refactor: merge BarSurface into Bar

With only one implementation left, the abstraction is no longer
necessary.
pull/2836/head
Aleksei Bavshin 2024-02-19 02:55:55 -08:00
parent 4420447e74
commit 8a4a44896a
No known key found for this signature in database
GPG Key ID: 4F071603387A382A
2 changed files with 114 additions and 157 deletions

View File

@ -53,22 +53,6 @@ class BarIpcClient;
}
#endif // HAVE_SWAY
class BarSurface {
protected:
BarSurface() = default;
public:
virtual void setExclusiveZone(bool enable) = 0;
virtual void setLayer(bar_layer layer) = 0;
virtual void setMargins(const struct bar_margins &margins) = 0;
virtual void setPassThrough(bool enable) = 0;
virtual void setPosition(Gtk::PositionType position) = 0;
virtual void setSize(uint32_t width, uint32_t height) = 0;
virtual void commit(){};
virtual ~BarSurface() = default;
};
class Bar {
public:
using bar_mode_map = std::map<std::string, struct bar_mode>;
@ -107,6 +91,8 @@ class Bar {
void setupAltFormatKeyForModule(const std::string &module_name);
void setupAltFormatKeyForModuleList(const char *module_list_name);
void setMode(const bar_mode &);
void setPassThrough(bool passthrough);
void setPosition(Gtk::PositionType position);
void onConfigure(GdkEventConfigure *ev);
void configureGlobalOffset(int width, int height);
void onOutputGeometryChanged();
@ -116,8 +102,9 @@ class Bar {
std::string last_mode_{MODE_DEFAULT};
struct bar_margins margins_;
uint32_t width_, height_;
bool passthrough_;
std::unique_ptr<BarSurface> surface_impl_;
Gtk::Box left_;
Gtk::Box center_;
Gtk::Box right_;

View File

@ -126,134 +126,6 @@ void from_json(const Json::Value& j, std::map<Key, Value>& m) {
}
}
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_mode(window.gobj(), GTK_LAYER_SHELL_KEYBOARD_MODE_NONE);
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<Cairo::Region> region;
if (enable) {
region = Cairo::Region::create();
}
gdk_window->input_shape_combine_region(region, 0, 0);
}
}
void setPosition(Gtk::PositionType position) override {
auto unanchored = GTK_LAYER_SHELL_EDGE_BOTTOM;
orientation_ = Gtk::ORIENTATION_HORIZONTAL;
switch (position) {
case Gtk::POS_LEFT:
unanchored = GTK_LAYER_SHELL_EDGE_RIGHT;
orientation_ = Gtk::ORIENTATION_VERTICAL;
break;
case Gtk::POS_RIGHT:
unanchored = GTK_LAYER_SHELL_EDGE_LEFT;
orientation_ = Gtk::ORIENTATION_VERTICAL;
break;
case Gtk::POS_TOP:
unanchored = GTK_LAYER_SHELL_EDGE_BOTTOM;
break;
case Gtk::POS_BOTTOM:
unanchored = GTK_LAYER_SHELL_EDGE_TOP;
break;
};
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);
}
// Disable anchoring for other edges too if the width
// or the height has been set to a value other than 'auto'
// otherwise the bar will use all space
if (orientation_ == Gtk::ORIENTATION_VERTICAL && height_ > 1) {
gtk_layer_set_anchor(window_.gobj(), GTK_LAYER_SHELL_EDGE_BOTTOM, false);
gtk_layer_set_anchor(window_.gobj(), GTK_LAYER_SHELL_EDGE_TOP, false);
} else if (orientation_ == Gtk::ORIENTATION_HORIZONTAL && width_ > 1) {
gtk_layer_set_anchor(window_.gobj(), GTK_LAYER_SHELL_EDGE_LEFT, false);
gtk_layer_set_anchor(window_.gobj(), GTK_LAYER_SHELL_EDGE_RIGHT, false);
}
}
void setSize(uint32_t width, uint32_t height) override {
width_ = width;
height_ = height;
window_.set_size_request(width_, height_);
};
private:
Gtk::Window& window_;
Gtk::Orientation orientation_ = Gtk::ORIENTATION_HORIZONTAL;
std::string output_name_;
uint32_t width_;
uint32_t height_;
bool passthrough_ = 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 (orientation_ == Gtk::ORIENTATION_VERTICAL) {
if (width_ > 1 && ev->width > static_cast<int>(width_)) {
spdlog::warn(MIN_WIDTH_MSG, width_, ev->width);
}
} else {
if (height_ > 1 && ev->height > static_cast<int>(height_)) {
spdlog::warn(MIN_HEIGHT_MSG, height_, ev->height);
}
}
width_ = ev->width;
height_ = ev->height;
spdlog::info(BAR_SIZE_MSG, width_, height_, output_name_);
}
};
}; // namespace waybar
waybar::Bar::Bar(struct waybar_output* w_output, const Json::Value& w_config)
@ -296,8 +168,8 @@ waybar::Bar::Bar(struct waybar_output* w_output, const Json::Value& w_config)
right_.set_spacing(spacing);
}
uint32_t height = config["height"].isUInt() ? config["height"].asUInt() : 0;
uint32_t width = config["width"].isUInt() ? config["width"].asUInt() : 0;
height_ = config["height"].isUInt() ? config["height"].asUInt() : 0;
width_ = config["width"].isUInt() ? config["width"].asUInt() : 0;
if (config["margin-top"].isInt() || config["margin-right"].isInt() ||
config["margin-bottom"].isInt() || config["margin-left"].isInt()) {
@ -348,12 +220,23 @@ waybar::Bar::Bar(struct waybar_output* w_output, const Json::Value& w_config)
output->monitor->property_geometry().signal_changed().connect(
sigc::mem_fun(*this, &Bar::onOutputGeometryChanged));
surface_impl_ = std::make_unique<GLSSurfaceImpl>(window, *output);
surface_impl_->setMargins(margins_);
surface_impl_->setSize(width, height);
// this has to be executed before GtkWindow.realize
auto* gtk_window = window.gobj();
gtk_layer_init_for_window(gtk_window);
gtk_layer_set_keyboard_mode(gtk_window, GTK_LAYER_SHELL_KEYBOARD_MODE_NONE);
gtk_layer_set_monitor(gtk_window, output->monitor->gobj());
gtk_layer_set_namespace(gtk_window, "waybar");
gtk_layer_set_margin(gtk_window, GTK_LAYER_SHELL_EDGE_LEFT, margins_.left);
gtk_layer_set_margin(gtk_window, GTK_LAYER_SHELL_EDGE_RIGHT, margins_.right);
gtk_layer_set_margin(gtk_window, GTK_LAYER_SHELL_EDGE_TOP, margins_.top);
gtk_layer_set_margin(gtk_window, GTK_LAYER_SHELL_EDGE_BOTTOM, margins_.bottom);
window.set_size_request(width_, height_);
// Position needs to be set after calculating the height due to the
// GTK layer shell anchors logic relying on the dimensions of the bar.
surface_impl_->setPosition(position);
setPosition(position);
/* Read custom modes if available */
if (auto modes = config.get("modes", {}); modes.isObject()) {
@ -430,9 +313,23 @@ void waybar::Bar::setMode(const std::string& mode) {
}
void waybar::Bar::setMode(const struct bar_mode& mode) {
surface_impl_->setLayer(mode.layer);
surface_impl_->setExclusiveZone(mode.exclusive);
surface_impl_->setPassThrough(mode.passthrough);
auto* gtk_window = window.gobj();
auto layer = GTK_LAYER_SHELL_LAYER_BOTTOM;
if (mode.layer == bar_layer::TOP) {
layer = GTK_LAYER_SHELL_LAYER_TOP;
} else if (mode.layer == bar_layer::OVERLAY) {
layer = GTK_LAYER_SHELL_LAYER_OVERLAY;
}
gtk_layer_set_layer(gtk_window, layer);
if (mode.exclusive) {
gtk_layer_auto_exclusive_zone_enable(gtk_window);
} else {
gtk_layer_set_exclusive_zone(gtk_window, 0);
}
setPassThrough(passthrough_ = mode.passthrough);
if (mode.visible) {
window.get_style_context()->remove_class("hidden");
@ -441,7 +338,58 @@ void waybar::Bar::setMode(const struct bar_mode& mode) {
window.get_style_context()->add_class("hidden");
window.set_opacity(0);
}
surface_impl_->commit();
}
void waybar::Bar::setPassThrough(bool passthrough) {
auto gdk_window = window.get_window();
if (gdk_window) {
Cairo::RefPtr<Cairo::Region> region;
if (passthrough) {
region = Cairo::Region::create();
}
gdk_window->input_shape_combine_region(region, 0, 0);
}
}
void waybar::Bar::setPosition(Gtk::PositionType position) {
std::array<gboolean, GTK_LAYER_SHELL_EDGE_ENTRY_NUMBER> anchors;
anchors.fill(TRUE);
auto orientation = (position == Gtk::POS_LEFT || position == Gtk::POS_RIGHT)
? Gtk::ORIENTATION_VERTICAL
: Gtk::ORIENTATION_HORIZONTAL;
switch (position) {
case Gtk::POS_LEFT:
anchors[GTK_LAYER_SHELL_EDGE_RIGHT] = FALSE;
break;
case Gtk::POS_RIGHT:
anchors[GTK_LAYER_SHELL_EDGE_LEFT] = FALSE;
break;
case Gtk::POS_BOTTOM:
anchors[GTK_LAYER_SHELL_EDGE_TOP] = FALSE;
break;
default: /* Gtk::POS_TOP */
anchors[GTK_LAYER_SHELL_EDGE_BOTTOM] = FALSE;
break;
};
// Disable anchoring for other edges too if the width
// or the height has been set to a value other than 'auto'
// otherwise the bar will use all space
uint32_t configured_width = config["width"].isUInt() ? config["width"].asUInt() : 0;
uint32_t configured_height = config["height"].isUInt() ? config["height"].asUInt() : 0;
if (orientation == Gtk::ORIENTATION_VERTICAL && configured_height > 1) {
anchors[GTK_LAYER_SHELL_EDGE_TOP] = FALSE;
anchors[GTK_LAYER_SHELL_EDGE_BOTTOM] = FALSE;
} else if (orientation == Gtk::ORIENTATION_HORIZONTAL && configured_width > 1) {
anchors[GTK_LAYER_SHELL_EDGE_LEFT] = FALSE;
anchors[GTK_LAYER_SHELL_EDGE_RIGHT] = FALSE;
}
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, anchors[edge]);
}
}
void waybar::Bar::onMap(GdkEventAny*) {
@ -451,6 +399,8 @@ void waybar::Bar::onMap(GdkEventAny*) {
auto gdk_window = window.get_window()->gobj();
surface = gdk_wayland_window_get_wl_surface(gdk_window);
configureGlobalOffset(gdk_window_get_width(gdk_window), gdk_window_get_height(gdk_window));
setPassThrough(passthrough_);
}
void waybar::Bar::setVisible(bool value) {
@ -595,7 +545,28 @@ auto waybar::Bar::setupWidgets() -> void {
}
void waybar::Bar::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 (orientation == Gtk::ORIENTATION_VERTICAL) {
if (width_ > 1 && ev->width > static_cast<int>(width_)) {
spdlog::warn(MIN_WIDTH_MSG, width_, ev->width);
}
} else {
if (height_ > 1 && ev->height > static_cast<int>(height_)) {
spdlog::warn(MIN_HEIGHT_MSG, height_, ev->height);
}
}
width_ = ev->width;
height_ = ev->height;
configureGlobalOffset(ev->width, ev->height);
spdlog::info(BAR_SIZE_MSG, ev->width, ev->height, output->name);
}
void waybar::Bar::configureGlobalOffset(int width, int height) {
@ -624,8 +595,7 @@ void waybar::Bar::configureGlobalOffset(int width, int height) {
else
y = (monitor_geometry.height - height) / 2;
break;
case Gtk::POS_TOP:
// position is top
default: /* Gtk::POS_TOP */
if (width + margins_.left + margins_.right >= monitor_geometry.width)
x = margins_.left;
else