#include <xcb/xcb_icccm.h>
#include "components/bar.hpp"
#include "components/parser.hpp"
#include "components/renderer.hpp"
#include "components/signals.hpp"
#include "utils/bspwm.hpp"
#include "utils/color.hpp"
#include "utils/math.hpp"
#include "utils/string.hpp"
#include "x11/fonts.hpp"
#include "x11/graphics.hpp"
#include "x11/tray.hpp"
#include "x11/wm.hpp"
#if ENABLE_I3
#include "utils/i3.hpp"
#endif
POLYBAR_NS
namespace ph = std::placeholders;
/**
* Configure injection module
*/
di::injector<unique_ptr<bar>> configure_bar() {
// clang-format off
return di::make_injector(
configure_connection(),
configure_config(),
configure_logger(),
configure_tray_manager());
// clang-format on
}
/**
* Construct bar instance
*/
bar::bar(connection& conn, const config& config, const logger& logger, unique_ptr<tray_manager> tray_manager)
: m_connection(conn)
, m_conf(config)
, m_log(logger)
, m_tray(forward<decltype(tray_manager)>(tray_manager))
, m_screen(conn.screen()) {}
/**
* Cleanup signal handlers and destroy the bar window
*/
bar::~bar() {
std::lock_guard<std::mutex> guard(m_mutex);
m_connection.detach_sink(this, 1);
}
/**
* Create required components
*
* This is done outside the constructor due to boost::di noexcept
*/
void bar::bootstrap(bool nodraw) {
auto bs = m_conf.bar_section();
setup_monitor();
m_log.trace("bar: Load config values");
{
m_opts.locale = m_conf.get<string>(bs, "locale", "");
m_opts.separator = string_util::trim(m_conf.get<string>(bs, "separator", ""), '"');
m_opts.wmname = m_conf.get<string>(bs, "wm-name", "polybar-" + bs.substr(4) + "_" + m_opts.monitor->name);
m_opts.wmname = string_util::replace(m_opts.wmname, " ", "-");
if (m_conf.get<bool>(bs, "bottom", false))
m_opts.origin = edge::BOTTOM;
GET_CONFIG_VALUE(bs, m_opts.force_docking, "dock");
GET_CONFIG_VALUE(bs, m_opts.spacing, "spacing");
GET_CONFIG_VALUE(bs, m_opts.padding.left, "padding-left");
GET_CONFIG_VALUE(bs, m_opts.padding.right, "padding-right");
GET_CONFIG_VALUE(bs, m_opts.module_margin.left, "module-margin-left");
GET_CONFIG_VALUE(bs, m_opts.module_margin.right, "module-margin-right");
m_opts.strut.top = m_conf.get<int>("global/wm", "margin-top", 0);
m_opts.strut.bottom = m_conf.get<int>("global/wm", "margin-bottom", 0);
}
m_log.trace("bar: Load color values");
{
m_opts.background =
color::parse(m_conf.get<string>(bs, "background", color_util::hex<uint16_t>(m_opts.background)));
m_opts.foreground =
color::parse(m_conf.get<string>(bs, "foreground", color_util::hex<uint16_t>(m_opts.foreground)));
auto linecolor = color::parse(m_conf.get<string>(bs, "linecolor", "#f00"));
auto lineheight = m_conf.get<int>(bs, "lineheight", 0);
m_conf.warn_deprecated(bs, "linecolor", "{underline,overline}-color");
m_conf.warn_deprecated(bs, "lineheight", "{underline,overline}-size");
try {
m_opts.overline.size = m_conf.get<int16_t>(bs, "overline-size", lineheight);
m_opts.overline.color = color::parse(m_conf.get<string>(bs, "overline-color"));
} catch (const key_error& err) {
m_opts.overline.color = linecolor;
}
try {
m_opts.underline.size = m_conf.get<uint16_t>(bs, "underline-size", lineheight);
m_opts.underline.color = color::parse(m_conf.get<string>(bs, "underline-color"));
} catch (const key_error& err) {
m_opts.underline.color = linecolor;
}
}
m_log.trace("bar: Load border values");
{
auto bsize = m_conf.get<int>(bs, "border-size", 0);
auto bcolor = m_conf.get<string>(bs, "border-color", "#00000000");
m_opts.borders.emplace(edge::TOP, border_settings{});
m_opts.borders[edge::TOP].size = m_conf.get<int>(bs, "border-top", bsize);
m_opts.borders[edge::TOP].color = color::parse(m_conf.get<string>(bs, "border-top-color", bcolor));
m_opts.borders.emplace(edge::BOTTOM, border_settings{});
m_opts.borders[edge::BOTTOM].size = m_conf.get<int>(bs, "border-bottom", bsize);
m_opts.borders[edge::BOTTOM].color = color::parse(m_conf.get<string>(bs, "border-bottom-color", bcolor));
m_opts.borders.emplace(edge::LEFT, border_settings{});
m_opts.borders[edge::LEFT].size = m_conf.get<int>(bs, "border-left", bsize);
m_opts.borders[edge::LEFT].color = color::parse(m_conf.get<string>(bs, "border-left-color", bcolor));
m_opts.borders.emplace(edge::RIGHT, border_settings{});
m_opts.borders[edge::RIGHT].size = m_conf.get<int>(bs, "border-right", bsize);
m_opts.borders[edge::RIGHT].color = color::parse(m_conf.get<string>(bs, "border-right-color", bcolor));
}
if (nodraw) {
m_log.trace("bar: Abort bootstrap routine (reason: nodraw)");
m_tray.reset();
return;
}
m_log.trace("bar: Attaching sink to registry");
m_connection.attach_sink(this, 1);
configure_geom();
m_renderer = configure_renderer(m_opts, m_conf.get_list<string>(bs, "font", {})).create<unique_ptr<renderer>>();
m_window = m_renderer->window();
restack_window();
reconfigure_window();
m_connection.map_window(m_window);
m_log.trace("bar: Attach parser signal handlers");
g_signals::parser::background_change = bind(&renderer::set_background, m_renderer.get(), ph::_1);
g_signals::parser::foreground_change = bind(&renderer::set_foreground, m_renderer.get(), ph::_1);
g_signals::parser::underline_change = bind(&renderer::set_underline, m_renderer.get(), ph::_1);
g_signals::parser::overline_change = bind(&renderer::set_overline, m_renderer.get(), ph::_1);
g_signals::parser::pixel_offset = bind(&renderer::fill_shift, m_renderer.get(), ph::_1);
g_signals::parser::alignment_change = bind(&renderer::set_alignment, m_renderer.get(), ph::_1);
g_signals::parser::attribute_set = bind(&renderer::set_attribute, m_renderer.get(), ph::_1, true);
g_signals::parser::attribute_unset = bind(&renderer::set_attribute, m_renderer.get(), ph::_1, false);
g_signals::parser::attribute_toggle = bind(&renderer::toggle_attribute, m_renderer.get(), ph::_1);
g_signals::parser::action_block_open = bind(&renderer::begin_action, m_renderer.get(), ph::_1, ph::_2);
g_signals::parser::action_block_close = bind(&renderer::end_action, m_renderer.get(), ph::_1);
g_signals::parser::font_change = bind(&renderer::set_fontindex, m_renderer.get(), ph::_1);
g_signals::parser::ascii_text_write = bind(&renderer::draw_character, m_renderer.get(), ph::_1);
g_signals::parser::unicode_text_write = bind(&renderer::draw_character, m_renderer.get(), ph::_1);
g_signals::parser::string_write = bind(&renderer::draw_textstring, m_renderer.get(), ph::_1, ph::_2);
// Render empty bar
try {
m_renderer->begin();
m_renderer->end();
} catch (const exception& err) {
throw application_error("Failed to output empty bar window (reason: " + string{err.what()} + ")");
}
m_connection.flush();
}
/**
* Setup tray manager
*/
void bar::bootstrap_tray() {
if (!m_tray) {
return;
}
tray_settings settings;
auto bs = m_conf.bar_section();
auto tray_position = m_conf.get<string>(bs, "tray-position", "");
if (tray_position == "left")
settings.align = alignment::LEFT;
else if (tray_position == "right")
settings.align = alignment::RIGHT;
else if (tray_position == "center")
settings.align = alignment::CENTER;
else
settings.align = alignment::NONE;
if (settings.align == alignment::NONE) {
m_log.warn("Disabling tray manager (reason: disabled in config)");
m_tray.reset();
return;
}
m_trayalign = settings.align;
settings.height = m_opts.size.h;
settings.height -= m_opts.borders.at(edge::BOTTOM).size;
settings.height -= m_opts.borders.at(edge::TOP).size;
settings.height_fill = settings.height;
if (settings.height % 2 != 0) {
settings.height--;
}
auto maxsize = m_conf.get<int>(bs, "tray-maxsize", 16);
if (settings.height > maxsize) {
settings.spacing += (settings.height - maxsize) / 2;
settings.height = maxsize;
}
settings.width_max = m_opts.size.w;
settings.width = settings.height;
settings.orig_y = m_opts.pos.y + m_opts.borders.at(edge::TOP).size;
// Apply user-defined scaling
auto scale = m_conf.get<float>(bs, "tray-scale", 1.0);
settings.width *= scale;
settings.height_fill *= scale;
if (settings.align == alignment::RIGHT) {
settings.orig_x = m_opts.pos.x + m_opts.size.w - m_opts.borders.at(edge::RIGHT).size;
} else if (settings.align == alignment::LEFT) {
settings.orig_x = m_opts.pos.x + m_opts.borders.at(edge::LEFT).size;
} else if (settings.align == alignment::CENTER) {
settings.orig_x = m_opts.center.x - (settings.width / 2);
}
// Set user-defined background color
if (!(settings.transparent = m_conf.get<bool>(bs, "tray-transparent", settings.transparent))) {
auto bg = m_conf.get<string>(bs, "tray-background", "");
if (bg.length() > 7) {
m_log.warn("Alpha support for the systray is limited. See the wiki for more details.");
}
if (!bg.empty()) {
settings.background = color::parse(bg, g_colorempty);
} else {
settings.background = m_opts.background;
}
if (color_util::alpha_channel(settings.background) == 0) {
settings.transparent = true;
settings.background = 0;
}
}
// Add user-defined padding
settings.spacing += m_conf.get<int>(bs, "tray-padding", 0);
// Add user-defiend offset
auto offset_x_def = m_conf.get<string>(bs, "tray-offset-x", "");
auto offset_y_def = m_conf.get<string>(bs, "tray-offset-y", "");
auto offset_x = atoi(offset_x_def.c_str());
auto offset_y = atoi(offset_y_def.c_str());
if (offset_x != 0 && offset_x_def.find("%") != string::npos) {
offset_x = math_util::percentage_to_value<int>(offset_x, m_opts.monitor->w);
offset_x -= settings.width / 2;
}
if (offset_y != 0 && offset_y_def.find("%") != string::npos) {
offset_y = math_util::percentage_to_value<int>(offset_y, m_opts.monitor->h);
offset_y -= settings.width / 2;
}
settings.orig_x += offset_x;
settings.orig_y += offset_y;
// Add tray update callback unless explicitly disabled
if (!m_conf.get<bool>(bs, "tray-detached", false)) {
g_signals::tray::report_slotcount = [this](uint16_t slots) {
m_log.trace("bar: Tray reports %lu slots", slots);
if (m_trayclients != slots) {
m_trayclients = slots;
if (!m_lastinput.empty()) {
parse(m_lastinput, true);
}
}
};
}
// Put the tray next to the bar in the window stack
settings.sibling = m_window;
try {
m_log.trace("bar: Setup tray manager");
m_tray->bootstrap(settings);
} catch (const exception& err) {
m_log.err(err.what());
m_log.warn("Failed to setup tray, disabling...");
m_tray.reset();
}
}
/**
* Activate tray manager
*/
void bar::activate_tray() {
if (!m_tray) {
return;
}
m_log.trace("bar: Activate tray manager");
try {
m_tray->activate();
} catch (const exception& err) {
m_log.err(err.what());
m_log.err("Failed to activate tray manager, disabling...");
m_tray.reset();
}
}
/**
* Get the bar settings container
*/
const bar_settings bar::settings() const {
return m_opts;
}
/**
* Parse input string and redraw the bar window
*
* @param data Input string
* @param force Unless true, do not parse unchanged data
*/
void bar::parse(string data, bool force) {
if (!m_mutex.try_lock()) {
return;
}
std::lock_guard<std::mutex> guard(m_mutex, std::adopt_lock);
if (data == m_lastinput && !force)
return;
m_lastinput = data;
if (m_trayclients) {
if (m_tray && m_trayalign == alignment::LEFT)
m_renderer->reserve_space(edge::LEFT, m_tray->settings().configured_w);
else if (m_tray && m_trayalign == alignment::RIGHT)
m_renderer->reserve_space(edge::RIGHT, m_tray->settings().configured_w);
}
m_renderer->begin();
try {
parser parser{m_log, m_opts};
parser(data);
} catch (const unrecognized_token& err) {
m_log.err("Unrecognized syntax token '%s'", err.what());
} catch (const unrecognized_attribute& err) {
m_log.err("Unrecognized attribute '%s'", err.what());
} catch (const exception& err) {
m_log.err("Error parsing contents (err: %s)", err.what());
}
m_renderer->end();
m_connection.flush();
}
/**
* Configure geometry values
*/
void bar::configure_geom() {
m_log.trace("bar: Configure window geometry");
auto w = m_conf.get<string>(m_conf.bar_section(), "width", "100%");
auto h = m_conf.get<string>(m_conf.bar_section(), "height", "24");
auto offsetx = m_conf.get<string>(m_conf.bar_section(), "offset-x", "");
auto offsety = m_conf.get<string>(m_conf.bar_section(), "offset-y", "");
// look for user-defined width
if ((m_opts.size.w = atoi(w.c_str())) && w.find("%") != string::npos) {
m_opts.size.w = math_util::percentage_to_value<int>(m_opts.size.w, m_opts.monitor->w);
}
// look for user-defined height
if ((m_opts.size.h = atoi(h.c_str())) && h.find("%") != string::npos) {
m_opts.size.h = math_util::percentage_to_value<int>(m_opts.size.h, m_opts.monitor->h);
}
// look for user-defined offset-x
if ((m_opts.offset.x = atoi(offsetx.c_str())) != 0 && offsetx.find("%") != string::npos) {
m_opts.offset.x = math_util::percentage_to_value<int>(m_opts.offset.x, m_opts.monitor->w);
}
// look for user-defined offset-y
if ((m_opts.offset.y = atoi(offsety.c_str())) != 0 && offsety.find("%") != string::npos) {
m_opts.offset.y = math_util::percentage_to_value<int>(m_opts.offset.y, m_opts.monitor->h);
}
// apply offsets
m_opts.pos.x = m_opts.offset.x + m_opts.monitor->x;
m_opts.pos.y = m_opts.offset.y + m_opts.monitor->y;
// apply borders
m_opts.size.h += m_opts.borders[edge::TOP].size;
m_opts.size.h += m_opts.borders[edge::BOTTOM].size;
if (m_opts.origin == edge::BOTTOM)
m_opts.pos.y = m_opts.monitor->y + m_opts.monitor->h - m_opts.size.h - m_opts.offset.y;
if (m_opts.size.w <= 0 || m_opts.size.w > m_opts.monitor->w)
throw application_error("Resulting bar width is out of bounds");
if (m_opts.size.h <= 0 || m_opts.size.h > m_opts.monitor->h)
throw application_error("Resulting bar height is out of bounds");
m_opts.size.w = math_util::cap<int>(m_opts.size.w, 0, m_opts.monitor->w);
m_opts.size.h = math_util::cap<int>(m_opts.size.h, 0, m_opts.monitor->h);
m_opts.center.y = m_opts.size.h + m_opts.borders[edge::TOP].size - m_opts.borders[edge::BOTTOM].size;
m_opts.center.y /= 2;
m_opts.center.x = m_opts.pos.x + m_opts.size.w - m_opts.borders[edge::RIGHT].size + m_opts.borders[edge::LEFT].size;
m_opts.center.x /= 2;
m_log.info("Bar geometry %ix%i+%i+%i", m_opts.size.w, m_opts.size.h, m_opts.pos.x, m_opts.pos.y);
}
/**
* Create monitor object
*/
void bar::setup_monitor() {
m_log.trace("bar: Create monitor from matching X RandR output");
auto strict = m_conf.get<bool>(m_conf.bar_section(), "monitor-strict", false);
auto monitors = randr_util::get_monitors(m_connection, m_screen->root, strict);
if (monitors.empty()) {
throw application_error("No monitors found");
}
auto name = m_conf.get<string>(m_conf.bar_section(), "monitor", "");
if (name.empty()) {
name = monitors[0]->name;
m_log.warn("No monitor specified, using \"%s\"", name);
}
for (auto&& monitor : monitors) {
if (monitor->match(name, strict)) {
m_opts.monitor = move(monitor);
break;
}
}
if (!m_opts.monitor) {
throw application_error("Monitor \"" + name + "\" not found or disconnected");
}
const auto& m = m_opts.monitor;
m_log.trace("bar: Loaded monitor %s (%ix%i+%i+%i)", m->name, m->w, m->h, m->x, m->y);
}
/**
* Move the bar window above defined sibling
* in the X window stack
*/
void bar::restack_window() {
string wm_restack;
try {
wm_restack = m_conf.get<string>(m_conf.bar_section(), "wm-restack");
} catch (const key_error& err) {
return;
}
auto restacked = false;
if (wm_restack == "bspwm") {
restacked = bspwm_util::restack_above_root(m_connection, m_opts.monitor, m_window);
#if ENABLE_I3
} else if (wm_restack == "i3" && m_opts.force_docking) {
restacked = i3_util::restack_above_root(m_connection, m_opts.monitor, m_window);
} else if (wm_restack == "i3" && !m_opts.force_docking) {
m_log.warn("Ignoring restack of i3 window (not needed when dock = false)");
wm_restack.clear();
#endif
} else {
m_log.warn("Ignoring unsupported wm-restack option '%s'", wm_restack);
wm_restack.clear();
}
if (restacked) {
m_log.info("Successfully restacked bar window");
} else if (!wm_restack.empty()) {
m_log.err("Failed to restack bar window");
}
}
/**
* Reconfigure window by updating atom values
* and moving it to the correct position
*/
void bar::reconfigure_window() {
auto geom = m_connection.get_geometry(m_screen->root);
auto w = m_opts.size.w + m_opts.offset.x;
auto h = m_opts.size.h + m_opts.offset.y;
auto x = m_opts.pos.x;
auto y = m_opts.pos.y;
if (m_opts.origin == edge::BOTTOM) {
h += m_opts.strut.top;
} else {
h += m_opts.strut.bottom;
}
if (m_opts.origin == edge::BOTTOM && m_opts.monitor->y + m_opts.monitor->h < geom->height) {
h += geom->height - (m_opts.monitor->y + m_opts.monitor->h);
} else if (m_opts.origin != edge::BOTTOM) {
h += m_opts.monitor->y;
}
window win{m_connection, m_window};
win.reconfigure_struts(w, h, x, m_opts.origin == edge::BOTTOM);
win.reconfigure_pos(x, y);
m_log.trace("bar: Set window WM_NAME");
xcb_icccm_set_wm_name(m_connection, m_window, XCB_ATOM_STRING, 8, m_opts.wmname.size(), m_opts.wmname.c_str());
xcb_icccm_set_wm_class(m_connection, m_window, 15, "polybar\0Polybar");
m_log.trace("bar: Set window WM_NORMAL_HINTS");
xcb_size_hints_t hints;
xcb_icccm_size_hints_set_position(&hints, true, m_opts.pos.x, m_opts.pos.y);
xcb_icccm_size_hints_set_size(&hints, true, m_opts.size.w, m_opts.size.h);
xcb_icccm_set_wm_normal_hints(m_connection, m_window, &hints);
m_log.trace("bar: Set window _NET_WM_WINDOW_TYPE");
wm_util::set_windowtype(m_connection, m_window, {_NET_WM_WINDOW_TYPE_DOCK});
m_log.trace("bar: Set window _NET_WM_STATE");
wm_util::set_wmstate(m_connection, m_window, {_NET_WM_STATE_STICKY, _NET_WM_STATE_ABOVE});
m_log.trace("bar: Set window _NET_WM_DESKTOP");
wm_util::set_wmdesktop(m_connection, m_window, 0xFFFFFFFF);
m_log.trace("bar: Set window _NET_WM_PID");
wm_util::set_wmpid(m_connection, m_window, getpid());
}
/**
* Event handler for XCB_BUTTON_PRESS events
*
* Used to map mouse clicks to bar actions
*/
void bar::handle(const evt::button_press& evt) {
if (!m_mutex.try_lock()) {
return;
}
std::lock_guard<std::mutex> guard(m_mutex, std::adopt_lock);
m_log.trace_x("bar: Received button press: %i at pos(%i, %i)", evt->detail, evt->event_x, evt->event_y);
mousebtn button = static_cast<mousebtn>(evt->detail);
for (auto&& action : m_renderer->get_actions()) {
if (action.active) {
m_log.trace_x("bar: Ignoring action: unclosed)");
continue;
} else if (action.button != button) {
m_log.trace_x("bar: Ignoring action: button mismatch");
continue;
} else if (action.start_x > evt->event_x) {
m_log.trace_x("bar: Ignoring action: start_x(%i) > event_x(%i)", action.start_x, evt->event_x);
continue;
} else if (action.end_x < evt->event_x) {
m_log.trace_x("bar: Ignoring action: end_x(%i) < event_x(%i)", action.end_x, evt->event_x);
continue;
}
m_log.trace("Found matching input area");
m_log.trace_x("action.command = %s", action.command);
m_log.trace_x("action.button = %i", static_cast<int>(action.button));
m_log.trace_x("action.start_x = %i", action.start_x);
m_log.trace_x("action.end_x = %i", action.end_x);
if (g_signals::bar::action_click)
g_signals::bar::action_click(action.command);
else
m_log.warn("No signal handler's connected to 'action_click'");
return;
}
m_log.warn("No matching input area found");
}
/**
* Event handler for XCB_EXPOSE events
*
* Used to redraw the bar
*/
void bar::handle(const evt::expose& evt) {
if (evt->window == m_window) {
m_log.trace("bar: Received expose event");
m_renderer->redraw();
}
}
/**
* Event handler for XCB_PROPERTY_NOTIFY events
*
* - Emit events whenever the bar window's
* visibility gets changed. This allows us to toggle the
* state of the tray container even though the tray
* window restacking failed. Used as a fallback for
* tedious WM's, like i3.
*
* - Track the root pixmap atom to update the
* pseudo-transparent background when it changes
*/
void bar::handle(const evt::property_notify& evt) {
#if DEBUG
string atom_name = m_connection.get_atom_name(evt->atom).name();
m_log.trace("bar: property_notify(%s)", atom_name);
#endif
if (evt->window == m_window && evt->atom == WM_STATE) {
if (!g_signals::bar::visibility_change) {
return m_log.trace("bar: no callback handler set for bar visibility change");
}
try {
auto attr = m_connection.get_window_attributes(m_window);
if (attr->map_state == XCB_MAP_STATE_VIEWABLE)
g_signals::bar::visibility_change(true);
else if (attr->map_state == XCB_MAP_STATE_UNVIEWABLE)
g_signals::bar::visibility_change(false);
else if (attr->map_state == XCB_MAP_STATE_UNMAPPED)
g_signals::bar::visibility_change(false);
else
g_signals::bar::visibility_change(true);
} catch (const exception& err) {
m_log.warn("Failed to emit bar window's visibility change event");
}
}
}
POLYBAR_NS_END