polybar-dwm/include/modules/meta.hpp

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#pragma once
#include <algorithm>
#include <condition_variable>
#include <mutex>
#include "common.hpp"
#include "components/builder.hpp"
#include "components/config.hpp"
#include "components/logger.hpp"
#include "utils/inotify.hpp"
#include "utils/string.hpp"
#include "utils/threading.hpp"
LEMONBUDDY_NS
#define DEFAULT_FORMAT "format"
#define DEFINE_MODULE(name, type) struct name : public type<name>
#define CONST_MOD(name) static_cast<name const&>(*this)
#define CAST_MOD(name) static_cast<name*>(this)
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namespace modules {
using namespace drawtypes;
DEFINE_ERROR(module_error);
DEFINE_CHILD_ERROR(undefined_format, module_error);
DEFINE_CHILD_ERROR(undefined_format_tag, module_error);
// class definition : module_format {{{
struct module_format {
string value;
vector<string> tags;
string fg;
string bg;
string ul;
string ol;
int spacing;
int padding;
int margin;
int offset;
string decorate(builder* builder, string output) {
if (offset != 0)
builder->offset(offset);
if (margin > 0)
builder->space(margin);
if (!bg.empty())
builder->background(bg);
if (!fg.empty())
builder->color(fg);
if (!ul.empty())
builder->underline(ul);
if (!ol.empty())
builder->overline(ol);
if (padding > 0)
builder->space(padding);
builder->append(output);
if (padding > 0)
builder->space(padding);
if (!ol.empty())
builder->overline_close();
if (!ul.empty())
builder->underline_close();
if (!fg.empty())
builder->color_close();
if (!bg.empty())
builder->background_close();
if (margin > 0)
builder->space(margin);
return builder->flush();
}
};
// }}}
// class definition : module_formatter {{{
class module_formatter {
public:
explicit module_formatter(const config& conf, string modname)
: m_conf(conf), m_modname(modname) {}
void add(string name, string fallback, vector<string>&& tags, vector<string>&& whitelist = {}) {
auto format = make_unique<module_format>();
format->value = m_conf.get<string>(m_modname, name, fallback);
format->fg = m_conf.get<string>(m_modname, name + "-foreground", "");
format->bg = m_conf.get<string>(m_modname, name + "-background", "");
format->ul = m_conf.get<string>(m_modname, name + "-underline", "");
format->ol = m_conf.get<string>(m_modname, name + "-overline", "");
format->spacing = m_conf.get<int>(m_modname, name + "-spacing", DEFAULT_SPACING);
format->padding = m_conf.get<int>(m_modname, name + "-padding", 0);
format->margin = m_conf.get<int>(m_modname, name + "-margin", 0);
format->offset = m_conf.get<int>(m_modname, name + "-offset", 0);
format->tags.swap(tags);
for (auto&& tag : string_util::split(format->value, ' ')) {
if (tag[0] != '<' || tag[tag.length() - 1] != '>')
continue;
if (std::find(format->tags.begin(), format->tags.end(), tag) != format->tags.end())
continue;
if (std::find(whitelist.begin(), whitelist.end(), tag) != whitelist.end())
continue;
throw undefined_format_tag("[" + m_modname + "] Undefined \"" + name + "\" tag: " + tag);
}
m_formats.insert(make_pair(name, std::move(format)));
}
shared_ptr<module_format> get(string format_name) {
auto format = m_formats.find(format_name);
if (format == m_formats.end())
throw undefined_format("Format \"" + format_name + "\" has not been added");
return format->second;
}
bool has(string tag, string format_name) {
auto format = m_formats.find(format_name);
if (format == m_formats.end())
throw undefined_format(format_name.c_str());
return format->second->value.find(tag) != string::npos;
}
bool has(string tag) {
for (auto&& format : m_formats)
if (format.second->value.find(tag) != string::npos)
return true;
return false;
}
protected:
const config& m_conf;
string m_modname;
map<string, shared_ptr<module_format>> m_formats;
};
// }}}
// class definition : module_interface {{{
struct module_interface {
public:
virtual ~module_interface() {}
virtual string name() const = 0;
virtual bool running() const = 0;
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virtual void setup() = 0;
virtual void start() = 0;
virtual void stop() = 0;
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virtual void halt(string error_message) = 0;
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virtual string contents() = 0;
virtual bool handle_event(string cmd) = 0;
virtual bool receive_events() const = 0;
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virtual void set_writer(std::function<void(string)>&& fn) = 0;
virtual void set_terminator(std::function<void(string)>&& fn) = 0;
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};
// }}}
// class definition : module {{{
template <class Impl>
class module : public module_interface {
public:
module(const bar_settings bar, const logger& logger, const config& config, string name)
: m_bar(bar)
, m_log(logger)
, m_conf(config)
, m_name("module/" + name)
, m_builder(make_unique<builder>(bar))
, m_formatter(make_unique<module_formatter>(m_conf, m_name)) {}
~module() {
CAST_MOD(Impl)->stop();
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m_updatelock.unlock();
std::lock_guard<threading_util::spin_lock> lck(m_updatelock);
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{
if (m_broadcast_thread.joinable())
m_broadcast_thread.join();
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for (auto&& thread_ : m_threads) {
if (thread_.joinable())
thread_.join();
}
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m_threads.clear();
}
m_log.trace("%s: Done cleaning up", name());
}
void set_writer(std::function<void(string)>&& fn) {
m_writer = forward<decltype(fn)>(fn);
}
void set_terminator(std::function<void(string)>&& fn) {
m_terminator = forward<decltype(fn)>(fn);
}
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string name() const {
return m_name;
}
bool running() const {
return CONST_MOD(Impl).enabled();
}
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void setup() {
m_log.trace("%s: Setup", name());
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try {
CAST_MOD(Impl)->setup();
} catch (const module_error& err) {
m_log.err("%s: Setup failed", name());
CAST_MOD(Impl)->halt(err.what());
} catch (const std::exception& err) {
m_log.err("%s: Setup failed", name());
CAST_MOD(Impl)->halt(err.what());
}
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}
void stop() {
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if (!enabled())
return;
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std::unique_lock<threading_util::spin_lock> lck(m_updatelock);
{
enable(false);
CAST_MOD(Impl)->teardown();
m_log.trace("%s: Stop", name());
}
if (m_terminator)
m_terminator(name());
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}
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void halt(string error_message) {
m_log.err("%s: %s", name(), error_message);
m_log.warn("Stopping '%s'...", name());
stop();
}
void teardown() {
CAST_MOD(Impl)->wakeup();
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}
string contents() {
return m_cache;
}
bool handle_event(string cmd) {
return CAST_MOD(Impl)->handle_event(cmd);
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}
bool receive_events() const {
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return false;
}
protected:
bool enabled() const {
return m_enabled;
}
void enable(bool state) {
m_enabled = state;
}
void broadcast() {
if (!enabled())
return;
m_cache = CAST_MOD(Impl)->get_output();
if (m_writer)
m_writer(name());
else
m_log.warn("%s: No handler, ignoring broadcast...", name());
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}
void idle() {}
void sleep(chrono::duration<double> sleep_duration) {
std::unique_lock<std::mutex> lck(m_sleeplock);
m_sleephandler.wait_for(lck, sleep_duration);
}
void wakeup() {
m_log.trace("%s: Release sleep lock", name());
m_sleephandler.notify_all();
}
string get_format() const {
return DEFAULT_FORMAT;
}
string get_output() {
if (!enabled()) {
m_log.trace("%s: Module is disabled", name());
return "";
}
auto format_name = CONST_MOD(Impl).get_format();
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auto format = m_formatter->get(format_name);
int i = 0;
bool tag_built = true;
for (auto tag : string_util::split(format->value, ' ')) {
bool is_blankspace = tag.empty();
if (tag[0] == '<' && tag[tag.length() - 1] == '>') {
if (i > 0)
m_builder->space(format->spacing);
if (!(tag_built = CONST_MOD(Impl).build(m_builder.get(), tag)) && i > 0)
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m_builder->remove_trailing_space(format->spacing);
if (tag_built)
i++;
} else if (is_blankspace && tag_built) {
m_builder->node(" ");
} else if (!is_blankspace) {
m_builder->node(tag);
}
}
return format->decorate(m_builder.get(), m_builder->flush());
}
protected:
function<void(string)> m_writer;
function<void(string)> m_terminator;
threading_util::spin_lock m_updatelock;
// std::timed_mutex m_mutex;
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const bar_settings m_bar;
const logger& m_log;
const config& m_conf;
std::mutex m_sleeplock;
std::condition_variable m_sleephandler;
string m_name;
unique_ptr<builder> m_builder;
unique_ptr<module_formatter> m_formatter;
vector<thread> m_threads;
private:
stateflag m_enabled{false};
string m_cache;
thread m_broadcast_thread;
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};
// }}}
// class definition : static_module {{{
template <class Impl>
class static_module : public module<Impl> {
public:
using module<Impl>::module;
void start() {
CAST_MOD(Impl)->enable(true);
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CAST_MOD(Impl)->setup();
CAST_MOD(Impl)->broadcast();
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}
bool build(builder*, string) const {
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return true;
}
};
// }}}
// class definition : timer_module {{{
using interval_t = chrono::duration<double>;
template <class Impl>
class timer_module : public module<Impl> {
public:
using module<Impl>::module;
void start() {
CAST_MOD(Impl)->enable(true);
CAST_MOD(Impl)->m_threads.emplace_back(thread(&timer_module::runner, this));
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}
protected:
interval_t m_interval = 1s;
void runner() {
try {
CAST_MOD(Impl)->setup();
while (CONST_MOD(Impl).enabled()) {
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{
std::lock_guard<threading_util::spin_lock> lck(this->m_updatelock);
if (CAST_MOD(Impl)->update())
CAST_MOD(Impl)->broadcast();
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}
CAST_MOD(Impl)->sleep(m_interval);
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}
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} catch (const module_error& err) {
CAST_MOD(Impl)->halt(err.what());
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} catch (const std::exception& err) {
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CAST_MOD(Impl)->halt(err.what());
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}
}
};
// }}}
// class definition : event_module {{{
template <class Impl>
class event_module : public module<Impl> {
public:
using module<Impl>::module;
void start() {
CAST_MOD(Impl)->enable(true);
CAST_MOD(Impl)->m_threads.emplace_back(thread(&event_module::runner, this));
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}
protected:
void runner() {
try {
CAST_MOD(Impl)->setup();
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// warmup
CAST_MOD(Impl)->update();
CAST_MOD(Impl)->broadcast();
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while (CONST_MOD(Impl).enabled()) {
CAST_MOD(Impl)->idle();
if (!CONST_MOD(Impl).enabled())
break;
std::lock_guard<threading_util::spin_lock> lck(this->m_updatelock);
{
if (!CAST_MOD(Impl)->has_event())
continue;
else if (!CAST_MOD(Impl)->update())
continue;
else
CAST_MOD(Impl)->broadcast();
}
}
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} catch (const module_error& err) {
CAST_MOD(Impl)->halt(err.what());
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} catch (const std::exception& err) {
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CAST_MOD(Impl)->halt(err.what());
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}
}
};
// }}}
// class definition : inotify_module {{{
template <class Impl>
class inotify_module : public module<Impl> {
public:
using module<Impl>::module;
void start() {
CAST_MOD(Impl)->enable(true);
CAST_MOD(Impl)->m_threads.emplace_back(thread(&inotify_module::runner, this));
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}
protected:
void runner() {
try {
CAST_MOD(Impl)->setup();
CAST_MOD(Impl)->on_event(nullptr); // warmup
CAST_MOD(Impl)->broadcast();
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while (CAST_MOD(Impl)->enabled()) {
CAST_MOD(Impl)->poll_events();
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}
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} catch (const module_error& err) {
CAST_MOD(Impl)->halt(err.what());
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} catch (const std::exception& err) {
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CAST_MOD(Impl)->halt(err.what());
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}
}
void watch(string path, int mask = IN_ALL_EVENTS) {
this->m_log.trace("%s: Attach inotify at %s", CONST_MOD(Impl).name(), path);
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m_watchlist.insert(make_pair(path, mask));
}
void idle() {
CAST_MOD(Impl)->sleep(200ms);
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}
void poll_events() {
vector<unique_ptr<inotify_watch>> watches;
try {
for (auto&& w : m_watchlist) {
watches.emplace_back(inotify_util::make_watch(w.first));
watches.back()->attach(w.second);
}
} catch (const system_error& e) {
watches.clear();
this->m_log.err(
"%s: Error while creating inotify watch (what: %s)", CONST_MOD(Impl).name(), e.what());
CAST_MOD(Impl)->sleep(0.1s);
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return;
}
while (CONST_MOD(Impl).enabled()) {
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for (auto&& w : watches) {
this->m_log.trace_x("%s: Poll inotify watch %s", CONST_MOD(Impl).name(), w->path());
std::lock_guard<threading_util::spin_lock> lck(this->m_updatelock);
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if (w->poll(1000 / watches.size())) {
auto event = w->get_event();
w->remove();
if (CAST_MOD(Impl)->on_event(event.get()))
CAST_MOD(Impl)->broadcast();
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return;
}
}
CAST_MOD(Impl)->idle();
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}
}
private:
map<string, int> m_watchlist;
};
// }}}
}
LEMONBUDDY_NS_END