#include "gskglrenderopsprivate.h" #include "gsktransform.h" typedef struct { GskRoundedRect rect; bool is_rectilinear; } ClipStackEntry; static inline gboolean rect_equal (const graphene_rect_t *a, const graphene_rect_t *b) { return memcmp (a, b, sizeof (graphene_rect_t)) == 0; } static inline bool G_GNUC_PURE rounded_rect_equal (const GskRoundedRect *r1, const GskRoundedRect *r2) { if (r1 == r2) return true; if (!r1) return false; if (r1->bounds.origin.x != r2->bounds.origin.x || r1->bounds.origin.y != r2->bounds.origin.y || r1->bounds.size.width != r2->bounds.size.width || r1->bounds.size.height != r2->bounds.size.height) return false; for (int i = 0; i < 4; i ++) if (r1->corner[i].width != r2->corner[i].width || r1->corner[i].height != r2->corner[i].height) return false; return true; } static inline gboolean G_GNUC_PURE rounded_rect_corners_equal (const GskRoundedRect *r1, const GskRoundedRect *r2) { int i; if (!r1) return FALSE; for (i = 0; i < 4; i ++) if (r1->corner[i].width != r2->corner[i].width || r1->corner[i].height != r2->corner[i].height) return FALSE; return TRUE; } static inline ProgramState * get_current_program_state (RenderOpBuilder *builder) { if (!builder->current_program) return NULL; return &builder->current_program->state; } void ops_finish (RenderOpBuilder *builder) { if (builder->mv_stack) g_array_free (builder->mv_stack, TRUE); builder->mv_stack = NULL; if (builder->clip_stack) g_array_free (builder->clip_stack, TRUE); builder->clip_stack = NULL; builder->dx = 0; builder->dy = 0; builder->scale_x = 1; builder->scale_y = 1; builder->current_modelview = NULL; builder->current_clip = NULL; builder->clip_is_rectilinear = TRUE; builder->current_render_target = 0; builder->current_texture = 0; builder->current_program = NULL; graphene_matrix_init_identity (&builder->current_projection); builder->current_viewport = GRAPHENE_RECT_INIT (0, 0, 0, 0); } /* Debugging only! */ void ops_dump_framebuffer (RenderOpBuilder *builder, const char *filename, int width, int height) { OpDumpFrameBuffer *op; op = ops_begin (builder, OP_DUMP_FRAMEBUFFER); op->filename = g_strdup (filename); op->width = width; op->height = height; } void ops_push_debug_group (RenderOpBuilder *builder, const char *text) { OpDebugGroup *op; op = ops_begin (builder, OP_PUSH_DEBUG_GROUP); strncpy (op->text, text, sizeof(op->text) - 1); op->text[sizeof(op->text) - 1] = 0; /* Ensure zero terminated */ } void ops_pop_debug_group (RenderOpBuilder *builder) { ops_begin (builder, OP_POP_DEBUG_GROUP); } static void extract_matrix_metadata (GskTransform *transform, OpsMatrixMetadata *md) { float dummy; switch (gsk_transform_get_category (transform)) { case GSK_TRANSFORM_CATEGORY_IDENTITY: case GSK_TRANSFORM_CATEGORY_2D_TRANSLATE: md->scale_x = 1; md->scale_y = 1; break; case GSK_TRANSFORM_CATEGORY_2D_AFFINE: gsk_transform_to_affine (transform, &md->scale_x, &md->scale_y, &dummy, &dummy); break; case GSK_TRANSFORM_CATEGORY_UNKNOWN: case GSK_TRANSFORM_CATEGORY_ANY: case GSK_TRANSFORM_CATEGORY_3D: case GSK_TRANSFORM_CATEGORY_2D: { graphene_vec3_t col1; graphene_vec3_t col2; graphene_matrix_t m; gsk_transform_to_matrix (transform, &m); /* TODO: 90% sure this is incorrect. But we should never hit this code * path anyway. */ graphene_vec3_init (&col1, graphene_matrix_get_value (&m, 0, 0), graphene_matrix_get_value (&m, 1, 0), graphene_matrix_get_value (&m, 2, 0)); graphene_vec3_init (&col2, graphene_matrix_get_value (&m, 0, 1), graphene_matrix_get_value (&m, 1, 1), graphene_matrix_get_value (&m, 2, 1)); md->scale_x = graphene_vec3_length (&col1); md->scale_y = graphene_vec3_length (&col2); } break; default: {} } } void ops_transform_bounds_modelview (const RenderOpBuilder *builder, const graphene_rect_t *src, graphene_rect_t *dst) { graphene_rect_t r = *src; g_assert (builder->mv_stack != NULL); g_assert (builder->mv_stack->len >= 1); r.origin.x += builder->dx; r.origin.y += builder->dy; gsk_transform_transform_bounds (builder->current_modelview, &r, dst); } void ops_init (RenderOpBuilder *builder) { memset (builder, 0, sizeof (*builder)); builder->current_opacity = 1.0f; op_buffer_init (&builder->render_ops); builder->vertices = g_array_new (FALSE, TRUE, sizeof (GskQuadVertex)); } void ops_free (RenderOpBuilder *builder) { g_array_unref (builder->vertices); op_buffer_destroy (&builder->render_ops); } void ops_set_program (RenderOpBuilder *builder, Program *program) { OpProgram *op; if (builder->current_program == program) return; op = ops_begin (builder, OP_CHANGE_PROGRAM); op->program = program; builder->current_program = program; } void ops_push_clip (RenderOpBuilder *self, const GskRoundedRect *clip) { ClipStackEntry entry; if (G_UNLIKELY (self->clip_stack == NULL)) self->clip_stack = g_array_new (FALSE, TRUE, sizeof (ClipStackEntry)); g_assert (self->clip_stack != NULL); entry.rect = *clip; entry.is_rectilinear = gsk_rounded_rect_is_rectilinear (clip); g_array_append_val (self->clip_stack, entry); self->current_clip = &g_array_index (self->clip_stack, ClipStackEntry, self->clip_stack->len - 1).rect; self->clip_is_rectilinear = entry.is_rectilinear; } void ops_pop_clip (RenderOpBuilder *self) { const ClipStackEntry *head; g_assert (self->clip_stack); g_assert (self->clip_stack->len >= 1); self->clip_stack->len --; head = &g_array_index (self->clip_stack, ClipStackEntry, self->clip_stack->len - 1); if (self->clip_stack->len >= 1) { self->current_clip = &head->rect; self->clip_is_rectilinear = head->is_rectilinear; } else { self->current_clip = NULL; self->clip_is_rectilinear = TRUE; } } gboolean ops_has_clip (RenderOpBuilder *self) { return self->clip_stack != NULL && self->clip_stack->len > 1; } /** * ops_set_modelview: * @builder * @transform: (transfer full): The new modelview transform * * This sets the modelview to the given one without looking at the * one that's currently set */ void ops_set_modelview (RenderOpBuilder *builder, GskTransform *transform) { MatrixStackEntry *entry; if (G_UNLIKELY (builder->mv_stack == NULL)) builder->mv_stack = g_array_new (FALSE, TRUE, sizeof (MatrixStackEntry)); g_assert (builder->mv_stack != NULL); g_array_set_size (builder->mv_stack, builder->mv_stack->len + 1); entry = &g_array_index (builder->mv_stack, MatrixStackEntry, builder->mv_stack->len - 1); entry->transform = transform; entry->metadata.dx_before = builder->dx; entry->metadata.dy_before = builder->dy; extract_matrix_metadata (entry->transform, &entry->metadata); builder->dx = 0; builder->dy = 0; builder->current_modelview = entry->transform; builder->scale_x = entry->metadata.scale_x; builder->scale_y = entry->metadata.scale_y; } /* This sets the given modelview to the one we get when multiplying * the given modelview with the current one. */ void ops_push_modelview (RenderOpBuilder *builder, GskTransform *transform) { MatrixStackEntry *entry; if (G_UNLIKELY (builder->mv_stack == NULL)) builder->mv_stack = g_array_new (FALSE, TRUE, sizeof (MatrixStackEntry)); g_assert (builder->mv_stack != NULL); g_array_set_size (builder->mv_stack, builder->mv_stack->len + 1); entry = &g_array_index (builder->mv_stack, MatrixStackEntry, builder->mv_stack->len - 1); if (G_LIKELY (builder->mv_stack->len >= 2)) { const MatrixStackEntry *cur; GskTransform *t = NULL; cur = &g_array_index (builder->mv_stack, MatrixStackEntry, builder->mv_stack->len - 2); /* Multiply given matrix with current modelview */ t = gsk_transform_translate (gsk_transform_ref (cur->transform), &(graphene_point_t) { builder->dx, builder->dy}); t = gsk_transform_transform (t, transform); entry->transform = t; } else { entry->transform = gsk_transform_ref (transform); } entry->metadata.dx_before = builder->dx; entry->metadata.dy_before = builder->dy; extract_matrix_metadata (entry->transform, &entry->metadata); builder->dx = 0; builder->dy = 0; builder->scale_x = entry->metadata.scale_x; builder->scale_y = entry->metadata.scale_y; builder->current_modelview = entry->transform; } void ops_pop_modelview (RenderOpBuilder *builder) { const MatrixStackEntry *head; g_assert (builder->mv_stack); g_assert (builder->mv_stack->len >= 1); head = &g_array_index (builder->mv_stack, MatrixStackEntry, builder->mv_stack->len - 1); builder->dx = head->metadata.dx_before; builder->dy = head->metadata.dy_before; gsk_transform_unref (head->transform); builder->mv_stack->len --; head = &g_array_index (builder->mv_stack, MatrixStackEntry, builder->mv_stack->len - 1); if (builder->mv_stack->len >= 1) { builder->scale_x = head->metadata.scale_x; builder->scale_y = head->metadata.scale_y; builder->current_modelview = head->transform; } else { builder->current_modelview = NULL; } } graphene_matrix_t ops_set_projection (RenderOpBuilder *builder, const graphene_matrix_t *projection) { graphene_matrix_t prev_mv; prev_mv = builder->current_projection; builder->current_projection = *projection; return prev_mv; } graphene_rect_t ops_set_viewport (RenderOpBuilder *builder, const graphene_rect_t *viewport) { ProgramState *current_program_state = get_current_program_state (builder); OpViewport *op; graphene_rect_t prev_viewport; if (rect_equal (&builder->current_viewport, viewport)) return *viewport; op = ops_begin (builder, OP_CHANGE_VIEWPORT); op->viewport = *viewport; if (current_program_state != NULL) current_program_state->viewport = *viewport; prev_viewport = builder->current_viewport; builder->current_viewport = *viewport; return prev_viewport; } void ops_set_texture (RenderOpBuilder *builder, int texture_id) { OpTexture *op; if (builder->current_texture == texture_id) return; op = ops_begin (builder, OP_CHANGE_SOURCE_TEXTURE); op->texture_id = texture_id; builder->current_texture = texture_id; } void ops_set_extra_texture (RenderOpBuilder *builder, int texture_id, int idx) { OpExtraTexture *op; op = ops_begin (builder, OP_CHANGE_EXTRA_SOURCE_TEXTURE); op->texture_id = texture_id; op->idx = idx; } int ops_set_render_target (RenderOpBuilder *builder, int render_target_id) { OpRenderTarget *op; int prev_render_target; if (builder->current_render_target == render_target_id) return render_target_id; prev_render_target = builder->current_render_target; if (!(op = op_buffer_peek_tail_checked (&builder->render_ops, OP_CHANGE_RENDER_TARGET))) op = op_buffer_add (&builder->render_ops, OP_CHANGE_RENDER_TARGET); op->render_target_id = render_target_id; builder->current_render_target = render_target_id; return prev_render_target; } float ops_set_opacity (RenderOpBuilder *builder, float opacity) { float prev_opacity; if (builder->current_opacity == opacity) return opacity; prev_opacity = builder->current_opacity; builder->current_opacity = opacity; return prev_opacity; } void ops_set_color (RenderOpBuilder *builder, const GdkRGBA *color) { ProgramState *current_program_state = get_current_program_state (builder); OpColor *op; if (gdk_rgba_equal (color, ¤t_program_state->color)) return; current_program_state->color = *color; op = ops_begin (builder, OP_CHANGE_COLOR); op->rgba = color; } void ops_set_gl_shader_args (RenderOpBuilder *builder, GskGLShader *shader, float width, float height, const guchar *uniform_data) { ProgramState *current_program_state = get_current_program_state (builder); OpGLShader *op; gsize args_size = gsk_gl_shader_get_args_size (shader); if (current_program_state) { if (current_program_state->gl_shader.width == width && current_program_state->gl_shader.height == height && current_program_state->gl_shader.uniform_data_len == args_size && memcmp (current_program_state->gl_shader.uniform_data, uniform_data, args_size) == 0) return; current_program_state->gl_shader.width = width; current_program_state->gl_shader.height = height; if (args_size > sizeof (current_program_state->gl_shader.uniform_data)) current_program_state->gl_shader.uniform_data_len = 0; else { current_program_state->gl_shader.uniform_data_len = args_size; memcpy (current_program_state->gl_shader.uniform_data, uniform_data, args_size); } } op = ops_begin (builder, OP_CHANGE_GL_SHADER_ARGS); op->shader = shader; op->size[0] = width; op->size[1] = height; op->uniform_data = uniform_data; } void ops_set_color_matrix (RenderOpBuilder *builder, const graphene_matrix_t *matrix, const graphene_vec4_t *offset) { ProgramState *current_program_state = get_current_program_state (builder); const bool offset_equal = graphene_vec4_equal (offset, ¤t_program_state->color_matrix.offset); const bool matrix_equal = graphene_matrix_equal_fast (matrix, ¤t_program_state->color_matrix.matrix); OpColorMatrix *op; if (offset_equal && matrix_equal) return; op = ops_begin (builder, OP_CHANGE_COLOR_MATRIX); if (!matrix_equal) { current_program_state->color_matrix.matrix = *matrix; op->matrix.value = matrix; op->matrix.send = TRUE; } else op->matrix.send = FALSE; if (!offset_equal) { current_program_state->color_matrix.offset = *offset; op->offset.value = offset; op->offset.send = TRUE; } else op->offset.send = FALSE; } void ops_set_border (RenderOpBuilder *builder, const GskRoundedRect *outline) { ProgramState *current_program_state = get_current_program_state (builder); OpBorder *op; if (memcmp (¤t_program_state->border.outline, outline, sizeof (GskRoundedRect)) == 0) return; current_program_state->border.outline = *outline; op = ops_begin (builder, OP_CHANGE_BORDER); op->outline = *outline; } void ops_set_border_width (RenderOpBuilder *builder, const float *widths) { ProgramState *current_program_state = get_current_program_state (builder); OpBorder *op; g_assert (current_program_state); if (memcmp (current_program_state->border.widths, widths, sizeof (float) * 4) == 0) return; memcpy (¤t_program_state->border.widths, widths, sizeof (float) * 4); op = ops_begin (builder, OP_CHANGE_BORDER_WIDTH); op->widths[0] = widths[0]; op->widths[1] = widths[1]; op->widths[2] = widths[2]; op->widths[3] = widths[3]; } void ops_set_border_color (RenderOpBuilder *builder, const GdkRGBA *color) { ProgramState *current_program_state = get_current_program_state (builder); OpBorder *op; if (gdk_rgba_equal (color, ¤t_program_state->border.color)) return; op = op_buffer_add (&builder->render_ops, OP_CHANGE_BORDER_COLOR); op->color = color; current_program_state->border.color = *color; } GskQuadVertex * ops_draw (RenderOpBuilder *builder, const GskQuadVertex vertex_data[GL_N_VERTICES]) { ProgramState *program_state = get_current_program_state (builder); OpDraw *op; if (memcmp (&builder->current_projection, &program_state->projection, sizeof (graphene_matrix_t)) != 0) { OpMatrix *opm; opm = ops_begin (builder, OP_CHANGE_PROJECTION); opm->matrix = builder->current_projection; program_state->projection = builder->current_projection; } if (program_state->modelview == NULL || !gsk_transform_equal (builder->current_modelview, program_state->modelview)) { OpMatrix *opm; opm = ops_begin (builder, OP_CHANGE_MODELVIEW); gsk_transform_to_matrix (builder->current_modelview, &opm->matrix); gsk_transform_unref (program_state->modelview); program_state->modelview = gsk_transform_ref (builder->current_modelview); } if (!rect_equal (&builder->current_viewport, &program_state->viewport)) { OpViewport *opv; opv = ops_begin (builder, OP_CHANGE_VIEWPORT); opv->viewport = builder->current_viewport; program_state->viewport = builder->current_viewport; } if (!rounded_rect_equal (builder->current_clip, &program_state->clip)) { OpClip *opc; opc = ops_begin (builder, OP_CHANGE_CLIP); opc->clip = *builder->current_clip; opc->send_corners = !rounded_rect_corners_equal (builder->current_clip, &program_state->clip); program_state->clip = *builder->current_clip; } if (program_state->opacity != builder->current_opacity) { OpOpacity *opo; opo = ops_begin (builder, OP_CHANGE_OPACITY); opo->opacity = builder->current_opacity; program_state->opacity = builder->current_opacity; } /* TODO: Did the additions above break the following optimization? */ if ((op = op_buffer_peek_tail_checked (&builder->render_ops, OP_DRAW))) { op->vao_size += GL_N_VERTICES; } else { op = op_buffer_add (&builder->render_ops, OP_DRAW); op->vao_offset = builder->vertices->len; op->vao_size = GL_N_VERTICES; } if (vertex_data) { g_array_append_vals (builder->vertices, vertex_data, GL_N_VERTICES); return NULL; /* Better not use this on the caller side */ } g_array_set_size (builder->vertices, builder->vertices->len + GL_N_VERTICES); return &g_array_index (builder->vertices, GskQuadVertex, builder->vertices->len - GL_N_VERTICES); } /* The offset is only valid for the current modelview. * Setting a new modelview will add the offset to that matrix * and reset the internal offset to 0. */ void ops_offset (RenderOpBuilder *builder, float x, float y) { builder->dx += x; builder->dy += y; } gpointer ops_begin (RenderOpBuilder *builder, OpKind kind) { return op_buffer_add (&builder->render_ops, kind); } void ops_reset (RenderOpBuilder *builder) { op_buffer_clear (&builder->render_ops); g_array_set_size (builder->vertices, 0); } OpBuffer * ops_get_buffer (RenderOpBuilder *builder) { return &builder->render_ops; } void ops_set_inset_shadow (RenderOpBuilder *self, const GskRoundedRect outline, float spread, const GdkRGBA *color, float dx, float dy) { ProgramState *current_program_state = get_current_program_state (self); OpShadow *op; g_assert (current_program_state); op = ops_begin (self, OP_CHANGE_INSET_SHADOW); if (!rounded_rect_equal (&outline, ¤t_program_state->inset_shadow.outline)) { op->outline.value = outline; op->outline.send = TRUE; op->outline.send_corners = !rounded_rect_corners_equal (¤t_program_state->inset_shadow.outline, &outline); current_program_state->inset_shadow.outline = outline; } else op->outline.send = FALSE; if (spread != current_program_state->inset_shadow.spread) { op->spread.value = spread; op->spread.send = TRUE; current_program_state->inset_shadow.spread = spread; } else op->spread.send = FALSE; if (!gdk_rgba_equal (color, ¤t_program_state->inset_shadow.color)) { op->color.value = color; op->color.send = TRUE; current_program_state->inset_shadow.color = *color; } else op->color.send = FALSE; if (dx != current_program_state->inset_shadow.dx || dy != current_program_state->inset_shadow.dy) { op->offset.value[0] = dx; op->offset.value[1] = dy; op->offset.send = TRUE; current_program_state->inset_shadow.dx = dx; current_program_state->inset_shadow.dy = dy; } else op->offset.send = FALSE; if (!op->outline.send && !op->spread.send && !op->offset.send && !op->color.send) { op_buffer_pop_tail (&self->render_ops); } } void ops_set_unblurred_outset_shadow (RenderOpBuilder *self, const GskRoundedRect outline, float spread, const GdkRGBA *color, float dx, float dy) { ProgramState *current_program_state = get_current_program_state (self); OpShadow *op; g_assert (current_program_state); op = ops_begin (self, OP_CHANGE_UNBLURRED_OUTSET_SHADOW); if (!rounded_rect_equal (&outline, ¤t_program_state->unblurred_outset_shadow.outline)) { op->outline.value = outline; op->outline.send = TRUE; op->outline.send_corners = !rounded_rect_corners_equal (¤t_program_state->unblurred_outset_shadow.outline, &outline); current_program_state->unblurred_outset_shadow.outline = outline; } else op->outline.send = FALSE; if (spread != current_program_state->unblurred_outset_shadow.spread) { op->spread.value = spread; op->spread.send = TRUE; current_program_state->unblurred_outset_shadow.spread = spread; } else op->spread.send = FALSE; if (!gdk_rgba_equal (color, ¤t_program_state->unblurred_outset_shadow.color)) { op->color.value = color; op->color.send = TRUE; current_program_state->unblurred_outset_shadow.color = *color; } else op->color.send = FALSE; if (dx != current_program_state->unblurred_outset_shadow.dx || dy != current_program_state->unblurred_outset_shadow.dy) { op->offset.value[0] = dx; op->offset.value[1] = dy; op->offset.send = TRUE; current_program_state->unblurred_outset_shadow.dx = dx; current_program_state->unblurred_outset_shadow.dy = dy; } else op->offset.send = FALSE; } void ops_set_linear_gradient (RenderOpBuilder *self, guint n_color_stops, const GskColorStop *color_stops, gboolean repeat, float start_x, float start_y, float end_x, float end_y) { ProgramState *current_program_state = get_current_program_state (self); OpLinearGradient *op; const guint real_n_color_stops = MIN (GL_MAX_GRADIENT_STOPS, n_color_stops); g_assert (current_program_state); op = ops_begin (self, OP_CHANGE_LINEAR_GRADIENT); /* We always save the n_color_stops value in the op so the renderer can use it in * cases where we send the color stops, but not n_color_stops */ op->n_color_stops.value = real_n_color_stops; if (current_program_state->linear_gradient.n_color_stops != real_n_color_stops) { op->n_color_stops.send = TRUE; current_program_state->linear_gradient.n_color_stops = real_n_color_stops; } else op->n_color_stops.send = FALSE; op->color_stops.send = FALSE; if (!op->n_color_stops.send) { g_assert (current_program_state->linear_gradient.n_color_stops == real_n_color_stops); for (guint i = 0; i < real_n_color_stops; i ++) { const GskColorStop *s1 = &color_stops[i]; const GskColorStop *s2 = ¤t_program_state->linear_gradient.color_stops[i]; if (s1->offset != s2->offset || !gdk_rgba_equal (&s1->color, &s2->color)) { op->color_stops.send = TRUE; break; } } } else op->color_stops.send = TRUE; if (op->color_stops.send) { op->color_stops.value = color_stops; memcpy (¤t_program_state->linear_gradient.color_stops, color_stops, sizeof (GskColorStop) * real_n_color_stops); } op->repeat = repeat; op->start_point[0] = start_x; op->start_point[1] = start_y; op->end_point[0] = end_x; op->end_point[1] = end_y; } void ops_set_radial_gradient (RenderOpBuilder *self, guint n_color_stops, const GskColorStop *color_stops, gboolean repeat, float center_x, float center_y, float start, float end, float hradius, float vradius) { const guint real_n_color_stops = MIN (GL_MAX_GRADIENT_STOPS, n_color_stops); OpRadialGradient *op; /* TODO: State tracking? */ op = ops_begin (self, OP_CHANGE_RADIAL_GRADIENT); op->n_color_stops.value = real_n_color_stops; op->n_color_stops.send = true; op->color_stops.value = color_stops; op->color_stops.send = true; op->center[0] = center_x; op->center[1] = center_y; op->radius[0] = hradius; op->radius[1] = vradius; op->start = start; op->end = end; op->repeat = repeat; } void ops_set_conic_gradient (RenderOpBuilder *self, guint n_color_stops, const GskColorStop *color_stops, float center_x, float center_y, float angle) { const guint real_n_color_stops = MIN (GL_MAX_GRADIENT_STOPS, n_color_stops); OpConicGradient *op; /* TODO: State tracking? */ op = ops_begin (self, OP_CHANGE_CONIC_GRADIENT); op->n_color_stops.value = real_n_color_stops; op->n_color_stops.send = true; op->color_stops.value = color_stops; op->color_stops.send = true; op->center[0] = center_x; op->center[1] = center_y; op->angle = angle; }