110 lines
3.8 KiB
C++
110 lines
3.8 KiB
C++
#include "modules/cpu.hpp"
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// In the 80000 version of fmt library authors decided to optimize imports
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// and moved declarations required for fmt::dynamic_format_arg_store in new
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// header fmt/args.h
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#if (FMT_VERSION >= 80000)
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#include <fmt/args.h>
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#else
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#include <fmt/core.h>
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#endif
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waybar::modules::Cpu::Cpu(const std::string& id, const Json::Value& config)
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: ALabel(config, "cpu", id, "{usage}%", 10) {
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thread_ = [this] {
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dp.emit();
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thread_.sleep_for(interval_);
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};
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}
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auto waybar::modules::Cpu::update() -> void {
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// TODO: as creating dynamic fmt::arg arrays is buggy we have to calc both
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auto cpu_load = getCpuLoad();
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auto [cpu_usage, tooltip] = getCpuUsage();
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auto [max_frequency, min_frequency, avg_frequency] = getCpuFrequency();
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if (tooltipEnabled()) {
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label_.set_tooltip_text(tooltip);
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}
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auto format = format_;
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auto total_usage = cpu_usage.empty() ? 0 : cpu_usage[0];
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auto state = getState(total_usage);
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if (!state.empty() && config_["format-" + state].isString()) {
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format = config_["format-" + state].asString();
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}
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if (format.empty()) {
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event_box_.hide();
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} else {
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event_box_.show();
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auto icons = std::vector<std::string>{state};
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fmt::dynamic_format_arg_store<fmt::format_context> store;
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store.push_back(fmt::arg("load", cpu_load));
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store.push_back(fmt::arg("usage", total_usage));
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store.push_back(fmt::arg("icon", getIcon(total_usage, icons)));
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store.push_back(fmt::arg("max_frequency", max_frequency));
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store.push_back(fmt::arg("min_frequency", min_frequency));
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store.push_back(fmt::arg("avg_frequency", avg_frequency));
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for (size_t i = 1; i < cpu_usage.size(); ++i) {
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auto core_i = i - 1;
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auto core_format = fmt::format("usage{}", core_i);
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store.push_back(fmt::arg(core_format.c_str(), cpu_usage[i]));
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auto icon_format = fmt::format("icon{}", core_i);
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store.push_back(fmt::arg(icon_format.c_str(), getIcon(cpu_usage[i], icons)));
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}
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label_.set_markup(fmt::vformat(format, store));
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}
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// Call parent update
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ALabel::update();
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}
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double waybar::modules::Cpu::getCpuLoad() {
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double load[1];
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if (getloadavg(load, 1) != -1) {
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return std::ceil(load[0] * 100.0) / 100.0;
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}
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throw std::runtime_error("Can't get Cpu load");
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}
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std::tuple<std::vector<uint16_t>, std::string> waybar::modules::Cpu::getCpuUsage() {
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if (prev_times_.empty()) {
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prev_times_ = parseCpuinfo();
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std::this_thread::sleep_for(std::chrono::milliseconds(100));
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}
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std::vector<std::tuple<size_t, size_t>> curr_times = parseCpuinfo();
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std::string tooltip;
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std::vector<uint16_t> usage;
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for (size_t i = 0; i < curr_times.size(); ++i) {
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auto [curr_idle, curr_total] = curr_times[i];
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auto [prev_idle, prev_total] = prev_times_[i];
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const float delta_idle = curr_idle - prev_idle;
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const float delta_total = curr_total - prev_total;
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uint16_t tmp = 100 * (1 - delta_idle / delta_total);
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if (i == 0) {
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tooltip = fmt::format("Total: {}%", tmp);
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} else {
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tooltip = tooltip + fmt::format("\nCore{}: {}%", i - 1, tmp);
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}
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usage.push_back(tmp);
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}
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prev_times_ = curr_times;
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return {usage, tooltip};
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}
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std::tuple<float, float, float> waybar::modules::Cpu::getCpuFrequency() {
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std::vector<float> frequencies = parseCpuFrequencies();
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if (frequencies.empty()) {
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return {0.f, 0.f, 0.f};
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}
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auto [min, max] = std::minmax_element(std::begin(frequencies), std::end(frequencies));
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float avg_frequency =
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std::accumulate(std::begin(frequencies), std::end(frequencies), 0.0) / frequencies.size();
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// Round frequencies with double decimal precision to get GHz
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float max_frequency = std::ceil(*max / 10.0) / 100.0;
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float min_frequency = std::ceil(*min / 10.0) / 100.0;
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avg_frequency = std::ceil(avg_frequency / 10.0) / 100.0;
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return {max_frequency, min_frequency, avg_frequency};
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}
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