mutter/src/backends/meta-stage-impl.c

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/*
* Clutter.
*
* An OpenGL based 'interactive canvas' library.
*
* Copyright (C) 2007,2008,2009,2010,2011 Intel Corporation.
*
* 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/>.
* Authors:
* Matthew Allum
* Robert Bragg
* Neil Roberts
* Emmanuele Bassi
*/
#include "config.h"
#include "backends/meta-stage-impl-private.h"
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
#include <stdlib.h>
#include <math.h>
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
#include "backends/meta-stage-view-private.h"
#include "clutter/clutter-mutter.h"
#include "cogl/cogl.h"
#include "core/util-private.h"
#include "meta/meta-backend.h"
cogl: reduce temporary allocations calculating redraw regions When calculating regions, a lot of temporary allocations are created. For the array of rects (which is often a short number of them) we can use stack allocations up to 1 page (256 cairo_rectangle_int_t). For building a region of rectangles, cairo and pixman are much faster if you have all of the rectangles up front or else it mallocs quite a bit of temporary memory. If we re-use the cairo_rectangle_int_t array we've already allocated (and preferably on the stack), we can delay the creation of regions until after the tight loop. Additionally, it requires fewer allocations to union two cairo_region_t than to incrementally union the rectangles into the region. Before (percentages are of total number of allocations) TOTAL FUNCTION [ 100.00%] [Everything] [ 100.00%] [gnome-shell --wayland --display-server] [ 99.67%] _start [ 99.67%] __libc_start_main [ 99.67%] main [ 98.60%] meta_run [ 96.90%] g_main_loop_run [ 96.90%] g_main_context_iterate.isra.0 [ 96.90%] g_main_context_dispatch [ 90.27%] clutter_clock_dispatch [ 86.54%] _clutter_stage_do_update [ 85.00%] clutter_stage_cogl_redraw [ 84.98%] clutter_stage_cogl_redraw_view [ 81.09%] cairo_region_union_rectangle After (overhead has much dropped) TOTAL FUNCTION [ 100.00%] [Everything] [ 99.80%] [gnome-shell --wayland --display-server] [ 99.48%] _start [ 99.48%] __libc_start_main [ 99.48%] main [ 92.37%] meta_run [ 81.49%] g_main_loop_run [ 81.49%] g_main_context_iterate.isra.0 [ 81.43%] g_main_context_dispatch [ 39.40%] clutter_clock_dispatch [ 26.93%] _clutter_stage_do_update [ 25.80%] clutter_stage_cogl_redraw [ 25.60%] clutter_stage_cogl_redraw_view https://gitlab.gnome.org/GNOME/mutter/merge_requests/1071
2020-02-19 20:34:49 -05:00
#define MAX_STACK_RECTS 256
typedef struct _MetaStageImplPrivate
{
MetaBackend *backend;
int64_t global_frame_counter;
} MetaStageImplPrivate;
static void
clutter_stage_window_iface_init (ClutterStageWindowInterface *iface);
G_DEFINE_TYPE_WITH_CODE (MetaStageImpl,
meta_stage_impl,
G_TYPE_OBJECT,
G_ADD_PRIVATE (MetaStageImpl)
G_IMPLEMENT_INTERFACE (CLUTTER_TYPE_STAGE_WINDOW,
clutter_stage_window_iface_init));
enum
{
PROP_0,
PROP_WRAPPER,
PROP_BACKEND,
N_PROPS
};
static GParamSpec *obj_props[N_PROPS];
static void
meta_stage_impl_unrealize (ClutterStageWindow *stage_window)
{
meta_topic (META_DEBUG_BACKEND, "Unrealizing Cogl stage [%p]", stage_window);
}
static gboolean
meta_stage_impl_realize (ClutterStageWindow *stage_window)
{
ClutterBackend *backend;
meta_topic (META_DEBUG_BACKEND,
"Realizing stage '%s' [%p]",
G_OBJECT_TYPE_NAME (stage_window),
stage_window);
backend = clutter_get_default_backend ();
if (backend->cogl_context == NULL)
{
g_warning ("Failed to realize stage: missing Cogl context");
return FALSE;
}
return TRUE;
}
static int64_t
meta_stage_impl_get_frame_counter (ClutterStageWindow *stage_window)
{
MetaStageImpl *stage_impl = META_STAGE_IMPL (stage_window);
MetaStageImplPrivate *priv =
meta_stage_impl_get_instance_private (stage_impl);
return priv->global_frame_counter;
}
static ClutterActor *
meta_stage_impl_get_wrapper (ClutterStageWindow *stage_window)
{
return CLUTTER_ACTOR (META_STAGE_IMPL (stage_window)->wrapper);
}
static void
meta_stage_impl_show (ClutterStageWindow *stage_window,
gboolean do_raise)
{
MetaStageImpl *stage_impl = META_STAGE_IMPL (stage_window);
clutter_actor_map (CLUTTER_ACTOR (stage_impl->wrapper));
}
static void
meta_stage_impl_hide (ClutterStageWindow *stage_window)
{
MetaStageImpl *stage_impl = META_STAGE_IMPL (stage_window);
clutter_actor_unmap (CLUTTER_ACTOR (stage_impl->wrapper));
}
static void
meta_stage_impl_resize (ClutterStageWindow *stage_window,
gint width,
gint height)
{
}
static void
paint_damage_region (ClutterStageWindow *stage_window,
ClutterStageView *view,
cairo_region_t *swap_region,
cairo_region_t *queued_redraw_clip)
{
CoglFramebuffer *framebuffer = clutter_stage_view_get_framebuffer (view);
CoglContext *ctx = cogl_framebuffer_get_context (framebuffer);
static CoglPipeline *overlay_blue = NULL;
MetaStageImpl *stage_impl = META_STAGE_IMPL (stage_window);
ClutterActor *actor = CLUTTER_ACTOR (stage_impl->wrapper);
graphene_matrix_t transform;
int n_rects, i;
cogl_framebuffer_push_matrix (framebuffer);
clutter_actor_get_transform (actor, &transform);
cogl_framebuffer_transform (framebuffer, &transform);
/* Blue for the swap region */
if (G_UNLIKELY (overlay_blue == NULL))
{
overlay_blue = cogl_pipeline_new (ctx);
cogl_pipeline_set_color4ub (overlay_blue, 0x00, 0x00, 0x33, 0x33);
}
n_rects = cairo_region_num_rectangles (swap_region);
for (i = 0; i < n_rects; i++)
{
cairo_rectangle_int_t rect;
float x_1, x_2, y_1, y_2;
cairo_region_get_rectangle (swap_region, i, &rect);
x_1 = rect.x;
x_2 = rect.x + rect.width;
y_1 = rect.y;
y_2 = rect.y + rect.height;
cogl_framebuffer_draw_rectangle (framebuffer, overlay_blue, x_1, y_1, x_2, y_2);
}
/* Red for the clip */
if (queued_redraw_clip)
{
static CoglPipeline *overlay_red = NULL;
if (G_UNLIKELY (overlay_red == NULL))
{
overlay_red = cogl_pipeline_new (ctx);
cogl_pipeline_set_color4ub (overlay_red, 0x33, 0x00, 0x00, 0x33);
}
n_rects = cairo_region_num_rectangles (queued_redraw_clip);
for (i = 0; i < n_rects; i++)
{
cairo_rectangle_int_t rect;
float x_1, x_2, y_1, y_2;
cairo_region_get_rectangle (queued_redraw_clip, i, &rect);
x_1 = rect.x;
x_2 = rect.x + rect.width;
y_1 = rect.y;
y_2 = rect.y + rect.height;
cogl_framebuffer_draw_rectangle (framebuffer, overlay_red, x_1, y_1, x_2, y_2);
}
}
cogl_framebuffer_pop_matrix (framebuffer);
}
static void
queue_damage_region (ClutterStageWindow *stage_window,
ClutterStageView *stage_view,
cairo_region_t *damage_region)
{
int *damage, n_rects, i;
g_autofree int *freeme = NULL;
CoglFramebuffer *framebuffer;
CoglOnscreen *onscreen;
if (cairo_region_is_empty (damage_region))
return;
framebuffer = clutter_stage_view_get_onscreen (stage_view);
if (!COGL_IS_ONSCREEN (framebuffer))
return;
onscreen = COGL_ONSCREEN (framebuffer);
n_rects = cairo_region_num_rectangles (damage_region);
if (n_rects < MAX_STACK_RECTS)
damage = g_newa (int, n_rects * 4);
else
damage = freeme = g_new (int, n_rects * 4);
for (i = 0; i < n_rects; i++)
{
cairo_rectangle_int_t rect;
int height = cogl_framebuffer_get_height (framebuffer);
cairo_region_get_rectangle (damage_region, i, &rect);
damage[i * 4] = rect.x;
/* y coordinate needs to be flipped for OpenGL */
damage[i * 4 + 1] = height - rect.y - rect.height;
damage[i * 4 + 2] = rect.width;
damage[i * 4 + 3] = rect.height;
}
cogl_onscreen_queue_damage_region (onscreen, damage, n_rects);
}
static void
swap_framebuffer (ClutterStageWindow *stage_window,
ClutterStageView *stage_view,
cairo_region_t *swap_region,
gboolean swap_with_damage,
ClutterFrame *frame)
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
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{
MetaStageImpl *stage_impl = META_STAGE_IMPL (stage_window);
MetaStageImplPrivate *priv =
meta_stage_impl_get_instance_private (stage_impl);
CoglFramebuffer *framebuffer = clutter_stage_view_get_onscreen (stage_view);
CoglContext *cogl_context = cogl_framebuffer_get_context (framebuffer);
clutter_stage_view_before_swap_buffer (stage_view, swap_region);
if (COGL_IS_ONSCREEN (framebuffer))
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
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{
CoglOnscreen *onscreen = COGL_ONSCREEN (framebuffer);
int *damage, n_rects, i;
CoglFrameInfo *frame_info;
n_rects = cairo_region_num_rectangles (swap_region);
damage = g_newa (int, n_rects * 4);
for (i = 0; i < n_rects; i++)
{
cairo_rectangle_int_t rect;
cairo_region_get_rectangle (swap_region, i, &rect);
damage[i * 4] = rect.x;
damage[i * 4 + 1] = rect.y;
damage[i * 4 + 2] = rect.width;
damage[i * 4 + 3] = rect.height;
}
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
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frame_info =
cogl_frame_info_new (cogl_context, priv->global_frame_counter);
priv->global_frame_counter++;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
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/* push on the screen */
if (n_rects > 0 && !swap_with_damage)
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
{
meta_topic (META_DEBUG_BACKEND,
"cogl_onscreen_swap_region (onscreen: %p)",
onscreen);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
cogl_onscreen_swap_region (onscreen,
damage, n_rects,
frame_info,
frame);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
}
else
{
meta_topic (META_DEBUG_BACKEND,
"cogl_onscreen_swap_buffers (onscreen: %p)",
onscreen);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
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cogl_onscreen_swap_buffers_with_damage (onscreen,
damage, n_rects,
frame_info,
frame);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
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}
}
else
{
MetaStageView *view = META_STAGE_VIEW (stage_view);
meta_topic (META_DEBUG_BACKEND,
"fake offscreen swap (framebuffer: %p)",
framebuffer);
meta_stage_view_perform_fake_swap (view, priv->global_frame_counter);
priv->global_frame_counter++;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
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}
}
static cairo_region_t *
offset_scale_and_clamp_region (const cairo_region_t *region,
int offset_x,
int offset_y,
float scale)
{
int n_rects, i;
cairo_rectangle_int_t *rects;
g_autofree cairo_rectangle_int_t *freeme = NULL;
n_rects = cairo_region_num_rectangles (region);
if (n_rects == 0)
return cairo_region_create ();
if (n_rects < MAX_STACK_RECTS)
rects = g_newa (cairo_rectangle_int_t, n_rects);
else
rects = freeme = g_new (cairo_rectangle_int_t, n_rects);
for (i = 0; i < n_rects; i++)
{
cairo_rectangle_int_t *rect = &rects[i];
graphene_rect_t tmp;
cairo_region_get_rectangle (region, i, rect);
_clutter_util_rect_from_rectangle (rect, &tmp);
graphene_rect_offset (&tmp, offset_x, offset_y);
graphene_rect_scale (&tmp, scale, scale, &tmp);
_clutter_util_rectangle_int_extents (&tmp, rect);
}
return cairo_region_create_rectangles (rects, n_rects);
}
static cairo_region_t *
scale_offset_and_clamp_region (const cairo_region_t *region,
float scale,
int offset_x,
int offset_y)
{
int n_rects, i;
cairo_rectangle_int_t *rects;
g_autofree cairo_rectangle_int_t *freeme = NULL;
n_rects = cairo_region_num_rectangles (region);
if (n_rects == 0)
return cairo_region_create ();
if (n_rects < MAX_STACK_RECTS)
rects = g_newa (cairo_rectangle_int_t, n_rects);
else
rects = freeme = g_new (cairo_rectangle_int_t, n_rects);
for (i = 0; i < n_rects; i++)
{
cairo_rectangle_int_t *rect = &rects[i];
graphene_rect_t tmp;
cairo_region_get_rectangle (region, i, rect);
_clutter_util_rect_from_rectangle (rect, &tmp);
graphene_rect_scale (&tmp, scale, scale, &tmp);
graphene_rect_offset (&tmp, offset_x, offset_y);
_clutter_util_rectangle_int_extents (&tmp, rect);
}
return cairo_region_create_rectangles (rects, n_rects);
}
static void
paint_stage (MetaStageImpl *stage_impl,
ClutterStageView *stage_view,
cairo_region_t *redraw_clip)
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
{
ClutterStage *stage = stage_impl->wrapper;
_clutter_stage_maybe_setup_viewport (stage, stage_view);
clutter_stage_paint_view (stage, stage_view, redraw_clip);
clutter_stage_view_after_paint (stage_view, redraw_clip);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
}
static cairo_region_t *
transform_swap_region_to_onscreen (ClutterStageView *stage_view,
cairo_region_t *swap_region)
{
CoglFramebuffer *onscreen = clutter_stage_view_get_onscreen (stage_view);
int n_rects, i;
cairo_rectangle_int_t *rects;
cairo_region_t *transformed_region;
int width, height;
width = cogl_framebuffer_get_width (onscreen);
height = cogl_framebuffer_get_height (onscreen);
n_rects = cairo_region_num_rectangles (swap_region);
rects = g_newa (cairo_rectangle_int_t, n_rects);
for (i = 0; i < n_rects; i++)
{
cairo_region_get_rectangle (swap_region, i, &rects[i]);
clutter_stage_view_transform_rect_to_onscreen (stage_view,
&rects[i],
width,
height,
&rects[i]);
}
transformed_region = cairo_region_create_rectangles (rects, n_rects);
return transformed_region;
}
static void
meta_stage_impl_redraw_view_primary (MetaStageImpl *stage_impl,
ClutterStageView *stage_view,
ClutterFrame *frame)
{
ClutterStageWindow *stage_window = CLUTTER_STAGE_WINDOW (stage_impl);
MetaStageView *view = META_STAGE_VIEW (stage_view);
CoglFramebuffer *fb = clutter_stage_view_get_framebuffer (stage_view);
CoglFramebuffer *onscreen = clutter_stage_view_get_onscreen (stage_view);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
cairo_rectangle_int_t view_rect;
gboolean is_full_redraw;
gboolean use_clipped_redraw = TRUE;
gboolean can_blit_sub_buffer;
gboolean has_buffer_age;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
gboolean swap_with_damage;
cairo_region_t *redraw_clip;
cairo_region_t *queued_redraw_clip = NULL;
cairo_region_t *fb_clip_region;
cairo_region_t *swap_region;
ClutterDrawDebugFlag paint_debug_flags;
ClutterDamageHistory *damage_history;
float fb_scale;
int fb_width, fb_height;
int buffer_age = 0;
clutter_stage_view_get_layout (stage_view, &view_rect);
fb_scale = clutter_stage_view_get_scale (stage_view);
fb_width = cogl_framebuffer_get_width (fb);
fb_height = cogl_framebuffer_get_height (fb);
can_blit_sub_buffer =
COGL_IS_ONSCREEN (onscreen) &&
cogl_clutter_winsys_has_feature (COGL_WINSYS_FEATURE_SWAP_REGION);
has_buffer_age =
COGL_IS_ONSCREEN (onscreen) &&
cogl_clutter_winsys_has_feature (COGL_WINSYS_FEATURE_BUFFER_AGE);
redraw_clip = clutter_stage_view_take_redraw_clip (stage_view);
/* NB: a NULL redraw clip == full stage redraw */
if (!redraw_clip)
is_full_redraw = TRUE;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
else
is_full_redraw = FALSE;
damage_history = meta_stage_view_get_damage_history (view);
if (has_buffer_age)
{
buffer_age = cogl_onscreen_get_buffer_age (COGL_ONSCREEN (onscreen));
if (!clutter_damage_history_is_age_valid (damage_history, buffer_age))
{
meta_topic (META_DEBUG_BACKEND,
"Invalid back buffer(age=%d): forcing full redraw",
buffer_age);
use_clipped_redraw = FALSE;
}
}
meta_get_clutter_debug_flags (NULL, &paint_debug_flags, NULL);
use_clipped_redraw =
use_clipped_redraw &&
!(paint_debug_flags & CLUTTER_DEBUG_DISABLE_CLIPPED_REDRAWS) &&
_clutter_stage_window_can_clip_redraws (stage_window) &&
(can_blit_sub_buffer || has_buffer_age) &&
!is_full_redraw &&
/* some drivers struggle to get going and produce some junk
* frames when starting up... */
cogl_onscreen_get_frame_counter (COGL_ONSCREEN (onscreen)) > 3;
if (use_clipped_redraw)
{
fb_clip_region = offset_scale_and_clamp_region (redraw_clip,
-view_rect.x,
-view_rect.y,
fb_scale);
if (G_UNLIKELY (paint_debug_flags & CLUTTER_DEBUG_PAINT_DAMAGE_REGION))
{
queued_redraw_clip =
scale_offset_and_clamp_region (fb_clip_region,
1.0 / fb_scale,
view_rect.x,
view_rect.y);
}
}
else
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
{
cairo_rectangle_int_t fb_rect;
fb_rect = (cairo_rectangle_int_t) {
.width = fb_width,
.height = fb_height,
};
fb_clip_region = cairo_region_create_rectangle (&fb_rect);
g_clear_pointer (&redraw_clip, cairo_region_destroy);
redraw_clip = cairo_region_create_rectangle (&view_rect);
if (G_UNLIKELY (paint_debug_flags & CLUTTER_DEBUG_PAINT_DAMAGE_REGION))
queued_redraw_clip = cairo_region_reference (redraw_clip);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
}
g_return_if_fail (!cairo_region_is_empty (fb_clip_region));
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
swap_with_damage = FALSE;
if (has_buffer_age)
{
clutter_damage_history_record (damage_history, fb_clip_region);
if (use_clipped_redraw)
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
{
int age;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
for (age = 1; age <= buffer_age; age++)
{
const cairo_region_t *old_damage;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
old_damage =
clutter_damage_history_lookup (damage_history, age);
cairo_region_union (fb_clip_region, old_damage);
}
meta_topic (META_DEBUG_BACKEND,
"Reusing back buffer(age=%d) - repairing region: num rects: %d",
buffer_age,
cairo_region_num_rectangles (fb_clip_region));
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
swap_with_damage = TRUE;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
}
clutter_damage_history_step (damage_history);
}
if (use_clipped_redraw)
{
/* Regenerate redraw_clip because:
* 1. It's missing the regions added from damage_history above; and
* 2. If using fractional scaling then it might be a fraction of a
* logical pixel (or one physical pixel) smaller than
* fb_clip_region, due to the clamping from
* offset_scale_and_clamp_region. So we need to ensure redraw_clip
* is a superset of fb_clip_region to avoid such gaps.
*/
cairo_region_destroy (redraw_clip);
redraw_clip = scale_offset_and_clamp_region (fb_clip_region,
1.0 / fb_scale,
view_rect.x,
view_rect.y);
}
if (paint_debug_flags & CLUTTER_DEBUG_PAINT_DAMAGE_REGION)
{
cairo_region_t *debug_redraw_clip;
debug_redraw_clip = cairo_region_create_rectangle (&view_rect);
paint_stage (stage_impl, stage_view, debug_redraw_clip);
cairo_region_destroy (debug_redraw_clip);
}
else if (use_clipped_redraw)
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
{
queue_damage_region (stage_window, stage_view, fb_clip_region);
cogl_framebuffer_push_region_clip (fb, fb_clip_region);
paint_stage (stage_impl, stage_view, redraw_clip);
cogl_framebuffer_pop_clip (fb);
}
else
{
meta_topic (META_DEBUG_BACKEND, "Unclipped stage paint");
paint_stage (stage_impl, stage_view, redraw_clip);
}
/* XXX: It seems there will be a race here in that the stage
* window may be resized before the cogl_onscreen_swap_region
* is handled and so we may copy the wrong region. I can't
* really see how we can handle this with the current state of X
* but at least in this case a full redraw should be queued by
* the resize anyway so it should only exhibit temporary
* artefacts.
*/
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
if (use_clipped_redraw)
swap_region = cairo_region_reference (fb_clip_region);
else
swap_region = cairo_region_create ();
g_clear_pointer (&redraw_clip, cairo_region_destroy);
g_clear_pointer (&fb_clip_region, cairo_region_destroy);
COGL_TRACE_BEGIN_SCOPED (MetaStageImplRedrawViewSwapFramebuffer,
"Paint (swap framebuffer)");
if (clutter_stage_view_get_onscreen (stage_view) !=
clutter_stage_view_get_framebuffer (stage_view))
{
cairo_region_t *transformed_swap_region;
transformed_swap_region =
transform_swap_region_to_onscreen (stage_view, swap_region);
cairo_region_destroy (swap_region);
swap_region = transformed_swap_region;
}
if (queued_redraw_clip)
{
cairo_region_t *swap_region_in_stage_space;
swap_region_in_stage_space =
scale_offset_and_clamp_region (swap_region,
1.0f / fb_scale,
view_rect.x,
view_rect.y);
cairo_region_subtract (swap_region_in_stage_space, queued_redraw_clip);
paint_damage_region (stage_window, stage_view,
swap_region_in_stage_space, queued_redraw_clip);
cairo_region_destroy (queued_redraw_clip);
cairo_region_destroy (swap_region_in_stage_space);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
}
swap_framebuffer (stage_window,
stage_view,
swap_region,
swap_with_damage,
frame);
cairo_region_destroy (swap_region);
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
}
static gboolean
meta_stage_impl_scanout_view (MetaStageImpl *stage_impl,
ClutterStageView *stage_view,
CoglScanout *scanout,
ClutterFrame *frame,
GError **error)
{
MetaStageImplPrivate *priv =
meta_stage_impl_get_instance_private (stage_impl);
CoglFramebuffer *framebuffer =
clutter_stage_view_get_framebuffer (stage_view);
CoglContext *cogl_context = cogl_framebuffer_get_context (framebuffer);
CoglOnscreen *onscreen;
CoglFrameInfo *frame_info;
g_assert (COGL_IS_ONSCREEN (framebuffer));
onscreen = COGL_ONSCREEN (framebuffer);
frame_info = cogl_frame_info_new (cogl_context, priv->global_frame_counter);
if (!cogl_onscreen_direct_scanout (onscreen,
scanout,
frame_info,
frame,
error))
{
cogl_object_unref (frame_info);
return FALSE;
}
priv->global_frame_counter++;
return TRUE;
}
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
static void
meta_stage_impl_redraw_view (ClutterStageWindow *stage_window,
ClutterStageView *stage_view,
ClutterFrame *frame)
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
{
MetaStageImpl *stage_impl = META_STAGE_IMPL (stage_window);
g_autoptr (CoglScanout) scanout = NULL;
Introduce regional stage rendering Add support for drawing a stage using multiple framebuffers each making up one part of the stage. This works by the stage backend (ClutterStageWindow) providing a list of views which will be for splitting up the stage in different regions. A view layout, for now, is a set of rectangles. The stage window (i.e. stage "backend" will use this information when drawing a frame, using one framebuffer for each view. The scene graph is adapted to explictly take a view when painting the stage. It will use this view, its assigned framebuffer and layout to offset and clip the drawing accordingly. This effectively removes any notion of "stage framebuffer", since each stage now may consist of multiple framebuffers. Therefore, API involving this has been deprecated and made no-ops; namely clutter_stage_ensure_context(). Callers are now assumed to either always use a framebuffer reference explicitly, or push/pop the framebuffer of a given view where the code has not yet changed to use the explicit-buffer-using cogl API. Currently only the nested X11 backend supports this mode fully, and the per view framebuffers are all offscreen. Upon frame completion, it'll blit each view's framebuffer onto the onscreen framebuffer before swapping. Other backends (X11 CM and native/KMS) are adapted to manage a full-stage view. The X11 CM backend will continue to use this method, while the native/KMS backend will be adopted to use multiple view drawing. https://bugzilla.gnome.org/show_bug.cgi?id=768976
2016-05-26 23:09:24 -04:00
scanout = clutter_stage_view_take_scanout (stage_view);
if (scanout)
{
g_autoptr (GError) error = NULL;
if (meta_stage_impl_scanout_view (stage_impl,
stage_view,
scanout,
frame,
&error))
return;
if (!g_error_matches (error,
COGL_SCANOUT_ERROR,
COGL_SCANOUT_ERROR_INHIBITED))
g_warning ("Failed to scan out client buffer: %s", error->message);
}
meta_stage_impl_redraw_view_primary (stage_impl, stage_view, frame);
}
void
meta_stage_impl_add_onscreen_frame_info (MetaStageImpl *stage_impl,
ClutterStageView *stage_view)
{
MetaStageImplPrivate *priv =
meta_stage_impl_get_instance_private (stage_impl);
CoglFramebuffer *framebuffer = clutter_stage_view_get_onscreen (stage_view);
CoglContext *cogl_context = cogl_framebuffer_get_context (framebuffer);
CoglFrameInfo *frame_info;
frame_info = cogl_frame_info_new (cogl_context, priv->global_frame_counter);
priv->global_frame_counter++;
cogl_onscreen_add_frame_info (COGL_ONSCREEN (framebuffer), frame_info);
}
static void
clutter_stage_window_iface_init (ClutterStageWindowInterface *iface)
{
iface->realize = meta_stage_impl_realize;
iface->unrealize = meta_stage_impl_unrealize;
iface->get_wrapper = meta_stage_impl_get_wrapper;
iface->resize = meta_stage_impl_resize;
iface->show = meta_stage_impl_show;
iface->hide = meta_stage_impl_hide;
iface->get_frame_counter = meta_stage_impl_get_frame_counter;
iface->redraw_view = meta_stage_impl_redraw_view;
}
static void
meta_stage_impl_set_property (GObject *gobject,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
MetaStageImpl *self = META_STAGE_IMPL (gobject);
MetaStageImplPrivate *priv = meta_stage_impl_get_instance_private (self);
switch (prop_id)
{
case PROP_WRAPPER:
self->wrapper = g_value_get_object (value);
break;
case PROP_BACKEND:
priv->backend = g_value_get_object (value);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (gobject, prop_id, pspec);
break;
}
}
static void
meta_stage_impl_class_init (MetaStageImplClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
gobject_class->set_property = meta_stage_impl_set_property;
obj_props[PROP_WRAPPER] =
g_param_spec_object ("wrapper",
"Wrapper",
"Back pointer to the Stage actor",
CLUTTER_TYPE_STAGE,
G_PARAM_WRITABLE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS);
obj_props[PROP_BACKEND] =
g_param_spec_object ("backend",
"MetaBackend",
"MetaBackend",
META_TYPE_BACKEND,
G_PARAM_WRITABLE |
G_PARAM_CONSTRUCT_ONLY |
G_PARAM_STATIC_STRINGS);
g_object_class_install_properties (gobject_class, N_PROPS, obj_props);
}
static void
meta_stage_impl_init (MetaStageImpl *stage)
{
}
MetaBackend *
meta_stage_impl_get_backend (MetaStageImpl *stage_impl)
{
MetaStageImplPrivate *priv =
meta_stage_impl_get_instance_private (stage_impl);
return priv->backend;
}