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polybar/src/components/controller.cpp

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#include <csignal>
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#include "components/bar.hpp"
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#include "components/config.hpp"
#include "components/controller.hpp"
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#include "components/ipc.hpp"
#include "components/logger.hpp"
#include "components/renderer.hpp"
#include "components/types.hpp"
#include "events/signal.hpp"
#include "events/signal_emitter.hpp"
#include "modules/meta/factory.hpp"
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#include "utils/command.hpp"
#include "utils/factory.hpp"
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#include "utils/inotify.hpp"
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#include "utils/process.hpp"
#include "utils/string.hpp"
#include "utils/time.hpp"
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#include "x11/connection.hpp"
#include "x11/tray_manager.hpp"
#include "x11/xutils.hpp"
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POLYBAR_NS
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int g_eventpipe[2]{0, 0};
sig_atomic_t g_reload{0};
sig_atomic_t g_terminate{0};
void interrupt_handler(int signum) {
g_terminate = 1;
g_reload = (signum == SIGUSR1);
if (write(g_eventpipe[PIPE_WRITE], &g_terminate, 1) == -1) {
throw system_error("Failed to write to eventpipe");
}
}
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/**
* Build controller instance
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*/
controller::make_type controller::make(unique_ptr<ipc>&& ipc, unique_ptr<inotify_watch>&& config_watch) {
return factory_util::unique<controller>(connection::make(), signal_emitter::make(), logger::make(), config::make(),
bar::make(), forward<decltype(ipc)>(ipc), forward<decltype(config_watch)>(config_watch));
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}
/**
* Construct controller
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*/
controller::controller(connection& conn, signal_emitter& emitter, const logger& logger, const config& config,
unique_ptr<bar>&& bar, unique_ptr<ipc>&& ipc, unique_ptr<inotify_watch>&& confwatch)
: m_connection(conn)
, m_sig(emitter)
, m_log(logger)
, m_conf(config)
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, m_bar(forward<decltype(bar)>(bar))
, m_ipc(forward<decltype(ipc)>(ipc))
, m_confwatch(forward<decltype(confwatch)>(confwatch)) {
m_swallow_input = m_conf.get("settings", "throttle-input-for", m_swallow_input);
m_swallow_limit = m_conf.deprecated("settings", "eventqueue-swallow", "throttle-output", m_swallow_limit);
m_swallow_update = m_conf.deprecated("settings", "eventqueue-swallow-time", "throttle-output-for", m_swallow_update);
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if (pipe(g_eventpipe) != 0) {
throw system_error("Failed to create event channel pipes");
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}
m_log.trace("controller: Install signal handler");
struct sigaction act {};
memset(&act, 0, sizeof(act));
act.sa_handler = &interrupt_handler;
sigaction(SIGINT, &act, nullptr);
sigaction(SIGQUIT, &act, nullptr);
sigaction(SIGTERM, &act, nullptr);
sigaction(SIGUSR1, &act, nullptr);
sigaction(SIGALRM, &act, nullptr);
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m_log.trace("controller: Setup user-defined modules");
size_t created_modules{0};
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for (int i = 0; i < 3; i++) {
alignment align{static_cast<alignment>(i + 1)};
string configured_modules;
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if (align == alignment::LEFT) {
configured_modules = m_conf.get<string>(m_conf.section(), "modules-left", "");
} else if (align == alignment::CENTER) {
configured_modules = m_conf.get<string>(m_conf.section(), "modules-center", "");
} else if (align == alignment::RIGHT) {
configured_modules = m_conf.get<string>(m_conf.section(), "modules-right", "");
}
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for (auto& module_name : string_util::split(configured_modules, ' ')) {
if (module_name.empty()) {
continue;
}
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try {
auto type = m_conf.get<string>("module/" + module_name, "type");
if (type == "custom/ipc" && !m_ipc) {
throw application_error("Inter-process messaging needs to be enabled");
}
auto module = make_module(move(type), m_bar->settings(), module_name);
module->set_update_cb([&] { enqueue(make_update_evt(false)); });
module->set_stop_cb([&] { enqueue(make_check_evt()); });
module->setup();
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m_modules[align].emplace_back(move(module));
created_modules++;
} catch (const runtime_error& err) {
m_log.err("Disabling module \"%s\" (reason: %s)", module_name, err.what());
}
}
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}
if (!created_modules) {
throw application_error("No modules created");
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}
}
/**
* Deconstruct controller
*/
controller::~controller() {
m_log.trace("controller: Uninstall sighandler");
signal(SIGINT, SIG_DFL);
signal(SIGQUIT, SIG_DFL);
signal(SIGTERM, SIG_DFL);
m_log.trace("controller: Detach signal receiver");
m_sig.detach(this);
m_log.trace("controller: Stop modules");
for (auto&& block : m_modules) {
for (auto&& module : block.second) {
auto module_name = module->name();
auto cleanup_ms = time_util::measure([&module] {
module->stop();
module.reset();
});
m_log.info("Deconstruction of %s took %lu ms.", module_name, cleanup_ms);
}
}
}
/**
* Run the main loop
*/
bool controller::run(bool writeback) {
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assert(!m_connection.connection_has_error());
m_writeback = writeback;
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m_log.info("Starting application");
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m_sig.attach(this);
size_t started_modules{0};
for (const auto& block : m_modules) {
for (const auto& module : block.second) {
try {
m_log.info("Starting %s", module->name());
module->start();
started_modules++;
} catch (const application_error& err) {
m_log.err("Failed to start '%s' (reason: %s)", module->name(), err.what());
}
}
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}
if (!started_modules) {
throw application_error("No modules started");
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}
m_connection.flush();
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read_events();
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m_log.warn("Termination signal received, shutting down...");
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return !g_reload;
}
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/**
* Enqueue event
*/
bool controller::enqueue(event&& evt) {
if (!m_queue.enqueue(move(evt))) {
m_log.warn("Failed to enqueue event");
return false;
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}
if (write(g_eventpipe[PIPE_WRITE], " ", 1) == -1) {
m_log.err("Failed to write to eventpipe (reason: %s)", strerror(errno));
}
return true;
}
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/**
* Enqueue input data
*/
bool controller::enqueue(string&& input_data) {
if (!m_inputdata.empty()) {
m_log.trace("controller: Swallowing input event (pending data)");
} else if (chrono::system_clock::now() - m_swallow_input < m_lastinput) {
m_log.trace("controller: Swallowing input event (throttled)");
} else {
m_inputdata = move(input_data);
return enqueue(make_input_evt());
}
return false;
}
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/**
* Read events from configured file descriptors
*/
void controller::read_events() {
int fd_confwatch{0};
int fd_connection{0};
int fd_event{0};
int fd_ipc{0};
vector<int> fds;
fds.emplace_back((fd_event = g_eventpipe[PIPE_READ]));
fds.emplace_back((fd_connection = m_connection.get_file_descriptor()));
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if (m_confwatch) {
m_log.trace("controller: Attach config watch");
m_confwatch->attach(IN_MODIFY);
fds.emplace_back((fd_confwatch = m_confwatch->get_file_descriptor()));
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}
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if (m_ipc) {
fds.emplace_back((fd_ipc = m_ipc->get_file_descriptor()));
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}
while (!g_terminate) {
fd_set readfds{};
FD_ZERO(&readfds);
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int maxfd{0};
for (auto&& fd : fds) {
FD_SET(fd, &readfds);
maxfd = std::max(maxfd, fd);
}
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// Wait until event is ready on one of the configured streams
int events = select(maxfd + 1, &readfds, nullptr, nullptr, nullptr);
// Check for errors
if (events == -1 || g_terminate || m_connection.connection_has_error()) {
break;
}
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// Process event on the internal fd
if (fd_event && FD_ISSET(fd_event, &readfds)) {
process_eventqueue();
char buffer[BUFSIZ]{'\0'};
if (read(fd_event, &buffer, BUFSIZ) == -1) {
m_log.err("Failed to read from eventpipe (err: %s)", strerror(errno));
}
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}
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// Process event on the config inotify watch fd
if (fd_confwatch && FD_ISSET(fd_confwatch, &readfds) && m_confwatch->await_match()) {
m_log.info("Configuration file changed");
g_terminate = 1;
g_reload = 1;
}
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// Process event on the xcb connection fd
if (fd_connection && FD_ISSET(fd_connection, &readfds)) {
shared_ptr<xcb_generic_event_t> evt;
while ((evt = m_connection.poll_for_event())) {
try {
m_connection.dispatch_event(evt);
} catch (xpp::connection_error& err) {
m_log.err("X connection error, terminating... (what: %s)", m_connection.error_str(err.code()));
} catch (const exception& err) {
m_log.err("Error in X event loop: %s", err.what());
}
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}
}
// Process event on the ipc fd
if (fd_ipc && FD_ISSET(fd_ipc, &readfds)) {
m_ipc->receive_message();
fds.erase(std::remove_if(fds.begin(), fds.end(), [fd_ipc](int fd) { return fd == fd_ipc; }));
fds.emplace_back((fd_ipc = m_ipc->get_file_descriptor()));
}
}
}
/**
* Dequeue items from the eventqueue
*/
void controller::process_eventqueue() {
event evt{};
if (!m_queue.try_dequeue(evt)) {
return m_log.err("Failed to dequeue event");
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}
if (evt.type == static_cast<uint8_t>(event_type::INPUT)) {
process_inputdata();
} else {
event next{};
size_t swallowed{0};
while (swallowed++ < m_swallow_limit && m_queue.wait_dequeue_timed(next, m_swallow_update)) {
if (next.type == static_cast<uint8_t>(event_type::QUIT)) {
evt = next;
break;
} else if (next.type == static_cast<uint8_t>(event_type::INPUT)) {
evt = next;
break;
} else if (evt.type != next.type) {
m_queue.try_enqueue(move(next));
break;
} else {
m_log.trace_x("controller: Swallowing event within timeframe");
evt = next;
}
}
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if (evt.type == static_cast<uint8_t>(event_type::INPUT)) {
process_inputdata();
} else if (evt.type == static_cast<uint8_t>(event_type::QUIT)) {
m_sig.emit(sig_ev::process_quit{make_quit_evt(evt.flag)});
} else if (evt.type == static_cast<uint8_t>(event_type::UPDATE)) {
m_sig.emit(sig_ev::process_update{make_update_evt(evt.flag)});
} else if (evt.type == static_cast<uint8_t>(event_type::CHECK)) {
m_sig.emit(sig_ev::process_check{make_check_evt()});
} else {
m_log.warn("Unknown event type for enqueued event (%d)", evt.type);
}
}
}
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/**
* Process stored input data
*/
void controller::process_inputdata() {
if (!m_inputdata.empty()) {
m_sig.emit(sig_ev::process_input{move(m_inputdata)});
m_lastinput = chrono::time_point_cast<decltype(m_swallow_input)>(chrono::system_clock::now());
m_inputdata.clear();
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}
}
/**
* Process eventqueue update event
*/
bool controller::on(const sig_ev::process_update& evt) {
bool force{evt.data()->flag};
if (!m_bar) {
return false;
}
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const bar_settings& bar{m_bar->settings()};
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string contents;
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string separator{bar.separator};
string padding_left(bar.padding.left, ' ');
string padding_right(bar.padding.right, ' ');
string margin_left(bar.module_margin.left, ' ');
string margin_right(bar.module_margin.right, ' ');
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for (const auto& block : m_modules) {
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string block_contents;
bool is_left = false;
bool is_center = false;
bool is_right = false;
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if (block.first == alignment::LEFT) {
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is_left = true;
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} else if (block.first == alignment::CENTER) {
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is_center = true;
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} else if (block.first == alignment::RIGHT) {
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is_right = true;
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}
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for (const auto& module : block.second) {
string module_contents{module->contents()};
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if (module_contents.empty()) {
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continue;
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}
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if (!block_contents.empty() && !margin_right.empty()) {
block_contents += margin_right;
}
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if (!block_contents.empty() && !separator.empty()) {
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block_contents += separator;
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}
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if (!block_contents.empty() && !margin_left.empty() && !(is_left && module == block.second.front())) {
block_contents += margin_left;
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}
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block_contents += module_contents;
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}
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if (block_contents.empty()) {
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continue;
} else if (is_left) {
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contents += "%{l}";
contents += padding_left;
} else if (is_center) {
contents += "%{c}";
} else if (is_right) {
contents += "%{r}";
block_contents += padding_right;
}
// Strip unnecessary reset tags
block_contents = string_util::replace_all(block_contents, "T-}%{T", "T");
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block_contents = string_util::replace_all(block_contents, "B-}%{B#", "B#");
block_contents = string_util::replace_all(block_contents, "F-}%{F#", "F#");
block_contents = string_util::replace_all(block_contents, "U-}%{U#", "U#");
block_contents = string_util::replace_all(block_contents, "u-}%{u#", "u#");
block_contents = string_util::replace_all(block_contents, "o-}%{o#", "o#");
// Join consecutive tags
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contents += string_util::replace_all(block_contents, "}%{", " ");
}
try {
if (!m_writeback) {
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m_bar->parse(move(contents), force);
} else {
std::cout << contents << std::endl;
}
} catch (const exception& err) {
m_log.err("Failed to update bar contents (reason: %s)", err.what());
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}
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return true;
}
/**
* Process eventqueue input event
*/
bool controller::on(const sig_ev::process_input& evt) {
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try {
string input{*evt()};
for (auto&& block : m_modules) {
for (auto&& module : block.second) {
if (module->receive_events() && module->handle_event(input)) {
return true;
}
}
}
m_log.warn("Input event \"%s\" was rejected by all modules, passing to shell...", input);
if (m_command) {
m_log.warn("Terminating previous shell command");
m_command->terminate();
}
m_log.info("Executing shell command: %s", input);
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m_command = command_util::make_command(move(input));
m_command->exec();
m_command.reset();
} catch (const application_error& err) {
m_log.err("controller: Error while forwarding input to shell -> %s", err.what());
}
return true;
}
/**
* Process eventqueue quit event
*/
bool controller::on(const sig_ev::process_quit& evt) {
bool reload{evt.data()->flag};
raise(reload ? SIGUSR1 : SIGALRM);
return true;
}
/**
* Process eventqueue check event
*/
bool controller::on(const sig_ev::process_check&) {
for (const auto& block : m_modules) {
for (const auto& module : block.second) {
if (module->running()) {
return true;
}
}
}
m_log.warn("No running modules...");
enqueue(make_quit_evt(false));
return true;
}
/**
* Process ui button press event
*/
bool controller::on(const sig_ui::button_press& evt) {
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string input{*evt.data()};
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if (input.empty()) {
m_log.err("Cannot enqueue empty input");
return false;
}
enqueue(move(input));
return true;
}
/**
* Process ipc action messages
*/
bool controller::on(const sig_ipc::process_action& evt) {
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ipc_action a{*evt.data()};
string action{a.payload};
action.erase(0, strlen(ipc_action::prefix));
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if (action.empty()) {
m_log.err("Cannot enqueue empty ipc action");
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return false;
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}
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m_log.info("Enqueuing ipc action: %s", action);
enqueue(move(action));
return true;
}
/**
* Process ipc command messages
*/
bool controller::on(const sig_ipc::process_command& evt) {
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ipc_command c{*evt.data()};
string command{c.payload};
command.erase(0, strlen(ipc_command::prefix));
if (command.empty()) {
return false;
}
if (command == "quit") {
enqueue(make_quit_evt(false));
} else if (command == "restart") {
enqueue(make_quit_evt(true));
} else {
m_log.warn("\"%s\" is not a valid ipc command", command);
}
return true;
}
/**
* Process ipc hook messages
*/
bool controller::on(const sig_ipc::process_hook& evt) {
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const ipc_hook hook{*evt.data()};
for (const auto& block : m_modules) {
for (const auto& module : block.second) {
auto ipc = dynamic_cast<ipc_module*>(module.get());
if (ipc != nullptr) {
ipc->on_message(hook);
}
}
}
return true;
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}
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POLYBAR_NS_END