Merge pull request #3130 from kiriDevs/kiridevs/battery-cycles
battery: Add {cycles}, {health} format replacements
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commit
f26efae569
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@ -32,7 +32,7 @@ class Battery : public ALabel {
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void refreshBatteries();
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void refreshBatteries();
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void worker();
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void worker();
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const std::string getAdapterStatus(uint8_t capacity) const;
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const std::string getAdapterStatus(uint8_t capacity) const;
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const std::tuple<uint8_t, float, std::string, float> getInfos();
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std::tuple<uint8_t, float, std::string, float, uint16_t, float> getInfos();
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const std::string formatTimeRemaining(float hoursRemaining);
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const std::string formatTimeRemaining(float hoursRemaining);
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void setBarClass(std::string&);
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void setBarClass(std::string&);
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@ -119,6 +119,10 @@ The *battery* module displays the current capacity and state (eg. charging) of y
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*{time}*: Estimate of time until full or empty. Note that this is based on the power draw at the last refresh time, not an average.
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*{time}*: Estimate of time until full or empty. Note that this is based on the power draw at the last refresh time, not an average.
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*{cycles}*: Amount of charge cycles the highest-capacity battery has seen. *(Linux only)*
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*{health}*: The percentage of the highest-capacity battery's original maximum charge it can still hold.
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# TIME FORMAT
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# TIME FORMAT
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The *battery* module allows you to define how time should be formatted via *format-time*.
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The *battery* module allows you to define how time should be formatted via *format-time*.
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@ -181,7 +181,7 @@ static bool status_gt(const std::string& a, const std::string& b) {
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return false;
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return false;
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}
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}
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const std::tuple<uint8_t, float, std::string, float> waybar::modules::Battery::getInfos() {
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std::tuple<uint8_t, float, std::string, float, uint16_t, float> waybar::modules::Battery::getInfos() {
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std::lock_guard<std::mutex> guard(battery_list_mutex_);
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std::lock_guard<std::mutex> guard(battery_list_mutex_);
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try {
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try {
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@ -234,7 +234,7 @@ const std::tuple<uint8_t, float, std::string, float> waybar::modules::Battery::g
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}
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}
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// spdlog::info("{} {} {} {}", capacity,time,status,rate);
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// spdlog::info("{} {} {} {}", capacity,time,status,rate);
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return {capacity, time / 60.0, status, rate};
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return {capacity, time / 60.0, status, rate, 0, 0.0F};
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#elif defined(__linux__)
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#elif defined(__linux__)
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uint32_t total_power = 0; // μW
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uint32_t total_power = 0; // μW
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@ -252,6 +252,10 @@ const std::tuple<uint8_t, float, std::string, float> waybar::modules::Battery::g
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uint32_t time_to_full_now = 0;
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uint32_t time_to_full_now = 0;
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bool time_to_full_now_exists = false;
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bool time_to_full_now_exists = false;
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uint32_t largestDesignCapacity = 0;
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uint16_t mainBatCycleCount = 0;
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float mainBatHealthPercent = 0.0F;
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std::string status = "Unknown";
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std::string status = "Unknown";
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for (auto const& item : batteries_) {
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for (auto const& item : batteries_) {
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auto bat = item.first;
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auto bat = item.first;
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@ -353,6 +357,25 @@ const std::tuple<uint8_t, float, std::string, float> waybar::modules::Battery::g
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std::ifstream(bat / "energy_full_design") >> energy_full_design;
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std::ifstream(bat / "energy_full_design") >> energy_full_design;
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}
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}
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uint16_t cycleCount = 0;
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if (fs::exists(bat / "cycle_count")) {
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std::ifstream(bat / "cycle_count") >> cycleCount;
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}
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if (charge_full_design >= largestDesignCapacity) {
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largestDesignCapacity = charge_full_design;
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if (cycleCount > mainBatCycleCount) {
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mainBatCycleCount = cycleCount;
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}
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if (charge_full_exists && charge_full_design_exists) {
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float batHealthPercent = ((float)charge_full / charge_full_design) * 100;
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if (mainBatHealthPercent == 0.0f || batHealthPercent < mainBatHealthPercent) {
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mainBatHealthPercent = batHealthPercent;
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}
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}
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}
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if (!voltage_now_exists) {
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if (!voltage_now_exists) {
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if (power_now_exists && current_now_exists && current_now != 0) {
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if (power_now_exists && current_now_exists && current_now != 0) {
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voltage_now_exists = true;
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voltage_now_exists = true;
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@ -573,11 +596,11 @@ const std::tuple<uint8_t, float, std::string, float> waybar::modules::Battery::g
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// still charging but not yet done
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// still charging but not yet done
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if (cap == 100 && status == "Charging") status = "Full";
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if (cap == 100 && status == "Charging") status = "Full";
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return {cap, time_remaining, status, total_power / 1e6};
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return {cap, time_remaining, status, total_power / 1e6, mainBatCycleCount, mainBatHealthPercent};
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#endif
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#endif
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} catch (const std::exception& e) {
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} catch (const std::exception& e) {
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spdlog::error("Battery: {}", e.what());
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spdlog::error("Battery: {}", e.what());
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return {0, 0, "Unknown", 0};
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return {0, 0, "Unknown", 0, 0, 0.0f};
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}
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}
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}
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}
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@ -633,7 +656,7 @@ auto waybar::modules::Battery::update() -> void {
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return;
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return;
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}
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}
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#endif
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#endif
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auto [capacity, time_remaining, status, power] = getInfos();
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auto [capacity, time_remaining, status, power, cycles, health] = getInfos();
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if (status == "Unknown") {
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if (status == "Unknown") {
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status = getAdapterStatus(capacity);
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status = getAdapterStatus(capacity);
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}
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}
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@ -666,7 +689,9 @@ auto waybar::modules::Battery::update() -> void {
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label_.set_tooltip_text(fmt::format(fmt::runtime(tooltip_format),
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label_.set_tooltip_text(fmt::format(fmt::runtime(tooltip_format),
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fmt::arg("timeTo", tooltip_text_default),
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fmt::arg("timeTo", tooltip_text_default),
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fmt::arg("power", power), fmt::arg("capacity", capacity),
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fmt::arg("power", power), fmt::arg("capacity", capacity),
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fmt::arg("time", time_remaining_formatted)));
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fmt::arg("time", time_remaining_formatted),
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fmt::arg("cycles", cycles),
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fmt::arg("health", fmt::format("{:.3}", health))));
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}
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}
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if (!old_status_.empty()) {
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if (!old_status_.empty()) {
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label_.get_style_context()->remove_class(old_status_);
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label_.get_style_context()->remove_class(old_status_);
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@ -687,7 +712,8 @@ auto waybar::modules::Battery::update() -> void {
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auto icons = std::vector<std::string>{status + "-" + state, status, state};
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auto icons = std::vector<std::string>{status + "-" + state, status, state};
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label_.set_markup(fmt::format(
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label_.set_markup(fmt::format(
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fmt::runtime(format), fmt::arg("capacity", capacity), fmt::arg("power", power),
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fmt::runtime(format), fmt::arg("capacity", capacity), fmt::arg("power", power),
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fmt::arg("icon", getIcon(capacity, icons)), fmt::arg("time", time_remaining_formatted)));
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fmt::arg("icon", getIcon(capacity, icons)), fmt::arg("time", time_remaining_formatted),
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fmt::arg("cycles", cycles)));
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}
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}
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// Call parent update
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// Call parent update
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ALabel::update();
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ALabel::update();
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