priv->maximize_in_progress--;
meta_window_actor_thaw (self);
}
}
void
meta_window_actor_unmaximize (MetaWindowActor *self,
MetaRectangle *old_rect,
MetaRectangle *new_rect)
{
MetaCompScreen *info = meta_screen_get_compositor_data (self->priv->screen);
/* The window has already been resized (in order to compute new_rect),
* which by side effect caused the actor to be resized. Restore it to the
* old size and position */
clutter_actor_set_position (CLUTTER_ACTOR (self), old_rect->x, old_rect->y);
clutter_actor_set_size (CLUTTER_ACTOR (self), old_rect->width, old_rect->height);
self->priv->unmaximize_in_progress++;
meta_window_actor_freeze (self);
if (!info->plugin_mgr ||
!meta_plugin_manager_event_maximize (info->plugin_mgr,
self,
META_PLUGIN_UNMAXIMIZE,
new_rect->x, new_rect->y,
new_rect->width, new_rect->height))
{
self->priv->unmaximize_in_progress--;
meta_window_actor_thaw (self);
}
}
MetaWindowActor *
meta_window_actor_new (MetaWindow *window)
{
MetaScreen *screen = meta_window_get_screen (window);
MetaCompScreen *info = meta_screen_get_compositor_data (screen);
MetaWindowActor *self;
MetaWindowActorPrivate *priv;
MetaFrame *frame;
Window top_window = None;
ClutterActor *window_group;
if (window->client_type == META_WINDOW_CLIENT_TYPE_X11)
{
frame = meta_window_get_frame (window);
if (frame)
top_window = meta_frame_get_xwindow (frame);
else
top_window = meta_window_get_xwindow (window);
meta_verbose ("add window: Meta %p, xwin 0x%x\n", window, (guint)top_window);
}
else
{
meta_verbose ("add window: Meta %p, wayland surface %p\n",
window, window->surface);
top_window = None;
}
self = g_object_new (META_TYPE_WINDOW_ACTOR,
"meta-window", window,
"x-window", top_window,
"meta-screen", screen,
NULL);
priv = self->priv;
priv->mapped = meta_window_toplevel_is_mapped (priv->window);
if (!meta_is_wayland_compositor ())
{
priv->last_width = -1;
priv->last_height = -1;
if (priv->mapped)
meta_window_actor_queue_create_x11_pixmap (self);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
meta_window_actor_set_updates_frozen (self,
meta_window_updates_are_frozen (priv->window));
/* If a window doesn't start off with updates frozen, we should
* we should send a _NET_WM_FRAME_DRAWN immediately after the first drawn.
*/
if (priv->window->extended_sync_request_counter && !priv->updates_frozen)
meta_window_actor_queue_frame_drawn (self, FALSE);
}
meta_window_actor_sync_actor_geometry (self, priv->window->placed);
/* Hang our compositor window state off the MetaWindow for fast retrieval */
meta_window_set_compositor_private (window, G_OBJECT (self));
if (window->layer == META_LAYER_OVERRIDE_REDIRECT)
window_group = info->top_window_group;
else
window_group = info->window_group;
clutter_actor_add_child (window_group, CLUTTER_ACTOR (self));
clutter_actor_hide (CLUTTER_ACTOR (self));
clutter_actor_set_reactive (CLUTTER_ACTOR (self), TRUE);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
/* Initial position in the stack is arbitrary; stacking will be synced
* before we first paint.
*/
info->windows = g_list_append (info->windows, self);
return self;
}
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
void
meta_window_actor_mapped (MetaWindowActor *self)
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
{
MetaWindowActorPrivate *priv = self->priv;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
g_return_if_fail (!priv->mapped);
priv->mapped = TRUE;
if (!meta_is_wayland_compositor ())
meta_window_actor_queue_create_x11_pixmap (self);
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
}
void
meta_window_actor_unmapped (MetaWindowActor *self)
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
{
MetaWindowActorPrivate *priv = self->priv;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
g_return_if_fail (priv->mapped);
priv->mapped = FALSE;
if (meta_window_actor_effect_in_progress (self))
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
return;
if (!meta_is_wayland_compositor ())
{
meta_window_actor_detach_x11_pixmap (self);
priv->needs_pixmap = FALSE;
}
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
}
/**
* meta_window_actor_get_obscured_region:
* @self: a #MetaWindowActor
*
* Gets the region that is completely obscured by the window. Coordinates
* are relative to the upper-left of the window.
*
* Return value: (transfer none): the area obscured by the window,
* %NULL is the same as an empty region.
*/
cairo_region_t *
meta_window_actor_get_obscured_region (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
if (!priv->window->shaded)
{
if (meta_is_wayland_compositor ())
{
if (priv->opacity == 0xff)
return priv->opaque_region;
}
else
{
if (priv->back_pixmap && priv->opacity == 0xff)
return priv->opaque_region;
}
}
return NULL;
}
#if 0
/* Print out a region; useful for debugging */
static void
print_region (cairo_region_t *region)
{
int n_rects;
int i;
n_rects = cairo_region_num_rectangles (region);
g_print ("[");
for (i = 0; i < n_rects; i++)
{
cairo_rectangle_int_t rect;
2011-07-18 16:41:31 -04:00
cairo_region_get_rectangle (region, i, &rect);
g_print ("+%d+%dx%dx%d ",
rect.x, rect.y, rect.width, rect.height);
}
g_print ("]\n");
}
#endif
#if 0
/* Dump a region to a PNG file; useful for debugging */
static void
see_region (cairo_region_t *region,
int width,
int height,
char *filename)
{
cairo_surface_t *surface = cairo_image_surface_create (CAIRO_FORMAT_A8, width, height);
cairo_t *cr = cairo_create (surface);
gdk_cairo_region (cr, region);
cairo_fill (cr);
cairo_surface_write_to_png (surface, filename);
cairo_destroy (cr);
cairo_surface_destroy (surface);
}
#endif
/**
* meta_window_actor_set_unobscured_region:
* @self: a #MetaWindowActor
* @unobscured_region: the region of the screen that isn't completely
* obscured.
*
* Provides a hint as to what areas of the window need to queue
* redraws when damaged. Regions not in @unobscured_region are completely obscured.
* Unlike meta_window_actor_set_clip_region(), the region here
* doesn't take into account any clipping that is in effect while drawing.
*/
void
meta_window_actor_set_unobscured_region (MetaWindowActor *self,
cairo_region_t *unobscured_region)
{
MetaWindowActorPrivate *priv = self->priv;
if (priv->unobscured_region)
cairo_region_destroy (priv->unobscured_region);
if (unobscured_region)
priv->unobscured_region = cairo_region_copy (unobscured_region);
else
priv->unobscured_region = NULL;
}
/**
* meta_window_actor_set_clip_region:
* @self: a #MetaWindowActor
* @clip_region: the region of the screen that isn't completely
* obscured.
*
* Provides a hint as to what areas of the window need to be
* drawn. Regions not in @clip_region are completely obscured or
* not drawn in this frame.
* This will be set before painting then unset afterwards.
*/
void
meta_window_actor_set_clip_region (MetaWindowActor *self,
cairo_region_t *clip_region)
{
MetaWindowActorPrivate *priv = self->priv;
meta_shaped_texture_set_clip_region (META_SHAPED_TEXTURE (priv->actor),
clip_region);
}
/**
* meta_window_actor_set_clip_region_beneath:
* @self: a #MetaWindowActor
* @clip_region: the region of the screen that isn't completely
* obscured beneath the main window texture.
*
* Provides a hint as to what areas need to be drawn *beneath*
* the main window texture. This is the relevant clip region
* when drawing the shadow, properly accounting for areas of the
* shadow hid by the window itself. This will be set before painting
* then unset afterwards.
*/
void
meta_window_actor_set_clip_region_beneath (MetaWindowActor *self,
cairo_region_t *beneath_region)
{
MetaWindowActorPrivate *priv = self->priv;
gboolean appears_focused = meta_window_appears_focused (priv->window);
if (appears_focused ? priv->focused_shadow : priv->unfocused_shadow)
{
g_clear_pointer (&priv->shadow_clip, cairo_region_destroy);
priv->shadow_clip = cairo_region_copy (beneath_region);
if (clip_shadow_under_window (self))
{
cairo_region_t *frame_bounds = meta_window_get_frame_bounds (priv->window);
cairo_region_subtract (priv->shadow_clip, frame_bounds);
}
}
}
/**
* meta_window_actor_reset_clip_regions:
* @self: a #MetaWindowActor
*
* Unsets the regions set by meta_window_actor_set_clip_region() and
* meta_window_actor_set_clip_region_beneath()
*/
void
meta_window_actor_reset_clip_regions (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
meta_shaped_texture_set_clip_region (META_SHAPED_TEXTURE (priv->actor),
NULL);
g_clear_pointer (&priv->shadow_clip, cairo_region_destroy);
}
/* When running as a wayland compositor we don't make requests for
* replacement pixmaps when resizing windows, we will instead be
* asked to attach replacement buffers by the clients. */
static void
check_needs_x11_pixmap (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaScreen *screen = priv->screen;
MetaDisplay *display = meta_screen_get_display (screen);
Display *xdisplay = meta_display_get_xdisplay (display);
MetaCompScreen *info = meta_screen_get_compositor_data (screen);
MetaCompositor *compositor;
Window xwindow = priv->xwindow;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (!priv->needs_pixmap)
return;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (!priv->mapped)
return;
if (xwindow == meta_screen_get_xroot (screen) ||
xwindow == clutter_x11_get_stage_window (CLUTTER_STAGE (info->stage)))
return;
compositor = meta_display_get_compositor (display);
if (priv->x11_size_changed)
{
meta_window_actor_detach_x11_pixmap (self);
priv->x11_size_changed = FALSE;
}
meta_error_trap_push (display);
if (priv->back_pixmap == None)
{
CoglTexture *texture;
meta_error_trap_push (display);
priv->back_pixmap = XCompositeNameWindowPixmap (xdisplay, xwindow);
if (meta_error_trap_pop_with_return (display) != Success)
{
/* Probably a BadMatch if the window isn't viewable; we could
* GrabServer/GetWindowAttributes/NameWindowPixmap/UngrabServer/Sync
* to avoid this, but there's no reason to take two round trips
* when one will do. (We need that Sync if we want to handle failures
* for any reason other than !viewable. That's unlikely, but maybe
* we'll BadAlloc or something.)
*/
priv->back_pixmap = None;
}
if (priv->back_pixmap == None)
{
meta_verbose ("Unable to get named pixmap for %p\n", self);
goto out;
}
if (compositor->no_mipmaps)
meta_shaped_texture_set_create_mipmaps (META_SHAPED_TEXTURE (priv->actor),
FALSE);
meta_shaped_texture_set_pixmap (META_SHAPED_TEXTURE (priv->actor),
priv->back_pixmap);
texture = meta_shaped_texture_get_texture (META_SHAPED_TEXTURE (priv->actor));
/*
* This only works *after* actually setting the pixmap, so we have to
* do it here.
* See: http://bugzilla.clutter-project.org/show_bug.cgi?id=2236
*/
if (G_UNLIKELY (!cogl_texture_pixmap_x11_is_using_tfp_extension (COGL_TEXTURE_PIXMAP_X11 (texture))))
g_warning ("NOTE: Not using GLX TFP!\n");
/* ::size-changed is supposed to refer to meta_window_get_outer_rect().
* Emitting it here works pretty much OK because a new value of the
* *input* rect (which is the outer rect with the addition of invisible
* borders) forces a new pixmap and we get here. In the rare case where
* a change to the window size was exactly balanced by a change to the
* invisible borders, we would miss emitting the signal. We would also
* emit spurious signals when we get a new pixmap without a new size,
* but that should be mostly harmless.
*/
g_signal_emit (self, signals[SIZE_CHANGED], 0);
}
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
priv->needs_pixmap = FALSE;
out:
meta_error_trap_pop (display);
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
}
static void
check_needs_shadow (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaShadow *old_shadow = NULL;
MetaShadow **shadow_location;
gboolean recompute_shadow;
gboolean should_have_shadow;
gboolean appears_focused;
if (!priv->mapped)
return;
/* Calling meta_window_actor_has_shadow() here at every pre-paint is cheap
* and avoids the need to explicitly handle window type changes, which
* we would do if tried to keep track of when we might be adding or removing
* a shadow more explicitly. We only keep track of changes to the *shape* of
* the shadow with priv->recompute_shadow.
*/
should_have_shadow = meta_window_actor_has_shadow (self);
appears_focused = meta_window_appears_focused (priv->window);
if (appears_focused)
{
recompute_shadow = priv->recompute_focused_shadow;
priv->recompute_focused_shadow = FALSE;
shadow_location = &priv->focused_shadow;
}
else
{
recompute_shadow = priv->recompute_unfocused_shadow;
priv->recompute_unfocused_shadow = FALSE;
shadow_location = &priv->unfocused_shadow;
}
if (!should_have_shadow || recompute_shadow)
{
if (*shadow_location != NULL)
{
old_shadow = *shadow_location;
*shadow_location = NULL;
}
}
if (*shadow_location == NULL && should_have_shadow)
{
if (priv->shadow_shape == NULL)
priv->shadow_shape = meta_window_shape_new (priv->shape_region);
MetaShadowFactory *factory = meta_shadow_factory_get_default ();
const char *shadow_class = meta_window_actor_get_shadow_class (self);
cairo_rectangle_int_t shape_bounds;
meta_window_actor_get_shape_bounds (self, &shape_bounds);
*shadow_location = meta_shadow_factory_get_shadow (factory,
priv->shadow_shape,
shape_bounds.width, shape_bounds.height,
shadow_class, appears_focused);
}
if (old_shadow != NULL)
meta_shadow_unref (old_shadow);
}
void
meta_window_actor_process_x11_damage (MetaWindowActor *self,
XDamageNotifyEvent *event)
{
MetaWindowActorPrivate *priv = self->priv;
MetaCompScreen *info = meta_screen_get_compositor_data (priv->screen);
gboolean redraw_queued;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
priv->received_x11_damage = TRUE;
if (meta_window_is_fullscreen (priv->window) && g_list_last (info->windows)->data == self && !priv->unredirected)
{
MetaRectangle window_rect;
meta_window_get_outer_rect (priv->window, &window_rect);
if (window_rect.x == event->area.x &&
window_rect.y == event->area.y &&
window_rect.width == event->area.width &&
window_rect.height == event->area.height)
priv->full_damage_frames_count++;
else
priv->full_damage_frames_count = 0;
if (priv->full_damage_frames_count >= 100)
priv->does_full_damage = TRUE;
}
/* Drop damage event for unredirected windows */
if (priv->unredirected)
return;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (is_frozen (self))
{
/* The window is frozen due to an effect in progress: we ignore damage
* here on the off chance that this will stop the corresponding
* texture_from_pixmap from being update.
*
* needs_damage_all tracks that some unknown damage happened while the
* window was frozen so that when the window becomes unfrozen we can
* issue a full window update to cover any lost damage.
*
* It should be noted that this is an unreliable mechanism since it's
* quite likely that drivers will aim to provide a zero-copy
* implementation of the texture_from_pixmap extension and in those cases
* any drawing done to the window is always immediately reflected in the
* texture regardless of damage event handling.
*/
priv->needs_damage_all = TRUE;
return;
}
if (!priv->mapped || priv->needs_pixmap)
return;
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
redraw_queued = meta_shaped_texture_update_area (META_SHAPED_TEXTURE (priv->actor),
event->area.x,
event->area.y,
event->area.width,
event->area.height,
clutter_actor_has_mapped_clones (priv->actor) ?
NULL : priv->unobscured_region);
priv->repaint_scheduled = priv->repaint_scheduled || redraw_queued;
}
void
meta_window_actor_process_wayland_damage (MetaWindowActor *self,
int x,
int y,
int width,
int height)
{
MetaWindowActorPrivate *priv = self->priv;
2013-08-29 17:16:15 -04:00
gboolean redraw_queued;
if (!priv->mapped)
return;
2013-08-29 17:16:15 -04:00
redraw_queued = meta_shaped_texture_update_area (META_SHAPED_TEXTURE (priv->actor),
x, y, width, height,
clutter_actor_has_mapped_clones (priv->actor) ?
NULL : priv->unobscured_region);
priv->repaint_scheduled = priv->repaint_scheduled || redraw_queued;
}
void
meta_window_actor_sync_visibility (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (CLUTTER_ACTOR_IS_VISIBLE (self) != priv->visible)
{
Simplify relationship between mapping and visibility Previously, changes to the visibility of a window could be indicated by meta_compositor_map_window(), meta_compositor_unminimize_window(), meta_compositor_set_window_hidden(), etc, with the exact behavior depending on the 'live_hidden_windows' preference. Simplify this so that visibility is controlled by: meta_compositor_show_window() meta_compositor_hide_window() With an 'effect' parameter provided to indicate the appropriate effect (CREATE/UNMINIMIZE/MINIMIZE/DESTROY/NONE.) The map state of the window is signalled separately by: meta_compositor_map_window() meta_compositor_unmap_window() And is used only to control resource handling. Other changes: * The desired effect on show/hide is explicitly stored in MetaWindow, avoiding the need for the was_minimized flag. At idle, once we calculate the window state, we pass the effect to the compositor if it matches the new window state, and then clear the effect to start over for future map state changes. * meta_compositor_switch_workspace() is called before any windows are hidden or shown, allowing the compositor to avoid hiding or showing an effect for windows involved in the switch. http://bugzilla.gnome.org/show_bug.cgi?id=582341 * Handling of post-effect cleanups for MutterWindow are simplified - instead of trying to do different things based on the individual needs of different effects, we just wait until all effects complete and sync the window state to what it should be. * On unmap, once we destroy the pixmap, we tell ClutterX11Pixmap that we've done so, so it can clean up and unbind. (The unbinding doesn't seem to be working properly because of ClutterGLXPixmap or video driver issues.) http://bugzilla.gnome.org/show_bug.cgi?id=587251
2009-06-28 17:10:40 -04:00
if (priv->visible)
clutter_actor_show (CLUTTER_ACTOR (self));
else
clutter_actor_hide (CLUTTER_ACTOR (self));
}
}
static cairo_region_t *
scan_visible_region (guchar *mask_data,
int stride,
cairo_region_t *scan_area)
{
int i, n_rects = cairo_region_num_rectangles (scan_area);
MetaRegionBuilder builder;
meta_region_builder_init (&builder);
for (i = 0; i < n_rects; i++)
{
int x, y;
cairo_rectangle_int_t rect;
cairo_region_get_rectangle (scan_area, i, &rect);
for (y = rect.y; y < (rect.y + rect.height); y++)
{
for (x = rect.x; x < (rect.x + rect.width); x++)
{
int x2 = x;
while (mask_data[y * stride + x2] == 255 && x2 < (rect.x + rect.width))
x2++;
if (x2 > x)
{
meta_region_builder_add_rectangle (&builder, x, y, x2 - x, 1);
x = x2;
}
}
}
}
return meta_region_builder_finish (&builder);
}
static void
build_and_scan_frame_mask (MetaWindowActor *self,
cairo_rectangle_int_t *client_area,
cairo_region_t *shape_region)
{
MetaWindowActorPrivate *priv = self->priv;
guchar *mask_data;
guint tex_width, tex_height;
CoglTexture *paint_tex, *mask_texture;
int stride;
cairo_t *cr;
cairo_surface_t *surface;
paint_tex = meta_shaped_texture_get_texture (META_SHAPED_TEXTURE (priv->actor));
if (paint_tex == NULL)
return;
tex_width = cogl_texture_get_width (paint_tex);
tex_height = cogl_texture_get_height (paint_tex);
stride = cairo_format_stride_for_width (CAIRO_FORMAT_A8, tex_width);
/* Create data for an empty image */
mask_data = g_malloc0 (stride * tex_height);
surface = cairo_image_surface_create_for_data (mask_data,
CAIRO_FORMAT_A8,
tex_width,
tex_height,
stride);
cr = cairo_create (surface);
gdk_cairo_region (cr, shape_region);
cairo_fill (cr);
if (priv->window->frame != NULL)
{
cairo_region_t *frame_paint_region, *scanned_region;
cairo_rectangle_int_t rect = { 0, 0, tex_width, tex_height };
/* Make sure we don't paint the frame over the client window. */
frame_paint_region = cairo_region_create_rectangle (&rect);
cairo_region_subtract_rectangle (frame_paint_region, client_area);
gdk_cairo_region (cr, frame_paint_region);
cairo_clip (cr);
meta_frame_get_mask (priv->window->frame, cr);
cairo_surface_flush (surface);
scanned_region = scan_visible_region (mask_data, stride, frame_paint_region);
cairo_region_union (shape_region, scanned_region);
cairo_region_destroy (scanned_region);
cairo_region_destroy (frame_paint_region);
}
cairo_destroy (cr);
cairo_surface_destroy (surface);
if (meta_texture_rectangle_check (paint_tex))
{
mask_texture = meta_texture_rectangle_new (tex_width, tex_height,
COGL_PIXEL_FORMAT_A_8,
COGL_PIXEL_FORMAT_A_8,
stride,
mask_data,
NULL /* error */);
}
else
{
/* Note: we don't allow slicing for this texture because we
* need to use it with multi-texturing which doesn't support
* sliced textures */
mask_texture = cogl_texture_new_from_data (tex_width, tex_height,
COGL_TEXTURE_NO_SLICING,
COGL_PIXEL_FORMAT_A_8,
COGL_PIXEL_FORMAT_ANY,
stride,
mask_data);
}
meta_shaped_texture_set_mask_texture (META_SHAPED_TEXTURE (priv->actor),
mask_texture);
cogl_object_unref (mask_texture);
g_free (mask_data);
}
static void
meta_window_actor_update_shape_region (MetaWindowActor *self,
cairo_rectangle_int_t *client_area)
{
MetaWindowActorPrivate *priv = self->priv;
cairo_region_t *region = NULL;
if (priv->window->frame != NULL && priv->window->shape_region != NULL)
{
region = cairo_region_copy (priv->window->shape_region);
cairo_region_translate (region, client_area->x, client_area->y);
}
else if (priv->window->shape_region != NULL)
{
region = cairo_region_reference (priv->window->shape_region);
}
else
{
/* If we don't have a shape on the server, that means that
* we have an implicit shape of one rectangle covering the
* entire window. */
region = cairo_region_create_rectangle (client_area);
}
meta_shaped_texture_set_mask_texture (META_SHAPED_TEXTURE (priv->actor), NULL);
if ((priv->window->shape_region != NULL) || (priv->window->frame != NULL))
build_and_scan_frame_mask (self, client_area, region);
g_clear_pointer (&priv->shape_region, cairo_region_destroy);
priv->shape_region = region;
2013-08-28 11:11:04 -04:00
g_clear_pointer (&priv->shadow_shape, meta_window_shape_unref);
meta_window_actor_invalidate_shadow (self);
}
static void
meta_window_actor_update_input_region (MetaWindowActor *self,
cairo_rectangle_int_t *client_area)
{
MetaWindowActorPrivate *priv = self->priv;
MetaShapedTexture *stex = META_SHAPED_TEXTURE (priv->actor);
cairo_region_t *region = NULL;
if (priv->window->frame != NULL && priv->window->input_region != NULL)
{
region = meta_frame_get_frame_bounds (priv->window->frame);
cairo_region_subtract_rectangle (region, client_area);
/* input_region is in client window coordinates, so translate the
* input region into that coordinate system and back */
cairo_region_translate (region, -client_area->x, -client_area->y);
cairo_region_union (region, priv->window->input_region);
cairo_region_translate (region, client_area->x, client_area->y);
}
else if (priv->window->shape_region != NULL)
{
region = cairo_region_reference (priv->window->input_region);
}
else
{
/* If we don't have a shape on the server, that means that
* we have an implicit shape of one rectangle covering the
* entire window. */
region = cairo_region_create_rectangle (client_area);
}
meta_shaped_texture_set_input_shape_region (stex, region);
cairo_region_destroy (region);
}
static void
meta_window_actor_update_opaque_region (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
g_clear_pointer (&priv->opaque_region, cairo_region_destroy);
if (priv->argb32 && priv->window->opaque_region != NULL)
{
MetaFrameBorders borders;
meta_frame_calc_borders (priv->window->frame, &borders);
/* The opaque region is defined to be a part of the
* window which ARGB32 will always paint with opaque
* pixels. For these regions, we want to avoid painting
* windows and shadows beneath them.
*
* If the client gives bad coordinates where it does not
* fully paint, the behavior is defined by the specification
* to be undefined, and considered a client bug. In mutter's
* case, graphical glitches will occur.
*/
priv->opaque_region = cairo_region_copy (priv->window->opaque_region);
cairo_region_translate (priv->opaque_region, borders.total.left, borders.total.top);
cairo_region_intersect (priv->opaque_region, priv->shape_region);
}
else if (priv->argb32)
priv->opaque_region = NULL;
else
priv->opaque_region = cairo_region_reference (priv->shape_region);
meta_shaped_texture_set_opaque_region (META_SHAPED_TEXTURE (priv->actor),
priv->opaque_region);
}
static void
check_needs_reshape (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaFrameBorders borders;
cairo_rectangle_int_t client_area;
if (!priv->mapped)
return;
if (!priv->needs_reshape)
return;
meta_frame_calc_borders (priv->window->frame, &borders);
client_area.x = borders.total.left;
client_area.y = borders.total.top;
client_area.width = priv->window->rect.width;
if (priv->window->shaded)
client_area.height = 0;
else
client_area.height = priv->window->rect.height;
meta_window_actor_update_shape_region (self, &client_area);
meta_window_actor_update_input_region (self, &client_area);
meta_window_actor_update_opaque_region (self);
priv->needs_reshape = FALSE;
}
void
meta_window_actor_update_shape (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
priv->needs_reshape = TRUE;
if (is_frozen (self))
return;
clutter_actor_queue_redraw (priv->actor);
}
static void
maybe_emit_size_changed (MetaWindowActor *self,
MetaWaylandBuffer *new_buffer)
{
MetaWindowActorPrivate *priv = self->priv;
int width = 0, height = 0;
if (new_buffer)
{
width = new_buffer->width;
height = new_buffer->height;
}
if (priv->last_width != width || priv->last_height != height)
{
meta_window_actor_update_shape (self);
/* ::size-changed is supposed to refer to meta_window_get_outer_rect()
* but here we are only looking at buffer size changes.
*
* Emitting it here works pretty much OK because a new buffer size (which
* will correspond to the outer rect with the addition of invisible
* borders) also normally implies a change to the outer rect. In the rare
* case where a change to the window size was exactly balanced by a
* change to the invisible borders, we would miss emitting the signal.
*/
g_signal_emit (self, signals[SIZE_CHANGED], 0);
priv->last_width = width;
priv->last_height = height;
}
}
void
meta_window_actor_set_wayland_surface (MetaWindowActor *self,
MetaWaylandSurface *surface)
{
MetaWindowActorPrivate *priv = self->priv;
meta_shaped_texture_set_wayland_surface (META_SHAPED_TEXTURE (priv->actor),
surface);
if (surface && surface->buffer_ref.buffer)
maybe_emit_size_changed (self, surface->buffer_ref.buffer);
}
void
meta_window_actor_attach_wayland_buffer (MetaWindowActor *self,
MetaWaylandBuffer *buffer)
{
MetaWindowActorPrivate *priv = self->priv;
MetaShapedTexture *stex = META_SHAPED_TEXTURE (priv->actor);
CoglTexture *prev_tex = meta_shaped_texture_get_texture (stex);
meta_shaped_texture_attach_wayland_buffer (stex, buffer);
if (!prev_tex)
meta_window_actor_sync_actor_geometry (self, FALSE);
maybe_emit_size_changed (self, buffer);
}
static void
meta_window_actor_handle_updates (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaScreen *screen = priv->screen;
MetaDisplay *display = meta_screen_get_display (screen);
Display *xdisplay = meta_display_get_xdisplay (display);
mutter-window: stream raw updates to ClutterX11TexturePixmap This changes the way we handle Damage events so instead of getting an event when the damage region of a pixmap becomes non-empty we now get sent all damage rectangles and stream those all though to ClutterX11TexturePixmap using clutter_x11_texture_pixmap_update_area() For Clutter 1.2, ClutterGLXTexturePixmap was updated so that calls to clutter_x11_texture_pixmap_update_area are now cheap (glXBindTexImageEXT calls are now deferred until just before painting) and since ClutterGLXTexturePixmap is now capable of queueing clipped redraws that can result in only updating a sub-region of the stage during a repaint cycle (and using glXCopySubBufferMESA to present the sub-region redraw to the front buffer) this should improve performance and reduced power consumption for a range of use cases. (For example viewing a website that has animated adverts doesn't force the whole screen to be redrawn for each frame of the advert) Besides being able to take advantage of glXCopySubBuffer to only update a small region of the stage the fact that this patch makes Mutter now request RawRectangles from the X server means we no longer do a synchronous X request for a complete Damage Region for every window damaged each frame. This should also improve performance. CLUTTER_PAINT=redraws can be used to visualize what parts of the stage are redrawn and with this patch applied I can open a terminal and as I type I see that only the damaged areas of the terminal are being redrawn.
2010-03-02 13:02:28 -05:00
if (is_frozen (self))
{
/* The window is frozen due to a pending animation: we'll wait until
* the animation finishes to reshape and repair the window */
return;
}
if (!meta_is_wayland_compositor ())
{
if (priv->unredirected)
{
/* Nothing to do here until/if the window gets redirected again */
return;
}
if (priv->received_x11_damage)
{
meta_error_trap_push (display);
XDamageSubtract (xdisplay, priv->damage, None, None);
meta_error_trap_pop (display);
/* We need to make sure that any X drawing that happens before the
* XDamageSubtract() above is visible to subsequent GL rendering;
* the only standardized way to do this is EXT_x11_sync_object,
* which isn't yet widely available. For now, we count on details
* of Xorg and the open source drivers, and hope for the best
* otherwise.
*
* Xorg and open source driver specifics:
*
* The X server makes sure to flush drawing to the kernel before
* sending out damage events, but since we use DamageReportBoundingBox
* there may be drawing between the last damage event and the
* XDamageSubtract() that needs to be flushed as well.
*
* Xorg always makes sure that drawing is flushed to the kernel
* before writing events or responses to the client, so any round trip
* request at this point is sufficient to flush the GLX buffers.
*/
XSync (xdisplay, False);
priv->received_x11_damage = FALSE;
}
check_needs_x11_pixmap (self);
}
check_needs_reshape (self);
check_needs_shadow (self);
}
void
meta_window_actor_pre_paint (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
GList *l;
meta_window_actor_handle_updates (self);
for (l = priv->frames; l != NULL; l = l->next)
{
FrameData *frame = l->data;
if (frame->frame_counter == 0)
{
CoglOnscreen *onscreen = COGL_ONSCREEN (cogl_get_draw_framebuffer());
frame->frame_counter = cogl_onscreen_get_frame_counter (onscreen);
}
}
}
static void
do_send_frame_drawn (MetaWindowActor *self, FrameData *frame)
{
MetaWindowActorPrivate *priv = self->priv;
MetaScreen *screen = priv->screen;
MetaDisplay *display = meta_screen_get_display (screen);
Display *xdisplay = meta_display_get_xdisplay (display);
XClientMessageEvent ev = { 0, };
frame->frame_drawn_time = meta_compositor_monotonic_time_to_server_time (display,
g_get_monotonic_time ());
priv->frame_drawn_time = frame->frame_drawn_time;
ev.type = ClientMessage;
ev.window = meta_window_get_xwindow (priv->window);
ev.message_type = display->atom__NET_WM_FRAME_DRAWN;
ev.format = 32;
ev.data.l[0] = frame->sync_request_serial & G_GUINT64_CONSTANT(0xffffffff);
ev.data.l[1] = frame->sync_request_serial >> 32;
ev.data.l[2] = frame->frame_drawn_time & G_GUINT64_CONSTANT(0xffffffff);
ev.data.l[3] = frame->frame_drawn_time >> 32;
meta_error_trap_push (display);
XSendEvent (xdisplay, ev.window, False, 0, (XEvent*) &ev);
XFlush (xdisplay);
meta_error_trap_pop (display);
}
void
meta_window_actor_post_paint (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
priv->repaint_scheduled = FALSE;
/* This window had damage, but wasn't actually redrawn because
* it is obscured. So we should wait until timer expiration
* before sending _NET_WM_FRAME_* messages.
*/
if (priv->send_frame_messages_timer != 0)
return;
if (priv->needs_frame_drawn)
{
do_send_frame_drawn (self, priv->frames->data);
priv->needs_frame_drawn = FALSE;
}
}
static void
do_send_frame_timings (MetaWindowActor *self,
FrameData *frame,
gint refresh_interval,
gint64 presentation_time)
{
MetaWindowActorPrivate *priv = self->priv;
MetaDisplay *display = meta_screen_get_display (priv->screen);
Display *xdisplay = meta_display_get_xdisplay (display);
XClientMessageEvent ev = { 0, };
ev.type = ClientMessage;
ev.window = meta_window_get_xwindow (priv->window);
ev.message_type = display->atom__NET_WM_FRAME_TIMINGS;
ev.format = 32;
ev.data.l[0] = frame->sync_request_serial & G_GUINT64_CONSTANT(0xffffffff);
ev.data.l[1] = frame->sync_request_serial >> 32;
if (presentation_time != 0)
{
gint64 presentation_time_server = meta_compositor_monotonic_time_to_server_time (display,
presentation_time);
gint64 presentation_time_offset = presentation_time_server - frame->frame_drawn_time;
if (presentation_time_offset == 0)
presentation_time_offset = 1;
if ((gint32)presentation_time_offset == presentation_time_offset)
ev.data.l[2] = presentation_time_offset;
}
ev.data.l[3] = refresh_interval;
ev.data.l[4] = 1000 * META_SYNC_DELAY;
meta_error_trap_push (display);
XSendEvent (xdisplay, ev.window, False, 0, (XEvent*) &ev);
XFlush (xdisplay);
meta_error_trap_pop (display);
}
static void
send_frame_timings (MetaWindowActor *self,
FrameData *frame,
CoglFrameInfo *frame_info,
gint64 presentation_time)
{
float refresh_rate;
int refresh_interval;
refresh_rate = cogl_frame_info_get_refresh_rate (frame_info);
/* 0.0 is a flag for not known, but sanity-check against other odd numbers */
if (refresh_rate >= 1.0)
refresh_interval = (int) (0.5 + 1000000 / refresh_rate);
else
refresh_interval = 0;
do_send_frame_timings (self, frame, refresh_interval, presentation_time);
}
void
meta_window_actor_frame_complete (MetaWindowActor *self,
CoglFrameInfo *frame_info,
gint64 presentation_time)
{
MetaWindowActorPrivate *priv = self->priv;
GList *l;
for (l = priv->frames; l;)
{
GList *l_next = l->next;
FrameData *frame = l->data;
if (frame->frame_counter == cogl_frame_info_get_frame_counter (frame_info))
{
if (frame->frame_drawn_time != 0)
{
priv->frames = g_list_delete_link (priv->frames, l);
send_frame_timings (self, frame, frame_info, presentation_time);
frame_data_free (frame);
}
}
l = l_next;
}
}
void
meta_window_actor_invalidate_shadow (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
priv->recompute_focused_shadow = TRUE;
priv->recompute_unfocused_shadow = TRUE;
if (is_frozen (self))
return;
clutter_actor_queue_redraw (CLUTTER_ACTOR (self));
}
void
meta_window_actor_update_opacity (MetaWindowActor *self)
{
MetaWindowActorPrivate *priv = self->priv;
MetaDisplay *display = meta_screen_get_display (priv->screen);
MetaCompositor *compositor = meta_display_get_compositor (display);
Window xwin = meta_window_get_xwindow (priv->window);
gulong value;
guint8 opacity;
if (meta_prop_get_cardinal (display, xwin,
compositor->atom_net_wm_window_opacity,
&value))
{
opacity = (guint8)((gfloat)value * 255.0 / ((gfloat)0xffffffff));
}
else
opacity = 255;
self->priv->opacity = opacity;
clutter_actor_set_opacity (self->priv->actor, opacity);
}
void
meta_window_actor_set_updates_frozen (MetaWindowActor *self,
gboolean updates_frozen)
{
/* On wayland we shouldn't need to ever freeze updates... */
if (!meta_is_wayland_compositor ())
{
MetaWindowActorPrivate *priv = self->priv;
updates_frozen = updates_frozen != FALSE;
if (priv->updates_frozen != updates_frozen)
{
priv->updates_frozen = updates_frozen;
if (updates_frozen)
meta_window_actor_freeze (self);
else
meta_window_actor_thaw (self);
}
}
}