/* gskgldriver.c * * Copyright 2017 Timm Bäder * Copyright 2018 Matthias Clasen * Copyright 2018 Alexander Larsson * Copyright 2020 Christian Hergert * * 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 2.1 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 program. If not, see . * * SPDX-License-Identifier: LGPL-2.1-or-later */ #include "config.h" #include "gskgldriverprivate.h" #include #include #include #include "gskglcommandqueueprivate.h" #include "gskglcompilerprivate.h" #include "gskglglyphlibraryprivate.h" #include "gskgliconlibraryprivate.h" #include "gskglprogramprivate.h" #include "gskglshadowlibraryprivate.h" #include "fp16private.h" #include #include #include #include #include #include #include #include G_DEFINE_TYPE (GskGLDriver, gsk_gl_driver, G_TYPE_OBJECT) static guint texture_key_hash (gconstpointer v) { const GskTextureKey *k = (const GskTextureKey *)v; /* Optimize for 0..3 where 0 is the scaled out case. Usually * we'll be squarely on 1 or 2 for standard vs HiDPI. When rendering * to a texture scaled out like in node-editor, we might be < 1. */ guint scale_x = floorf (k->scale_x); guint scale_y = floorf (k->scale_y); return GPOINTER_TO_SIZE (k->pointer) ^ ((scale_x << 8) | (scale_y << 4) | k->pointer_is_child); } static gboolean texture_key_equal (gconstpointer v1, gconstpointer v2) { const GskTextureKey *k1 = (const GskTextureKey *)v1; const GskTextureKey *k2 = (const GskTextureKey *)v2; return k1->pointer == k2->pointer && k1->scale_x == k2->scale_x && k1->scale_y == k2->scale_y && k1->pointer_is_child == k2->pointer_is_child && (!k1->pointer_is_child || memcmp (&k1->parent_rect, &k2->parent_rect, sizeof k1->parent_rect) == 0); } static void remove_texture_key_for_id (GskGLDriver *self, guint texture_id) { GskTextureKey *key; g_assert (GSK_IS_GL_DRIVER (self)); g_assert (texture_id > 0); /* g_hash_table_remove() will cause @key to be freed */ if (g_hash_table_steal_extended (self->texture_id_to_key, GUINT_TO_POINTER (texture_id), NULL, (gpointer *)&key)) g_hash_table_remove (self->key_to_texture_id, key); } static void gsk_gl_texture_destroyed (gpointer data) { ((GskGLTexture *)data)->user = NULL; } static void gsk_gl_driver_autorelease_texture (GskGLDriver *self, guint texture_id) { g_assert (GSK_IS_GL_DRIVER (self)); g_array_append_val (self->texture_pool, texture_id); } static guint gsk_gl_driver_collect_unused_textures (GskGLDriver *self, gint64 watermark) { GHashTableIter iter; gpointer k, v; guint old_size; guint collected; g_assert (GSK_IS_GL_DRIVER (self)); old_size = g_hash_table_size (self->textures); g_hash_table_iter_init (&iter, self->textures); while (g_hash_table_iter_next (&iter, &k, &v)) { GskGLTexture *t = v; if (t->user || t->permanent) continue; if (t->last_used_in_frame <= watermark) { g_hash_table_iter_steal (&iter); g_assert (t->link.prev == NULL); g_assert (t->link.next == NULL); g_assert (t->link.data == t); remove_texture_key_for_id (self, t->texture_id); gsk_gl_driver_autorelease_texture (self, t->texture_id); t->texture_id = 0; gsk_gl_texture_free (t); } } collected = old_size - g_hash_table_size (self->textures); return collected; } static void remove_program (gpointer data) { GskGLProgram *program = data; g_assert (!program || GSK_IS_GL_PROGRAM (program)); if (program != NULL) { gsk_gl_program_delete (program); g_object_unref (program); } } static void gsk_gl_driver_shader_weak_cb (gpointer data, GObject *where_object_was) { GskGLDriver *self = data; g_assert (GSK_IS_GL_DRIVER (self)); if (self->shader_cache != NULL) { if (self->command_queue != NULL) gsk_gl_command_queue_make_current (self->command_queue); g_hash_table_remove (self->shader_cache, where_object_was); } } G_GNUC_UNUSED G_GNUC_NULL_TERMINATED static inline GBytes * join_sources (GBytes *first_bytes, ...) { GByteArray *byte_array = g_byte_array_new (); GBytes *bytes = first_bytes; va_list args; va_start (args, first_bytes); while (bytes != NULL) { gsize len; const guint8 *data = g_bytes_get_data (bytes, &len); if (len > 0) g_byte_array_append (byte_array, data, len); g_bytes_unref (bytes); bytes = va_arg (args, GBytes *); } va_end (args); return g_byte_array_free_to_bytes (byte_array); } static void gsk_gl_driver_dispose (GObject *object) { GskGLDriver *self = (GskGLDriver *)object; g_assert (GSK_IS_GL_DRIVER (self)); g_assert (self->in_frame == FALSE); #define GSK_GL_NO_UNIFORMS #define GSK_GL_SHADER_RESOURCE(name) #define GSK_GL_SHADER_STRING(str) #define GSK_GL_SHADER_SINGLE(name) #define GSK_GL_SHADER_JOINED(kind, ...) #define GSK_GL_ADD_UNIFORM(pos, KEY, name) #define GSK_GL_DEFINE_PROGRAM(name, resource, uniforms) \ GSK_GL_DELETE_PROGRAM(name); \ GSK_GL_DELETE_PROGRAM(name ## _no_clip); \ GSK_GL_DELETE_PROGRAM(name ## _rect_clip); #define GSK_GL_DEFINE_PROGRAM_NO_CLIP(name, resource, uniforms) \ GSK_GL_DELETE_PROGRAM(name); #define GSK_GL_DELETE_PROGRAM(name) \ G_STMT_START { \ if (self->name) \ gsk_gl_program_delete (self->name); \ g_clear_object (&self->name); \ } G_STMT_END; # include "gskglprograms.defs" #undef GSK_GL_NO_UNIFORMS #undef GSK_GL_SHADER_RESOURCE #undef GSK_GL_SHADER_STRING #undef GSK_GL_SHADER_SINGLE #undef GSK_GL_SHADER_JOINED #undef GSK_GL_ADD_UNIFORM #undef GSK_GL_DEFINE_PROGRAM #undef GSK_GL_DEFINE_PROGRAM_NO_CLIP if (self->shader_cache != NULL) { GHashTableIter iter; gpointer k, v; g_hash_table_iter_init (&iter, self->shader_cache); while (g_hash_table_iter_next (&iter, &k, &v)) { GskGLShader *shader = k; g_object_weak_unref (G_OBJECT (shader), gsk_gl_driver_shader_weak_cb, self); g_hash_table_iter_remove (&iter); } g_clear_pointer (&self->shader_cache, g_hash_table_unref); } if (self->command_queue != NULL) { gsk_gl_command_queue_make_current (self->command_queue); gsk_gl_driver_collect_unused_textures (self, 0); g_clear_object (&self->command_queue); } if (self->autorelease_framebuffers != NULL && self->autorelease_framebuffers->len > 0) { glDeleteFramebuffers (self->autorelease_framebuffers->len, (GLuint *)(gpointer)self->autorelease_framebuffers->data); self->autorelease_framebuffers->len = 0; } g_clear_object (&self->glyphs_library); g_clear_object (&self->icons_library); g_clear_object (&self->shadows_library); g_clear_pointer (&self->texture_pool, g_array_unref); g_clear_pointer (&self->autorelease_framebuffers, g_array_unref); g_clear_pointer (&self->key_to_texture_id, g_hash_table_unref); g_clear_pointer (&self->textures, g_hash_table_unref); g_clear_pointer (&self->key_to_texture_id, g_hash_table_unref); g_clear_pointer (&self->texture_id_to_key, g_hash_table_unref); g_clear_pointer (&self->render_targets, g_ptr_array_unref); g_clear_pointer (&self->shader_cache, g_hash_table_unref); g_clear_object (&self->command_queue); g_clear_object (&self->shared_command_queue); G_OBJECT_CLASS (gsk_gl_driver_parent_class)->dispose (object); } static void gsk_gl_driver_class_init (GskGLDriverClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); object_class->dispose = gsk_gl_driver_dispose; } static void gsk_gl_driver_init (GskGLDriver *self) { self->autorelease_framebuffers = g_array_new (FALSE, FALSE, sizeof (guint)); self->textures = g_hash_table_new_full (NULL, NULL, NULL, (GDestroyNotify)gsk_gl_texture_free); self->texture_id_to_key = g_hash_table_new (NULL, NULL); self->key_to_texture_id = g_hash_table_new_full (texture_key_hash, texture_key_equal, g_free, NULL); self->shader_cache = g_hash_table_new_full (NULL, NULL, NULL, remove_program); self->texture_pool = g_array_new (FALSE, FALSE, sizeof (guint)); self->render_targets = g_ptr_array_new (); } static gboolean gsk_gl_driver_load_programs (GskGLDriver *self, GError **error) { GskGLCompiler *compiler; gboolean ret = FALSE; G_GNUC_UNUSED gint64 start_time = GDK_PROFILER_CURRENT_TIME; g_assert (GSK_IS_GL_DRIVER (self)); g_assert (GSK_IS_GL_COMMAND_QUEUE (self->command_queue)); compiler = gsk_gl_compiler_new (self, self->debug); /* Setup preambles that are shared by all shaders */ gsk_gl_compiler_set_preamble_from_resource (compiler, GSK_GL_COMPILER_ALL, "/org/gtk/libgsk/gl/preamble.glsl"); gsk_gl_compiler_set_preamble_from_resource (compiler, GSK_GL_COMPILER_VERTEX, "/org/gtk/libgsk/gl/preamble.vs.glsl"); gsk_gl_compiler_set_preamble_from_resource (compiler, GSK_GL_COMPILER_FRAGMENT, "/org/gtk/libgsk/gl/preamble.fs.glsl"); /* Setup attributes that are provided via VBO */ gsk_gl_compiler_bind_attribute (compiler, "aPosition", 0); gsk_gl_compiler_bind_attribute (compiler, "aUv", 1); gsk_gl_compiler_bind_attribute (compiler, "aColor", 2); gsk_gl_compiler_bind_attribute (compiler, "aColor2", 3); /* Use XMacros to register all of our programs and their uniforms */ #define GSK_GL_NO_UNIFORMS #define GSK_GL_SHADER_RESOURCE(name) \ g_resources_lookup_data("/org/gtk/libgsk/gl/" name, 0, NULL) #define GSK_GL_SHADER_STRING(str) \ g_bytes_new_static(str, strlen(str)) #define GSK_GL_SHADER_SINGLE(bytes) \ G_STMT_START { \ GBytes *b = bytes; \ gsk_gl_compiler_set_source (compiler, GSK_GL_COMPILER_ALL, b); \ g_bytes_unref (b); \ } G_STMT_END; #define GSK_GL_SHADER_JOINED(kind, ...) \ G_STMT_START { \ GBytes *bytes = join_sources(__VA_ARGS__); \ gsk_gl_compiler_set_source (compiler, GSK_GL_COMPILER_##kind, bytes); \ g_bytes_unref (bytes); \ } G_STMT_END; #define GSK_GL_ADD_UNIFORM(pos, KEY, name) \ gsk_gl_program_add_uniform (program, #name, UNIFORM_##KEY); #define GSK_GL_DEFINE_PROGRAM(name, sources, uniforms) \ gsk_gl_compiler_set_source (compiler, GSK_GL_COMPILER_VERTEX, NULL); \ gsk_gl_compiler_set_source (compiler, GSK_GL_COMPILER_FRAGMENT, NULL); \ sources \ GSK_GL_COMPILE_PROGRAM(name ## _no_clip, uniforms, "#define NO_CLIP 1\n"); \ GSK_GL_COMPILE_PROGRAM(name ## _rect_clip, uniforms, "#define RECT_CLIP 1\n"); \ GSK_GL_COMPILE_PROGRAM(name, uniforms, ""); #define GSK_GL_DEFINE_PROGRAM_NO_CLIP(name, sources, uniforms) \ gsk_gl_compiler_set_source (compiler, GSK_GL_COMPILER_VERTEX, NULL); \ gsk_gl_compiler_set_source (compiler, GSK_GL_COMPILER_FRAGMENT, NULL); \ sources \ GSK_GL_COMPILE_PROGRAM(name, uniforms, "#define NO_CLIP 1\n"); #define GSK_GL_COMPILE_PROGRAM(name, uniforms, clip) \ G_STMT_START { \ GskGLProgram *program; \ gboolean have_alpha; \ gboolean have_source; \ \ if (!(program = gsk_gl_compiler_compile (compiler, #name, clip, error))) \ goto failure; \ \ have_alpha = gsk_gl_program_add_uniform (program, "u_alpha", UNIFORM_SHARED_ALPHA); \ have_source = gsk_gl_program_add_uniform (program, "u_source", UNIFORM_SHARED_SOURCE); \ gsk_gl_program_add_uniform (program, "u_clip_rect", UNIFORM_SHARED_CLIP_RECT); \ gsk_gl_program_add_uniform (program, "u_viewport", UNIFORM_SHARED_VIEWPORT); \ gsk_gl_program_add_uniform (program, "u_projection", UNIFORM_SHARED_PROJECTION); \ gsk_gl_program_add_uniform (program, "u_modelview", UNIFORM_SHARED_MODELVIEW); \ \ uniforms \ \ gsk_gl_program_uniforms_added (program, have_source); \ if (have_alpha) \ gsk_gl_program_set_uniform1f (program, UNIFORM_SHARED_ALPHA, 0, 1.0f); \ \ *(GskGLProgram **)(((guint8 *)self) + G_STRUCT_OFFSET (GskGLDriver, name)) = \ g_steal_pointer (&program); \ } G_STMT_END; # include "gskglprograms.defs" #undef GSK_GL_DEFINE_PROGRAM #undef GSK_GL_DEFINE_PROGRAM_NO_CLIP #undef GSK_GL_ADD_UNIFORM #undef GSK_GL_SHADER_SINGLE #undef GSK_GL_SHADER_JOINED #undef GSK_GL_SHADER_RESOURCE #undef GSK_GL_SHADER_STRING #undef GSK_GL_NO_UNIFORMS ret = TRUE; failure: g_clear_object (&compiler); gdk_profiler_end_mark (start_time, "load programs", NULL); return ret; } /** * gsk_gl_driver_autorelease_framebuffer: * @self: a `GskGLDriver` * @framebuffer_id: the id of the OpenGL framebuffer * * Marks @framebuffer_id to be deleted when the current frame has cmopleted. */ static void gsk_gl_driver_autorelease_framebuffer (GskGLDriver *self, guint framebuffer_id) { g_assert (GSK_IS_GL_DRIVER (self)); g_array_append_val (self->autorelease_framebuffers, framebuffer_id); } static GskGLDriver * gsk_gl_driver_new (GskGLCommandQueue *command_queue, gboolean debug_shaders, GError **error) { GskGLDriver *self; GdkGLContext *context; gint64 before G_GNUC_UNUSED; g_return_val_if_fail (GSK_IS_GL_COMMAND_QUEUE (command_queue), NULL); before = GDK_PROFILER_CURRENT_TIME; context = gsk_gl_command_queue_get_context (command_queue); gdk_gl_context_make_current (context); self = g_object_new (GSK_TYPE_GL_DRIVER, NULL); self->command_queue = g_object_ref (command_queue); self->shared_command_queue = g_object_ref (command_queue); self->debug = !!debug_shaders; if (!gsk_gl_driver_load_programs (self, error)) { g_object_unref (self); return NULL; } self->glyphs_library = gsk_gl_glyph_library_new (self); self->icons_library = gsk_gl_icon_library_new (self); self->shadows_library = gsk_gl_shadow_library_new (self); gdk_profiler_end_mark (before, "create GskGLDriver", NULL); return g_steal_pointer (&self); } static void free_driver (GskGLDriver *driver) { g_object_run_dispose (G_OBJECT (driver)); g_object_unref (driver); } static void display_closed (GdkDisplay *display) { g_object_set_data (G_OBJECT (display), "GSK_GL_DRIVER", NULL); } /** * gsk_gl_driver_for_display: * @display: A #GdkDisplay that is known to support GL * @debug_shaders: if debug information for shaders should be displayed * @error: location for error information * * Retrieves a driver for a shared display. Generally this is shared across all GL * contexts for a display so that fewer programs are necessary for driving output. * * Returns: (transfer full): a `GskGLDriver` if successful; otherwise %NULL and * @error is set. */ GskGLDriver * gsk_gl_driver_for_display (GdkDisplay *display, gboolean debug_shaders, GError **error) { GdkGLContext *context; GskGLCommandQueue *command_queue = NULL; GskGLDriver *driver; g_return_val_if_fail (GDK_IS_DISPLAY (display), NULL); if ((driver = g_object_get_data (G_OBJECT (display), "GSK_GL_DRIVER"))) return g_object_ref (driver); context = gdk_display_get_gl_context (display); g_assert (context); gdk_gl_context_make_current (context); /* Initially we create a command queue using the shared context. However, * as frames are processed this will be replaced with the command queue * for a given renderer. But since the programs are compiled into the * shared context, all other contexts sharing with it will have access * to those programs. */ command_queue = gsk_gl_command_queue_new (context, NULL); if (!(driver = gsk_gl_driver_new (command_queue, debug_shaders, error))) goto failure; g_object_set_data_full (G_OBJECT (display), "GSK_GL_DRIVER", g_object_ref (driver), (GDestroyNotify) free_driver); g_signal_connect (display, "closed", G_CALLBACK (display_closed), NULL); failure: g_clear_object (&command_queue); return g_steal_pointer (&driver); } /** * gsk_gl_driver_begin_frame: * @self: a `GskGLDriver` * @command_queue: A `GskGLCommandQueue` from the renderer * * Begin a new frame. * * Texture atlases, pools, and other resources will be prepared to draw the * next frame. The command queue should be one that was created for the * target context to be drawn into (the context of the renderer's surface). */ void gsk_gl_driver_begin_frame (GskGLDriver *self, GskGLCommandQueue *command_queue) { gint64 last_frame_id; g_return_if_fail (GSK_IS_GL_DRIVER (self)); g_return_if_fail (GSK_IS_GL_COMMAND_QUEUE (command_queue)); g_return_if_fail (self->in_frame == FALSE); last_frame_id = self->current_frame_id; self->in_frame = TRUE; self->current_frame_id++; g_set_object (&self->command_queue, command_queue); gsk_gl_command_queue_begin_frame (self->command_queue); /* Mark unused pixel regions of the atlases */ gsk_gl_texture_library_begin_frame (GSK_GL_TEXTURE_LIBRARY (self->icons_library), self->current_frame_id); gsk_gl_texture_library_begin_frame (GSK_GL_TEXTURE_LIBRARY (self->glyphs_library), self->current_frame_id); /* Cleanup old shadows */ gsk_gl_shadow_library_begin_frame (self->shadows_library); /* Remove all textures that are from a previous frame or are no * longer used by linked GdkTexture. We do this at the beginning * of the following frame instead of the end so that we reduce chances * we block on any resources while delivering our frames. */ gsk_gl_driver_collect_unused_textures (self, last_frame_id - 1); } /** * gsk_gl_driver_end_frame: * @self: a `GskGLDriver` * * Clean up resources from drawing the current frame. * * Temporary resources used while drawing will be released. */ void gsk_gl_driver_end_frame (GskGLDriver *self) { g_return_if_fail (GSK_IS_GL_DRIVER (self)); g_return_if_fail (self->in_frame == TRUE); gsk_gl_command_queue_make_current (self->command_queue); gsk_gl_command_queue_end_frame (self->command_queue); self->in_frame = FALSE; } /** * gsk_gl_driver_after_frame: * @self: a `GskGLDriver` * * This function does post-frame cleanup operations. * * To reduce the chances of blocking on the driver it is performed * after the frame has swapped buffers. */ void gsk_gl_driver_after_frame (GskGLDriver *self) { g_return_if_fail (GSK_IS_GL_DRIVER (self)); g_return_if_fail (self->in_frame == FALSE); /* Release any render targets (possibly adding them to * self->autorelease_framebuffers) so we can release the FBOs immediately * afterwards. */ while (self->render_targets->len > 0) { GskGLRenderTarget *render_target = g_ptr_array_index (self->render_targets, self->render_targets->len - 1); gsk_gl_driver_autorelease_framebuffer (self, render_target->framebuffer_id); gsk_gl_driver_autorelease_texture (self, render_target->texture_id); g_free (render_target); self->render_targets->len--; } /* Now that we have collected render targets, release all the FBOs */ if (self->autorelease_framebuffers->len > 0) { glDeleteFramebuffers (self->autorelease_framebuffers->len, (GLuint *)(gpointer)self->autorelease_framebuffers->data); self->autorelease_framebuffers->len = 0; } /* Release any cached textures we used during the frame */ if (self->texture_pool->len > 0) { glDeleteTextures (self->texture_pool->len, (GLuint *)(gpointer)self->texture_pool->data); self->texture_pool->len = 0; } /* Reset command queue to our shared queue in case we have operations * that need to be processed outside of a frame (such as callbacks * from external systems such as GDK). */ g_set_object (&self->command_queue, self->shared_command_queue); } GdkGLContext * gsk_gl_driver_get_context (GskGLDriver *self) { g_return_val_if_fail (GSK_IS_GL_DRIVER (self), NULL); g_return_val_if_fail (GSK_IS_GL_COMMAND_QUEUE (self->command_queue), NULL); return gsk_gl_command_queue_get_context (self->command_queue); } /** * gsk_gl_driver_cache_texture: * @self: a `GskGLDriver` * @key: the key for the texture * @texture_id: the id of the texture to be cached * * Inserts @texture_id into the texture cache using @key. * * Textures can be looked up by @key after calling this function using * gsk_gl_driver_lookup_texture(). * * Textures that have not been used within a number of frames will be * purged from the texture cache automatically. */ void gsk_gl_driver_cache_texture (GskGLDriver *self, const GskTextureKey *key, guint texture_id) { g_assert (GSK_IS_GL_DRIVER (self)); g_assert (key != NULL); g_assert (texture_id > 0); g_assert (g_hash_table_contains (self->textures, GUINT_TO_POINTER (texture_id))); if (!g_hash_table_contains (self->key_to_texture_id, key)) { GskTextureKey *k; k = g_memdup (key, sizeof *key); g_assert (!g_hash_table_contains (self->texture_id_to_key, GUINT_TO_POINTER (texture_id))); g_hash_table_insert (self->key_to_texture_id, k, GUINT_TO_POINTER (texture_id)); g_hash_table_insert (self->texture_id_to_key, GUINT_TO_POINTER (texture_id), k); } } #if defined(HAVE_DMABUF) && defined (HAVE_EGL) static void set_viewport_for_size (GskGLDriver *self, GskGLProgram *program, float width, float height) { float viewport[4] = { 0, 0, width, height }; gsk_gl_uniform_state_set4fv (program->uniforms, program->program_info, UNIFORM_SHARED_VIEWPORT, 0, 1, (const float *)&viewport); self->stamps[UNIFORM_SHARED_VIEWPORT]++; } #define ORTHO_NEAR_PLANE -10000 #define ORTHO_FAR_PLANE 10000 static void set_projection_for_size (GskGLDriver *self, GskGLProgram *program, float width, float height) { graphene_matrix_t projection; graphene_matrix_init_ortho (&projection, 0, width, 0, height, ORTHO_NEAR_PLANE, ORTHO_FAR_PLANE); graphene_matrix_scale (&projection, 1, -1, 1); gsk_gl_uniform_state_set_matrix (program->uniforms, program->program_info, UNIFORM_SHARED_PROJECTION, 0, &projection); self->stamps[UNIFORM_SHARED_PROJECTION]++; } static void reset_modelview (GskGLDriver *self, GskGLProgram *program) { graphene_matrix_t modelview; graphene_matrix_init_identity (&modelview); gsk_gl_uniform_state_set_matrix (program->uniforms, program->program_info, UNIFORM_SHARED_MODELVIEW, 0, &modelview); self->stamps[UNIFORM_SHARED_MODELVIEW]++; } static void draw_rect (GskGLCommandQueue *command_queue, float min_x, float min_y, float max_x, float max_y) { GskGLDrawVertex *vertices = gsk_gl_command_queue_add_vertices (command_queue); float min_u = 0; float max_u = 1; float min_v = 1; float max_v = 0; guint16 c = FP16_ZERO; vertices[0] = (GskGLDrawVertex) { .position = { min_x, min_y }, .uv = { min_u, min_v }, .color = { c, c, c, c } }; vertices[1] = (GskGLDrawVertex) { .position = { min_x, max_y }, .uv = { min_u, max_v }, .color = { c, c, c, c } }; vertices[2] = (GskGLDrawVertex) { .position = { max_x, min_y }, .uv = { max_u, min_v }, .color = { c, c, c, c } }; vertices[3] = (GskGLDrawVertex) { .position = { max_x, max_y }, .uv = { max_u, max_v }, .color = { c, c, c, c } }; vertices[4] = (GskGLDrawVertex) { .position = { min_x, max_y }, .uv = { min_u, max_v }, .color = { c, c, c, c } }; vertices[5] = (GskGLDrawVertex) { .position = { max_x, min_y }, .uv = { max_u, min_v }, .color = { c, c, c, c } }; } static unsigned int release_render_target (GskGLDriver *self, GskGLRenderTarget *render_target, gboolean release_texture, gboolean cache_texture); static guint gsk_gl_driver_import_dmabuf_texture (GskGLDriver *self, GdkDmabufTexture *texture) { GdkGLContext *context = self->command_queue->context; int max_texture_size = self->command_queue->max_texture_size; const GdkDmabuf *dmabuf; guint texture_id; int width, height; GskGLProgram *program; GskGLRenderTarget *render_target; guint prev_fbo; gboolean external; gdk_gl_context_make_current (context); width = gdk_texture_get_width (GDK_TEXTURE (texture)); height = gdk_texture_get_height (GDK_TEXTURE (texture)); if (width > max_texture_size || height > max_texture_size) { GDK_DISPLAY_DEBUG (gdk_gl_context_get_display (context), DMABUF, "Can't import dmabuf bigger than MAX_TEXTURE_SIZE (%d)", max_texture_size); return 0; } dmabuf = gdk_dmabuf_texture_get_dmabuf (texture); texture_id = gdk_gl_context_import_dmabuf (context, width, height, dmabuf, &external); if (texture_id == 0) return 0; if (!external) return texture_id; gsk_gl_driver_autorelease_texture (self, texture_id); program = self->external; if (!gsk_gl_driver_create_render_target (self, width, height, GL_RGBA8, &render_target)) return texture_id; prev_fbo = gsk_gl_command_queue_bind_framebuffer (self->command_queue, render_target->framebuffer_id); gsk_gl_command_queue_clear (self->command_queue, 0, &GRAPHENE_RECT_INIT (0, 0, width, height)); if (gsk_gl_command_queue_begin_draw (self->command_queue, program->program_info, width, height)) { set_projection_for_size (self, program, width, height); set_viewport_for_size (self, program, width, height); reset_modelview (self, program); gsk_gl_program_set_uniform_texture (program, UNIFORM_EXTERNAL_SOURCE, 0, GL_TEXTURE_EXTERNAL_OES, GL_TEXTURE0, texture_id); draw_rect (self->command_queue, 0, 0, width, height); gsk_gl_command_queue_end_draw (self->command_queue); } gsk_gl_command_queue_bind_framebuffer (self->command_queue, prev_fbo); return release_render_target (self, render_target, FALSE, FALSE); } #else static guint gsk_gl_driver_import_dmabuf_texture (GskGLDriver *self, GdkDmabufTexture *texture) { return 0; } #endif /* HAVE_DMABUF && HAVE_EGL */ /** * gsk_gl_driver_load_texture: * @self: a `GdkTexture` * @texture: a `GdkTexture` * @ensure_mipmap: Mipmaps for this texture must exist for downscaling * * Loads a `GdkTexture` by uploading the contents to the GPU when * necessary. If @texture is a `GdkGLTexture`, it can be used without * uploading contents to the GPU. * * If the texture has already been uploaded and not yet released * from cache, this function returns that texture id without further * work. * * If the texture has not been used for a number of frames, it will * be removed from cache. * * There is no need to release the resulting texture identifier after * using it. It will be released automatically. * * Returns: a texture identifier */ guint gsk_gl_driver_load_texture (GskGLDriver *self, GdkTexture *texture, gboolean ensure_mipmap) { GdkGLContext *context; GdkMemoryTexture *downloaded_texture; GskGLTexture *t; guint texture_id; int height; int width; g_return_val_if_fail (GSK_IS_GL_DRIVER (self), 0); g_return_val_if_fail (GDK_IS_TEXTURE (texture), 0); g_return_val_if_fail (GSK_IS_GL_COMMAND_QUEUE (self->command_queue), 0); context = self->command_queue->context; texture_id = 0; downloaded_texture = NULL; t = gdk_texture_get_render_data (texture, self); if (t && t->texture_id) { if (ensure_mipmap && !t->has_mipmap) { glBindTexture (GL_TEXTURE_2D, t->texture_id); glGenerateMipmap (GL_TEXTURE_2D); t->has_mipmap = TRUE; } return t->texture_id; } if (GDK_IS_DMABUF_TEXTURE (texture)) { texture_id = gsk_gl_driver_import_dmabuf_texture (self, GDK_DMABUF_TEXTURE (texture)); } else if (GDK_IS_GL_TEXTURE (texture)) { GdkGLTexture *gl_texture = (GdkGLTexture *) texture; GdkGLContext *texture_context = gdk_gl_texture_get_context (gl_texture); if (gdk_gl_context_is_shared (context, texture_context) && (!ensure_mipmap || gdk_gl_texture_has_mipmap (gl_texture)) && gdk_memory_format_alpha (gdk_texture_get_format (texture)) != GDK_MEMORY_ALPHA_STRAIGHT) { /* A GL texture from the same GL context is a simple task... */ return gdk_gl_texture_get_id (gl_texture); } } if (texture_id == 0) { downloaded_texture = gdk_memory_texture_from_texture (texture, gdk_texture_get_format (texture)); /* The download_texture() call may have switched the GL context. Make sure * the right context is at work again. */ gdk_gl_context_make_current (context); texture_id = gsk_gl_command_queue_upload_texture (self->command_queue, GDK_TEXTURE (downloaded_texture)); } width = gdk_texture_get_width (texture); height = gdk_texture_get_height (texture); t = gsk_gl_texture_new (texture_id, width, height, self->current_frame_id); if (ensure_mipmap) { glBindTexture (GL_TEXTURE_2D, t->texture_id); glGenerateMipmap (GL_TEXTURE_2D); t->has_mipmap = TRUE; } g_hash_table_insert (self->textures, GUINT_TO_POINTER (texture_id), t); if (gdk_texture_set_render_data (texture, self, t, gsk_gl_texture_destroyed)) t->user = texture; gdk_gl_context_label_object_printf (context, GL_TEXTURE, t->texture_id, "GdkTexture<%p> %d", texture, t->texture_id); g_clear_object (&downloaded_texture); return t->texture_id; } /** * gsk_gl_driver_create_texture: * @self: a `GskGLDriver` * @width: the width of the texture * @height: the height of the texture * @format: format for the texture * * Creates a new texture immediately that can be used by the caller * to upload data, map to a framebuffer, or other uses which may * modify the texture immediately. * * Typical examples for @format are GL_RGBA8, GL_RGBA16F or GL_RGBA32F. * * Use gsk_gl_driver_release_texture() to release this texture back into * the pool so it may be reused later in the pipeline. * * Returns: a `GskGLTexture` which can be returned to the pool with * gsk_gl_driver_release_texture(). */ GskGLTexture * gsk_gl_driver_create_texture (GskGLDriver *self, float width, float height, int format) { GskGLTexture *texture; guint texture_id; g_return_val_if_fail (GSK_IS_GL_DRIVER (self), NULL); texture_id = gsk_gl_command_queue_create_texture (self->command_queue, width, height, format); texture = gsk_gl_texture_new (texture_id, width, height, self->current_frame_id); g_hash_table_insert (self->textures, GUINT_TO_POINTER (texture->texture_id), texture); return texture; } /** * gsk_gl_driver_release_texture: * @self: a `GskGLDriver` * @texture: a `GskGLTexture` * * Releases @texture back into the pool so that it can be used later * in the command stream by future batches. This helps reduce VRAM * usage on the GPU. * * When the frame has completed, pooled textures will be released * to free additional VRAM back to the system. */ void gsk_gl_driver_release_texture (GskGLDriver *self, GskGLTexture *texture) { guint texture_id; g_assert (GSK_IS_GL_DRIVER (self)); g_assert (texture != NULL); texture_id = texture->texture_id; texture->texture_id = 0; gsk_gl_texture_free (texture); if (texture_id > 0) remove_texture_key_for_id (self, texture_id); g_hash_table_steal (self->textures, GUINT_TO_POINTER (texture_id)); gsk_gl_driver_autorelease_texture (self, texture_id); } /** * gsk_gl_driver_create_render_target: * @self: a `GskGLDriver` * @width: the width for the render target * @height: the height for the render target * @format: the format to use * @out_render_target: (out): a location for the render target * * Creates a new render target which contains a framebuffer and a texture * bound to that framebuffer of the size @width x @height and using the * appropriate filters. * * Typical examples for @format are GK_RGBA8, GL_RGBA16F or GL_RGBA32F. * * Use gsk_gl_driver_release_render_target() when you are finished with * the render target to release it. You may steal the texture from the * render target when releasing it. * * Returns: %TRUE if successful; otherwise %FALSE and @out_fbo_id and * @out_texture_id are undefined. */ gboolean gsk_gl_driver_create_render_target (GskGLDriver *self, int width, int height, int format, GskGLRenderTarget **out_render_target) { guint framebuffer_id; guint texture_id; g_return_val_if_fail (GSK_IS_GL_DRIVER (self), FALSE); g_return_val_if_fail (GSK_IS_GL_COMMAND_QUEUE (self->command_queue), FALSE); g_return_val_if_fail (out_render_target != NULL, FALSE); #if 0 if (self->render_targets->len > 0) { for (guint i = self->render_targets->len; i > 0; i--) { GskGLRenderTarget *render_target = g_ptr_array_index (self->render_targets, i-1); if (render_target->width == width && render_target->height == height) { *out_render_target = g_ptr_array_steal_index_fast (self->render_targets, i-1); return TRUE; } } } #endif if (gsk_gl_command_queue_create_render_target (self->command_queue, width, height, format, &framebuffer_id, &texture_id)) { GskGLRenderTarget *render_target; render_target = g_new0 (GskGLRenderTarget, 1); render_target->format = format; render_target->width = width; render_target->height = height; render_target->framebuffer_id = framebuffer_id; render_target->texture_id = texture_id; *out_render_target = render_target; return TRUE; } *out_render_target = NULL; return FALSE; } static unsigned int release_render_target (GskGLDriver *self, GskGLRenderTarget *render_target, gboolean release_texture, gboolean cache_texture) { guint texture_id; g_return_val_if_fail (GSK_IS_GL_DRIVER (self), 0); g_return_val_if_fail (render_target != NULL, 0); if (release_texture) { texture_id = 0; g_ptr_array_add (self->render_targets, render_target); } else { texture_id = render_target->texture_id; if (cache_texture) { GskGLTexture *texture; texture = gsk_gl_texture_new (render_target->texture_id, render_target->width, render_target->height, self->current_frame_id); g_hash_table_insert (self->textures, GUINT_TO_POINTER (texture_id), g_steal_pointer (&texture)); } gsk_gl_driver_autorelease_framebuffer (self, render_target->framebuffer_id); g_free (render_target); } return texture_id; } /** * gsk_gl_driver_release_render_target: * @self: a `GskGLDriver` * @render_target: a `GskGLRenderTarget` created with * gsk_gl_driver_create_render_target(). * @release_texture: if the texture should also be released * * Releases a render target that was previously created. An attempt may * be made to cache the render target so that future creations of render * targets are performed faster. * * If @release_texture is %FALSE, the backing texture id is returned and * the framebuffer is released. Otherwise, both the texture and framebuffer * are released or cached until the end of the frame. * * This may be called when building the render job as the texture or * framebuffer will not be removed immediately. * * Returns: a texture id if @release_texture is %FALSE, otherwise zero. */ guint gsk_gl_driver_release_render_target (GskGLDriver *self, GskGLRenderTarget *render_target, gboolean release_texture) { return release_render_target (self, render_target, release_texture, TRUE); } /** * gsk_gl_driver_lookup_shader: * @self: a `GskGLDriver` * @shader: the shader to lookup or load * @error: a location for a `GError` * * Attepts to load @shader from the shader cache. * * If it has not been loaded, then it will compile the shader on demand. * * Returns: (nullable) (transfer none): a `GskGLShader` */ GskGLProgram * gsk_gl_driver_lookup_shader (GskGLDriver *self, GskGLShader *shader, GError **error) { GskGLProgram *program; g_return_val_if_fail (self != NULL, NULL); g_return_val_if_fail (shader != NULL, NULL); program = g_hash_table_lookup (self->shader_cache, shader); if (program == NULL) { const GskGLUniform *uniforms; GskGLCompiler *compiler; GBytes *suffix; int n_required_textures; int n_uniforms; uniforms = gsk_gl_shader_get_uniforms (shader, &n_uniforms); if (n_uniforms > GSK_GL_PROGRAM_MAX_CUSTOM_ARGS) { g_set_error (error, GDK_GL_ERROR, GDK_GL_ERROR_UNSUPPORTED_FORMAT, "Tried to use %d uniforms, while only %d is supported", n_uniforms, GSK_GL_PROGRAM_MAX_CUSTOM_ARGS); return NULL; } n_required_textures = gsk_gl_shader_get_n_textures (shader); if (n_required_textures > GSK_GL_PROGRAM_MAX_CUSTOM_TEXTURES) { g_set_error (error, GDK_GL_ERROR, GDK_GL_ERROR_UNSUPPORTED_FORMAT, "Tried to use %d textures, while only %d is supported", n_required_textures, GSK_GL_PROGRAM_MAX_CUSTOM_TEXTURES); return NULL; } compiler = gsk_gl_compiler_new (self, FALSE); suffix = gsk_gl_shader_get_source (shader); gsk_gl_compiler_set_preamble_from_resource (compiler, GSK_GL_COMPILER_ALL, "/org/gtk/libgsk/gl/preamble.glsl"); gsk_gl_compiler_set_preamble_from_resource (compiler, GSK_GL_COMPILER_VERTEX, "/org/gtk/libgsk/gl/preamble.vs.glsl"); gsk_gl_compiler_set_preamble_from_resource (compiler, GSK_GL_COMPILER_FRAGMENT, "/org/gtk/libgsk/gl/preamble.fs.glsl"); gsk_gl_compiler_set_source_from_resource (compiler, GSK_GL_COMPILER_ALL, "/org/gtk/libgsk/gl/custom.glsl"); gsk_gl_compiler_set_suffix (compiler, GSK_GL_COMPILER_FRAGMENT, suffix); /* Setup attributes that are provided via VBO */ gsk_gl_compiler_bind_attribute (compiler, "aPosition", 0); gsk_gl_compiler_bind_attribute (compiler, "aUv", 1); gsk_gl_compiler_bind_attribute (compiler, "aColor", 2); gsk_gl_compiler_bind_attribute (compiler, "aColor2", 3); if ((program = gsk_gl_compiler_compile (compiler, NULL, "", error))) { gboolean have_alpha; gsk_gl_program_add_uniform (program, "u_source", UNIFORM_SHARED_SOURCE); gsk_gl_program_add_uniform (program, "u_clip_rect", UNIFORM_SHARED_CLIP_RECT); gsk_gl_program_add_uniform (program, "u_viewport", UNIFORM_SHARED_VIEWPORT); gsk_gl_program_add_uniform (program, "u_projection", UNIFORM_SHARED_PROJECTION); gsk_gl_program_add_uniform (program, "u_modelview", UNIFORM_SHARED_MODELVIEW); have_alpha = gsk_gl_program_add_uniform (program, "u_alpha", UNIFORM_SHARED_ALPHA); gsk_gl_program_add_uniform (program, "u_size", UNIFORM_CUSTOM_SIZE); gsk_gl_program_add_uniform (program, "u_texture1", UNIFORM_CUSTOM_TEXTURE1); gsk_gl_program_add_uniform (program, "u_texture2", UNIFORM_CUSTOM_TEXTURE2); gsk_gl_program_add_uniform (program, "u_texture3", UNIFORM_CUSTOM_TEXTURE3); gsk_gl_program_add_uniform (program, "u_texture4", UNIFORM_CUSTOM_TEXTURE4); /* Custom arguments (max is 8) */ for (guint i = 0; i < n_uniforms; i++) gsk_gl_program_add_uniform (program, uniforms[i].name, UNIFORM_CUSTOM_ARG0+i); gsk_gl_program_uniforms_added (program, TRUE); if (have_alpha) gsk_gl_program_set_uniform1f (program, UNIFORM_SHARED_ALPHA, 0, 1.0f); g_hash_table_insert (self->shader_cache, shader, program); g_object_weak_ref (G_OBJECT (shader), gsk_gl_driver_shader_weak_cb, self); } g_object_unref (compiler); } return program; } #if 0 void gsk_gl_driver_save_texture_to_png (GskGLDriver *driver, int texture_id, int width, int height, const char *filename) { GdkGLTextureBuilder *builder; GdkTexture *texture; builder = gdk_gl_texture_builder_new (); gdk_gl_texture_builder_set_context (builder, gsk_gl_driver_get_context (driver)); gdk_gl_texture_builder_set_id (builder, texture_id); gdk_gl_texture_builder_set_width (builder, width); gdk_gl_texture_builder_set_height (builder, height); texture = gdk_gl_texture_builder_build (builder, NULL, NULL); gdk_texture_save_to_png (texture, filename); g_object_unref (texture); g_object_unref (builder); } void gsk_gl_driver_save_atlases_to_png (GskGLDriver *self, const char *directory) { GPtrArray *atlases; g_return_if_fail (GSK_IS_GL_DRIVER (self)); if (directory == NULL) directory = "."; #define copy_atlases(dst, library) \ g_ptr_array_extend(dst, GSK_GL_TEXTURE_LIBRARY(library)->atlases, NULL, NULL) atlases = g_ptr_array_new (); copy_atlases (atlases, self->glyphs_library); copy_atlases (atlases, self->icons_library); #undef copy_atlases for (guint i = 0; i < atlases->len; i++) { GskGLTextureAtlas *atlas = g_ptr_array_index (atlases, i); char *filename = g_strdup_printf ("%s%sframe-%d-atlas-%d.png", directory, G_DIR_SEPARATOR_S, (int)self->current_frame_id, atlas->texture_id); gsk_gl_driver_save_texture_to_png (self, atlas->texture_id, atlas->width, atlas->height, filename); g_free (filename); } g_ptr_array_unref (atlases); } #endif GskGLCommandQueue * gsk_gl_driver_create_command_queue (GskGLDriver *self, GdkGLContext *context) { g_return_val_if_fail (GSK_IS_GL_DRIVER (self), NULL); g_return_val_if_fail (GDK_IS_GL_CONTEXT (context), NULL); return gsk_gl_command_queue_new (context, self->shared_command_queue->uniforms); } void gsk_gl_driver_add_texture_slices (GskGLDriver *self, GdkTexture *texture, gboolean ensure_mipmap, GskGLTextureSlice **out_slices, guint *out_n_slices) { int max_slice_size; GskGLTextureSlice *slices; GskGLTexture *t; guint n_slices; guint cols; guint rows; int tex_width; int tex_height; int x = 0, y = 0; GdkMemoryTexture *memtex; GdkMemoryFormat format; gsize bpp; int extra_pixels; GdkMemoryTexture *memtex1 = NULL; GdkMemoryTexture *memtex2 = NULL; GdkMemoryTexture *memtex3 = NULL; GdkMemoryTexture *memtex4 = NULL; g_assert (GSK_IS_GL_DRIVER (self)); g_assert (GDK_IS_TEXTURE (texture)); g_assert (out_slices != NULL); g_assert (out_n_slices != NULL); max_slice_size = self->command_queue->max_texture_size / 2; tex_width = texture->width; tex_height = texture->height; cols = (texture->width / max_slice_size) + 1; rows = (texture->height / max_slice_size) + 1; n_slices = cols * rows; t = gdk_texture_get_render_data (texture, self); if (t) { if (t->n_slices == n_slices && (t->has_mipmap || !ensure_mipmap)) { *out_slices = t->slices; *out_n_slices = t->n_slices; return; } gdk_texture_clear_render_data (texture); } slices = g_new0 (GskGLTextureSlice, n_slices); memtex = gdk_memory_texture_from_texture (texture, gdk_texture_get_format (texture)); if (ensure_mipmap) { guchar *data1, *data2, *data3, *data4; guchar *top_row, *bot_row, *left_row, *right_row; GdkTexture *tmp; int w; GBytes *bytes; /* We need some extra pixels around our tiles, in order for * GL to properly determine the right level of detail to use. * This number should probably depend on the scale, but for * now we just hardcode it. * * We create some auxiliary textures to hold the extra pixels: * * +---------------------+ * | memtex1 | * *---+-------------+---+ * | | | | * memtex2| memtex |memtex3 * | | | | * *---+-------------+---+ * | memtex4 | | * +---------------------+ */ extra_pixels = 15; top_row = g_malloc (4 * tex_width); tmp = gdk_memory_texture_new_subtexture (memtex, 0, 0, tex_width, 1); gdk_texture_download (tmp, top_row, 4 * tex_width); g_object_unref (tmp); bot_row = g_malloc (4 * tex_width); tmp = gdk_memory_texture_new_subtexture (memtex, 0, tex_height - 1, tex_width, 1); gdk_texture_download (tmp, bot_row, 4 * tex_width); g_object_unref (tmp); left_row = g_malloc (4 * tex_height); tmp = gdk_memory_texture_new_subtexture (memtex, 0, 0, 1, tex_height); gdk_texture_download (tmp, left_row, 4); g_object_unref (tmp); right_row = g_malloc (4 * tex_height); tmp = gdk_memory_texture_new_subtexture (memtex, tex_width - 1, 0, 1, tex_height); gdk_texture_download (tmp, right_row, 4); g_object_unref (tmp); w = tex_width + 2 * extra_pixels; data1 = g_malloc (4 * w * extra_pixels); data2 = g_malloc (4 * extra_pixels * tex_height); data3 = g_malloc (4 * extra_pixels * tex_height); data4 = g_malloc (4 * w * extra_pixels); format = gdk_texture_get_format (GDK_TEXTURE (memtex)); bpp = gdk_memory_format_bytes_per_pixel (format); for (int i = 0; i < w; i++) { int ii = CLAMP (i, extra_pixels, (tex_width - 1) + extra_pixels) - extra_pixels; for (int j = 0; j < extra_pixels; j++) { for (int k = 0; k < bpp; k++) { data1[(j * w + i) * 4 + k] = top_row[ii * 4 + k]; data4[(j * w + i) * 4 + k] = bot_row[ii * 4 + k]; } } } for (int i = 0; i < extra_pixels; i++) { for (int j = 0; j < tex_height; j++) { for (int k = 0; k < bpp; k++) { data2[(j * extra_pixels + i) * 4 + k] = left_row[j * 4 + k]; data3[(j * extra_pixels + i) * 4 + k] = right_row[j * 4 + k]; } } } g_free (top_row); g_free (bot_row); g_free (left_row); g_free (right_row); bytes = g_bytes_new_take (data1, 4 * w * extra_pixels); memtex1 = GDK_MEMORY_TEXTURE (gdk_memory_texture_new (w, extra_pixels, format, bytes, 4 * w)); g_bytes_unref (bytes); bytes = g_bytes_new_take (data2, 4 * extra_pixels * tex_height); memtex2 = GDK_MEMORY_TEXTURE (gdk_memory_texture_new (extra_pixels, tex_height, format, bytes, 4 * extra_pixels)); g_bytes_unref (bytes); bytes = g_bytes_new_take (data3, 4 * extra_pixels * tex_height); memtex3 = GDK_MEMORY_TEXTURE (gdk_memory_texture_new (extra_pixels, tex_height, format, bytes, 4 * extra_pixels)); g_bytes_unref (bytes); bytes = g_bytes_new_take (data4, 4 * w * extra_pixels); memtex4 = GDK_MEMORY_TEXTURE (gdk_memory_texture_new (w, extra_pixels, format, bytes, 4 * w)); g_bytes_unref (bytes); } else extra_pixels = 0; x = 0; for (guint col = 0; col < cols; col++) { int slice_width = col + 1 < cols ? tex_width / cols : tex_width - x; y = 0; for (guint row = 0; row < rows; row++) { int slice_height = row + 1 < rows ? tex_height / rows : tex_height - y; int slice_index = (col * rows) + row; guint texture_id; if (ensure_mipmap) { GskGLTextureChunk chunks[5]; unsigned int n_chunks = 0; if (row == 0) { chunks[n_chunks].texture = gdk_memory_texture_new_subtexture (memtex1, x, 0, slice_width + 2 * extra_pixels, extra_pixels); chunks[n_chunks].x = 0; chunks[n_chunks].y = 0; n_chunks++; } if (row == rows - 1) { chunks[n_chunks].texture = gdk_memory_texture_new_subtexture (memtex4, x, 0, slice_width + 2 * extra_pixels, extra_pixels); chunks[n_chunks].x = 0; chunks[n_chunks].y = slice_height + extra_pixels; n_chunks++; } if (col == 0) { int yy = y - extra_pixels; int hh = slice_height + 2 * extra_pixels; int y0 = 0; if (row == 0) { yy = 0; y0 = extra_pixels; hh -= extra_pixels; } if (row == rows - 1) { hh -= extra_pixels; } chunks[n_chunks].texture = gdk_memory_texture_new_subtexture (memtex2, 0, yy, extra_pixels, hh); chunks[n_chunks].x = 0; chunks[n_chunks].y = y0; n_chunks++; } if (col == cols - 1) { int yy = y - extra_pixels; int hh = slice_height + 2 * extra_pixels; int y0 = 0; if (row == 0) { yy = 0; y0 = extra_pixels; hh -= extra_pixels; } if (row == rows - 1) { hh -= extra_pixels; } chunks[n_chunks].texture = gdk_memory_texture_new_subtexture (memtex3, 0, yy, extra_pixels, hh); chunks[n_chunks].x = slice_width + extra_pixels; chunks[n_chunks].y = y0; n_chunks++; } { int xx = x - extra_pixels; int yy = y - extra_pixels; int ww = slice_width + 2 * extra_pixels; int hh = slice_height + 2 * extra_pixels; int x0 = 0; int y0 = 0; if (col == 0) { xx = 0; ww -= extra_pixels; x0 = extra_pixels; } if (col == cols - 1) { ww -= extra_pixels; } if (row == 0) { yy = 0; hh -= extra_pixels; y0 = extra_pixels; } if (row == rows - 1) { hh -= extra_pixels; } chunks[n_chunks].texture = gdk_memory_texture_new_subtexture (memtex, xx, yy, ww, hh); chunks[n_chunks].x = x0; chunks[n_chunks].y = y0; n_chunks++; } texture_id = gsk_gl_command_queue_upload_texture_chunks (self->command_queue, n_chunks, chunks); glBindTexture (GL_TEXTURE_2D, texture_id); glGenerateMipmap (GL_TEXTURE_2D); for (unsigned int i = 0; i < n_chunks; i++) g_object_unref (chunks[i].texture); } else { GdkTexture *subtex; subtex = gdk_memory_texture_new_subtexture (memtex, x, y, slice_width, slice_height); texture_id = gsk_gl_command_queue_upload_texture (self->command_queue, subtex); g_object_unref (subtex); } slices[slice_index].rect.x = x; slices[slice_index].rect.y = y; slices[slice_index].rect.width = slice_width; slices[slice_index].rect.height = slice_height; slices[slice_index].texture_id = texture_id; slices[slice_index].area.x = extra_pixels / (float) (slice_width + 2 * extra_pixels); slices[slice_index].area.y = extra_pixels / (float) (slice_height + 2 * extra_pixels); slices[slice_index].area.x2 = (extra_pixels + slice_width) / (float) (slice_width + 2 * extra_pixels); slices[slice_index].area.y2 = (extra_pixels + slice_height) / (float) (slice_height + 2 * extra_pixels); y += slice_height; } x += slice_width; } g_object_unref (memtex); g_clear_object (&memtex1); g_clear_object (&memtex2); g_clear_object (&memtex3); g_clear_object (&memtex4); /* Allocate one Texture for the entire thing. */ t = gsk_gl_texture_new (0, tex_width, tex_height, self->current_frame_id); t->has_mipmap = ensure_mipmap; /* Use gsk_gl_texture_free() as destroy notify here since we are * not inserting this GskGLTexture into self->textures! */ gdk_texture_set_render_data (texture, self, t, (GDestroyNotify)gsk_gl_texture_free); t->slices = *out_slices = slices; t->n_slices = *out_n_slices = n_slices; } GskGLTexture * gsk_gl_driver_mark_texture_permanent (GskGLDriver *self, guint texture_id) { GskGLTexture *t; g_return_val_if_fail (GSK_IS_GL_DRIVER (self), NULL); g_return_val_if_fail (texture_id > 0, NULL); if ((t = g_hash_table_lookup (self->textures, GUINT_TO_POINTER (texture_id)))) t->permanent = TRUE; return t; } void gsk_gl_driver_release_texture_by_id (GskGLDriver *self, guint texture_id) { GskGLTexture *texture; g_return_if_fail (GSK_IS_GL_DRIVER (self)); g_return_if_fail (texture_id > 0); remove_texture_key_for_id (self, texture_id); if ((texture = g_hash_table_lookup (self->textures, GUINT_TO_POINTER (texture_id)))) gsk_gl_driver_release_texture (self, texture); } typedef struct _GskGLTextureState { GdkGLContext *context; GLuint texture_id; GLsync sync; } GskGLTextureState; static void create_texture_from_texture_destroy (gpointer data) { GskGLTextureState *state = data; g_assert (state != NULL); g_assert (GDK_IS_GL_CONTEXT (state->context)); gdk_gl_context_make_current (state->context); glDeleteTextures (1, &state->texture_id); if (state->sync) glDeleteSync (state->sync); g_clear_object (&state->context); g_free (state); } GdkTexture * gsk_gl_driver_create_gdk_texture (GskGLDriver *self, guint texture_id, GdkMemoryFormat format) { GskGLTextureState *state; GdkGLTextureBuilder *builder; GskGLTexture *texture; GdkTexture *result; g_return_val_if_fail (GSK_IS_GL_DRIVER (self), NULL); g_return_val_if_fail (self->command_queue != NULL, NULL); g_return_val_if_fail (GDK_IS_GL_CONTEXT (self->command_queue->context), NULL); g_return_val_if_fail (texture_id > 0, NULL); g_return_val_if_fail (!g_hash_table_contains (self->texture_id_to_key, GUINT_TO_POINTER (texture_id)), NULL); /* We must be tracking this texture_id already to use it */ if (!(texture = g_hash_table_lookup (self->textures, GUINT_TO_POINTER (texture_id)))) g_return_val_if_reached (NULL); state = g_new0 (GskGLTextureState, 1); state->texture_id = texture_id; state->context = g_object_ref (self->command_queue->context); if (gdk_gl_context_has_sync (self->command_queue->context)) state->sync = glFenceSync (GL_SYNC_GPU_COMMANDS_COMPLETE, 0); g_hash_table_steal (self->textures, GUINT_TO_POINTER (texture_id)); builder = gdk_gl_texture_builder_new (); gdk_gl_texture_builder_set_context (builder, self->command_queue->context); gdk_gl_texture_builder_set_id (builder, texture_id); gdk_gl_texture_builder_set_format (builder, format); gdk_gl_texture_builder_set_width (builder, texture->width); gdk_gl_texture_builder_set_height (builder, texture->height); gdk_gl_texture_builder_set_sync (builder, state->sync); result = gdk_gl_texture_builder_build (builder, create_texture_from_texture_destroy, state); texture->texture_id = 0; gsk_gl_texture_free (texture); g_object_unref (builder); return result; }