gtk2/gdk/gdksurface.c
Benjamin Otte 505436340b gdk: Get rid of paint contexts
... or more exactly: Only use paint contexts with
gdk_cairo_draw_from_gl().

Instead of paint contexts being the only contexts who call swapBuffer(),
any context can be used for this, when it's used with
begin_frame()/end_frame().

This removes 2 features:

1. We no longer need a big sharing hierarchy. All contexts are now
   shared with gdk_display_get_gl_context().
2. There is no longer a difference between attached and non-attached
   contexts. All contexts work the same way.
2021-07-22 16:27:31 +02:00

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/* GDK - The GIMP Drawing Kit
* Copyright (C) 1995-2007 Peter Mattis, Spencer Kimball,
* Josh MacDonald, Ryan Lortie
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
/*
* Modified by the GTK+ Team and others 1997-2000. See the AUTHORS
* file for a list of people on the GTK+ Team. See the ChangeLog
* files for a list of changes. These files are distributed with
* GTK+ at ftp://ftp.gtk.org/pub/gtk/.
*/
#include "config.h"
#include <cairo-gobject.h>
#include "gdksurface.h"
#include "gdk-private.h"
#include "gdkdeviceprivate.h"
#include "gdkdisplayprivate.h"
#include "gdkdragsurfaceprivate.h"
#include "gdkeventsprivate.h"
#include "gdkframeclockidleprivate.h"
#include "gdkglcontextprivate.h"
#include "gdkinternals.h"
#include "gdkintl.h"
#include "gdkmarshalers.h"
#include "gdkpopupprivate.h"
#include "gdkrectangle.h"
#include "gdktoplevelprivate.h"
#include <math.h>
#include <epoxy/gl.h>
#ifdef GDK_WINDOWING_WAYLAND
#include "wayland/gdkwayland.h"
#endif
/**
* GdkSurface:
*
* A `GdkSurface` is a rectangular region on the screen.
*
* Its a low-level object, used to implement high-level objects
* such as [class@Gtk.Window] or [class@Gtk.Dialog] in GTK.
*
* The surfaces you see in practice are either [class@Gdk.Toplevel] or
* [class@Gdk.Popup], and those interfaces provide much of the required
* API to interact with these surfaces. Other, more specialized surface
* types exist, but you will rarely interact with them directly.
*/
enum {
LAYOUT,
RENDER,
EVENT,
ENTER_MONITOR,
LEAVE_MONITOR,
LAST_SIGNAL
};
enum {
PROP_0,
PROP_CURSOR,
PROP_DISPLAY,
PROP_FRAME_CLOCK,
PROP_MAPPED,
PROP_WIDTH,
PROP_HEIGHT,
PROP_SCALE_FACTOR,
LAST_PROP
};
/* Global info */
static void gdk_surface_finalize (GObject *object);
static void gdk_surface_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec);
static void gdk_surface_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec);
static void update_cursor (GdkDisplay *display,
GdkDevice *device);
static void gdk_surface_set_frame_clock (GdkSurface *surface,
GdkFrameClock *clock);
static void gdk_surface_queue_set_is_mapped (GdkSurface *surface,
gboolean is_mapped);
static guint signals[LAST_SIGNAL] = { 0 };
static GParamSpec *properties[LAST_PROP] = { NULL, };
G_DEFINE_ABSTRACT_TYPE (GdkSurface, gdk_surface, G_TYPE_OBJECT)
static gboolean
gdk_surface_real_beep (GdkSurface *surface)
{
return FALSE;
}
static GdkDisplay *
get_display_for_surface (GdkSurface *primary,
GdkSurface *secondary)
{
GdkDisplay *display = primary->display;
if (display)
return display;
display = secondary->display;
if (display)
return display;
g_warning ("no display for surface, using default");
return gdk_display_get_default ();
}
static GdkMonitor *
get_monitor_for_rect (GdkDisplay *display,
const GdkRectangle *rect,
void (*get_bounds) (GdkMonitor *monitor,
GdkRectangle *bounds))
{
int biggest_area = G_MININT;
GdkMonitor *best_monitor = NULL;
GdkMonitor *monitor;
GdkRectangle workarea;
GdkRectangle intersection;
GListModel *monitors;
guint i;
monitors = gdk_display_get_monitors (display);
for (i = 0; i < g_list_model_get_n_items (monitors); i++)
{
monitor = g_list_model_get_item (monitors, i);
get_bounds (monitor, &workarea);
if (gdk_rectangle_intersect (&workarea, rect, &intersection))
{
if (intersection.width * intersection.height > biggest_area)
{
biggest_area = intersection.width * intersection.height;
best_monitor = monitor;
}
}
g_object_unref (monitor);
}
return best_monitor;
}
static int
get_anchor_x_sign (GdkGravity anchor)
{
switch (anchor)
{
case GDK_GRAVITY_STATIC:
case GDK_GRAVITY_NORTH_WEST:
case GDK_GRAVITY_WEST:
case GDK_GRAVITY_SOUTH_WEST:
return -1;
default:
case GDK_GRAVITY_NORTH:
case GDK_GRAVITY_CENTER:
case GDK_GRAVITY_SOUTH:
return 0;
case GDK_GRAVITY_NORTH_EAST:
case GDK_GRAVITY_EAST:
case GDK_GRAVITY_SOUTH_EAST:
return 1;
}
}
static int
get_anchor_y_sign (GdkGravity anchor)
{
switch (anchor)
{
case GDK_GRAVITY_STATIC:
case GDK_GRAVITY_NORTH_WEST:
case GDK_GRAVITY_NORTH:
case GDK_GRAVITY_NORTH_EAST:
return -1;
default:
case GDK_GRAVITY_WEST:
case GDK_GRAVITY_CENTER:
case GDK_GRAVITY_EAST:
return 0;
case GDK_GRAVITY_SOUTH_WEST:
case GDK_GRAVITY_SOUTH:
case GDK_GRAVITY_SOUTH_EAST:
return 1;
}
}
static int
maybe_flip_position (int bounds_pos,
int bounds_size,
int rect_pos,
int rect_size,
int surface_size,
int rect_sign,
int surface_sign,
int offset,
gboolean flip,
gboolean *flipped)
{
int primary;
int secondary;
*flipped = FALSE;
primary = rect_pos + (1 + rect_sign) * rect_size / 2 + offset - (1 + surface_sign) * surface_size / 2;
if (!flip || (primary >= bounds_pos && primary + surface_size <= bounds_pos + bounds_size))
return primary;
*flipped = TRUE;
secondary = rect_pos + (1 - rect_sign) * rect_size / 2 - offset - (1 - surface_sign) * surface_size / 2;
if (secondary >= bounds_pos && secondary + surface_size <= bounds_pos + bounds_size)
return secondary;
*flipped = FALSE;
return primary;
}
GdkMonitor *
gdk_surface_get_layout_monitor (GdkSurface *surface,
GdkPopupLayout *layout,
void (*get_bounds) (GdkMonitor *monitor,
GdkRectangle *bounds))
{
GdkDisplay *display;
GdkRectangle root_rect;
root_rect = *gdk_popup_layout_get_anchor_rect (layout);
gdk_surface_get_root_coords (surface->parent,
root_rect.x,
root_rect.y,
&root_rect.x,
&root_rect.y);
root_rect.width = MAX (1, root_rect.width);
root_rect.height = MAX (1, root_rect.height);
display = get_display_for_surface (surface, surface->transient_for);
return get_monitor_for_rect (display, &root_rect, get_bounds);
}
void
gdk_surface_layout_popup_helper (GdkSurface *surface,
int width,
int height,
int shadow_left,
int shadow_right,
int shadow_top,
int shadow_bottom,
GdkMonitor *monitor,
GdkRectangle *bounds,
GdkPopupLayout *layout,
GdkRectangle *out_final_rect)
{
GdkRectangle root_rect;
GdkGravity rect_anchor;
GdkGravity surface_anchor;
int rect_anchor_dx;
int rect_anchor_dy;
GdkAnchorHints anchor_hints;
GdkRectangle final_rect;
gboolean flipped_x;
gboolean flipped_y;
int x, y;
g_return_if_fail (GDK_IS_POPUP (surface));
root_rect = *gdk_popup_layout_get_anchor_rect (layout);
gdk_surface_get_root_coords (surface->parent,
root_rect.x,
root_rect.y,
&root_rect.x,
&root_rect.y);
rect_anchor = gdk_popup_layout_get_rect_anchor (layout);
surface_anchor = gdk_popup_layout_get_surface_anchor (layout);
gdk_popup_layout_get_offset (layout, &rect_anchor_dx, &rect_anchor_dy);
anchor_hints = gdk_popup_layout_get_anchor_hints (layout);
final_rect.width = width - shadow_left - shadow_right;
final_rect.height = height - shadow_top - shadow_bottom;
final_rect.x = maybe_flip_position (bounds->x,
bounds->width,
root_rect.x,
root_rect.width,
final_rect.width,
get_anchor_x_sign (rect_anchor),
get_anchor_x_sign (surface_anchor),
rect_anchor_dx,
anchor_hints & GDK_ANCHOR_FLIP_X,
&flipped_x);
final_rect.y = maybe_flip_position (bounds->y,
bounds->height,
root_rect.y,
root_rect.height,
final_rect.height,
get_anchor_y_sign (rect_anchor),
get_anchor_y_sign (surface_anchor),
rect_anchor_dy,
anchor_hints & GDK_ANCHOR_FLIP_Y,
&flipped_y);
if (anchor_hints & GDK_ANCHOR_SLIDE_X)
{
if (final_rect.x + final_rect.width > bounds->x + bounds->width)
final_rect.x = bounds->x + bounds->width - final_rect.width;
if (final_rect.x < bounds->x)
final_rect.x = bounds->x;
}
if (anchor_hints & GDK_ANCHOR_SLIDE_Y)
{
if (final_rect.y + final_rect.height > bounds->y + bounds->height)
final_rect.y = bounds->y + bounds->height - final_rect.height;
if (final_rect.y < bounds->y)
final_rect.y = bounds->y;
}
if (anchor_hints & GDK_ANCHOR_RESIZE_X)
{
if (final_rect.x < bounds->x)
{
final_rect.width -= bounds->x - final_rect.x;
final_rect.x = bounds->x;
}
if (final_rect.x + final_rect.width > bounds->x + bounds->width)
final_rect.width = bounds->x + bounds->width - final_rect.x;
}
if (anchor_hints & GDK_ANCHOR_RESIZE_Y)
{
if (final_rect.y < bounds->y)
{
final_rect.height -= bounds->y - final_rect.y;
final_rect.y = bounds->y;
}
if (final_rect.y + final_rect.height > bounds->y + bounds->height)
final_rect.height = bounds->y + bounds->height - final_rect.y;
}
final_rect.x -= shadow_left;
final_rect.y -= shadow_top;
final_rect.width += shadow_left + shadow_right;
final_rect.height += shadow_top + shadow_bottom;
gdk_surface_get_origin (surface->parent, &x, &y);
final_rect.x -= x;
final_rect.y -= y;
if (flipped_x)
{
rect_anchor = gdk_gravity_flip_horizontally (rect_anchor);
surface_anchor = gdk_gravity_flip_horizontally (surface_anchor);
}
if (flipped_y)
{
rect_anchor = gdk_gravity_flip_vertically (rect_anchor);
surface_anchor = gdk_gravity_flip_vertically (surface_anchor);
}
surface->popup.rect_anchor = rect_anchor;
surface->popup.surface_anchor = surface_anchor;
*out_final_rect = final_rect;
}
/* Since GdkEvent is a GTypeInstance, GValue can only store it as a pointer,
* and GClosure does not know how to handle its memory management. To avoid
* the event going away in the middle of the signal emission, we provide a
* marshaller that keeps the event alive for the duration of the closure.
*/
static void
gdk_surface_event_marshaller (GClosure *closure,
GValue *return_value,
guint n_param_values,
const GValue *param_values,
gpointer invocation_hint,
gpointer marshal_data)
{
GdkEvent *event = g_value_get_pointer (&param_values[1]);
gdk_event_ref (event);
_gdk_marshal_BOOLEAN__POINTER (closure,
return_value,
n_param_values,
param_values,
invocation_hint,
marshal_data);
gdk_event_unref (event);
}
static void
gdk_surface_event_marshallerv (GClosure *closure,
GValue *return_value,
gpointer instance,
va_list args,
gpointer marshal_data,
int n_params,
GType *param_types)
{
va_list args_copy;
GdkEvent *event;
G_VA_COPY (args_copy, args);
event = va_arg (args_copy, gpointer);
gdk_event_ref (event);
_gdk_marshal_BOOLEAN__POINTERv (closure,
return_value,
instance,
args,
marshal_data,
n_params,
param_types);
gdk_event_unref (event);
va_end (args_copy);
}
static void
gdk_surface_init (GdkSurface *surface)
{
/* 0-initialization is good for all other fields. */
surface->state = 0;
surface->fullscreen_mode = GDK_FULLSCREEN_ON_CURRENT_MONITOR;
surface->width = 1;
surface->height = 1;
surface->alpha = 255;
surface->device_cursor = g_hash_table_new_full (NULL, NULL,
NULL, g_object_unref);
}
static void
gdk_surface_class_init (GdkSurfaceClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
object_class->finalize = gdk_surface_finalize;
object_class->set_property = gdk_surface_set_property;
object_class->get_property = gdk_surface_get_property;
klass->beep = gdk_surface_real_beep;
/**
* GdkSurface:cursor: (attributes org.gtk.Property.get=gdk_surface_get_cursor org.gtk.Property.set=gdk_surface_set_cursor)
*
* The mouse pointer for the `GdkSurface`.
*/
properties[PROP_CURSOR] =
g_param_spec_object ("cursor",
P_("Cursor"),
P_("Cursor"),
GDK_TYPE_CURSOR,
G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS);
/**
* GdkSurface:display: (attributes org.gtk.Property.get=gdk_surface_get_display)
*
* The `GdkDisplay` connection of the surface.
*/
properties[PROP_DISPLAY] =
g_param_spec_object ("display",
P_("Display"),
P_("Display"),
GDK_TYPE_DISPLAY,
G_PARAM_READWRITE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS);
/**
* GdkSurface:frame-clock: (attributes org.gtk.Property.get=gdk_surface_get_frame_clock)
*
* The `GdkFrameClock` of the surface.
*/
properties[PROP_FRAME_CLOCK] =
g_param_spec_object ("frame-clock",
P_("Frame Clock"),
P_("Frame Clock"),
GDK_TYPE_FRAME_CLOCK,
G_PARAM_READWRITE | G_PARAM_CONSTRUCT_ONLY | G_PARAM_STATIC_STRINGS);
/**
* GdkSurface:mapped: (attributes org.gtk.Property.get=gdk_surface_get_mapped)
*
* Whether the surface is mapped.
*/
properties[PROP_MAPPED] =
g_param_spec_boolean ("mapped",
P_("Mapped"),
P_("Mapped"),
FALSE,
G_PARAM_READABLE | G_PARAM_STATIC_STRINGS);
/**
* GdkSurface:width: (attributes org.gtk.Property.get=gdk_surface_get_width)
*
* The width of the surface in pixels.
*/
properties[PROP_WIDTH] =
g_param_spec_int ("width",
P_("Width"),
P_("Width"),
0, G_MAXINT, 0,
G_PARAM_READABLE | G_PARAM_STATIC_STRINGS);
/**
* GdkSurface:height: (attributes org.gtk.Property.get=gdk_surface_get_height)
*
* The height of the surface, in pixels.
*/
properties[PROP_HEIGHT] =
g_param_spec_int ("height",
P_("Height"),
P_("Height"),
0, G_MAXINT, 0,
G_PARAM_READABLE | G_PARAM_STATIC_STRINGS);
/**
* GdkSurface:scale-factor: (attributes org.gtk.Property.get=gdk_surface_get_scale_factor)
*
* The scale factor of the surface.
*/
properties[PROP_SCALE_FACTOR] =
g_param_spec_int ("scale-factor",
P_("Scale factor"),
P_("Scale factor"),
1, G_MAXINT, 1,
G_PARAM_READABLE | G_PARAM_STATIC_STRINGS);
g_object_class_install_properties (object_class, LAST_PROP, properties);
/**
* GdkSurface::layout:
* @surface: the `GdkSurface`
* @width: the current width
* @height: the current height
*
* Emitted when the size of @surface is changed, or when relayout should
* be performed.
*
* Surface size is reported in ”application pixels”, not
* ”device pixels” (see gdk_surface_get_scale_factor()).
*/
signals[LAYOUT] =
g_signal_new (g_intern_static_string ("layout"),
G_OBJECT_CLASS_TYPE (object_class),
G_SIGNAL_RUN_FIRST,
0,
NULL,
NULL,
NULL,
G_TYPE_NONE,
2,
G_TYPE_INT,
G_TYPE_INT);
/**
* GdkSurface::render:
* @surface: the `GdkSurface`
* @region: the region that needs to be redrawn
*
* Emitted when part of the surface needs to be redrawn.
*
* Returns: %TRUE to indicate that the signal has been handled
*/
signals[RENDER] =
g_signal_new (g_intern_static_string ("render"),
G_OBJECT_CLASS_TYPE (object_class),
G_SIGNAL_RUN_LAST,
0,
g_signal_accumulator_true_handled,
NULL,
_gdk_marshal_BOOLEAN__BOXED,
G_TYPE_BOOLEAN,
1,
CAIRO_GOBJECT_TYPE_REGION);
g_signal_set_va_marshaller (signals[RENDER],
G_OBJECT_CLASS_TYPE (object_class),
_gdk_marshal_BOOLEAN__BOXEDv);
/**
* GdkSurface::event:
* @surface: the `GdkSurface`
* @event: (type Gdk.Event): an input event
*
* Emitted when GDK receives an input event for @surface.
*
* Returns: %TRUE to indicate that the event has been handled
*/
signals[EVENT] =
g_signal_new (g_intern_static_string ("event"),
G_OBJECT_CLASS_TYPE (object_class),
G_SIGNAL_RUN_LAST,
0,
g_signal_accumulator_true_handled,
NULL,
gdk_surface_event_marshaller,
G_TYPE_BOOLEAN,
1,
G_TYPE_POINTER);
g_signal_set_va_marshaller (signals[EVENT],
G_OBJECT_CLASS_TYPE (object_class),
gdk_surface_event_marshallerv);
/**
* GdkSurface::enter-monitor:
* @surface: the `GdkSurface`
* @monitor: the monitor
*
* Emitted when @surface starts being present on the monitor.
*/
signals[ENTER_MONITOR] =
g_signal_new (g_intern_static_string ("enter-monitor"),
G_OBJECT_CLASS_TYPE (object_class),
G_SIGNAL_RUN_FIRST,
0,
NULL,
NULL,
NULL,
G_TYPE_NONE,
1,
GDK_TYPE_MONITOR);
/**
* GdkSurface::leave-monitor:
* @surface: the `GdkSurface`
* @monitor: the monitor
*
* Emitted when @surface stops being present on the monitor.
*/
signals[LEAVE_MONITOR] =
g_signal_new (g_intern_static_string ("leave-monitor"),
G_OBJECT_CLASS_TYPE (object_class),
G_SIGNAL_RUN_FIRST,
0,
NULL,
NULL,
NULL,
G_TYPE_NONE,
1,
GDK_TYPE_MONITOR);
}
static void
seat_removed_cb (GdkDisplay *display,
GdkSeat *seat,
GdkSurface *surface)
{
GdkDevice *device = gdk_seat_get_pointer (seat);
surface->devices_inside = g_list_remove (surface->devices_inside, device);
g_hash_table_remove (surface->device_cursor, device);
}
static void
gdk_surface_finalize (GObject *object)
{
GdkSurface *surface = GDK_SURFACE (object);
g_clear_handle_id (&surface->request_motion_id, g_source_remove);
g_signal_handlers_disconnect_by_func (surface->display,
seat_removed_cb, surface);
if (!GDK_SURFACE_DESTROYED (surface))
{
g_warning ("losing last reference to undestroyed surface");
_gdk_surface_destroy (surface, FALSE);
}
if (surface->input_region)
cairo_region_destroy (surface->input_region);
if (surface->cursor)
g_object_unref (surface->cursor);
if (surface->device_cursor)
g_hash_table_destroy (surface->device_cursor);
if (surface->devices_inside)
g_list_free (surface->devices_inside);
g_clear_object (&surface->display);
if (surface->opaque_region)
cairo_region_destroy (surface->opaque_region);
if (surface->parent)
surface->parent->children = g_list_remove (surface->parent->children, surface);
G_OBJECT_CLASS (gdk_surface_parent_class)->finalize (object);
}
static void
gdk_surface_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
GdkSurface *surface = GDK_SURFACE (object);
switch (prop_id)
{
case PROP_CURSOR:
gdk_surface_set_cursor (surface, g_value_get_object (value));
break;
case PROP_DISPLAY:
surface->display = g_value_dup_object (value);
g_assert (surface->display != NULL);
g_signal_connect (surface->display, "seat-removed",
G_CALLBACK (seat_removed_cb), surface);
break;
case PROP_FRAME_CLOCK:
gdk_surface_set_frame_clock (surface, GDK_FRAME_CLOCK (g_value_get_object (value)));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
#define GDK_SURFACE_IS_STICKY(surface) (((surface)->state & GDK_TOPLEVEL_STATE_STICKY))
static void
gdk_surface_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
GdkSurface *surface = GDK_SURFACE (object);
switch (prop_id)
{
case PROP_CURSOR:
g_value_set_object (value, gdk_surface_get_cursor (surface));
break;
case PROP_DISPLAY:
g_value_set_object (value, surface->display);
break;
case PROP_FRAME_CLOCK:
g_value_set_object (value, surface->frame_clock);
break;
case PROP_MAPPED:
g_value_set_boolean (value, GDK_SURFACE_IS_MAPPED (surface));
break;
case PROP_WIDTH:
g_value_set_int (value, surface->width);
break;
case PROP_HEIGHT:
g_value_set_int (value, surface->height);
break;
case PROP_SCALE_FACTOR:
g_value_set_int (value, gdk_surface_get_scale_factor (surface));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
void
_gdk_surface_update_size (GdkSurface *surface)
{
GSList *l;
for (l = surface->draw_contexts; l; l = l->next)
gdk_draw_context_surface_resized (l->data);
g_object_notify (G_OBJECT (surface), "width");
g_object_notify (G_OBJECT (surface), "height");
}
static GdkSurface *
gdk_surface_new (GdkDisplay *display,
GdkSurfaceType surface_type,
GdkSurface *parent,
int x,
int y,
int width,
int height)
{
return gdk_display_create_surface (display,
surface_type,
parent,
x, y, width, height);
}
/**
* gdk_surface_new_toplevel: (constructor)
* @display: the display to create the surface on
*
* Creates a new toplevel surface.
*
* Returns: (transfer full): the new `GdkSurface`
*/
GdkSurface *
gdk_surface_new_toplevel (GdkDisplay *display)
{
g_return_val_if_fail (GDK_IS_DISPLAY (display), NULL);
return gdk_surface_new (display, GDK_SURFACE_TOPLEVEL,
NULL, 0, 0, 1, 1);
}
/**
* gdk_surface_new_popup: (constructor)
* @parent: the parent surface to attach the surface to
* @autohide: whether to hide the surface on outside clicks
*
* Create a new popup surface.
*
* The surface will be attached to @parent and can be positioned
* relative to it using [method@Gdk.Popup.present].
*
* Returns: (transfer full): a new `GdkSurface`
*/
GdkSurface *
gdk_surface_new_popup (GdkSurface *parent,
gboolean autohide)
{
GdkSurface *surface;
g_return_val_if_fail (GDK_IS_SURFACE (parent), NULL);
surface = gdk_surface_new (parent->display, GDK_SURFACE_POPUP,
parent, 0, 0, 100, 100);
surface->autohide = autohide;
return surface;
}
static void
update_pointer_info_foreach (GdkDisplay *display,
GdkDevice *device,
GdkPointerSurfaceInfo *pointer_info,
gpointer user_data)
{
GdkSurface *surface = user_data;
if (pointer_info->surface_under_pointer == surface)
{
g_object_unref (pointer_info->surface_under_pointer);
pointer_info->surface_under_pointer = NULL;
}
}
static void
surface_remove_from_pointer_info (GdkSurface *surface,
GdkDisplay *display)
{
_gdk_display_pointer_info_foreach (display,
update_pointer_info_foreach,
surface);
}
/**
* _gdk_surface_destroy_hierarchy:
* @surface: a `GdkSurface`
* @recursing_native: If %TRUE, then this is being called because a native
* parent was destroyed. This generally means that the call to the windowing
* system to destroy the surface can be omitted, since it will be destroyed
* as a result of the parent being destroyed. Unless @foreign_destroy.
* @foreign_destroy: If %TRUE, the surface or a parent was destroyed by some
* external agency. The surface has already been destroyed and no windowing
* system calls should be made. (This may never happen for some windowing
* systems.)
*
* Internal function to destroy a surface. Like gdk_surface_destroy(),
* but does not drop the reference count created by gdk_surface_new().
*/
static void
_gdk_surface_destroy_hierarchy (GdkSurface *surface,
gboolean foreign_destroy)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
if (GDK_SURFACE_DESTROYED (surface))
return;
GDK_SURFACE_GET_CLASS (surface)->destroy (surface, foreign_destroy);
if (surface->gl_paint_context)
{
/* Make sure to destroy if current */
g_object_run_dispose (G_OBJECT (surface->gl_paint_context));
g_object_unref (surface->gl_paint_context);
surface->gl_paint_context = NULL;
}
if (surface->frame_clock)
{
if (surface->parent == NULL)
g_object_run_dispose (G_OBJECT (surface->frame_clock));
gdk_surface_set_frame_clock (surface, NULL);
}
_gdk_surface_clear_update_area (surface);
g_clear_handle_id (&surface->set_is_mapped_source_id, g_source_remove);
surface->is_mapped = FALSE;
surface->pending_is_mapped = FALSE;
surface->destroyed = TRUE;
surface_remove_from_pointer_info (surface, surface->display);
if (GDK_IS_TOPLEVEL (surface))
g_object_notify (G_OBJECT (surface), "state");
g_object_notify_by_pspec (G_OBJECT (surface), properties[PROP_MAPPED]);
}
/**
* _gdk_surface_destroy:
* @surface: a `GdkSurface`
* @foreign_destroy: If %TRUE, the surface or a parent was destroyed by some
* external agency. The surface has already been destroyed and no windowing
* system calls should be made. (This may never happen for some windowing
* systems.)
*
* Internal function to destroy a surface. Like gdk_surface_destroy(),
* but does not drop the reference count created by gdk_surface_new().
*/
void
_gdk_surface_destroy (GdkSurface *surface,
gboolean foreign_destroy)
{
_gdk_surface_destroy_hierarchy (surface, foreign_destroy);
}
/**
* gdk_surface_destroy:
* @surface: a `GdkSurface`
*
* Destroys the window system resources associated with @surface and
* decrements @surface's reference count.
*
* The window system resources for all children of @surface are also
* destroyed, but the childrens reference counts are not decremented.
*
* Note that a surface will not be destroyed automatically when its
* reference count reaches zero. You must call this function yourself
* before that happens.
*/
void
gdk_surface_destroy (GdkSurface *surface)
{
_gdk_surface_destroy_hierarchy (surface, FALSE);
g_object_unref (surface);
}
void
gdk_surface_set_widget (GdkSurface *surface,
gpointer widget)
{
surface->widget = widget;
}
gpointer
gdk_surface_get_widget (GdkSurface *surface)
{
return surface->widget;
}
/**
* gdk_surface_get_display: (attributes org.gtk.Method.get_property=display)
* @surface: a `GdkSurface`
*
* Gets the `GdkDisplay` associated with a `GdkSurface`.
*
* Returns: (transfer none): the `GdkDisplay` associated with @surface
*/
GdkDisplay *
gdk_surface_get_display (GdkSurface *surface)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
return surface->display;
}
/**
* gdk_surface_is_destroyed:
* @surface: a `GdkSurface`
*
* Check to see if a surface is destroyed.
*
* Returns: %TRUE if the surface is destroyed
*/
gboolean
gdk_surface_is_destroyed (GdkSurface *surface)
{
return GDK_SURFACE_DESTROYED (surface);
}
/**
* gdk_surface_get_mapped: (attributes org.gtk.Method.get_property=mapped)
* @surface: a `GdkSurface`
*
* Checks whether the surface has been mapped.
*
* A surface is mapped with [method@Gdk.Toplevel.present]
* or [method@Gdk.Popup.present].
*
* Returns: %TRUE if the surface is mapped
*/
gboolean
gdk_surface_get_mapped (GdkSurface *surface)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), FALSE);
return GDK_SURFACE_IS_MAPPED (surface);
}
GdkGLContext *
gdk_surface_get_paint_gl_context (GdkSurface *surface,
GError **error)
{
GError *internal_error = NULL;
if (!gdk_display_prepare_gl (surface->display, error))
return NULL;
if (surface->gl_paint_context == NULL)
{
GdkSurfaceClass *class = GDK_SURFACE_GET_CLASS (surface);
surface->gl_paint_context =
class->create_gl_context (surface, &internal_error);
}
if (internal_error != NULL)
{
g_propagate_error (error, internal_error);
g_clear_object (&(surface->gl_paint_context));
return NULL;
}
gdk_gl_context_realize (surface->gl_paint_context, &internal_error);
if (internal_error != NULL)
{
g_propagate_error (error, internal_error);
g_clear_object (&(surface->gl_paint_context));
return NULL;
}
return surface->gl_paint_context;
}
/**
* gdk_surface_create_gl_context:
* @surface: a `GdkSurface`
* @error: return location for an error
*
* Creates a new `GdkGLContext` for the `GdkSurface`.
*
* The context is disconnected from any particular surface or surface.
* If the creation of the `GdkGLContext` failed, @error will be set.
* Before using the returned `GdkGLContext`, you will need to
* call [method@Gdk.GLContext.make_current] or [method@Gdk.GLContext.realize].
*
* Returns: (transfer full) (nullable): the newly created `GdkGLContext`
*/
GdkGLContext *
gdk_surface_create_gl_context (GdkSurface *surface,
GError **error)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
g_return_val_if_fail (error == NULL || *error == NULL, NULL);
if (!gdk_display_prepare_gl (surface->display, error))
return NULL;
return GDK_SURFACE_GET_CLASS (surface)->create_gl_context (surface,
error);
}
/**
* gdk_surface_create_cairo_context:
* @surface: a `GdkSurface`
*
* Creates a new `GdkCairoContext` for rendering on @surface.
*
* Returns: (transfer full): the newly created `GdkCairoContext`
*/
GdkCairoContext *
gdk_surface_create_cairo_context (GdkSurface *surface)
{
GdkDisplay *display;
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
display = surface->display;
return g_object_new (GDK_DISPLAY_GET_CLASS (display)->cairo_context_type,
"surface", surface,
NULL);
}
/**
* gdk_surface_create_vulkan_context:
* @surface: a `GdkSurface`
* @error: return location for an error
*
* Creates a new `GdkVulkanContext` for rendering on @surface.
*
* If the creation of the `GdkVulkanContext` failed, @error will be set.
*
* Returns: (transfer full): the newly created `GdkVulkanContext`, or
* %NULL on error
*/
GdkVulkanContext *
gdk_surface_create_vulkan_context (GdkSurface *surface,
GError **error)
{
GdkDisplay *display;
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
g_return_val_if_fail (error == NULL || *error == NULL, NULL);
if (GDK_DISPLAY_DEBUG_CHECK (surface->display, VULKAN_DISABLE))
{
g_set_error_literal (error, GDK_VULKAN_ERROR, GDK_VULKAN_ERROR_NOT_AVAILABLE,
_("Vulkan support disabled via GDK_DEBUG"));
return NULL;
}
display = surface->display;
if (GDK_DISPLAY_GET_CLASS (display)->vk_extension_name == NULL)
{
g_set_error (error, GDK_VULKAN_ERROR, GDK_VULKAN_ERROR_UNSUPPORTED,
"The %s backend has no Vulkan support.", G_OBJECT_TYPE_NAME (display));
return FALSE;
}
return g_initable_new (GDK_DISPLAY_GET_CLASS (display)->vk_context_type,
NULL,
error,
"surface", surface,
NULL);
}
/* Code for dirty-region queueing
*/
static GSList *update_surfaces = NULL;
static void
gdk_surface_add_update_surface (GdkSurface *surface)
{
GSList *tmp;
/* Check whether "surface" is already in "update_surfaces" list.
* It could be added during execution of gtk_widget_destroy() when
* setting focus widget to NULL and redrawing old focus widget.
* See bug 711552.
*/
tmp = g_slist_find (update_surfaces, surface);
if (tmp != NULL)
return;
update_surfaces = g_slist_prepend (update_surfaces, g_object_ref (surface));
}
static void
gdk_surface_remove_update_surface (GdkSurface *surface)
{
GSList *link;
link = g_slist_find (update_surfaces, surface);
if (link != NULL)
{
update_surfaces = g_slist_delete_link (update_surfaces, link);
g_object_unref (surface);
}
}
static gboolean
gdk_surface_is_toplevel_frozen (GdkSurface *surface)
{
return surface->update_and_descendants_freeze_count > 0;
}
static void
gdk_surface_schedule_update (GdkSurface *surface)
{
GdkFrameClock *frame_clock;
g_return_if_fail (surface);
surface->pending_phases |= GDK_FRAME_CLOCK_PHASE_PAINT;
if (surface->update_freeze_count ||
gdk_surface_is_toplevel_frozen (surface))
return;
/* If there's no frame clock (a foreign surface), then the invalid
* region will just stick around unless gdk_surface_process_updates()
* is called. */
frame_clock = gdk_surface_get_frame_clock (surface);
if (frame_clock)
gdk_frame_clock_request_phase (gdk_surface_get_frame_clock (surface),
GDK_FRAME_CLOCK_PHASE_PAINT);
}
static void
gdk_surface_process_updates_internal (GdkSurface *surface)
{
/* Ensure the surface lives while updating it */
g_object_ref (surface);
surface->in_update = TRUE;
/* If an update got queued during update processing, we can get a
* surface in the update queue that has an empty update_area.
* just ignore it.
*/
if (surface->update_area)
{
g_assert (surface->active_update_area == NULL); /* No reentrancy */
surface->active_update_area = surface->update_area;
surface->update_area = NULL;
if (GDK_SURFACE_IS_MAPPED (surface))
{
cairo_region_t *expose_region;
gboolean handled;
expose_region = cairo_region_copy (surface->active_update_area);
g_signal_emit (surface, signals[RENDER], 0, expose_region, &handled);
cairo_region_destroy (expose_region);
}
cairo_region_destroy (surface->active_update_area);
surface->active_update_area = NULL;
}
surface->in_update = FALSE;
g_object_unref (surface);
}
static void
gdk_surface_layout_on_clock (GdkFrameClock *clock,
void *data)
{
GdkSurface *surface = GDK_SURFACE (data);
GdkSurfaceClass *class;
g_return_if_fail (GDK_IS_SURFACE (surface));
if (GDK_SURFACE_DESTROYED (surface))
return;
if (!GDK_SURFACE_IS_MAPPED (surface))
return;
surface->pending_phases &= ~GDK_FRAME_CLOCK_PHASE_LAYOUT;
class = GDK_SURFACE_GET_CLASS (surface);
if (class->compute_size)
{
if (class->compute_size (surface))
return;
}
g_signal_emit (surface, signals[LAYOUT], 0, surface->width, surface->height);
}
/**
* gdk_surface_request_layout:
* @surface: a `GdkSurface`
*
* Request a layout phase from the surface's frame clock.
*
* See [method@Gdk.FrameClock.request_phase].
*/
void
gdk_surface_request_layout (GdkSurface *surface)
{
GdkSurfaceClass *class;
GdkFrameClock *frame_clock;
class = GDK_SURFACE_GET_CLASS (surface);
if (class->request_layout)
class->request_layout (surface);
frame_clock = gdk_surface_get_frame_clock (surface);
g_return_if_fail (frame_clock);
gdk_frame_clock_request_phase (frame_clock,
GDK_FRAME_CLOCK_PHASE_LAYOUT);
}
static void
gdk_surface_paint_on_clock (GdkFrameClock *clock,
void *data)
{
GdkSurface *surface = GDK_SURFACE (data);
g_return_if_fail (GDK_IS_SURFACE (surface));
if (GDK_SURFACE_DESTROYED (surface))
return;
g_object_ref (surface);
if (surface->update_area &&
!surface->update_freeze_count &&
!gdk_surface_is_toplevel_frozen (surface) &&
/* Don't recurse into process_updates_internal, we'll
* do the update later when idle instead. */
!surface->in_update)
{
surface->pending_phases &= ~GDK_FRAME_CLOCK_PHASE_PAINT;
gdk_surface_process_updates_internal (surface);
gdk_surface_remove_update_surface (surface);
}
g_object_unref (surface);
}
/*
* gdk_surface_invalidate_rect:
* @surface: a `GdkSurface`
* @rect: (nullable): rectangle to invalidate or %NULL to
* invalidate the whole surface
*
* Invalidate a rectangular region of @surface.
*
* This is a convenience wrapper around
* [method@Gdk.Surface.invalidate_region].
*/
void
gdk_surface_invalidate_rect (GdkSurface *surface,
const GdkRectangle *rect)
{
GdkRectangle surface_rect;
cairo_region_t *region;
g_return_if_fail (GDK_IS_SURFACE (surface));
if (!GDK_SURFACE_IS_MAPPED (surface))
return;
if (!rect)
{
surface_rect.x = 0;
surface_rect.y = 0;
surface_rect.width = surface->width;
surface_rect.height = surface->height;
rect = &surface_rect;
}
region = cairo_region_create_rectangle (rect);
gdk_surface_invalidate_region (surface, region);
cairo_region_destroy (region);
}
static void
impl_surface_add_update_area (GdkSurface *impl_surface,
cairo_region_t *region)
{
if (impl_surface->update_area)
cairo_region_union (impl_surface->update_area, region);
else
{
gdk_surface_add_update_surface (impl_surface);
impl_surface->update_area = cairo_region_copy (region);
gdk_surface_schedule_update (impl_surface);
}
}
/**
* gdk_surface_queue_render:
* @surface: a `GdkSurface`
*
* Forces a [signal@Gdk.Surface::render] signal emission for @surface
* to be scheduled.
*
* This function is useful for implementations that track invalid
* regions on their own.
*/
void
gdk_surface_queue_render (GdkSurface *surface)
{
cairo_region_t *region;
g_return_if_fail (GDK_IS_SURFACE (surface));
region = cairo_region_create ();
impl_surface_add_update_area (surface, region);
cairo_region_destroy (region);
}
/*
* gdk_surface_invalidate_region:
* @surface: a `GdkSurface`
* @region: a `cairo_region_t`
*
* Adds @region to the update area for @surface.
*
* The update area is the region that needs to be redrawn,
* or “dirty region.”
*
* GDK will process all updates whenever the frame clock schedules
* a redraw, so theres no need to do forces redraws manually, you
* just need to invalidate regions that you know should be redrawn.
*/
void
gdk_surface_invalidate_region (GdkSurface *surface,
const cairo_region_t *region)
{
cairo_region_t *visible_region;
cairo_rectangle_int_t r;
g_return_if_fail (GDK_IS_SURFACE (surface));
if (!GDK_SURFACE_IS_MAPPED (surface))
return;
if (cairo_region_is_empty (region))
return;
r.x = 0;
r.y = 0;
r.width = surface->width;
r.height = surface->height;
visible_region = cairo_region_copy (region);
cairo_region_intersect_rectangle (visible_region, &r);
impl_surface_add_update_area (surface, visible_region);
cairo_region_destroy (visible_region);
}
/*
* _gdk_surface_clear_update_area:
* @surface: a `GdkSurface`
*
* Internal function to clear the update area for a surface.
* This is called when the surface is hidden or destroyed.
*/
void
_gdk_surface_clear_update_area (GdkSurface *surface)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
if (surface->update_area)
{
gdk_surface_remove_update_surface (surface);
cairo_region_destroy (surface->update_area);
surface->update_area = NULL;
}
}
/*
* gdk_surface_freeze_updates:
* @surface: a `GdkSurface`
*
* Temporarily freezes a surface such that it wont receive expose
* events. The surface will begin receiving expose events again when
* gdk_surface_thaw_updates() is called. If gdk_surface_freeze_updates()
* has been called more than once, gdk_surface_thaw_updates() must be
* called an equal number of times to begin processing exposes.
*/
void
gdk_surface_freeze_updates (GdkSurface *surface)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
surface->update_freeze_count++;
if (surface->update_freeze_count == 1)
_gdk_frame_clock_uninhibit_freeze (surface->frame_clock);
}
static gboolean
request_motion_cb (void *data)
{
GdkSurface *surface = GDK_SURFACE (data);
GdkFrameClock *clock = gdk_surface_get_frame_clock (surface);
if (clock)
gdk_frame_clock_request_phase (clock, GDK_FRAME_CLOCK_PHASE_FLUSH_EVENTS);
surface->request_motion_id = 0;
return G_SOURCE_REMOVE;
}
/*
* gdk_surface_thaw_updates:
* @surface: a `GdkSurface`
*
* Thaws a surface frozen with gdk_surface_freeze_updates(). Note that this
* will not necessarily schedule updates if the surface freeze count reaches
* zero.
*/
void
gdk_surface_thaw_updates (GdkSurface *surface)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
g_return_if_fail (surface->update_freeze_count > 0);
if (--surface->update_freeze_count == 0)
{
GdkFrameClock *frame_clock = surface->frame_clock;
_gdk_frame_clock_inhibit_freeze (frame_clock);
if (surface->pending_phases)
gdk_frame_clock_request_phase (frame_clock, surface->pending_phases);
if (surface->request_motion && surface->request_motion_id == 0)
{
surface->request_motion_id =
g_idle_add_full (GDK_PRIORITY_REDRAW + 20,
request_motion_cb, surface, NULL);
}
}
}
/*
* gdk_surface_constrain_size:
* @geometry: a `GdkGeometry` structure
* @flags: a mask indicating what portions of @geometry are set
* @width: desired width of surface
* @height: desired height of the surface
* @new_width: (out): location to store resulting width
* @new_height: (out): location to store resulting height
*
* Constrains a desired width and height according to a
* set of geometry hints (such as minimum and maximum size).
*/
void
gdk_surface_constrain_size (GdkGeometry *geometry,
GdkSurfaceHints flags,
int width,
int height,
int *new_width,
int *new_height)
{
/* This routine is partially borrowed from fvwm.
*
* Copyright 1993, Robert Nation
* You may use this code for any purpose, as long as the original
* copyright remains in the source code and all documentation
*
* which in turn borrows parts of the algorithm from uwm
*/
int min_width = 0;
int min_height = 0;
int max_width = G_MAXINT;
int max_height = G_MAXINT;
if (flags & GDK_HINT_MIN_SIZE)
{
min_width = geometry->min_width;
min_height = geometry->min_height;
}
if (flags & GDK_HINT_MAX_SIZE)
{
max_width = geometry->max_width ;
max_height = geometry->max_height;
}
/* clamp width and height to min and max values
*/
width = CLAMP (width, min_width, max_width);
height = CLAMP (height, min_height, max_height);
*new_width = width;
*new_height = height;
}
/**
* gdk_surface_get_device_position:
* @surface: a `GdkSurface`
* @device: pointer `GdkDevice` to query to
* @x: (out) (optional): return location for the X coordinate of @device
* @y: (out) (optional): return location for the Y coordinate of @device
* @mask: (out) (optional): return location for the modifier mask
*
* Obtains the current device position and modifier state.
*
* The position is given in coordinates relative to the upper
* left corner of @surface.
*
* Return: %TRUE if the device is over the surface
*/
gboolean
gdk_surface_get_device_position (GdkSurface *surface,
GdkDevice *device,
double *x,
double *y,
GdkModifierType *mask)
{
double tmp_x, tmp_y;
GdkModifierType tmp_mask;
gboolean ret;
g_return_val_if_fail (GDK_IS_SURFACE (surface), FALSE);
g_return_val_if_fail (GDK_IS_DEVICE (device), FALSE);
g_return_val_if_fail (gdk_device_get_source (device) != GDK_SOURCE_KEYBOARD, FALSE);
tmp_x = 0;
tmp_y = 0;
tmp_mask = 0;
ret = GDK_SURFACE_GET_CLASS (surface)->get_device_state (surface,
device,
&tmp_x, &tmp_y,
&tmp_mask);
if (x)
*x = tmp_x;
if (y)
*y = tmp_y;
if (mask)
*mask = tmp_mask;
return ret;
}
/**
* gdk_surface_hide:
* @surface: a `GdkSurface`
*
* Hide the surface.
*
* For toplevel surfaces, withdraws them, so they will no longer be
* known to the window manager; for all surfaces, unmaps them, so
* they wont be displayed. Normally done automatically as
* part of [method@Gtk.Widget.hide].
*/
void
gdk_surface_hide (GdkSurface *surface)
{
gboolean was_mapped;
g_return_if_fail (GDK_IS_SURFACE (surface));
if (surface->destroyed)
return;
was_mapped = GDK_SURFACE_IS_MAPPED (surface);
gdk_surface_queue_set_is_mapped (surface, FALSE);
if (was_mapped)
{
GdkDisplay *display;
GdkSeat *seat;
GList *devices, *d;
/* May need to break grabs on children */
display = surface->display;
seat = gdk_display_get_default_seat (display);
if (seat)
{
devices = gdk_seat_get_devices (seat, GDK_SEAT_CAPABILITY_ALL);
devices = g_list_prepend (devices, gdk_seat_get_keyboard (seat));
devices = g_list_prepend (devices, gdk_seat_get_pointer (seat));
}
else
devices = NULL;
for (d = devices; d; d = d->next)
{
GdkDevice *device = d->data;
if (_gdk_display_end_device_grab (display,
device,
_gdk_display_get_next_serial (display),
surface,
TRUE))
{
G_GNUC_BEGIN_IGNORE_DEPRECATIONS
gdk_device_ungrab (device, GDK_CURRENT_TIME);
G_GNUC_END_IGNORE_DEPRECATIONS
}
}
g_list_free (devices);
}
GDK_SURFACE_GET_CLASS (surface)->hide (surface);
surface->popup.rect_anchor = 0;
surface->popup.surface_anchor = 0;
surface->x = 0;
surface->y = 0;
}
static void
gdk_surface_set_cursor_internal (GdkSurface *surface,
GdkDevice *device,
GdkCursor *cursor)
{
GdkPointerSurfaceInfo *pointer_info;
if (GDK_SURFACE_DESTROYED (surface))
return;
g_assert (surface->display == gdk_device_get_display (device));
pointer_info = _gdk_display_get_pointer_info (surface->display, device);
if (surface == pointer_info->surface_under_pointer)
update_cursor (surface->display, device);
}
/**
* gdk_surface_get_cursor: (attributes org.gtk.Method.get_property=cursor)
* @surface: a `GdkSurface`
*
* Retrieves a `GdkCursor` pointer for the cursor currently set on the
* `GdkSurface`.
*
* If the return value is %NULL then there is no custom cursor set on
* the surface, and it is using the cursor for its parent surface.
*
* Use [method@Gdk.Surface.set_cursor] to unset the cursor of the surface.
*
* Returns: (nullable) (transfer none): a `GdkCursor`
*/
GdkCursor *
gdk_surface_get_cursor (GdkSurface *surface)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
return surface->cursor;
}
/**
* gdk_surface_set_cursor: (attributes org.gtk.Method.set_property=cursor)
* @surface: a `GdkSurface`
* @cursor: (nullable): a `GdkCursor`
*
* Sets the default mouse pointer for a `GdkSurface`.
*
* Passing %NULL for the @cursor argument means that @surface will use
* the cursor of its parent surface. Most surfaces should use this default.
* Note that @cursor must be for the same display as @surface.
*
* Use [ctor@Gdk.Cursor.new_from_name] or [ctor@Gdk.Cursor.new_from_texture]
* to create the cursor. To make the cursor invisible, use %GDK_BLANK_CURSOR.
*/
void
gdk_surface_set_cursor (GdkSurface *surface,
GdkCursor *cursor)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
if (surface->cursor)
{
g_object_unref (surface->cursor);
surface->cursor = NULL;
}
if (!GDK_SURFACE_DESTROYED (surface))
{
GdkDevice *device;
GList *seats, *s;
if (cursor)
surface->cursor = g_object_ref (cursor);
seats = gdk_display_list_seats (surface->display);
for (s = seats; s; s = s->next)
{
GList *devices, *d;
device = gdk_seat_get_pointer (s->data);
gdk_surface_set_cursor_internal (surface, device, surface->cursor);
devices = gdk_seat_get_devices (s->data, GDK_SEAT_CAPABILITY_TABLET_STYLUS);
for (d = devices; d; d = d->next)
{
device = d->data;
gdk_surface_set_cursor_internal (surface, device, surface->cursor);
}
g_list_free (devices);
}
g_list_free (seats);
g_object_notify_by_pspec (G_OBJECT (surface), properties[PROP_CURSOR]);
}
}
/**
* gdk_surface_get_device_cursor:
* @surface: a `GdkSurface`
* @device: a pointer `GdkDevice`
*
* Retrieves a `GdkCursor` pointer for the @device currently set on the
* specified `GdkSurface`.
*
* If the return value is %NULL then there is no custom cursor set on the
* specified surface, and it is using the cursor for its parent surface.
*
* Use [method@Gdk.Surface.set_cursor] to unset the cursor of the surface.
*
* Returns: (nullable) (transfer none): a `GdkCursor`
*/
GdkCursor *
gdk_surface_get_device_cursor (GdkSurface *surface,
GdkDevice *device)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
g_return_val_if_fail (GDK_IS_DEVICE (device), NULL);
g_return_val_if_fail (gdk_device_get_source (device) != GDK_SOURCE_KEYBOARD, NULL);
return g_hash_table_lookup (surface->device_cursor, device);
}
/**
* gdk_surface_set_device_cursor:
* @surface: a `GdkSurface`
* @device: a pointer `GdkDevice`
* @cursor: a `GdkCursor`
*
* Sets a specific `GdkCursor` for a given device when it gets inside @surface.
*
* Passing %NULL for the @cursor argument means that @surface will use the
* cursor of its parent surface. Most surfaces should use this default.
*
* Use [ctor@Gdk.Cursor.new_from_name] or [ctor@Gdk.Cursor.new_from_texture]
* to create the cursor. To make the cursor invisible, use %GDK_BLANK_CURSOR.
*/
void
gdk_surface_set_device_cursor (GdkSurface *surface,
GdkDevice *device,
GdkCursor *cursor)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
g_return_if_fail (GDK_IS_DEVICE (device));
g_return_if_fail (gdk_device_get_source (device) != GDK_SOURCE_KEYBOARD);
if (!cursor)
g_hash_table_remove (surface->device_cursor, device);
else
g_hash_table_replace (surface->device_cursor, device, g_object_ref (cursor));
gdk_surface_set_cursor_internal (surface, device, cursor);
}
/*
* gdk_surface_get_geometry:
* @surface: a `GdkSurface`
* @x: (out) (optional): return location for X coordinate of surface (relative to its parent)
* @y: (out) (optional): return location for Y coordinate of surface (relative to its parent)
* @width: (out) (optional): return location for width of surface
* @height: (out) (optional): return location for height of surface
*
* Get the geometry of the surface.
*
* The X and Y coordinates returned are relative to the parent surface
* of @surface, which for toplevels usually means relative to the
* surface decorations (titlebar, etc.) rather than relative to the
* root window (screen-size background window).
*
* On the X11 platform, the geometry is obtained from the X server, so
* reflects the latest position of @surface; this may be out-of-sync with
* the position of @surface delivered in the most-recently-processed
* `GdkEventConfigure`. [method@Gdk.Surface.get_position] in contrast gets
* the position from the most recent configure event.
*
* Any of the return location arguments to this function may be %NULL,
* if you arent interested in getting the value of that field.
*
* Note: If @surface is not a toplevel, it is much better to call
* [method@Gdk.Surface.get_position], [method@Gdk.Surface.get_width] and
* [method@Gdk.Surface.get_height] instead, because it avoids the roundtrip
* to the X server and because these functions support the full 32-bit
* coordinate space, whereas gdk_surface_get_geometry() is restricted to
* the 16-bit coordinates of X11.
*/
void
gdk_surface_get_geometry (GdkSurface *surface,
int *x,
int *y,
int *width,
int *height)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
if (GDK_SURFACE_DESTROYED (surface))
return;
GDK_SURFACE_GET_CLASS (surface)->get_geometry (surface, x, y, width, height);
}
/**
* gdk_surface_get_width: (attributes org.gtk.Method.get_property=width)
* @surface: a `GdkSurface`
*
* Returns the width of the given @surface.
*
* Surface size is reported in ”application pixels”, not
* ”device pixels” (see [method@Gdk.Surface.get_scale_factor]).
*
* Returns: The width of @surface
*/
int
gdk_surface_get_width (GdkSurface *surface)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), 0);
return surface->width;
}
/**
* gdk_surface_get_height: (attributes org.gtk.Method.get_property=height)
* @surface: a `GdkSurface`
*
* Returns the height of the given @surface.
*
* Surface size is reported in ”application pixels”, not
* ”device pixels” (see [method@Gdk.Surface.get_scale_factor]).
*
* Returns: The height of @surface
*/
int
gdk_surface_get_height (GdkSurface *surface)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), 0);
return surface->height;
}
/*
* gdk_surface_get_origin:
* @surface: a `GdkSurface`
* @x: (out): return location for X coordinate
* @y: (out): return location for Y coordinate
*
* Obtains the position of a surface in root window coordinates.
*
* (Compare with gdk_surface_get_position() and
* gdk_surface_get_geometry() which return the position
* of a surface relative to its parent surface.)
*/
void
gdk_surface_get_origin (GdkSurface *surface,
int *x,
int *y)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
gdk_surface_get_root_coords (surface, 0, 0, x, y);
}
/*
* gdk_surface_get_root_coords:
* @surface: a `GdkSurface`
* @x: X coordinate in surface
* @y: Y coordinate in surface
* @root_x: (out): return location for X coordinate
* @root_y: (out): return location for Y coordinate
*
* Obtains the position of a surface position in root
* window coordinates. This is similar to
* gdk_surface_get_origin() but allows you to pass
* in any position in the surface, not just the origin.
*/
void
gdk_surface_get_root_coords (GdkSurface *surface,
int x,
int y,
int *root_x,
int *root_y)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
if (GDK_SURFACE_DESTROYED (surface))
{
*root_x = 0;
*root_y = 0;
return;
}
GDK_SURFACE_GET_CLASS (surface)->get_root_coords (surface, x, y, root_x, root_y);
}
/**
* gdk_surface_set_input_region:
* @surface: a `GdkSurface`
* @region: region of surface to be reactive
*
* Apply the region to the surface for the purpose of event
* handling.
*
* Mouse events which happen while the pointer position corresponds
* to an unset bit in the mask will be passed on the surface below
* @surface.
*
* An input region is typically used with RGBA surfaces. The alpha
* channel of the surface defines which pixels are invisible and
* allows for nicely antialiased borders, and the input region
* controls where the surface is “clickable”.
*
* Use [method@Gdk.Display.supports_input_shapes] to find out if
* a particular backend supports input regions.
*/
void
gdk_surface_set_input_region (GdkSurface *surface,
cairo_region_t *region)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
if (GDK_SURFACE_DESTROYED (surface))
return;
if (cairo_region_equal (surface->input_region, region))
return;
if (surface->input_region)
cairo_region_destroy (surface->input_region);
if (region)
surface->input_region = cairo_region_copy (region);
else
surface->input_region = NULL;
GDK_SURFACE_GET_CLASS (surface)->set_input_region (surface, surface->input_region);
}
static void
update_cursor (GdkDisplay *display,
GdkDevice *device)
{
GdkSurface *cursor_surface;
GdkSurface *pointer_surface;
GdkPointerSurfaceInfo *pointer_info;
GdkDeviceGrabInfo *grab;
GdkCursor *cursor;
g_assert (display);
g_assert (device);
pointer_info = _gdk_display_get_pointer_info (display, device);
pointer_surface = pointer_info->surface_under_pointer;
/* We ignore the serials here and just pick the last grab
we've sent, as that would shortly be used anyway. */
grab = _gdk_display_get_last_device_grab (display, device);
if (grab != NULL)
{
/* use the cursor from the grab surface */
cursor_surface = grab->surface;
}
else
{
/* otherwise use the cursor from the pointer surface */
cursor_surface = pointer_surface;
}
cursor = g_hash_table_lookup (cursor_surface->device_cursor, device);
if (!cursor)
cursor = cursor_surface->cursor;
GDK_DEVICE_GET_CLASS (device)->set_surface_cursor (device, pointer_surface, cursor);
}
/**
* gdk_surface_beep:
* @surface: a toplevel `GdkSurface`
*
* Emits a short beep associated to @surface.
*
* If the display of @surface does not support per-surface beeps,
* emits a short beep on the display just as [method@Gdk.Display.beep].
*/
void
gdk_surface_beep (GdkSurface *surface)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
if (GDK_SURFACE_DESTROYED (surface))
return;
if (GDK_SURFACE_GET_CLASS (surface)->beep (surface))
return;
gdk_display_beep (surface->display);
}
void
_gdk_display_set_surface_under_pointer (GdkDisplay *display,
GdkDevice *device,
GdkSurface *surface)
{
GdkPointerSurfaceInfo *device_info;
device_info = _gdk_display_get_pointer_info (display, device);
if (device_info->surface_under_pointer)
g_object_unref (device_info->surface_under_pointer);
device_info->surface_under_pointer = surface;
if (surface)
{
g_object_ref (surface);
update_cursor (display, device);
}
}
#define GDK_ANY_BUTTON_MASK (GDK_BUTTON1_MASK | \
GDK_BUTTON2_MASK | \
GDK_BUTTON3_MASK | \
GDK_BUTTON4_MASK | \
GDK_BUTTON5_MASK)
void
_gdk_windowing_got_event (GdkDisplay *display,
GList *event_link,
GdkEvent *event,
gulong serial)
{
GdkSurface *event_surface;
gboolean unlink_event = FALSE;
GdkDeviceGrabInfo *button_release_grab;
GdkPointerSurfaceInfo *pointer_info = NULL;
GdkDevice *device;
GdkEventType type;
guint32 timestamp;
_gdk_display_update_last_event (display, event);
device = gdk_event_get_device (event);
timestamp = gdk_event_get_time (event);
if (device)
{
if (timestamp != GDK_CURRENT_TIME)
gdk_device_set_timestamp (device, timestamp);
if (gdk_device_get_source (device) != GDK_SOURCE_KEYBOARD &&
gdk_device_get_source (device) != GDK_SOURCE_TABLET_PAD)
{
pointer_info = _gdk_display_get_pointer_info (display, device);
pointer_info->last_physical_device = device;
}
_gdk_display_device_grab_update (display, device, serial);
}
event_surface = gdk_event_get_surface (event);
if (!event_surface)
goto out;
type = gdk_event_get_event_type (event);
if (type == GDK_ENTER_NOTIFY)
_gdk_display_set_surface_under_pointer (display, device, event_surface);
else if (type == GDK_LEAVE_NOTIFY)
_gdk_display_set_surface_under_pointer (display, device, NULL);
if (type == GDK_BUTTON_PRESS)
{
GdkSurface *grab_surface;
gboolean owner_events;
if (!gdk_device_grab_info (display, device, &grab_surface, &owner_events))
{
_gdk_display_add_device_grab (display,
device,
event_surface,
FALSE,
GDK_ALL_EVENTS_MASK,
serial,
gdk_event_get_time (event),
TRUE);
_gdk_display_device_grab_update (display, device, serial);
}
}
else if (type == GDK_BUTTON_RELEASE ||
type == GDK_TOUCH_CANCEL ||
type == GDK_TOUCH_END)
{
if (type == GDK_BUTTON_RELEASE ||
gdk_event_get_pointer_emulated (event))
{
button_release_grab =
_gdk_display_has_device_grab (display, device, serial);
if (button_release_grab &&
button_release_grab->implicit &&
(gdk_event_get_modifier_state (event) & GDK_ANY_BUTTON_MASK & ~(GDK_BUTTON1_MASK << (gdk_button_event_get_button (event) - 1))) == 0)
{
button_release_grab->serial_end = serial;
button_release_grab->implicit_ungrab = FALSE;
_gdk_display_device_grab_update (display, device, serial);
}
}
}
out:
if (unlink_event)
{
_gdk_event_queue_remove_link (display, event_link);
g_list_free_1 (event_link);
gdk_event_unref (event);
}
/* This does two things - first it sees if there are motions at the
* end of the queue that can be compressed. Second, if there is just
* a single motion that won't be dispatched because it is a compression
* candidate it queues up flushing the event queue.
*/
_gdk_event_queue_handle_motion_compression (display);
gdk_event_queue_handle_scroll_compression (display);
}
/**
* gdk_surface_create_similar_surface:
* @surface: surface to make new surface similar to
* @content: the content for the new surface
* @width: width of the new surface
* @height: height of the new surface
*
* Create a new Cairo surface that is as compatible as possible with the
* given @surface.
*
* For example the new surface will have the same fallback resolution
* and font options as @surface. Generally, the new surface will also
* use the same backend as @surface, unless that is not possible for
* some reason. The type of the returned surface may be examined with
* cairo_surface_get_type().
*
* Initially the surface contents are all 0 (transparent if contents
* have transparency, black otherwise.)
*
* This function always returns a valid pointer, but it will return a
* pointer to a “nil” surface if @other is already in an error state
* or any other error occurs.
*
* Returns: a pointer to the newly allocated surface. The caller
* owns the surface and should call cairo_surface_destroy() when done
* with it.
*/
cairo_surface_t *
gdk_surface_create_similar_surface (GdkSurface * surface,
cairo_content_t content,
int width,
int height)
{
cairo_surface_t *similar_surface;
int scale;
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
scale = gdk_surface_get_scale_factor (surface);
similar_surface = cairo_image_surface_create (content == CAIRO_CONTENT_COLOR ? CAIRO_FORMAT_RGB24 :
content == CAIRO_CONTENT_ALPHA ? CAIRO_FORMAT_A8 : CAIRO_FORMAT_ARGB32,
width * scale, height * scale);
cairo_surface_set_device_scale (similar_surface, scale, scale);
return similar_surface;
}
/* This function is called when the XWindow is really gone.
*/
void
gdk_surface_destroy_notify (GdkSurface *surface)
{
GDK_SURFACE_GET_CLASS (surface)->destroy_notify (surface);
}
/**
* gdk_drag_begin:
* @surface: the source surface for this drag
* @device: the device that controls this drag
* @content: (transfer none): the offered content
* @actions: the actions supported by this drag
* @dx: the x offset to @device's position where the drag nominally started
* @dy: the y offset to @device's position where the drag nominally started
*
* Starts a drag and creates a new drag context for it.
*
* This function is called by the drag source. After this call, you
* probably want to set up the drag icon using the surface returned
* by [method@Gdk.Drag.get_drag_surface].
*
* This function returns a reference to the [class@Gdk.Drag] object,
* but GTK keeps its own reference as well, as long as the DND operation
* is going on.
*
* Note: if @actions include %GDK_ACTION_MOVE, you need to listen for
* the [signal@Gdk.Drag::dnd-finished] signal and delete the data at
* the source if [method@Gdk.Drag.get_selected_action] returns
* %GDK_ACTION_MOVE.
*
* Returns: (transfer full) (nullable): a newly created `GdkDrag`
*/
GdkDrag *
gdk_drag_begin (GdkSurface *surface,
GdkDevice *device,
GdkContentProvider *content,
GdkDragAction actions,
double dx,
double dy)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
g_return_val_if_fail (GDK_IS_DEVICE (device), NULL);
g_return_val_if_fail (surface->display == gdk_device_get_display (device), NULL);
g_return_val_if_fail (GDK_IS_CONTENT_PROVIDER (content), NULL);
return GDK_SURFACE_GET_CLASS (surface)->drag_begin (surface, device, content, actions, dx, dy);
}
static void
gdk_surface_ensure_motion (GdkSurface *surface)
{
GdkDisplay *display;
GdkSeat *seat;
GdkDevice *device;
GdkEvent *event;
double x, y;
GdkModifierType state;
GdkSurface *grab_surface;
if (!surface->request_motion)
return;
surface->request_motion = FALSE;
display = gdk_surface_get_display (surface);
seat = gdk_display_get_default_seat (display);
if (!seat)
return;
device = gdk_seat_get_pointer (seat);
if (!gdk_surface_get_device_position (surface, device, &x, &y, &state))
return;
if (gdk_device_grab_info (display, device, &grab_surface, NULL))
{
if (grab_surface != surface)
return;
}
event = gdk_motion_event_new (surface,
device,
NULL,
GDK_CURRENT_TIME,
state,
x, y,
NULL);
gdk_surface_handle_event (event);
gdk_event_unref (event);
}
static void
gdk_surface_flush_events (GdkFrameClock *clock,
void *data)
{
GdkSurface *surface = GDK_SURFACE (data);
_gdk_event_queue_flush (surface->display);
gdk_surface_ensure_motion (surface);
_gdk_display_pause_events (surface->display);
gdk_frame_clock_request_phase (clock, GDK_FRAME_CLOCK_PHASE_RESUME_EVENTS);
surface->frame_clock_events_paused = TRUE;
}
static void
gdk_surface_resume_events (GdkFrameClock *clock,
void *data)
{
GdkSurface *surface = GDK_SURFACE (data);
if (surface->frame_clock_events_paused)
{
_gdk_display_unpause_events (surface->display);
surface->frame_clock_events_paused = FALSE;
}
}
static void
gdk_surface_set_frame_clock (GdkSurface *surface,
GdkFrameClock *clock)
{
g_return_if_fail (GDK_IS_SURFACE (surface));
g_return_if_fail (clock == NULL || GDK_IS_FRAME_CLOCK (clock));
if (clock == surface->frame_clock)
return;
if (clock)
{
g_object_ref (clock);
g_signal_connect (G_OBJECT (clock),
"flush-events",
G_CALLBACK (gdk_surface_flush_events),
surface);
g_signal_connect (G_OBJECT (clock),
"resume-events",
G_CALLBACK (gdk_surface_resume_events),
surface);
g_signal_connect (G_OBJECT (clock),
"layout",
G_CALLBACK (gdk_surface_layout_on_clock),
surface);
g_signal_connect (G_OBJECT (clock),
"paint",
G_CALLBACK (gdk_surface_paint_on_clock),
surface);
if (surface->update_freeze_count == 0)
_gdk_frame_clock_inhibit_freeze (clock);
}
if (surface->frame_clock)
{
if (surface->frame_clock_events_paused)
gdk_surface_resume_events (surface->frame_clock, G_OBJECT (surface));
g_signal_handlers_disconnect_by_func (G_OBJECT (surface->frame_clock),
G_CALLBACK (gdk_surface_flush_events),
surface);
g_signal_handlers_disconnect_by_func (G_OBJECT (surface->frame_clock),
G_CALLBACK (gdk_surface_resume_events),
surface);
g_signal_handlers_disconnect_by_func (G_OBJECT (surface->frame_clock),
G_CALLBACK (gdk_surface_layout_on_clock),
surface);
g_signal_handlers_disconnect_by_func (G_OBJECT (surface->frame_clock),
G_CALLBACK (gdk_surface_paint_on_clock),
surface);
if (surface->update_freeze_count == 0)
_gdk_frame_clock_uninhibit_freeze (surface->frame_clock);
g_object_unref (surface->frame_clock);
}
surface->frame_clock = clock;
}
/**
* gdk_surface_get_frame_clock: (attributes org.gtk.Method.get_property=frame-clock)
* @surface: surface to get frame clock for
*
* Gets the frame clock for the surface.
*
* The frame clock for a surface never changes unless the surface is
* reparented to a new toplevel surface.
*
* Returns: (transfer none): the frame clock
*/
GdkFrameClock *
gdk_surface_get_frame_clock (GdkSurface *surface)
{
g_return_val_if_fail (GDK_IS_SURFACE (surface), NULL);
return surface->frame_clock;
}
/**
* gdk_surface_get_scale_factor: (attributes org.gtk.Method.get_property=scale-factor)
* @surface: surface to get scale factor for
*
* Returns the internal scale factor that maps from surface coordinates
* to the actual device pixels.
*
* On traditional systems this is 1, but on very high density outputs
* this can be a higher value (often 2). A higher value means that drawing
* is automatically scaled up to a higher resolution, so any code doing
* drawing will automatically look nicer. However, if you are supplying
* pixel-based data the scale value can be used to determine whether to
* use a pixel resource with higher resolution data.
*
* The scale of a surface may change during runtime.
*
* Returns: the scale factor
*/
int
gdk_surface_get_scale_factor (GdkSurface *surface)
{
GdkSurfaceClass *class;
g_return_val_if_fail (GDK_IS_SURFACE (surface), 1);
if (GDK_SURFACE_DESTROYED (surface))
return 1;
class = GDK_SURFACE_GET_CLASS (surface);
if (class->get_scale_factor)
return class->get_scale_factor (surface);
return 1;
}
/**
* gdk_surface_set_opaque_region:
* @surface: a top-level `GdkSurface`
* @region: (nullable): a region, or %NULL to make the entire
* surface opaque
*
* Marks a region of the `GdkSurface` as opaque.
*
* For optimisation purposes, compositing window managers may
* like to not draw obscured regions of surfaces, or turn off blending
* during for these regions. With RGB windows with no transparency,
* this is just the shape of the window, but with ARGB32 windows, the
* compositor does not know what regions of the window are transparent
* or not.
*
* This function only works for toplevel surfaces.
*
* GTK will update this property automatically if the @surface background
* is opaque, as we know where the opaque regions are. If your surface
* background is not opaque, please update this property in your
* [vfunc@Gtk.Widget.css_changed] handler.
*/
void
gdk_surface_set_opaque_region (GdkSurface *surface,
cairo_region_t *region)
{
GdkSurfaceClass *class;
g_return_if_fail (GDK_IS_SURFACE (surface));
g_return_if_fail (!GDK_SURFACE_DESTROYED (surface));
if (cairo_region_equal (surface->opaque_region, region))
return;
g_clear_pointer (&surface->opaque_region, cairo_region_destroy);
if (region != NULL)
surface->opaque_region = cairo_region_reference (region);
class = GDK_SURFACE_GET_CLASS (surface);
if (class->set_opaque_region)
class->set_opaque_region (surface, region);
}
void
gdk_surface_set_state (GdkSurface *surface,
GdkToplevelState new_state)
{
gboolean was_sticky, sticky;
g_return_if_fail (GDK_IS_SURFACE (surface));
if (new_state == surface->state)
return; /* No actual work to do, nothing changed. */
/* Actually update the field in GdkSurface, this is sort of an odd
* place to do it, but seems like the safest since it ensures we expose no
* inconsistent state to the user.
*/
was_sticky = GDK_SURFACE_IS_STICKY (surface);
surface->state = new_state;
sticky = GDK_SURFACE_IS_STICKY (surface);
if (GDK_IS_TOPLEVEL (surface))
g_object_notify (G_OBJECT (surface), "state");
if (was_sticky != sticky)
g_object_notify (G_OBJECT (surface), "sticky");
}
void
gdk_synthesize_surface_state (GdkSurface *surface,
GdkToplevelState unset_flags,
GdkToplevelState set_flags)
{
gdk_surface_set_state (surface, (surface->state | set_flags) & ~unset_flags);
}
void
gdk_surface_queue_state_change (GdkSurface *surface,
GdkToplevelState unset_flags,
GdkToplevelState set_flags)
{
surface->pending_unset_flags |= unset_flags;
surface->pending_set_flags &= ~unset_flags;
surface->pending_set_flags |= set_flags;
surface->pending_unset_flags &= ~set_flags;
}
void
gdk_surface_apply_state_change (GdkSurface *surface)
{
if (!surface->pending_unset_flags && !surface->pending_set_flags)
return;
gdk_synthesize_surface_state (surface,
surface->pending_unset_flags,
surface->pending_set_flags);
surface->pending_unset_flags = 0;
surface->pending_set_flags = 0;
}
static gboolean
set_is_mapped_idle (gpointer user_data)
{
GdkSurface *surface = GDK_SURFACE (user_data);
surface->set_is_mapped_source_id = 0;
g_return_val_if_fail (surface->pending_is_mapped != surface->is_mapped,
G_SOURCE_REMOVE);
surface->is_mapped = surface->pending_is_mapped;
if (surface->is_mapped)
gdk_surface_invalidate_rect (surface, NULL);
g_object_notify (G_OBJECT (surface), "mapped");
return G_SOURCE_REMOVE;
}
void
gdk_surface_set_is_mapped (GdkSurface *surface,
gboolean is_mapped)
{
gboolean was_mapped;
if (surface->pending_is_mapped != surface->is_mapped)
g_clear_handle_id (&surface->set_is_mapped_source_id, g_source_remove);
surface->pending_is_mapped = is_mapped;
was_mapped = surface->is_mapped;
surface->is_mapped = is_mapped;
if (surface->is_mapped)
gdk_surface_invalidate_rect (surface, NULL);
if (was_mapped != is_mapped)
g_object_notify (G_OBJECT (surface), "mapped");
}
static void
gdk_surface_queue_set_is_mapped (GdkSurface *surface,
gboolean is_mapped)
{
if (surface->pending_is_mapped == is_mapped)
return;
surface->pending_is_mapped = is_mapped;
if (surface->is_mapped == surface->pending_is_mapped)
{
g_clear_handle_id (&surface->set_is_mapped_source_id, g_source_remove);
}
else
{
g_return_if_fail (!surface->set_is_mapped_source_id);
surface->set_is_mapped_source_id =
g_idle_add_full (G_PRIORITY_HIGH - 10,
set_is_mapped_idle,
surface, NULL);
}
}
static gboolean
check_autohide (GdkEvent *event)
{
GdkDisplay *display;
GdkDevice *device;
GdkSurface *grab_surface;
switch ((guint) gdk_event_get_event_type (event))
{
case GDK_BUTTON_PRESS:
#if 0
// FIXME: we need to ignore the release that is paired
// with the press starting the grab - due to implicit
// grabs, it will be delivered to the same place as the
// press, and will cause the auto dismissal to be triggered.
case GDK_BUTTON_RELEASE:
#endif
case GDK_TOUCH_BEGIN:
case GDK_TOUCH_END:
case GDK_TOUCH_CANCEL:
case GDK_TOUCHPAD_SWIPE:
case GDK_TOUCHPAD_PINCH:
display = gdk_event_get_display (event);
device = gdk_event_get_device (event);
if (gdk_device_grab_info (display, device, &grab_surface, NULL))
{
GdkSurface *event_surface;
event_surface = gdk_event_get_surface (event);
if (grab_surface != event_surface &&
grab_surface != event_surface->parent &&
grab_surface->autohide)
{
GdkSurface *surface = grab_surface;
do
{
gdk_surface_hide (surface);
surface = surface->parent;
}
while (surface->autohide && surface != event_surface);
return TRUE;
}
}
break;
default:;
}
return FALSE;
}
static inline void
add_event_mark (GdkEvent *event,
gint64 time,
gint64 end_time)
{
#ifdef HAVE_SYSPROF
char *message = NULL;
const char *kind;
GEnumClass *class;
GEnumValue *value;
GdkEventType event_type;
event_type = gdk_event_get_event_type (event);
class = g_type_class_ref (GDK_TYPE_EVENT_TYPE);
value = g_enum_get_value (class, event_type);
g_type_class_unref (class);
kind = value ? value->value_nick : "event";
switch ((int) event_type)
{
case GDK_MOTION_NOTIFY:
{
double x, y;
gdk_event_get_position (event, &x, &y);
message = g_strdup_printf ("%s {x=%lf, y=%lf, state=0x%x}",
kind,
x, y,
gdk_event_get_modifier_state (event));
break;
}
case GDK_BUTTON_PRESS:
case GDK_BUTTON_RELEASE:
{
double x, y;
gdk_event_get_position (event, &x, &y);
message = g_strdup_printf ("%s {button=%u, x=%lf, y=%lf, state=0x%x}",
kind,
gdk_button_event_get_button (event),
x, y,
gdk_event_get_modifier_state (event));
break;
}
case GDK_KEY_PRESS:
case GDK_KEY_RELEASE:
{
message = g_strdup_printf ("%s {keyval=%u, state=0x%x, keycode=%u layout=%u level=%u is_modifier=%u}",
kind,
gdk_key_event_get_keyval (event),
gdk_event_get_modifier_state (event),
gdk_key_event_get_keycode (event),
gdk_key_event_get_layout (event),
gdk_key_event_get_level (event),
gdk_key_event_is_modifier (event));
break;
}
case GDK_ENTER_NOTIFY:
case GDK_LEAVE_NOTIFY:
case GDK_TOUCHPAD_SWIPE:
case GDK_TOUCHPAD_PINCH:
case GDK_SCROLL:
case GDK_DRAG_ENTER:
case GDK_DRAG_LEAVE:
case GDK_DRAG_MOTION:
case GDK_DROP_START:
case GDK_TOUCH_BEGIN:
case GDK_TOUCH_UPDATE:
case GDK_TOUCH_END:
case GDK_TOUCH_CANCEL:
case GDK_PAD_BUTTON_PRESS:
case GDK_PAD_BUTTON_RELEASE:
case GDK_PAD_RING:
case GDK_PAD_STRIP:
case GDK_PAD_GROUP_MODE:
case GDK_GRAB_BROKEN:
case GDK_DELETE:
case GDK_FOCUS_CHANGE:
case GDK_PROXIMITY_IN:
case GDK_PROXIMITY_OUT:
case GDK_EVENT_LAST:
default:
break;
}
gdk_profiler_add_mark (time, end_time - time, "event", message ? message : kind);
g_free (message);
#endif
}
gboolean
gdk_surface_handle_event (GdkEvent *event)
{
GdkSurface *surface = gdk_event_get_surface (event);
gint64 begin_time = GDK_PROFILER_CURRENT_TIME;
gboolean handled = FALSE;
if (check_autohide (event))
return TRUE;
if (gdk_event_get_event_type (event) == GDK_MOTION_NOTIFY)
surface->request_motion = FALSE;
g_signal_emit (surface, signals[EVENT], 0, event, &handled);
if (GDK_PROFILER_IS_RUNNING)
add_event_mark (event, begin_time, GDK_PROFILER_CURRENT_TIME);
return handled;
}
/*
* gdk_surface_request_motion:
* @surface: a `GdkSurface`
*
* Request that the next frame cycle should deliver a motion
* event for @surface.
*
* The motion event will be delivered if the pointer is over the
* surface, regardless whether the pointer has moved or not. This
* is used by GTK after moving widgets around.
*/
void
gdk_surface_request_motion (GdkSurface *surface)
{
surface->request_motion = TRUE;
}
/**
* gdk_surface_translate_coordinates:
* @from: the origin surface
* @to: the target surface
* @x: (inout): coordinates to translate
* @y: (inout): coordinates to translate
*
* Translates coordinates between two surfaces.
*
* Note that this only works if @to and @from are popups or
* transient-for to the same toplevel (directly or indirectly).
*
* Returns: %TRUE if the coordinates were successfully translated
*/
gboolean
gdk_surface_translate_coordinates (GdkSurface *from,
GdkSurface *to,
double *x,
double *y)
{
double in_x, in_y, out_x, out_y;
int x1, y1, x2, y2;
GdkSurface *f, *t;
g_return_val_if_fail (GDK_IS_SURFACE (from), FALSE);
g_return_val_if_fail (GDK_IS_SURFACE (to), FALSE);
g_return_val_if_fail (x != NULL, FALSE);
g_return_val_if_fail (y != NULL, FALSE);
in_x = *x;
in_y = *y;
x1 = 0;
y1 = 0;
f = from;
while (f->parent)
{
x1 += f->x;
y1 += f->y;
f = f->parent;
}
x2 = 0;
y2 = 0;
t = to;
while (t->parent)
{
x2 += t->x;
y2 += t->y;
t = t->parent;
}
if (f != t)
return FALSE;
out_x = in_x + (x1 - x2);
out_y = in_y + (y1 - y2);
*x = out_x;
*y = out_y;
return TRUE;
}
GdkSeat *
gdk_surface_get_seat_from_event (GdkSurface *surface,
GdkEvent *event)
{
if (event)
{
GdkSeat *seat = NULL;
seat = gdk_event_get_seat (event);
if (seat)
return seat;
}
return gdk_display_get_default_seat (surface->display);
}
void
gdk_surface_enter_monitor (GdkSurface *surface,
GdkMonitor *monitor)
{
g_signal_emit (surface, signals[ENTER_MONITOR], 0, monitor);
}
void
gdk_surface_leave_monitor (GdkSurface *surface,
GdkMonitor *monitor)
{
g_signal_emit (surface, signals[LEAVE_MONITOR], 0, monitor);
}