#ifdef HAVE_GTK_LAYER_SHELL #include #endif #include #include #include "bar.hpp" #include "client.hpp" #include "factory.hpp" #include "group.hpp" #include "wlr-layer-shell-unstable-v1-client-protocol.h" #ifdef HAVE_SWAY #include "modules/sway/bar.hpp" #endif namespace waybar { static constexpr const char* MIN_HEIGHT_MSG = "Requested height: {} is less than the minimum height: {} required by the modules"; static constexpr const char* MIN_WIDTH_MSG = "Requested width: {} is less than the minimum width: {} required by the modules"; static constexpr const char* BAR_SIZE_MSG = "Bar configured (width: {}, height: {}) for output: {}"; static constexpr const char* SIZE_DEFINED = "{} size is defined in the config file so it will stay like that"; const Bar::bar_mode_map Bar::PRESET_MODES = { // {"default", {// Special mode to hold the global bar configuration .layer = bar_layer::BOTTOM, .exclusive = true, .passthrough = false, .visible = true}}, {"dock", {// Modes supported by the sway config; see man sway-bar(5) .layer = bar_layer::BOTTOM, .exclusive = true, .passthrough = false, .visible = true}}, {"hide", {// .layer = bar_layer::TOP, .exclusive = false, .passthrough = false, .visible = true}}, {"invisible", {// .layer = bar_layer::BOTTOM, .exclusive = false, .passthrough = true, .visible = false}}, {"overlay", {// .layer = bar_layer::TOP, .exclusive = false, .passthrough = true, .visible = true}}}; const std::string_view Bar::MODE_DEFAULT = "default"; const std::string_view Bar::MODE_INVISIBLE = "invisible"; const std::string_view DEFAULT_BAR_ID = "bar-0"; /* Deserializer for enum bar_layer */ void from_json(const Json::Value& j, bar_layer& l) { if (j == "bottom") { l = bar_layer::BOTTOM; } else if (j == "top") { l = bar_layer::TOP; } else if (j == "overlay") { l = bar_layer::OVERLAY; } } /* Deserializer for struct bar_mode */ void from_json(const Json::Value& j, bar_mode& m) { if (j.isObject()) { if (auto v = j["layer"]; v.isString()) { from_json(v, m.layer); } if (auto v = j["exclusive"]; v.isBool()) { m.exclusive = v.asBool(); } if (auto v = j["passthrough"]; v.isBool()) { m.passthrough = v.asBool(); } if (auto v = j["visible"]; v.isBool()) { m.visible = v.asBool(); } } } /* Deserializer for JSON Object -> map * Assumes that all the values in the object are deserializable to the same type. */ template ::value>> void from_json(const Json::Value& j, std::map& m) { if (j.isObject()) { for (auto it = j.begin(); it != j.end(); ++it) { from_json(*it, m[it.key().asString()]); } } } #ifdef HAVE_GTK_LAYER_SHELL struct GLSSurfaceImpl : public BarSurface, public sigc::trackable { GLSSurfaceImpl(Gtk::Window& window, struct waybar_output& output) : window_{window} { output_name_ = output.name; // this has to be executed before GtkWindow.realize gtk_layer_init_for_window(window_.gobj()); gtk_layer_set_keyboard_interactivity(window.gobj(), FALSE); gtk_layer_set_monitor(window_.gobj(), output.monitor->gobj()); gtk_layer_set_namespace(window_.gobj(), "waybar"); window.signal_map_event().connect_notify(sigc::mem_fun(*this, &GLSSurfaceImpl::onMap)); window.signal_configure_event().connect_notify( sigc::mem_fun(*this, &GLSSurfaceImpl::onConfigure)); } void setExclusiveZone(bool enable) override { if (enable) { gtk_layer_auto_exclusive_zone_enable(window_.gobj()); } else { gtk_layer_set_exclusive_zone(window_.gobj(), 0); } } void setMargins(const struct bar_margins& margins) override { gtk_layer_set_margin(window_.gobj(), GTK_LAYER_SHELL_EDGE_LEFT, margins.left); gtk_layer_set_margin(window_.gobj(), GTK_LAYER_SHELL_EDGE_RIGHT, margins.right); gtk_layer_set_margin(window_.gobj(), GTK_LAYER_SHELL_EDGE_TOP, margins.top); gtk_layer_set_margin(window_.gobj(), GTK_LAYER_SHELL_EDGE_BOTTOM, margins.bottom); } void setLayer(bar_layer value) override { auto layer = GTK_LAYER_SHELL_LAYER_BOTTOM; if (value == bar_layer::TOP) { layer = GTK_LAYER_SHELL_LAYER_TOP; } else if (value == bar_layer::OVERLAY) { layer = GTK_LAYER_SHELL_LAYER_OVERLAY; } gtk_layer_set_layer(window_.gobj(), layer); } void setPassThrough(bool enable) override { passthrough_ = enable; auto gdk_window = window_.get_window(); if (gdk_window) { Cairo::RefPtr region; if (enable) { region = Cairo::Region::create(); } gdk_window->input_shape_combine_region(region, 0, 0); } } void setPosition(const std::string_view& position) override { auto unanchored = GTK_LAYER_SHELL_EDGE_BOTTOM; vertical_ = false; if (position == "bottom") { unanchored = GTK_LAYER_SHELL_EDGE_TOP; } else if (position == "left") { unanchored = GTK_LAYER_SHELL_EDGE_RIGHT; vertical_ = true; } else if (position == "right") { vertical_ = true; unanchored = GTK_LAYER_SHELL_EDGE_LEFT; } for (auto edge : {GTK_LAYER_SHELL_EDGE_LEFT, GTK_LAYER_SHELL_EDGE_RIGHT, GTK_LAYER_SHELL_EDGE_TOP, GTK_LAYER_SHELL_EDGE_BOTTOM}) { gtk_layer_set_anchor(window_.gobj(), edge, unanchored != edge); } } void setSize(uint32_t width, uint32_t height) override { width_ = width; height_ = height; window_.set_size_request(width_, height_); }; private: Gtk::Window& window_; std::string output_name_; uint32_t width_; uint32_t height_; bool passthrough_ = false; bool vertical_ = false; void onMap(GdkEventAny* ev) { setPassThrough(passthrough_); } void onConfigure(GdkEventConfigure* ev) { /* * GTK wants new size for the window. * Actual resizing and management of the exclusve zone is handled within the gtk-layer-shell * code. This event handler only updates stored size of the window and prints some warnings. * * Note: forced resizing to a window smaller than required by GTK would not work with * gtk-layer-shell. */ if (vertical_) { if (width_ > 1 && ev->width > static_cast(width_)) { spdlog::warn(MIN_WIDTH_MSG, width_, ev->width); } } else { if (height_ > 1 && ev->height > static_cast(height_)) { spdlog::warn(MIN_HEIGHT_MSG, height_, ev->height); } } width_ = ev->width; height_ = ev->height; spdlog::info(BAR_SIZE_MSG, width_, height_, output_name_); } }; #endif struct RawSurfaceImpl : public BarSurface, public sigc::trackable { RawSurfaceImpl(Gtk::Window& window, struct waybar_output& output) : window_{window} { output_ = gdk_wayland_monitor_get_wl_output(output.monitor->gobj()); output_name_ = output.name; window.signal_realize().connect_notify(sigc::mem_fun(*this, &RawSurfaceImpl::onRealize)); window.signal_map_event().connect_notify(sigc::mem_fun(*this, &RawSurfaceImpl::onMap)); window.signal_configure_event().connect_notify( sigc::mem_fun(*this, &RawSurfaceImpl::onConfigure)); if (window.get_realized()) { onRealize(); } } void setExclusiveZone(bool enable) override { exclusive_zone_ = enable; if (layer_surface_) { auto zone = 0; if (enable) { // exclusive zone already includes margin for anchored edge, // only opposite margin should be added if ((anchor_ & VERTICAL_ANCHOR) == VERTICAL_ANCHOR) { zone += width_; zone += (anchor_ & ZWLR_LAYER_SURFACE_V1_ANCHOR_LEFT) ? margins_.right : margins_.left; } else { zone += height_; zone += (anchor_ & ZWLR_LAYER_SURFACE_V1_ANCHOR_TOP) ? margins_.bottom : margins_.top; } } spdlog::debug("Set exclusive zone {} for output {}", zone, output_name_); zwlr_layer_surface_v1_set_exclusive_zone(layer_surface_.get(), zone); } } void setLayer(bar_layer layer) override { layer_ = ZWLR_LAYER_SHELL_V1_LAYER_BOTTOM; if (layer == bar_layer::TOP) { layer_ = ZWLR_LAYER_SHELL_V1_LAYER_TOP; } else if (layer == bar_layer::OVERLAY) { layer_ = ZWLR_LAYER_SHELL_V1_LAYER_OVERLAY; } // updating already mapped window if (layer_surface_) { if (zwlr_layer_surface_v1_get_version(layer_surface_.get()) >= ZWLR_LAYER_SURFACE_V1_SET_LAYER_SINCE_VERSION) { zwlr_layer_surface_v1_set_layer(layer_surface_.get(), layer_); } else { spdlog::warn("Unable to change layer: layer-shell implementation is too old"); } } } void setMargins(const struct bar_margins& margins) override { margins_ = margins; // updating already mapped window if (layer_surface_) { zwlr_layer_surface_v1_set_margin( layer_surface_.get(), margins_.top, margins_.right, margins_.bottom, margins_.left); } } void setPassThrough(bool enable) override { passthrough_ = enable; /* GTK overwrites any region changes applied directly to the wl_surface, * thus the same GTK region API as in the GLS impl has to be used. */ auto gdk_window = window_.get_window(); if (gdk_window) { Cairo::RefPtr region; if (enable) { region = Cairo::Region::create(); } gdk_window->input_shape_combine_region(region, 0, 0); } } void setPosition(const std::string_view& position) override { anchor_ = HORIZONTAL_ANCHOR | ZWLR_LAYER_SURFACE_V1_ANCHOR_TOP; if (position == "bottom") { anchor_ = HORIZONTAL_ANCHOR | ZWLR_LAYER_SURFACE_V1_ANCHOR_BOTTOM; } else if (position == "left") { anchor_ = VERTICAL_ANCHOR | ZWLR_LAYER_SURFACE_V1_ANCHOR_LEFT; } else if (position == "right") { anchor_ = VERTICAL_ANCHOR | ZWLR_LAYER_SURFACE_V1_ANCHOR_RIGHT; } // updating already mapped window if (layer_surface_) { zwlr_layer_surface_v1_set_anchor(layer_surface_.get(), anchor_); } } void setSize(uint32_t width, uint32_t height) override { configured_width_ = width_ = width; configured_height_ = height_ = height; // layer_shell.configure handler should update exclusive zone if size changes window_.set_size_request(width, height); }; void commit() override { if (surface_) { wl_surface_commit(surface_); } } private: constexpr static uint8_t VERTICAL_ANCHOR = ZWLR_LAYER_SURFACE_V1_ANCHOR_TOP | ZWLR_LAYER_SURFACE_V1_ANCHOR_BOTTOM; constexpr static uint8_t HORIZONTAL_ANCHOR = ZWLR_LAYER_SURFACE_V1_ANCHOR_LEFT | ZWLR_LAYER_SURFACE_V1_ANCHOR_RIGHT; template using deleter_fn = std::integral_constant; using layer_surface_ptr = std::unique_ptr>; Gtk::Window& window_; std::string output_name_; uint32_t configured_width_ = 0; uint32_t configured_height_ = 0; uint32_t width_ = 0; uint32_t height_ = 0; uint8_t anchor_ = HORIZONTAL_ANCHOR | ZWLR_LAYER_SURFACE_V1_ANCHOR_TOP; bool exclusive_zone_ = true; bool passthrough_ = false; struct bar_margins margins_; zwlr_layer_shell_v1_layer layer_ = ZWLR_LAYER_SHELL_V1_LAYER_BOTTOM; struct wl_output* output_ = nullptr; // owned by GTK struct wl_surface* surface_ = nullptr; // owned by GTK layer_surface_ptr layer_surface_; void onRealize() { auto gdk_window = window_.get_window()->gobj(); gdk_wayland_window_set_use_custom_surface(gdk_window); } void onMap(GdkEventAny* ev) { static const struct zwlr_layer_surface_v1_listener layer_surface_listener = { .configure = onSurfaceConfigure, .closed = onSurfaceClosed, }; auto client = Client::inst(); auto gdk_window = window_.get_window()->gobj(); surface_ = gdk_wayland_window_get_wl_surface(gdk_window); layer_surface_.reset(zwlr_layer_shell_v1_get_layer_surface( client->layer_shell, surface_, output_, layer_, "waybar")); zwlr_layer_surface_v1_add_listener(layer_surface_.get(), &layer_surface_listener, this); zwlr_layer_surface_v1_set_keyboard_interactivity(layer_surface_.get(), false); zwlr_layer_surface_v1_set_anchor(layer_surface_.get(), anchor_); zwlr_layer_surface_v1_set_margin( layer_surface_.get(), margins_.top, margins_.right, margins_.bottom, margins_.left); setSurfaceSize(width_, height_); setExclusiveZone(exclusive_zone_); setPassThrough(passthrough_); commit(); wl_display_roundtrip(client->wl_display); } void onConfigure(GdkEventConfigure* ev) { /* * GTK wants new size for the window. * * Prefer configured size if it's non-default. * If the size is not set and the window is smaller than requested by GTK, request resize from * layer surface. */ auto tmp_height = height_; auto tmp_width = width_; if (ev->height > static_cast(height_)) { // Default minimal value if (height_ > 1) { spdlog::warn(MIN_HEIGHT_MSG, height_, ev->height); } if (configured_height_ > 1) { spdlog::info(SIZE_DEFINED, "Height"); } else { tmp_height = ev->height; } } if (ev->width > static_cast(width_)) { // Default minimal value if (width_ > 1) { spdlog::warn(MIN_WIDTH_MSG, width_, ev->width); } if (configured_width_ > 1) { spdlog::info(SIZE_DEFINED, "Width"); } else { tmp_width = ev->width; } } if (tmp_width != width_ || tmp_height != height_) { setSurfaceSize(tmp_width, tmp_height); commit(); } } void setSurfaceSize(uint32_t width, uint32_t height) { /* If the client is anchored to two opposite edges, layer_surface.configure will return * size without margins for the axis. * layer_surface.set_size, however, expects size with margins for the anchored axis. * This is not specified by wlr-layer-shell and based on actual behavior of sway. * * If the size for unanchored axis is not set (0), change request to 1 to avoid automatic * assignment by the compositor. */ if ((anchor_ & VERTICAL_ANCHOR) == VERTICAL_ANCHOR) { width = width > 0 ? width : 1; if (height > 1) { height += margins_.top + margins_.bottom; } } else { height = height > 0 ? height : 1; if (width > 1) { width += margins_.right + margins_.left; } } spdlog::debug("Set surface size {}x{} for output {}", width, height, output_name_); zwlr_layer_surface_v1_set_size(layer_surface_.get(), width, height); } static void onSurfaceConfigure(void* data, struct zwlr_layer_surface_v1* surface, uint32_t serial, uint32_t width, uint32_t height) { auto o = static_cast(data); if (width != o->width_ || height != o->height_) { o->width_ = width; o->height_ = height; o->window_.set_size_request(o->width_, o->height_); o->window_.resize(o->width_, o->height_); o->setExclusiveZone(o->exclusive_zone_); spdlog::info(BAR_SIZE_MSG, o->width_ == 1 ? "auto" : std::to_string(o->width_), o->height_ == 1 ? "auto" : std::to_string(o->height_), o->output_name_); o->commit(); } zwlr_layer_surface_v1_ack_configure(surface, serial); } static void onSurfaceClosed(void* data, struct zwlr_layer_surface_v1* /* surface */) { auto o = static_cast(data); o->layer_surface_.reset(); } }; }; // namespace waybar waybar::Bar::Bar(struct waybar_output* w_output, const Json::Value& w_config) : output(w_output), config(w_config), window{Gtk::WindowType::WINDOW_TOPLEVEL}, left_(Gtk::ORIENTATION_HORIZONTAL, 0), center_(Gtk::ORIENTATION_HORIZONTAL, 0), right_(Gtk::ORIENTATION_HORIZONTAL, 0), box_(Gtk::ORIENTATION_HORIZONTAL, 0) { window.set_title("waybar"); window.set_name("waybar"); window.set_decorated(false); window.get_style_context()->add_class(output->name); window.get_style_context()->add_class(config["name"].asString()); window.get_style_context()->add_class(config["position"].asString()); auto position = config["position"].asString(); if (position == "right" || position == "left") { left_ = Gtk::Box(Gtk::ORIENTATION_VERTICAL, 0); center_ = Gtk::Box(Gtk::ORIENTATION_VERTICAL, 0); right_ = Gtk::Box(Gtk::ORIENTATION_VERTICAL, 0); box_ = Gtk::Box(Gtk::ORIENTATION_VERTICAL, 0); vertical = true; } left_.get_style_context()->add_class("modules-left"); center_.get_style_context()->add_class("modules-center"); right_.get_style_context()->add_class("modules-right"); if (config["spacing"].isInt()) { int spacing = config["spacing"].asInt(); left_.set_spacing(spacing); center_.set_spacing(spacing); right_.set_spacing(spacing); } uint32_t height = config["height"].isUInt() ? config["height"].asUInt() : 0; uint32_t width = config["width"].isUInt() ? config["width"].asUInt() : 0; struct bar_margins margins_; if (config["margin-top"].isInt() || config["margin-right"].isInt() || config["margin-bottom"].isInt() || config["margin-left"].isInt()) { margins_ = { config["margin-top"].isInt() ? config["margin-top"].asInt() : 0, config["margin-right"].isInt() ? config["margin-right"].asInt() : 0, config["margin-bottom"].isInt() ? config["margin-bottom"].asInt() : 0, config["margin-left"].isInt() ? config["margin-left"].asInt() : 0, }; } else if (config["margin"].isString()) { std::istringstream iss(config["margin"].asString()); std::vector margins{std::istream_iterator(iss), {}}; try { if (margins.size() == 1) { auto gaps = std::stoi(margins[0], nullptr, 10); margins_ = {.top = gaps, .right = gaps, .bottom = gaps, .left = gaps}; } if (margins.size() == 2) { auto vertical_margins = std::stoi(margins[0], nullptr, 10); auto horizontal_margins = std::stoi(margins[1], nullptr, 10); margins_ = {.top = vertical_margins, .right = horizontal_margins, .bottom = vertical_margins, .left = horizontal_margins}; } if (margins.size() == 3) { auto horizontal_margins = std::stoi(margins[1], nullptr, 10); margins_ = {.top = std::stoi(margins[0], nullptr, 10), .right = horizontal_margins, .bottom = std::stoi(margins[2], nullptr, 10), .left = horizontal_margins}; } if (margins.size() == 4) { margins_ = {.top = std::stoi(margins[0], nullptr, 10), .right = std::stoi(margins[1], nullptr, 10), .bottom = std::stoi(margins[2], nullptr, 10), .left = std::stoi(margins[3], nullptr, 10)}; } } catch (...) { spdlog::warn("Invalid margins: {}", config["margin"].asString()); } } else if (config["margin"].isInt()) { auto gaps = config["margin"].asInt(); margins_ = {.top = gaps, .right = gaps, .bottom = gaps, .left = gaps}; } #ifdef HAVE_GTK_LAYER_SHELL bool use_gls = config["gtk-layer-shell"].isBool() ? config["gtk-layer-shell"].asBool() : true; if (use_gls) { surface_impl_ = std::make_unique(window, *output); } else #endif { surface_impl_ = std::make_unique(window, *output); } surface_impl_->setMargins(margins_); surface_impl_->setPosition(position); surface_impl_->setSize(width, height); /* Read custom modes if available */ if (auto modes = config.get("modes", {}); modes.isObject()) { from_json(modes, configured_modes); } /* Update "default" mode with the global bar options */ from_json(config, configured_modes[MODE_DEFAULT]); if (auto mode = config.get("mode", {}); mode.isString()) { setMode(config["mode"].asString()); } else { setMode(MODE_DEFAULT); } window.signal_map_event().connect_notify(sigc::mem_fun(*this, &Bar::onMap)); #if HAVE_SWAY if (auto ipc = config["ipc"]; ipc.isBool() && ipc.asBool()) { bar_id = Client::inst()->bar_id; if (auto id = config["id"]; id.isString()) { bar_id = id.asString(); } if (bar_id.empty()) { bar_id = DEFAULT_BAR_ID; } try { _ipc_client = std::make_unique(*this); } catch (const std::exception& exc) { spdlog::warn("Failed to open bar ipc connection: {}", exc.what()); } } #endif setupWidgets(); window.show_all(); if (spdlog::should_log(spdlog::level::debug)) { // Unfortunately, this function isn't in the C++ bindings, so we have to call the C version. char* gtk_tree = gtk_style_context_to_string( window.get_style_context()->gobj(), (GtkStyleContextPrintFlags)(GTK_STYLE_CONTEXT_PRINT_RECURSE | GTK_STYLE_CONTEXT_PRINT_SHOW_STYLE)); spdlog::debug("GTK widget tree:\n{}", gtk_tree); g_free(gtk_tree); } } /* Need to define it here because of forward declared members */ waybar::Bar::~Bar() = default; void waybar::Bar::setMode(const std::string_view& mode) { using namespace std::literals::string_literals; auto style = window.get_style_context(); /* remove styles added by previous setMode calls */ style->remove_class("mode-"s + last_mode_); auto it = configured_modes.find(mode); if (it != configured_modes.end()) { last_mode_ = mode; style->add_class("mode-"s + last_mode_); setMode(it->second); } else { spdlog::warn("Unknown mode \"{}\" requested", mode); last_mode_ = MODE_DEFAULT; style->add_class("mode-"s + last_mode_); setMode(configured_modes.at(MODE_DEFAULT)); } } void waybar::Bar::setMode(const struct bar_mode& mode) { surface_impl_->setLayer(mode.layer); surface_impl_->setExclusiveZone(mode.exclusive); surface_impl_->setPassThrough(mode.passthrough); if (mode.visible) { window.get_style_context()->remove_class("hidden"); window.set_opacity(1); } else { window.get_style_context()->add_class("hidden"); window.set_opacity(0); } surface_impl_->commit(); } void waybar::Bar::onMap(GdkEventAny*) { /* * Obtain a pointer to the custom layer surface for modules that require it (idle_inhibitor). */ auto gdk_window = window.get_window()->gobj(); surface = gdk_wayland_window_get_wl_surface(gdk_window); } void waybar::Bar::setVisible(bool value) { visible = value; setMode(visible ? MODE_DEFAULT : MODE_INVISIBLE); } void waybar::Bar::toggle() { setVisible(!visible); } // Converting string to button code rn as to avoid doing it later void waybar::Bar::setupAltFormatKeyForModule(const std::string& module_name) { if (config.isMember(module_name)) { Json::Value& module = config[module_name]; if (module.isMember("format-alt")) { if (module.isMember("format-alt-click")) { Json::Value& click = module["format-alt-click"]; if (click.isString()) { if (click == "click-right") { module["format-alt-click"] = 3U; } else if (click == "click-middle") { module["format-alt-click"] = 2U; } else if (click == "click-backward") { module["format-alt-click"] = 8U; } else if (click == "click-forward") { module["format-alt-click"] = 9U; } else { module["format-alt-click"] = 1U; // default click-left } } else { module["format-alt-click"] = 1U; } } else { module["format-alt-click"] = 1U; } } } } void waybar::Bar::setupAltFormatKeyForModuleList(const char* module_list_name) { if (config.isMember(module_list_name)) { Json::Value& modules = config[module_list_name]; for (const Json::Value& module_name : modules) { if (module_name.isString()) { setupAltFormatKeyForModule(module_name.asString()); } } } } void waybar::Bar::handleSignal(int signal) { for (auto& module : modules_all_) { auto* custom = dynamic_cast(module.get()); if (custom != nullptr) { custom->refresh(signal); } } } void waybar::Bar::getModules(const Factory& factory, const std::string& pos, Gtk::Box* group = nullptr) { auto module_list = group ? config[pos]["modules"] : config[pos]; if (module_list.isArray()) { for (const auto& name : module_list) { try { auto ref = name.asString(); AModule* module; if (ref.compare(0, 6, "group/") == 0 && ref.size() > 6) { auto group_module = new waybar::Group(ref, *this, config[ref]); getModules(factory, ref, &group_module->box); module = group_module; } else { module = factory.makeModule(ref); } std::shared_ptr module_sp(module); modules_all_.emplace_back(module_sp); if (group) { group->pack_start(*module, false, false); } else { if (pos == "modules-left") { modules_left_.emplace_back(module_sp); } if (pos == "modules-center") { modules_center_.emplace_back(module_sp); } if (pos == "modules-right") { modules_right_.emplace_back(module_sp); } } module->dp.connect([module, &name] { try { module->update(); } catch (const std::exception& e) { spdlog::error("{}: {}", name.asString(), e.what()); } }); } catch (const std::exception& e) { spdlog::warn("module {}: {}", name.asString(), e.what()); } } } } auto waybar::Bar::setupWidgets() -> void { window.add(box_); box_.pack_start(left_, false, false); box_.set_center_widget(center_); box_.pack_end(right_, false, false); // Convert to button code for every module that is used. setupAltFormatKeyForModuleList("modules-left"); setupAltFormatKeyForModuleList("modules-right"); setupAltFormatKeyForModuleList("modules-center"); Factory factory(*this, config); getModules(factory, "modules-left"); getModules(factory, "modules-center"); getModules(factory, "modules-right"); for (auto const& module : modules_left_) { left_.pack_start(*module, false, false); } for (auto const& module : modules_center_) { center_.pack_start(*module, false, false); } std::reverse(modules_right_.begin(), modules_right_.end()); for (auto const& module : modules_right_) { right_.pack_end(*module, false, false); } }