forked from AuroraMiddleware/gtk
654d74bfb8
Instead of asserting only in debug builds (which are generally not shipped in distributions) we should deliver a critical log-level message so that these can be found sooner when not developing with jhbuild, Flatpak, etc. Also assert that we've setup the state correctly when realizing the GskGLRenderer object. Fixes #4625
501 lines
15 KiB
C
501 lines
15 KiB
C
/* gskglrenderer.c
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*
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* Copyright 2020 Christian Hergert <chergert@redhat.com>
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*
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* This file is free software; you can redistribute it and/or modify it under
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* the terms of the GNU Lesser General Public License as published by the Free
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* Software Foundation; either version 2.1 of the License, or (at your option)
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* any later version.
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*
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* This file is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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* License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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* SPDX-License-Identifier: LGPL-2.1-or-later
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*/
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#include "config.h"
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#include <gdk/gdkprofilerprivate.h>
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#include <gdk/gdkdisplayprivate.h>
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#include <gdk/gdkglcontextprivate.h>
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#include <gdk/gdksurfaceprivate.h>
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#include <gdk/gdkintl.h>
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#include <gsk/gskdebugprivate.h>
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#include <gsk/gskrendererprivate.h>
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#include <gsk/gskrendernodeprivate.h>
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#include "gskglcommandqueueprivate.h"
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#include "gskgldriverprivate.h"
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#include "gskglprogramprivate.h"
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#include "gskglrenderjobprivate.h"
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#include "gskglrendererprivate.h"
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struct _GskGLRendererClass
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{
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GskRendererClass parent_class;
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};
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struct _GskGLRenderer
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{
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GskRenderer parent_instance;
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/* This context is used to swap buffers when we are rendering directly
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* to a GDK surface. It is also used to locate the shared driver for
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* the display that we use to drive the command queue.
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*/
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GdkGLContext *context;
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/* Our command queue is private to this renderer and talks to the GL
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* context for our target surface. This ensure that framebuffer 0 matches
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* the surface we care about. Since the context is shared with other
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* contexts from other renderers on the display, texture atlases,
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* programs, and other objects are available to them all.
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*/
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GskGLCommandQueue *command_queue;
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/* The driver manages our program state and command queues. It also
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* deals with caching textures, shaders, shadows, glyph, and icon
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* caches through various helpers.
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*/
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GskGLDriver *driver;
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};
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G_DEFINE_TYPE (GskGLRenderer, gsk_gl_renderer, GSK_TYPE_RENDERER)
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/**
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* gsk_gl_renderer_new:
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*
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* Creates a new `GskRenderer` using the new OpenGL renderer.
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*
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* Returns: a new GL renderer
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*
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* Since: 4.2
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*/
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GskRenderer *
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gsk_gl_renderer_new (void)
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{
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return g_object_new (GSK_TYPE_GL_RENDERER, NULL);
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}
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static gboolean
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gsk_gl_renderer_realize (GskRenderer *renderer,
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GdkSurface *surface,
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GError **error)
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{
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G_GNUC_UNUSED gint64 start_time = GDK_PROFILER_CURRENT_TIME;
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GskGLRenderer *self = (GskGLRenderer *)renderer;
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GdkGLContext *context = NULL;
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GskGLDriver *driver = NULL;
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GdkDisplay *display;
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gboolean ret = FALSE;
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gboolean debug_shaders = FALSE;
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GdkGLAPI api;
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if (self->context != NULL)
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return TRUE;
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g_assert (self->driver == NULL);
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g_assert (self->context == NULL);
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g_assert (self->command_queue == NULL);
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if (surface == NULL)
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{
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display = gdk_display_get_default (); /* FIXME: allow different displays somehow ? */
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context = gdk_display_create_gl_context (display, error);
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}
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else
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{
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display = gdk_surface_get_display (surface);
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context = gdk_surface_create_gl_context (surface, error);
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}
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if (!context || !gdk_gl_context_realize (context, error))
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goto failure;
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api = gdk_gl_context_get_api (context);
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if (api == GDK_GL_API_GLES)
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{
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gdk_gl_context_make_current (context);
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if (!gdk_gl_context_has_vertex_half_float (context))
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{
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int major, minor;
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gdk_gl_context_get_version (context, &major, &minor);
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g_set_error (error,
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GDK_GL_ERROR, GDK_GL_ERROR_NOT_AVAILABLE,
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_("This GLES %d.%d implementation does not support half-float vertex data"),
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major, minor);
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goto failure;
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}
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}
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#ifdef G_ENABLE_DEBUG
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if (GSK_RENDERER_DEBUG_CHECK (GSK_RENDERER (self), SHADERS))
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debug_shaders = TRUE;
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#endif
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if (!(driver = gsk_gl_driver_for_display (display, debug_shaders, error)))
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goto failure;
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self->command_queue = gsk_gl_driver_create_command_queue (driver, context);
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self->context = g_steal_pointer (&context);
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self->driver = g_steal_pointer (&driver);
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gsk_gl_command_queue_set_profiler (self->command_queue,
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gsk_renderer_get_profiler (renderer));
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ret = TRUE;
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failure:
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g_clear_object (&driver);
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g_clear_object (&context);
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gdk_profiler_end_mark (start_time, "realize GskGLRenderer", NULL);
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/* Assert either all or no state was set */
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g_assert ((ret && self->driver != NULL && self->context != NULL && self->command_queue != NULL) ||
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(!ret && self->driver == NULL && self->context == NULL && self->command_queue == NULL));
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return ret;
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}
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static void
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gsk_gl_renderer_unrealize (GskRenderer *renderer)
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{
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GskGLRenderer *self = (GskGLRenderer *)renderer;
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g_assert (GSK_IS_GL_RENDERER (renderer));
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gdk_gl_context_make_current (self->context);
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g_clear_object (&self->driver);
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g_clear_object (&self->command_queue);
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g_clear_object (&self->context);
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}
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static cairo_region_t *
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get_render_region (GdkSurface *surface,
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GdkGLContext *context)
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{
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const cairo_region_t *damage;
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GdkRectangle whole_surface;
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GdkRectangle extents;
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g_assert (GDK_IS_SURFACE (surface));
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g_assert (GDK_IS_GL_CONTEXT (context));
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whole_surface.x = 0;
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whole_surface.y = 0;
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whole_surface.width = gdk_surface_get_width (surface);
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whole_surface.height = gdk_surface_get_height (surface);
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/* Damage does not have scale factor applied so we can compare it to
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* @whole_surface which also doesn't have the scale factor applied.
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*/
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damage = gdk_draw_context_get_frame_region (GDK_DRAW_CONTEXT (context));
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if (cairo_region_contains_rectangle (damage, &whole_surface) == CAIRO_REGION_OVERLAP_IN)
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return NULL;
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/* If the extents match the full-scene, do the same as above */
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cairo_region_get_extents (damage, &extents);
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if (gdk_rectangle_equal (&extents, &whole_surface))
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return NULL;
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/* Draw clipped to the bounding-box of the region. */
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return cairo_region_create_rectangle (&extents);
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}
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static gboolean
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update_area_requires_clear (GdkSurface *surface,
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const cairo_region_t *update_area)
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{
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cairo_rectangle_int_t rect;
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guint n_rects;
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g_assert (GDK_IS_SURFACE (surface));
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/* No opaque region, assume we have to clear */
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if (surface->opaque_region == NULL)
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return TRUE;
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/* If the update_area is the whole surface, then clear it
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* because many drivers optimize for this by avoiding extra
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* work to reload any contents.
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*/
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if (update_area == NULL)
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return TRUE;
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if (cairo_region_num_rectangles (update_area) == 1)
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{
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cairo_region_get_rectangle (update_area, 0, &rect);
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if (rect.x == 0 &&
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rect.y == 0 &&
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rect.width == surface->width &&
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rect.height == surface->height)
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return TRUE;
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}
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/* If the entire surface is opaque, then we can skip clearing
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* (with the exception of full surface clearing above).
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*/
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if (cairo_region_num_rectangles (surface->opaque_region) == 1)
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{
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cairo_region_get_rectangle (surface->opaque_region, 0, &rect);
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if (rect.x == 0 &&
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rect.y == 0 &&
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rect.width == surface->width &&
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rect.height == surface->height)
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return FALSE;
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}
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/* If any update_area rectangle overlaps our transparent
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* regions, then we need to clear the area.
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*/
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n_rects = cairo_region_num_rectangles (update_area);
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for (guint i = 0; i < n_rects; i++)
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{
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cairo_region_get_rectangle (update_area, i, &rect);
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if (cairo_region_contains_rectangle (surface->opaque_region, &rect) != CAIRO_REGION_OVERLAP_IN)
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return TRUE;
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}
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return FALSE;
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}
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static void
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gsk_gl_renderer_render (GskRenderer *renderer,
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GskRenderNode *root,
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const cairo_region_t *update_area)
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{
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GskGLRenderer *self = (GskGLRenderer *)renderer;
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cairo_region_t *render_region;
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graphene_rect_t viewport;
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GskGLRenderJob *job;
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GdkSurface *surface;
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gboolean clear_framebuffer;
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float scale_factor;
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g_assert (GSK_IS_GL_RENDERER (renderer));
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g_assert (root != NULL);
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surface = gdk_draw_context_get_surface (GDK_DRAW_CONTEXT (self->context));
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scale_factor = gdk_surface_get_scale_factor (surface);
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viewport.origin.x = 0;
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viewport.origin.y = 0;
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viewport.size.width = gdk_surface_get_width (surface) * scale_factor;
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viewport.size.height = gdk_surface_get_height (surface) * scale_factor;
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gdk_draw_context_begin_frame_full (GDK_DRAW_CONTEXT (self->context),
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gsk_render_node_prefers_high_depth (root),
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update_area);
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gdk_gl_context_make_current (self->context);
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/* Must be called *AFTER* gdk_draw_context_begin_frame() */
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render_region = get_render_region (surface, self->context);
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clear_framebuffer = update_area_requires_clear (surface, render_region);
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gsk_gl_driver_begin_frame (self->driver, self->command_queue);
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job = gsk_gl_render_job_new (self->driver, &viewport, scale_factor, render_region, 0, clear_framebuffer);
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#ifdef G_ENABLE_DEBUG
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if (GSK_RENDERER_DEBUG_CHECK (GSK_RENDERER (self), FALLBACK))
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gsk_gl_render_job_set_debug_fallback (job, TRUE);
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#endif
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gsk_gl_render_job_render (job, root);
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gsk_gl_driver_end_frame (self->driver);
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gsk_gl_render_job_free (job);
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gdk_draw_context_end_frame (GDK_DRAW_CONTEXT (self->context));
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gsk_gl_driver_after_frame (self->driver);
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cairo_region_destroy (render_region);
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}
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static GdkTexture *
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gsk_gl_renderer_render_texture (GskRenderer *renderer,
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GskRenderNode *root,
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const graphene_rect_t *viewport)
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{
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GskGLRenderer *self = (GskGLRenderer *)renderer;
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GskGLRenderTarget *render_target;
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GskGLRenderJob *job;
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GdkTexture *texture;
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guint texture_id;
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int width, height, max_size;
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int format;
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g_assert (GSK_IS_GL_RENDERER (renderer));
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g_assert (root != NULL);
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width = ceilf (viewport->size.width);
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height = ceilf (viewport->size.height);
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max_size = self->command_queue->max_texture_size;
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if (width > max_size || height > max_size)
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{
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gsize x, y, size, stride;
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GBytes *bytes;
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guchar *data;
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stride = width * 4;
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size = stride * height;
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data = g_malloc_n (stride, height);
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for (y = 0; y < height; y += max_size)
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{
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for (x = 0; x < width; x += max_size)
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{
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texture = gsk_gl_renderer_render_texture (renderer, root,
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&GRAPHENE_RECT_INIT (x, y,
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MIN (max_size, viewport->size.width - x),
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MIN (max_size, viewport->size.height - y)));
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gdk_texture_download (texture,
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data + stride * y + x * 4,
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stride);
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g_object_unref (texture);
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}
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}
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bytes = g_bytes_new_take (data, size);
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texture = gdk_memory_texture_new (width, height, GDK_MEMORY_DEFAULT, bytes, stride);
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g_bytes_unref (bytes);
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return texture;
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}
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format = gsk_render_node_prefers_high_depth (root) ? GL_RGBA32F : GL_RGBA8;
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gdk_gl_context_make_current (self->context);
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if (gsk_gl_driver_create_render_target (self->driver,
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width, height,
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format,
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GL_NEAREST, GL_NEAREST,
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&render_target))
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{
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gsk_gl_driver_begin_frame (self->driver, self->command_queue);
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job = gsk_gl_render_job_new (self->driver, viewport, 1, NULL, render_target->framebuffer_id, TRUE);
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#ifdef G_ENABLE_DEBUG
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if (GSK_RENDERER_DEBUG_CHECK (GSK_RENDERER (self), FALLBACK))
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gsk_gl_render_job_set_debug_fallback (job, TRUE);
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#endif
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gsk_gl_render_job_render_flipped (job, root);
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texture_id = gsk_gl_driver_release_render_target (self->driver, render_target, FALSE);
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texture = gsk_gl_driver_create_gdk_texture (self->driver, texture_id);
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gsk_gl_driver_end_frame (self->driver);
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gsk_gl_render_job_free (job);
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gsk_gl_driver_after_frame (self->driver);
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}
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else
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{
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g_assert_not_reached ();
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}
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return g_steal_pointer (&texture);
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}
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static void
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gsk_gl_renderer_dispose (GObject *object)
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{
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GskGLRenderer *self = (GskGLRenderer *)object;
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if (self->driver != NULL)
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g_critical ("Attempt to dispose %s without calling gsk_renderer_unrealize()",
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G_OBJECT_TYPE_NAME (self));
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G_OBJECT_CLASS (gsk_gl_renderer_parent_class)->dispose (object);
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}
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static void
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gsk_gl_renderer_class_init (GskGLRendererClass *klass)
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{
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GObjectClass *object_class = G_OBJECT_CLASS (klass);
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GskRendererClass *renderer_class = GSK_RENDERER_CLASS (klass);
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object_class->dispose = gsk_gl_renderer_dispose;
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renderer_class->realize = gsk_gl_renderer_realize;
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renderer_class->unrealize = gsk_gl_renderer_unrealize;
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renderer_class->render = gsk_gl_renderer_render;
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renderer_class->render_texture = gsk_gl_renderer_render_texture;
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}
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static void
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gsk_gl_renderer_init (GskGLRenderer *self)
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{
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}
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gboolean
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gsk_gl_renderer_try_compile_gl_shader (GskGLRenderer *renderer,
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GskGLShader *shader,
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GError **error)
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{
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GskGLProgram *program;
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g_return_val_if_fail (GSK_IS_GL_RENDERER (renderer), FALSE);
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g_return_val_if_fail (shader != NULL, FALSE);
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program = gsk_gl_driver_lookup_shader (renderer->driver, shader, error);
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return program != NULL;
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}
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typedef struct {
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GskRenderer parent_instance;
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} GskNglRenderer;
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typedef struct {
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GskRendererClass parent_class;
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} GskNglRendererClass;
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G_DEFINE_TYPE (GskNglRenderer, gsk_ngl_renderer, GSK_TYPE_RENDERER)
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static void
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gsk_ngl_renderer_init (GskNglRenderer *renderer)
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{
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}
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static gboolean
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gsk_ngl_renderer_realize (GskRenderer *renderer,
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GdkSurface *surface,
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GError **error)
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{
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g_set_error_literal (error,
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G_IO_ERROR, G_IO_ERROR_FAILED,
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"please use the GL renderer instead");
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return FALSE;
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}
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static void
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gsk_ngl_renderer_class_init (GskNglRendererClass *class)
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{
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GSK_RENDERER_CLASS (class)->realize = gsk_ngl_renderer_realize;
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}
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/**
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* gsk_ngl_renderer_new:
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*
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* Same as gsk_gl_renderer_new().
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*
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* Returns: (transfer full): a new GL renderer
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*
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* Deprecated: 4.4: Use gsk_gl_renderer_new()
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*/
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GskRenderer *
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gsk_ngl_renderer_new (void)
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{
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G_GNUC_BEGIN_IGNORE_DEPRECATIONS
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return g_object_new (gsk_ngl_renderer_get_type (), NULL);
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G_GNUC_END_IGNORE_DEPRECATIONS
|
|
}
|