// SPDX-License-Identifier: GPL-2.0-only #include "config.h" #include #include #include #include #include #include #include "buffer.h" #include "common/array.h" #include "common/buf.h" #include "common/font.h" #include "common/graphic-helpers.h" #include "common/scene-helpers.h" #include "config/rcxml.h" #include "labwc.h" #include "node.h" #include "osd.h" #include "theme.h" #include "view.h" #include "window-rules.h" #include "workspaces.h" static void destroy_osd_nodes(struct output *output) { struct wlr_scene_node *child, *next; struct wl_list *children = &output->osd_tree->children; wl_list_for_each_safe(child, next, children, link) { wlr_scene_node_destroy(child); } } static void osd_update_preview_outlines(struct view *view) { /* Create / Update preview outline tree */ struct server *server = view->server; struct multi_rect *rect = view->server->osd_state.preview_outline; if (!rect) { int line_width = server->theme->osd_window_switcher_preview_border_width; float *colors[] = { server->theme->osd_window_switcher_preview_border_color[0], server->theme->osd_window_switcher_preview_border_color[1], server->theme->osd_window_switcher_preview_border_color[2], }; rect = multi_rect_create(&server->scene->tree, colors, line_width); wlr_scene_node_place_above(&rect->tree->node, &server->menu_tree->node); server->osd_state.preview_outline = rect; } struct wlr_box geo = ssd_max_extents(view); multi_rect_set_size(rect, geo.width, geo.height); wlr_scene_node_set_position(&rect->tree->node, geo.x, geo.y); } void osd_on_view_destroy(struct view *view) { assert(view); struct osd_state *osd_state = &view->server->osd_state; if (!osd_state->cycle_view) { /* OSD not active, no need for clean up */ return; } if (osd_state->cycle_view == view) { /* * If we are the current OSD selected view, cycle * to the next because we are dying. */ /* Also resets preview node */ osd_state->cycle_view = desktop_cycle_view(view->server, osd_state->cycle_view, LAB_CYCLE_DIR_BACKWARD); /* * If we cycled back to ourselves, then we have no more windows. * Just close the OSD for good. */ if (osd_state->cycle_view == view || !osd_state->cycle_view) { /* osd_finish() additionally resets cycle_view to NULL */ osd_finish(view->server); } } if (osd_state->cycle_view) { /* Update the OSD to reflect the view has now gone. */ osd_update(view->server); } if (view->scene_tree) { struct wlr_scene_node *node = &view->scene_tree->node; if (osd_state->preview_anchor == node) { /* * If we are the anchor for the current OSD selected view, * replace the anchor with the node before us. */ osd_state->preview_anchor = lab_wlr_scene_get_prev_node(node); } } } void osd_finish(struct server *server) { server->osd_state.preview_node = NULL; server->osd_state.preview_anchor = NULL; struct output *output; wl_list_for_each(output, &server->outputs, link) { destroy_osd_nodes(output); wlr_scene_node_set_enabled(&output->osd_tree->node, false); } if (server->osd_state.preview_outline) { /* Destroy the whole multi_rect so we can easily react to new themes */ wlr_scene_node_destroy(&server->osd_state.preview_outline->tree->node); server->osd_state.preview_outline = NULL; } /* Hiding OSD may need a cursor change */ cursor_update_focus(server); /* * We delay resetting cycle_view until after cursor_update_focus() * has been called to allow A-Tab keyboard focus switching even if * followMouse has been configured and the cursor is on a different * surface. Otherwise cursor_update_focus() would automatically * refocus the surface the cursor is currently on. */ server->osd_state.cycle_view = NULL; } void osd_preview_restore(struct server *server) { struct osd_state *osd_state = &server->osd_state; if (osd_state->preview_node) { wlr_scene_node_reparent(osd_state->preview_node, osd_state->preview_parent); if (osd_state->preview_anchor) { wlr_scene_node_place_above(osd_state->preview_node, osd_state->preview_anchor); } else { /* Selected view was the first node */ wlr_scene_node_lower_to_bottom(osd_state->preview_node); } /* Node was disabled / minimized before, disable again */ if (!osd_state->preview_was_enabled) { wlr_scene_node_set_enabled(osd_state->preview_node, false); } osd_state->preview_node = NULL; osd_state->preview_parent = NULL; osd_state->preview_anchor = NULL; } } static void preview_cycled_view(struct view *view) { assert(view); assert(view->scene_tree); struct osd_state *osd_state = &view->server->osd_state; /* Move previous selected node back to its original place */ osd_preview_restore(view->server); /* Store some pointers so we can reset the preview later on */ osd_state->preview_node = &view->scene_tree->node; osd_state->preview_parent = view->scene_tree->node.parent; /* Remember the sibling right before the selected node */ osd_state->preview_anchor = lab_wlr_scene_get_prev_node( osd_state->preview_node); while (osd_state->preview_anchor && !osd_state->preview_anchor->data) { /* Ignore non-view nodes */ osd_state->preview_anchor = lab_wlr_scene_get_prev_node( osd_state->preview_anchor); } /* Store node enabled / minimized state and force-enable if disabled */ osd_state->preview_was_enabled = osd_state->preview_node->enabled; if (!osd_state->preview_was_enabled) { wlr_scene_node_set_enabled(osd_state->preview_node, true); } /* * FIXME: This abuses an implementation detail of the always-on-top tree. * Create a permanent server->osd_preview_tree instead that can * also be used as parent for the preview outlines. */ wlr_scene_node_reparent(osd_state->preview_node, view->server->view_tree_always_on_top); /* Finally raise selected node to the top */ wlr_scene_node_raise_to_top(osd_state->preview_node); } static void render_osd(struct server *server, cairo_t *cairo, int w, int h, bool show_workspace, const char *workspace_name, struct wl_array *views) { struct view *cycle_view = server->osd_state.cycle_view; struct theme *theme = server->theme; cairo_surface_t *surf = cairo_get_target(cairo); /* Draw background */ set_cairo_color(cairo, theme->osd_bg_color); cairo_rectangle(cairo, 0, 0, w, h); cairo_fill(cairo); /* Draw border */ set_cairo_color(cairo, theme->osd_border_color); struct wlr_fbox fbox = { .width = w, .height = h, }; draw_cairo_border(cairo, fbox, theme->osd_border_width); /* Set up text rendering */ set_cairo_color(cairo, theme->osd_label_text_color); PangoLayout *layout = pango_cairo_create_layout(cairo); pango_layout_set_ellipsize(layout, PANGO_ELLIPSIZE_END); PangoFontDescription *desc = font_to_pango_desc(&rc.font_osd); pango_layout_set_font_description(layout, desc); pango_cairo_update_layout(cairo, layout); int y = theme->osd_border_width + theme->osd_window_switcher_padding; /* Draw workspace indicator */ if (show_workspace) { /* Center workspace indicator on the x axis */ int x = font_width(&rc.font_osd, workspace_name); x = (w - x) / 2; cairo_move_to(cairo, x, y + theme->osd_window_switcher_item_active_border_width); PangoWeight weight = pango_font_description_get_weight(desc); pango_font_description_set_weight(desc, PANGO_WEIGHT_BOLD); pango_layout_set_font_description(layout, desc); pango_layout_set_text(layout, workspace_name, -1); pango_cairo_show_layout(cairo, layout); pango_font_description_set_weight(desc, weight); pango_layout_set_font_description(layout, desc); y += theme->osd_window_switcher_item_height; } pango_font_description_free(desc); struct buf buf = BUF_INIT; /* This is the width of the area available for text fields */ int available_width = w - 2 * theme->osd_border_width - 2 * theme->osd_window_switcher_padding - 2 * theme->osd_window_switcher_item_active_border_width; /* Draw text for each node */ struct view **view; wl_array_for_each(view, views) { /* * OSD border * +---------------------------------+ * | | * | item border | * |+-------------------------------+| * || || * ||padding between each field || * ||| field-1 | field-2 | field-n ||| * || || * || || * |+-------------------------------+| * | | * | | * +---------------------------------+ */ int x = theme->osd_border_width + theme->osd_window_switcher_padding + theme->osd_window_switcher_item_active_border_width + theme->osd_window_switcher_item_padding_x; int nr_fields = wl_list_length(&rc.window_switcher.fields); struct window_switcher_field *field; wl_list_for_each(field, &rc.window_switcher.fields, link) { buf_clear(&buf); cairo_move_to(cairo, x, y + theme->osd_window_switcher_item_padding_y + theme->osd_window_switcher_item_active_border_width); osd_field_get_content(field, &buf, *view); int field_width = (available_width - (nr_fields + 1) * theme->osd_window_switcher_item_padding_x) * field->width / 100.0; pango_layout_set_width(layout, field_width * PANGO_SCALE); pango_layout_set_text(layout, buf.buf, -1); pango_cairo_show_layout(cairo, layout); x += field_width + theme->osd_window_switcher_item_padding_x; } if (*view == cycle_view) { /* Highlight current window */ struct wlr_fbox fbox = { .x = theme->osd_border_width + theme->osd_window_switcher_padding, .y = y, .width = w - 2 * theme->osd_border_width - 2 * theme->osd_window_switcher_padding, .height = theme->osd_window_switcher_item_height, }; draw_cairo_border(cairo, fbox, theme->osd_window_switcher_item_active_border_width); cairo_stroke(cairo); } y += theme->osd_window_switcher_item_height; } buf_reset(&buf); g_object_unref(layout); cairo_surface_flush(surf); } static void display_osd(struct output *output, struct wl_array *views) { struct server *server = output->server; struct theme *theme = server->theme; bool show_workspace = wl_list_length(&rc.workspace_config.workspaces) > 1; const char *workspace_name = server->workspace_current->name; float scale = output->wlr_output->scale; int w = theme->osd_window_switcher_width; if (theme->osd_window_switcher_width_is_percent) { w = output->wlr_output->width / output->wlr_output->scale * theme->osd_window_switcher_width / 100; } int h = wl_array_len(views) * rc.theme->osd_window_switcher_item_height + 2 * rc.theme->osd_border_width + 2 * rc.theme->osd_window_switcher_padding; if (show_workspace) { /* workspace indicator */ h += theme->osd_window_switcher_item_height; } /* Reset buffer */ if (output->osd_buffer) { wlr_buffer_drop(&output->osd_buffer->base); } output->osd_buffer = buffer_create_cairo(w, h, scale, true); if (!output->osd_buffer) { wlr_log(WLR_ERROR, "Failed to allocate cairo buffer for the window switcher"); return; } /* Render OSD image */ cairo_t *cairo = output->osd_buffer->cairo; render_osd(server, cairo, w, h, show_workspace, workspace_name, views); struct wlr_scene_buffer *scene_buffer = wlr_scene_buffer_create( output->osd_tree, &output->osd_buffer->base); wlr_scene_buffer_set_dest_size(scene_buffer, w, h); /* Center OSD */ struct wlr_box output_box; wlr_output_layout_get_box(output->server->output_layout, output->wlr_output, &output_box); int lx = output->usable_area.x + output->usable_area.width / 2 - w / 2 + output_box.x; int ly = output->usable_area.y + output->usable_area.height / 2 - h / 2 + output_box.y; wlr_scene_node_set_position(&scene_buffer->node, lx, ly); wlr_scene_node_set_enabled(&output->osd_tree->node, true); /* Update cursor, in case it is within the area covered by OSD */ cursor_update_focus(server); } void osd_update(struct server *server) { struct wl_array views; wl_array_init(&views); view_array_append(server, &views, rc.window_switcher.criteria); if (!wl_array_len(&views) || !server->osd_state.cycle_view) { osd_finish(server); goto out; } if (rc.window_switcher.show && rc.theme->osd_window_switcher_width > 0) { /* Display the actual OSD */ struct output *output; wl_list_for_each(output, &server->outputs, link) { destroy_osd_nodes(output); if (output_is_usable(output)) { display_osd(output, &views); } } } /* Outline current window */ if (rc.window_switcher.outlines) { if (view_is_focusable(server->osd_state.cycle_view)) { osd_update_preview_outlines(server->osd_state.cycle_view); } } if (rc.window_switcher.preview) { preview_cycled_view(server->osd_state.cycle_view); } out: wl_array_release(&views); }