#include "config.h" #include "gskglrendererprivate.h" #include "gskdebugprivate.h" #include "gskenums.h" #include "gskrendererprivate.h" #include "gskrendernodeprivate.h" #include "gskrendernodeiter.h" #include "gskshaderbuilderprivate.h" #include "gskprivate.h" #include typedef struct { guint vao_id; guint buffer_id; guint texture_id; guint program_id; guint mvp_location; guint map_location; guint parentMap_location; guint uv_location; guint position_location; guint alpha_location; guint blendMode_location; } RenderData; typedef struct { /* Back pointer to the node, only meant for comparison */ GskRenderNode *node; graphene_point3d_t min; graphene_point3d_t max; graphene_size_t size; graphene_matrix_t mvp; gboolean opaque : 1; float opacity; float z; const char *name; GskBlendMode blend_mode; RenderData render_data; RenderData *parent_data; } RenderItem; struct _GskGLRenderer { GskRenderer parent_instance; GdkGLContext *context; graphene_matrix_t mvp; graphene_frustum_t frustum; guint frame_buffer; guint render_buffer; guint depth_stencil_buffer; guint texture_id; guint program_id; guint mvp_location; guint map_location; guint parentMap_location; guint uv_location; guint position_location; guint alpha_location; guint blendMode_location; guint vao_id; GArray *opaque_render_items; GArray *transparent_render_items; gboolean has_buffers : 1; gboolean has_alpha : 1; gboolean has_stencil_buffer : 1; gboolean has_depth_buffer : 1; }; struct _GskGLRendererClass { GskRendererClass parent_class; }; static void render_item_clear (gpointer data_); G_DEFINE_TYPE (GskGLRenderer, gsk_gl_renderer, GSK_TYPE_RENDERER) static void gsk_gl_renderer_dispose (GObject *gobject) { GskGLRenderer *self = GSK_GL_RENDERER (gobject); g_clear_object (&self->context); G_OBJECT_CLASS (gsk_gl_renderer_parent_class)->dispose (gobject); } static void gsk_gl_renderer_create_buffers (GskGLRenderer *self) { if (self->has_buffers) return; GSK_NOTE (OPENGL, g_print ("Creating buffers\n")); glGenFramebuffersEXT (1, &self->frame_buffer); if (gsk_renderer_get_use_alpha (GSK_RENDERER (self))) { if (self->texture_id == 0) glGenTextures (1, &self->texture_id); if (self->render_buffer != 0) { glDeleteRenderbuffersEXT (1, &self->render_buffer); self->render_buffer = 0; } } else { if (self->render_buffer == 0) glGenRenderbuffersEXT (1, &self->render_buffer); if (self->texture_id != 0) { glDeleteTextures (1, &self->texture_id); self->texture_id = 0; } } if (self->has_depth_buffer || self->has_stencil_buffer) { if (self->depth_stencil_buffer == 0) glGenRenderbuffersEXT (1, &self->depth_stencil_buffer); } else { if (self->depth_stencil_buffer != 0) { glDeleteRenderbuffersEXT (1, &self->depth_stencil_buffer); self->depth_stencil_buffer = 0; } } /* We only have one VAO at the moment */ glGenVertexArrays (1, &self->vao_id); glBindVertexArray (self->vao_id); self->has_buffers = TRUE; } static void gsk_gl_renderer_allocate_buffers (GskGLRenderer *self, int width, int height) { if (self->context == NULL) return; if (self->texture_id != 0) { glBindTexture (GL_TEXTURE_2D, self->texture_id); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST); if (gdk_gl_context_get_use_es (self->context)) glTexImage2D (GL_TEXTURE_2D, 0, GL_RGBA8, width, height, 0, GL_RGBA, GL_UNSIGNED_BYTE, NULL); else glTexImage2D (GL_TEXTURE_2D, 0, GL_RGBA8, width, height, 0, GL_BGRA, GL_UNSIGNED_BYTE, NULL); } if (self->render_buffer != 0) { glBindRenderbuffer (GL_RENDERBUFFER, self->render_buffer); glRenderbufferStorage (GL_RENDERBUFFER, GL_RGB8, width, height); } if (self->has_depth_buffer || self->has_stencil_buffer) { glBindRenderbuffer (GL_RENDERBUFFER, self->depth_stencil_buffer); if (self->has_stencil_buffer) glRenderbufferStorage (GL_RENDERBUFFER, GL_DEPTH24_STENCIL8, width, height); else glRenderbufferStorage (GL_RENDERBUFFER, GL_DEPTH_COMPONENT24, width, height); } } static void gsk_gl_renderer_attach_buffers (GskGLRenderer *self) { gsk_gl_renderer_create_buffers (self); GSK_NOTE (OPENGL, g_print ("Attaching buffers\n")); glBindFramebufferEXT (GL_FRAMEBUFFER_EXT, self->frame_buffer); if (self->texture_id != 0) { glFramebufferTexture2D (GL_FRAMEBUFFER_EXT, GL_COLOR_ATTACHMENT0_EXT, GL_TEXTURE_2D, self->texture_id, 0); } else if (self->render_buffer != 0) { glFramebufferRenderbufferEXT (GL_FRAMEBUFFER_EXT, GL_COLOR_ATTACHMENT0_EXT, GL_RENDERBUFFER_EXT, self->render_buffer); } if (self->depth_stencil_buffer != 0) { if (self->has_depth_buffer) glFramebufferRenderbufferEXT (GL_FRAMEBUFFER_EXT, GL_DEPTH_ATTACHMENT_EXT, GL_RENDERBUFFER_EXT, self->depth_stencil_buffer); if (self->has_stencil_buffer) glFramebufferRenderbufferEXT (GL_FRAMEBUFFER_EXT, GL_STENCIL_ATTACHMENT_EXT, GL_RENDERBUFFER_EXT, self->depth_stencil_buffer); } } static void gsk_gl_renderer_destroy_buffers (GskGLRenderer *self) { if (self->context == NULL) return; if (!self->has_buffers) return; GSK_NOTE (OPENGL, g_print ("Destroying buffers\n")); gdk_gl_context_make_current (self->context); if (self->vao_id != 0) { glDeleteVertexArrays (1, &self->vao_id); self->vao_id = 0; } if (self->depth_stencil_buffer != 0) { glDeleteRenderbuffersEXT (1, &self->depth_stencil_buffer); self->depth_stencil_buffer = 0; } if (self->render_buffer != 0) { glDeleteRenderbuffersEXT (1, &self->render_buffer); self->render_buffer = 0; } if (self->texture_id != 0) { glDeleteTextures (1, &self->texture_id); self->texture_id = 0; } if (self->frame_buffer != 0) { glBindFramebufferEXT (GL_FRAMEBUFFER_EXT, 0); glDeleteFramebuffersEXT (1, &self->frame_buffer); self->frame_buffer = 0; } self->has_buffers = FALSE; } static gboolean gsk_gl_renderer_create_programs (GskGLRenderer *self) { GskShaderBuilder *builder; const char *vertex_preamble; const char *fragment_preamble; int vertex_id = -1, fragment_id = -1; int program_id = -1; GError *error = NULL; gboolean res = FALSE; enum { MVP, MAP, PARENT_MAP, ALPHA, BLEND_MODE, N_UNIFORMS }; enum { POSITION, UV, N_ATTRIBUTES }; GQuark uniforms[N_UNIFORMS]; GQuark attributes[N_ATTRIBUTES]; builder = gsk_shader_builder_new (); gsk_shader_builder_set_resource_base_path (builder, "/org/gtk/libgsk/glsl"); uniforms[MVP] = gsk_shader_builder_add_uniform (builder, "mvp"); uniforms[MAP] = gsk_shader_builder_add_uniform (builder, "map"); uniforms[PARENT_MAP] = gsk_shader_builder_add_uniform (builder, "parentMap"); uniforms[ALPHA] = gsk_shader_builder_add_uniform (builder, "alpha"); uniforms[BLEND_MODE] = gsk_shader_builder_add_uniform (builder, "blendMode"); attributes[POSITION] = gsk_shader_builder_add_attribute (builder, "position"); attributes[UV] = gsk_shader_builder_add_attribute (builder, "uv"); #define SHADER_VERSION_GLES 110 #define SHADER_VERSION_GL_LEGACY 120 #define SHADER_VERSION_GL3 150 if (gdk_gl_context_get_use_es (self->context)) { gsk_shader_builder_set_version (builder, SHADER_VERSION_GLES); gsk_shader_builder_add_define (builder, "GSK_GLES", "1"); vertex_preamble = "gles_common.vs.glsl"; fragment_preamble = "gles_common.fs.glsl"; } else if (gdk_gl_context_is_legacy (self->context)) { gsk_shader_builder_set_version (builder, SHADER_VERSION_GL_LEGACY); gsk_shader_builder_add_define (builder, "GSK_LEGACY", "1"); vertex_preamble = "gl_common.vs.glsl"; fragment_preamble = "gl_common.fs.glsl"; } else { gsk_shader_builder_set_version (builder, SHADER_VERSION_GL3); gsk_shader_builder_add_define (builder, "GSK_GL3", "1"); vertex_preamble = "gl3_common.vs.glsl"; fragment_preamble = "gl3_common.fs.glsl"; } #ifdef G_ENABLE_DEBUG if (GSK_RENDER_MODE_CHECK (SHADERS)) gsk_shader_builder_add_define (builder, "GSK_DEBUG", "1"); #endif vertex_id = gsk_shader_builder_compile_shader (builder, GL_VERTEX_SHADER, vertex_preamble, "blend.vs.glsl", &error); if (error != NULL) { g_critical ("Unable to compile vertex shader: %s", error->message); g_error_free (error); goto out; } fragment_id = gsk_shader_builder_compile_shader (builder, GL_FRAGMENT_SHADER, fragment_preamble, "blend.fs.glsl", &error); if (error != NULL) { g_critical ("Unable to compile fragment shader: %s", error->message); g_error_free (error); goto out; } program_id = gsk_shader_builder_create_program (builder, vertex_id, fragment_id, &error); if (error != NULL) { g_critical ("Unable to create program: %s", error->message); g_error_free (error); goto out; } self->program_id = program_id; self->mvp_location = gsk_shader_builder_get_uniform_location (builder, uniforms[MVP]); self->map_location = gsk_shader_builder_get_uniform_location (builder, uniforms[MAP]); self->parentMap_location = gsk_shader_builder_get_uniform_location (builder, uniforms[PARENT_MAP]); self->alpha_location = gsk_shader_builder_get_uniform_location (builder, uniforms[ALPHA]); self->blendMode_location = gsk_shader_builder_get_uniform_location (builder, uniforms[BLEND_MODE]); self->position_location = gsk_shader_builder_get_attribute_location (builder, attributes[POSITION]); self->uv_location = gsk_shader_builder_get_attribute_location (builder, attributes[UV]); res = TRUE; out: if (vertex_id > 0) glDeleteShader (vertex_id); if (fragment_id > 0) glDeleteShader (fragment_id); g_object_unref (builder); return res; } static void gsk_gl_renderer_destroy_programs (GskGLRenderer *self) { if (self->program_id != 0) { glDeleteProgram (self->program_id); self->program_id = 0; } } static gboolean gsk_gl_renderer_realize (GskRenderer *renderer) { GskGLRenderer *self = GSK_GL_RENDERER (renderer); GError *error = NULL; /* If we didn't get a GdkGLContext before realization, try creating * one now, for our exclusive use. */ if (self->context == NULL) { GdkWindow *window = gsk_renderer_get_window (renderer); if (window == NULL) return FALSE; self->context = gdk_window_create_gl_context (window, &error); if (error != NULL) { g_critical ("Unable to create GL context for renderer: %s", error->message); g_error_free (error); return FALSE; } } gdk_gl_context_realize (self->context, &error); if (error != NULL) { g_critical ("Unable to realize GL renderer: %s", error->message); g_error_free (error); return FALSE; } gdk_gl_context_make_current (self->context); GSK_NOTE (OPENGL, g_print ("Creating buffers and programs\n")); gsk_gl_renderer_create_buffers (self); if (!gsk_gl_renderer_create_programs (self)) return FALSE; return TRUE; } static void gsk_gl_renderer_unrealize (GskRenderer *renderer) { GskGLRenderer *self = GSK_GL_RENDERER (renderer); if (self->context == NULL) return; gdk_gl_context_make_current (self->context); g_clear_pointer (&self->opaque_render_items, g_array_unref); g_clear_pointer (&self->transparent_render_items, g_array_unref); gsk_gl_renderer_destroy_buffers (self); gsk_gl_renderer_destroy_programs (self); if (self->context == gdk_gl_context_get_current ()) gdk_gl_context_clear_current (); } static void gsk_gl_renderer_resize_viewport (GskGLRenderer *self, const graphene_rect_t *viewport) { GSK_NOTE (OPENGL, g_print ("glViewport(0, 0, %g, %g)\n", viewport->size.width, viewport->size.height)); glViewport (viewport->origin.x, viewport->origin.y, viewport->size.width, viewport->size.height); } static void gsk_gl_renderer_update_frustum (GskGLRenderer *self, const graphene_matrix_t *modelview, const graphene_matrix_t *projection) { GSK_NOTE (OPENGL, g_print ("Updating the modelview/projection\n")); graphene_matrix_multiply (projection, modelview, &self->mvp); graphene_frustum_init_from_matrix (&self->frustum, &self->mvp); GSK_NOTE (OPENGL, g_print ("Renderer MVP:\n")); GSK_NOTE (OPENGL, graphene_matrix_print (&self->mvp)); } static void render_item_clear (gpointer data_) { RenderItem *item = data_; GSK_NOTE (OPENGL, g_print ("Destroying render item [%p] buffer %u\n", item, item->render_data.buffer_id)); glDeleteBuffers (1, &item->render_data.buffer_id); item->render_data.buffer_id = 0; GSK_NOTE (OPENGL, g_print ("Destroying render item [%p] texture %u\n", item, item->render_data.texture_id)); glDeleteTextures (1, &item->render_data.texture_id); item->render_data.texture_id = 0; graphene_matrix_init_identity (&item->mvp); item->opacity = 1; } #define N_VERTICES 6 static void render_item (RenderItem *item) { struct vertex_info { float position[2]; float uv[2]; }; float mvp[16]; glBindVertexArray (item->render_data.vao_id); /* Generate the vertex buffer for the texture quad */ if (item->render_data.buffer_id == 0) { struct vertex_info vertex_data[] = { { { item->min.x, item->min.y }, { 0, 0 }, }, { { item->min.x, item->max.y }, { 0, 1 }, }, { { item->max.x, item->min.y }, { 1, 0 }, }, { { item->max.x, item->max.y }, { 1, 1 }, }, { { item->min.x, item->max.y }, { 0, 1 }, }, { { item->max.x, item->min.y }, { 1, 0 }, }, }; GSK_NOTE (OPENGL, g_print ("Creating quad for render item [%p]\n", item)); glGenBuffers (1, &(item->render_data.buffer_id)); glBindBuffer (GL_ARRAY_BUFFER, item->render_data.buffer_id); /* The data won't change */ glBufferData (GL_ARRAY_BUFFER, sizeof (vertex_data), vertex_data, GL_STATIC_DRAW); /* Set up the buffers with the computed position and texels */ glEnableVertexAttribArray (item->render_data.position_location); glVertexAttribPointer (item->render_data.position_location, 2, GL_FLOAT, GL_FALSE, sizeof (struct vertex_info), (void *) G_STRUCT_OFFSET (struct vertex_info, position)); glEnableVertexAttribArray (item->render_data.uv_location); glVertexAttribPointer (item->render_data.uv_location, 2, GL_FLOAT, GL_FALSE, sizeof (struct vertex_info), (void *) G_STRUCT_OFFSET (struct vertex_info, uv)); } else { /* We already set up the vertex buffer, so we just need to reuse it */ glBindBuffer (GL_ARRAY_BUFFER, item->render_data.buffer_id); glEnableVertexAttribArray (item->render_data.position_location); glEnableVertexAttribArray (item->render_data.uv_location); } glUseProgram (item->render_data.program_id); /* Use texture unit 0 for the sampler */ glActiveTexture (GL_TEXTURE0); glBindTexture (GL_TEXTURE_2D, item->render_data.texture_id); glUniform1i (item->render_data.map_location, 0); if (item->parent_data != NULL) { if (item->parent_data->texture_id != 0) { glActiveTexture (GL_TEXTURE1); glBindTexture (GL_TEXTURE_2D, item->parent_data->texture_id); glUniform1i (item->render_data.parentMap_location, 1); } glUniform1i (item->render_data.blendMode_location, item->blend_mode); } /* Pass the opacity component */ glUniform1f (item->render_data.alpha_location, item->opaque ? 1 : item->opacity); /* Pass the mvp to the vertex shader */ GSK_NOTE (OPENGL, graphene_matrix_print (&item->mvp)); graphene_matrix_to_float (&item->mvp, mvp); glUniformMatrix4fv (item->render_data.mvp_location, 1, GL_FALSE, mvp); /* Draw the quad */ GSK_NOTE (OPENGL, g_print ("Drawing item <%s>[%p] with opacity: %g\n", item->name, item, item->opaque ? 1 : item->opacity)); glDrawArrays (GL_TRIANGLES, 0, N_VERTICES); /* Reset the state */ glBindTexture (GL_TEXTURE_2D, 0); glDisableVertexAttribArray (item->render_data.position_location); glDisableVertexAttribArray (item->render_data.uv_location); glUseProgram (0); } static void surface_to_texture (cairo_surface_t *surface, graphene_rect_t *clip, int min_filter, int mag_filter, guint *texture_out) { guint texture_id; glGenTextures (1, &texture_id); glBindTexture (GL_TEXTURE_2D, texture_id); GSK_NOTE (OPENGL, g_print ("Uploading surface[%p] { w:%g, h:%g } to texid:%d\n", surface, clip->size.width, clip->size.height, texture_id)); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, min_filter); glTexParameteri (GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, mag_filter); gdk_cairo_surface_upload_to_gl (surface, GL_TEXTURE_2D, clip->size.width, clip->size.height, NULL); if (min_filter != GL_NEAREST) glGenerateMipmap (GL_TEXTURE_2D); GSK_NOTE (OPENGL, g_print ("New texture id %d from surface %p\n", texture_id, surface)); *texture_out = texture_id; } static void get_gl_scaling_filters (GskRenderer *renderer, int *min_filter_r, int *mag_filter_r) { GskScalingFilter min_filter, mag_filter; gsk_renderer_get_scaling_filters (renderer, &min_filter, &mag_filter); switch (min_filter) { case GSK_SCALING_FILTER_NEAREST: *min_filter_r = GL_NEAREST; break; case GSK_SCALING_FILTER_LINEAR: *min_filter_r = GL_LINEAR; break; case GSK_SCALING_FILTER_TRILINEAR: *min_filter_r = GL_LINEAR_MIPMAP_LINEAR; break; } switch (mag_filter) { case GSK_SCALING_FILTER_NEAREST: *mag_filter_r = GL_NEAREST; break; /* There's no point in using anything above GL_LINEAR for * magnification filters */ case GSK_SCALING_FILTER_LINEAR: case GSK_SCALING_FILTER_TRILINEAR: *mag_filter_r = GL_LINEAR; break; } } #if 0 static gboolean check_in_frustum (const graphene_frustum_t *frustum, RenderItem *item) { graphene_box_t aabb; graphene_box_init (&aabb, &item->min, &item->max); graphene_matrix_transform_box (&item->mvp, &aabb, &aabb); return graphene_frustum_intersects_box (frustum, &aabb); } #endif static float project_item (const graphene_matrix_t *projection, const graphene_matrix_t *modelview) { graphene_vec4_t vec; graphene_matrix_get_row (modelview, 3, &vec); graphene_matrix_transform_vec4 (projection, &vec, &vec); return graphene_vec4_get_z (&vec) / graphene_vec4_get_w (&vec); } static void gsk_gl_renderer_add_render_item (GskGLRenderer *self, GskRenderNode *node, RenderItem *parent) { graphene_rect_t viewport; int gl_min_filter, gl_mag_filter; cairo_surface_t *surface; GskRenderNodeIter iter; graphene_matrix_t mv, projection; graphene_rect_t bounds; GskRenderNode *child; RenderItem item; if (gsk_render_node_is_hidden (node)) { GSK_NOTE (OPENGL, g_print ("Skipping hidden node <%s>[%p]\n", node->name != NULL ? node->name : "unnamed", node)); return; } memset (&item, 0, sizeof (RenderItem)); gsk_renderer_get_viewport (GSK_RENDERER (self), &viewport); gsk_render_node_get_bounds (node, &bounds); item.node = node; item.name = node->name != NULL ? node->name : "unnamed"; /* The texture size */ item.size = bounds.size; /* Each render item is an axis-aligned bounding box that we * transform using the given transformation matrix */ item.min.x = bounds.origin.x; item.min.y = bounds.origin.y; item.min.z = 0.f; item.max.x = bounds.origin.x + bounds.size.width; item.max.y = bounds.origin.y + bounds.size.height; item.max.z = 0.f; /* The location of the item, in normalized world coordinates */ gsk_render_node_get_world_matrix (node, &mv); graphene_matrix_multiply (&mv, &self->mvp, &item.mvp); item.opaque = gsk_render_node_is_opaque (node); item.opacity = gsk_render_node_get_opacity (node); item.blend_mode = gsk_render_node_get_blend_mode (node); /* GL objects */ item.render_data.vao_id = self->vao_id; item.render_data.buffer_id = 0; item.render_data.program_id = self->program_id; item.render_data.map_location = self->map_location; item.render_data.parentMap_location = self->parentMap_location; item.render_data.mvp_location = self->mvp_location; item.render_data.uv_location = self->uv_location; item.render_data.position_location = self->position_location; item.render_data.alpha_location = self->alpha_location; item.render_data.blendMode_location = self->blendMode_location; if (parent != NULL) item.parent_data = &(parent->render_data); else item.parent_data = NULL; gsk_renderer_get_projection (GSK_RENDERER (self), &projection); item.z = project_item (&projection, &mv); /* TODO: This should really be an asset atlas, to avoid uploading a ton * of textures. Ideally we could use a single Cairo surface to get around * the GL texture limits and reorder the texture data on the CPU side and * do a single upload; alternatively, we could use a separate FBO and * render each texture into it */ get_gl_scaling_filters (GSK_RENDERER (self), &gl_min_filter, &gl_mag_filter); surface = gsk_render_node_get_surface (node); /* If the node does not have any surface we skip drawing it, but we still * recurse. * * XXX: This needs to be re-done if the opacity is != 0, in which case we * need to composite the opacity level of the children */ if (surface == NULL) goto recurse_children; surface_to_texture (surface, &bounds, gl_min_filter, gl_mag_filter, &(item.render_data.texture_id)); GSK_NOTE (OPENGL, g_print ("Adding node <%s>[%p] to render items\n", node->name != NULL ? node->name : "unnamed", node)); if (gsk_render_node_is_opaque (node) && gsk_render_node_get_opacity (node) == 1.f) g_array_append_val (self->opaque_render_items, item); else g_array_prepend_val (self->transparent_render_items, item); recurse_children: gsk_render_node_iter_init (&iter, node); while (gsk_render_node_iter_next (&iter, &child)) gsk_gl_renderer_add_render_item (self, child, &item); } static gboolean gsk_gl_renderer_validate_tree (GskGLRenderer *self, GskRenderNode *root) { int n_nodes; if (self->context == NULL) { GSK_NOTE (OPENGL, g_print ("No valid GL context associated to the renderer")); return FALSE; } n_nodes = gsk_render_node_get_size (root); gdk_gl_context_make_current (self->context); self->opaque_render_items = g_array_sized_new (FALSE, FALSE, sizeof (RenderItem), n_nodes); self->transparent_render_items = g_array_sized_new (FALSE, FALSE, sizeof (RenderItem), n_nodes); g_array_set_clear_func (self->opaque_render_items, render_item_clear); g_array_set_clear_func (self->transparent_render_items, render_item_clear); GSK_NOTE (OPENGL, g_print ("RenderNode -> RenderItem\n")); gsk_gl_renderer_add_render_item (self, root, NULL); GSK_NOTE (OPENGL, g_print ("Total render items: %d of %d (opaque:%d, transparent:%d)\n", self->opaque_render_items->len + self->transparent_render_items->len, n_nodes, self->opaque_render_items->len, self->transparent_render_items->len)); return TRUE; } static void gsk_gl_renderer_clear_tree (GskGLRenderer *self) { if (self->context == NULL) return; g_clear_pointer (&self->opaque_render_items, g_array_unref); g_clear_pointer (&self->transparent_render_items, g_array_unref); } static void gsk_gl_renderer_clear (GskGLRenderer *self) { int clear_bits = GL_COLOR_BUFFER_BIT; if (self->has_depth_buffer) clear_bits |= GL_DEPTH_BUFFER_BIT; if (self->has_stencil_buffer) clear_bits |= GL_STENCIL_BUFFER_BIT; GSK_NOTE (OPENGL, g_print ("Clearing viewport\n")); glClearColor (0, 0, 0, 0); glClear (clear_bits); } static void gsk_gl_renderer_render (GskRenderer *renderer, GskRenderNode *root, GdkDrawingContext *context) { GskGLRenderer *self = GSK_GL_RENDERER (renderer); graphene_matrix_t modelview, projection; graphene_rect_t viewport; gboolean use_alpha; int status; guint i; if (self->context == NULL) return; gdk_gl_context_make_current (self->context); gsk_renderer_get_viewport (renderer, &viewport); gsk_gl_renderer_create_buffers (self); gsk_gl_renderer_allocate_buffers (self, viewport.size.width, viewport.size.height); gsk_gl_renderer_attach_buffers (self); if (self->has_depth_buffer) glEnable (GL_DEPTH_TEST); else glDisable (GL_DEPTH_TEST); /* Ensure that the viewport is up to date */ status = glCheckFramebufferStatusEXT (GL_FRAMEBUFFER_EXT); if (status == GL_FRAMEBUFFER_COMPLETE_EXT) gsk_gl_renderer_resize_viewport (self, &viewport); gsk_gl_renderer_clear (self); gsk_renderer_get_modelview (renderer, &modelview); gsk_renderer_get_projection (renderer, &projection); gsk_gl_renderer_update_frustum (self, &modelview, &projection); if (!gsk_gl_renderer_validate_tree (self, root)) goto out; /* Opaque pass: front-to-back */ GSK_NOTE (OPENGL, g_print ("Rendering %u opaque items\n", self->opaque_render_items->len)); for (i = 0; i < self->opaque_render_items->len; i++) { RenderItem *item = &g_array_index (self->opaque_render_items, RenderItem, i); render_item (item); } glEnable (GL_BLEND); /* Transparent pass: back-to-front */ GSK_NOTE (OPENGL, g_print ("Rendering %u transparent items\n", self->transparent_render_items->len)); for (i = 0; i < self->transparent_render_items->len; i++) { RenderItem *item = &g_array_index (self->transparent_render_items, RenderItem, i); render_item (item); } glDisable (GL_BLEND); /* Draw the output of the GL rendering to the window */ GSK_NOTE (OPENGL, g_print ("Drawing GL content on Cairo surface using a %s\n", self->texture_id != 0 ? "texture" : "renderbuffer")); out: use_alpha = gsk_renderer_get_use_alpha (renderer); gdk_cairo_draw_from_gl (gdk_drawing_context_get_cairo_context (context), gdk_drawing_context_get_window (context), use_alpha ? self->texture_id : self->render_buffer, use_alpha ? GL_TEXTURE : GL_RENDERBUFFER, gsk_renderer_get_scale_factor (renderer), 0, 0, viewport.size.width, viewport.size.height); gdk_gl_context_make_current (self->context); gsk_gl_renderer_clear_tree (self); } static void gsk_gl_renderer_class_init (GskGLRendererClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS (klass); GskRendererClass *renderer_class = GSK_RENDERER_CLASS (klass); gobject_class->dispose = gsk_gl_renderer_dispose; renderer_class->realize = gsk_gl_renderer_realize; renderer_class->unrealize = gsk_gl_renderer_unrealize; renderer_class->render = gsk_gl_renderer_render; } static void gsk_gl_renderer_init (GskGLRenderer *self) { gsk_ensure_resources (); graphene_matrix_init_identity (&self->mvp); self->has_depth_buffer = TRUE; self->has_stencil_buffer = TRUE; }