396 lines
14 KiB
C++
396 lines
14 KiB
C++
#include "modules/battery.hpp"
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#include "drawtypes/animation.hpp"
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#include "drawtypes/label.hpp"
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#include "drawtypes/progressbar.hpp"
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#include "drawtypes/ramp.hpp"
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#include "modules/meta/base.inl"
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#include "utils/file.hpp"
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#include "utils/math.hpp"
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#include "utils/string.hpp"
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POLYBAR_NS
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namespace modules {
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template class module<battery_module>;
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template <typename ValueReader>
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typename ValueReader::return_type read(ValueReader& reader) {
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std::lock_guard<ValueReader> guard(reader);
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return reader.read();
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}
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/**
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* Bootstrap module by setting up required components
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*/
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battery_module::battery_module(const bar_settings& bar, string name_)
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: inotify_module<battery_module>(bar, move(name_)) {
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// Load configuration values
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m_fullat = std::min(m_conf.get(name(), "full-at", m_fullat), 100);
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m_lowat = std::max(m_conf.get(name(), "low-at", m_lowat), 0);
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m_interval = m_conf.get<decltype(m_interval)>(name(), "poll-interval", 5s);
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m_lastpoll = chrono::steady_clock::now();
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auto path_adapter = string_util::replace(PATH_ADAPTER, "%adapter%", m_conf.get(name(), "adapter", "ADP1"s)) + "/";
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auto path_battery = string_util::replace(PATH_BATTERY, "%battery%", m_conf.get(name(), "battery", "BAT0"s)) + "/";
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// Make state reader
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if (file_util::exists((m_fstate = path_battery + "status"))) {
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m_state_reader =
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make_unique<state_reader>([=] { return file_util::contents(m_fstate).compare(0, 8, "Charging") == 0; });
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} else if (file_util::exists((m_fstate = path_adapter + "online"))) {
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m_state_reader = make_unique<state_reader>([=] { return file_util::contents(m_fstate).compare(0, 1, "1") == 0; });
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} else {
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throw module_error("No suitable way to get current charge state");
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}
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// Make capacity reader
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if ((m_fcapnow = file_util::pick({path_battery + "charge_now", path_battery + "energy_now"})).empty()) {
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throw module_error("No suitable way to get current capacity value");
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} else if ((m_fcapfull = file_util::pick({path_battery + "charge_full", path_battery + "energy_full"})).empty()) {
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throw module_error("No suitable way to get max capacity value");
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}
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m_capacity_reader = make_unique<capacity_reader>([=] {
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auto cap_now = std::strtoul(file_util::contents(m_fcapnow).c_str(), nullptr, 10);
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auto cap_max = std::strtoul(file_util::contents(m_fcapfull).c_str(), nullptr, 10);
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return math_util::percentage(cap_now, 0UL, cap_max);
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});
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// Make rate reader
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if ((m_fvoltage = file_util::pick({path_battery + "voltage_now"})).empty()) {
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throw module_error("No suitable way to get current voltage value");
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} else if ((m_frate = file_util::pick({path_battery + "current_now", path_battery + "power_now"})).empty()) {
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throw module_error("No suitable way to get current charge rate value");
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}
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m_rate_reader = make_unique<rate_reader>([this] {
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unsigned long rate{std::strtoul(file_util::contents(m_frate).c_str(), nullptr, 10)};
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unsigned long volt{std::strtoul(file_util::contents(m_fvoltage).c_str(), nullptr, 10) / 1000UL};
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unsigned long now{std::strtoul(file_util::contents(m_fcapnow).c_str(), nullptr, 10)};
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unsigned long max{std::strtoul(file_util::contents(m_fcapfull).c_str(), nullptr, 10)};
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unsigned long cap{read(*m_state_reader) ? max - now : now};
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if (rate && volt && cap) {
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auto remaining = (cap / volt);
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auto current_rate = (rate / volt);
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if (remaining && current_rate) {
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return 3600UL * remaining / current_rate;
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}
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}
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return 0UL;
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});
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// Make consumption reader
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m_consumption_reader = make_unique<consumption_reader>([this] {
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float consumption;
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// if the rate we found was the current, calculate power (P = I*V)
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if (string_util::contains(m_frate, "current_now")) {
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unsigned long current{std::strtoul(file_util::contents(m_frate).c_str(), nullptr, 10)};
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unsigned long voltage{std::strtoul(file_util::contents(m_fvoltage).c_str(), nullptr, 10)};
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consumption = ((voltage / 1000.0) * (current / 1000.0)) / 1e6;
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} else {
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// if it was power, just use as is
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unsigned long power{std::strtoul(file_util::contents(m_frate).c_str(), nullptr, 10)};
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consumption = power / 1e6;
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}
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// convert to string with 2 decimmal places
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string rtn(16, '\0'); // 16 should be plenty big. Cant see it needing more than 6/7..
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auto written = std::snprintf(&rtn[0], rtn.size(), "%.2f", consumption);
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rtn.resize(written);
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return rtn;
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});
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// Load state and capacity level
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m_state = current_state();
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m_percentage = current_percentage();
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// Add formats and elements
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m_formatter->add(FORMAT_CHARGING, TAG_LABEL_CHARGING,
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{TAG_BAR_CAPACITY, TAG_RAMP_CAPACITY, TAG_ANIMATION_CHARGING, TAG_LABEL_CHARGING});
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m_formatter->add(FORMAT_DISCHARGING, TAG_LABEL_DISCHARGING,
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{TAG_BAR_CAPACITY, TAG_RAMP_CAPACITY, TAG_ANIMATION_DISCHARGING, TAG_LABEL_DISCHARGING});
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m_formatter->add_optional(FORMAT_LOW, {TAG_BAR_CAPACITY, TAG_RAMP_CAPACITY, TAG_ANIMATION_LOW, TAG_LABEL_LOW});
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m_formatter->add(FORMAT_FULL, TAG_LABEL_FULL, {TAG_BAR_CAPACITY, TAG_RAMP_CAPACITY, TAG_LABEL_FULL});
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if (m_formatter->has(TAG_ANIMATION_CHARGING, FORMAT_CHARGING)) {
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m_animation_charging = load_animation(m_conf, name(), TAG_ANIMATION_CHARGING);
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}
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if (m_formatter->has(TAG_ANIMATION_DISCHARGING, FORMAT_DISCHARGING)) {
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m_animation_discharging = load_animation(m_conf, name(), TAG_ANIMATION_DISCHARGING);
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}
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if (m_formatter->has(TAG_ANIMATION_LOW, FORMAT_LOW)) {
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m_animation_low = load_animation(m_conf, name(), TAG_ANIMATION_LOW);
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}
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if (m_formatter->has(TAG_BAR_CAPACITY)) {
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m_bar_capacity = load_progressbar(m_bar, m_conf, name(), TAG_BAR_CAPACITY);
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}
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if (m_formatter->has(TAG_RAMP_CAPACITY)) {
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m_ramp_capacity = load_ramp(m_conf, name(), TAG_RAMP_CAPACITY);
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}
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if (m_formatter->has(TAG_LABEL_CHARGING, FORMAT_CHARGING)) {
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m_label_charging = load_optional_label(m_conf, name(), TAG_LABEL_CHARGING, "%percentage%%");
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}
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if (m_formatter->has(TAG_LABEL_DISCHARGING, FORMAT_DISCHARGING)) {
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m_label_discharging = load_optional_label(m_conf, name(), TAG_LABEL_DISCHARGING, "%percentage%%");
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}
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if (m_formatter->has(TAG_LABEL_LOW, FORMAT_LOW)) {
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m_label_low = load_optional_label(m_conf, name(), TAG_LABEL_LOW, "%percentage%%");
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}
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if (m_formatter->has(TAG_LABEL_FULL, FORMAT_FULL)) {
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m_label_full = load_optional_label(m_conf, name(), TAG_LABEL_FULL, "%percentage%%");
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}
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// Create inotify watches
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watch(m_fcapnow, IN_ACCESS);
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watch(m_fstate, IN_ACCESS);
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// Setup time if token is used
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if ((m_label_charging && m_label_charging->has_token("%time%")) ||
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(m_label_discharging && m_label_discharging->has_token("%time%")) ||
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(m_label_low && m_label_low->has_token("%time%"))) {
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if (!m_bar.locale.empty()) {
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setlocale(LC_TIME, m_bar.locale.c_str());
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}
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m_timeformat = m_conf.get(name(), "time-format", "%H:%M:%S"s);
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}
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}
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/**
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* Dispatch the subthread used to update the
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* charging animation when the module is started
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*/
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void battery_module::start() {
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this->inotify_module::start();
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// We only start animation thread if there is at least one animation.
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if (m_animation_charging || m_animation_discharging || m_animation_low) {
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m_subthread = thread(&battery_module::subthread, this);
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}
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}
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/**
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* Release wake lock when stopping the module
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*/
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void battery_module::teardown() {
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if (m_subthread.joinable()) {
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m_subthread.join();
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}
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}
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/**
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* Idle between polling inotify watches for events.
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*
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* If the defined interval has been reached, trigger a manual
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* poll in case the inotify events aren't fired.
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*
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* This fallback is needed because some systems won't
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* report inotify events for files on sysfs.
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*/
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void battery_module::idle() {
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if (m_interval.count() > 0) {
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auto now = chrono::steady_clock::now();
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if (chrono::duration_cast<decltype(m_interval)>(now - m_lastpoll) > m_interval) {
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m_lastpoll = now;
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m_log.info("%s: Polling values (inotify fallback)", name());
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on_event({});
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}
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}
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this->inotify_module::idle();
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}
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/**
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* Update values when tracked files have changed
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*/
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bool battery_module::on_event(const inotify_event& event) {
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auto state = current_state();
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auto percentage = current_percentage();
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// Reset timer to avoid unnecessary polling
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m_lastpoll = chrono::steady_clock::now();
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if (event.is_valid) {
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m_log.trace("%s: Inotify event reported for %s", name(), event.filename);
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if (state == m_state && percentage == m_percentage && m_unchanged--) {
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return false;
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}
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m_unchanged = SKIP_N_UNCHANGED;
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}
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m_state = state;
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m_percentage = percentage;
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const auto replace_tokens = [&](label_t& label) {
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if (!label) {
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return;
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}
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label->reset_tokens();
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label->replace_token("%percentage%", to_string(clamp_percentage(m_percentage, m_state)));
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label->replace_token("%percentage_raw%", to_string(m_percentage));
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label->replace_token("%consumption%", current_consumption());
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if (m_state != battery_module::state::FULL && !m_timeformat.empty()) {
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label->replace_token("%time%", current_time());
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}
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};
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replace_tokens(m_label_full);
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replace_tokens(m_label_discharging);
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replace_tokens(m_label_low);
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replace_tokens(m_label_charging);
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return true;
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}
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/**
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* Get the output format based on state
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*/
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string battery_module::get_format() const {
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switch (m_state) {
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case battery_module::state::FULL:
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return FORMAT_FULL;
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case battery_module::state::LOW:
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if (m_formatter->has_format(FORMAT_LOW)) {
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return FORMAT_LOW;
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}
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return FORMAT_DISCHARGING;
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case battery_module::state::DISCHARGING:
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return FORMAT_DISCHARGING;
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default:
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return FORMAT_CHARGING;
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}
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}
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/**
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* Generate module output using defined drawtypes
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*/
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bool battery_module::build(builder* builder, const string& tag) const {
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if (tag == TAG_ANIMATION_CHARGING) {
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builder->node(m_animation_charging->get());
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} else if (tag == TAG_ANIMATION_DISCHARGING) {
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builder->node(m_animation_discharging->get());
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} else if (tag == TAG_ANIMATION_LOW) {
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builder->node(m_animation_low->get());
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} else if (tag == TAG_BAR_CAPACITY) {
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builder->node(m_bar_capacity->output(clamp_percentage(m_percentage, m_state)));
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} else if (tag == TAG_RAMP_CAPACITY) {
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builder->node(m_ramp_capacity->get_by_percentage_with_borders(m_percentage, m_lowat, m_fullat));
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} else if (tag == TAG_LABEL_CHARGING) {
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builder->node(m_label_charging);
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} else if (tag == TAG_LABEL_DISCHARGING) {
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builder->node(m_label_discharging);
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} else if (tag == TAG_LABEL_LOW) {
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builder->node(m_label_low);
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} else if (tag == TAG_LABEL_FULL) {
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builder->node(m_label_full);
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} else {
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return false;
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}
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return true;
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}
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/**
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* Get the current battery state
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*/
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battery_module::state battery_module::current_state() {
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auto charge = read(*m_capacity_reader);
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if (charge >= m_fullat) {
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return battery_module::state::FULL;
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} else if (!read(*m_state_reader)) {
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return charge <= m_lowat ? battery_module::state::LOW : battery_module::state::DISCHARGING;
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} else {
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return battery_module::state::CHARGING;
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}
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}
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/**
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* Get the current capacity level
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*/
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int battery_module::current_percentage() {
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return read(*m_capacity_reader);
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}
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int battery_module::clamp_percentage(int percentage, state state) const {
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if (state == battery_module::state::FULL && percentage >= m_fullat) {
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return 100;
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}
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return percentage;
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}
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/**
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* Get the current power consumption
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*/
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string battery_module::current_consumption() {
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return read(*m_consumption_reader);
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}
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/**
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* Get estimate of remaining time until fully dis-/charged
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*/
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string battery_module::current_time() {
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struct tm t {
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, nullptr
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};
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chrono::seconds sec{read(*m_rate_reader)};
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if (sec.count() > 0) {
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t.tm_hour = chrono::duration_cast<chrono::hours>(sec).count();
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sec -= chrono::seconds{3600 * t.tm_hour};
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t.tm_min = chrono::duration_cast<chrono::minutes>(sec).count();
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sec -= chrono::seconds{60 * t.tm_min};
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t.tm_sec = chrono::duration_cast<chrono::seconds>(sec).count();
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}
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char buffer[256]{0};
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strftime(buffer, sizeof(buffer), m_timeformat.c_str(), &t);
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return {buffer};
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}
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/**
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* Subthread runner that emits update events to refresh <animation-charging>
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* or <animation-discharging> in case they are used. Note, that it is ok to
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* use a single thread, because the two animations are never shown at the
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* same time.
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*/
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void battery_module::subthread() {
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m_log.trace("%s: Start of subthread", name());
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while (running()) {
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auto now = chrono::steady_clock::now();
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auto framerate = 1000U; // milliseconds
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if (m_state == battery_module::state::CHARGING && m_animation_charging) {
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m_animation_charging->increment();
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broadcast();
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framerate = m_animation_charging->framerate();
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} else if (m_state == battery_module::state::DISCHARGING && m_animation_discharging) {
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m_animation_discharging->increment();
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broadcast();
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framerate = m_animation_discharging->framerate();
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} else if (m_state == battery_module::state::LOW && m_animation_low) {
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m_animation_low->increment();
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broadcast();
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framerate = m_animation_low->framerate();
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}
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// We don't count the the first part of the loop to be as close as possible to the framerate.
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now += chrono::milliseconds(framerate);
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this_thread::sleep_until(now);
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}
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m_log.trace("%s: End of subthread", name());
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}
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} // namespace modules
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POLYBAR_NS_END
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