polybar-dwm/src/modules/cpu.cpp

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#include <fstream>
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#include <istream>
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#include "modules/cpu.hpp"
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#include "drawtypes/label.hpp"
#include "drawtypes/progressbar.hpp"
#include "drawtypes/ramp.hpp"
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#include "utils/math.hpp"
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#include "modules/meta/base.inl"
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POLYBAR_NS
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namespace modules {
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template class module<cpu_module>;
cpu_module::cpu_module(const bar_settings& bar, string name_) : timer_module<cpu_module>(bar, move(name_)) {
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m_interval = m_conf.get<decltype(m_interval)>(name(), "interval", 1s);
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m_ramp_padding = m_conf.get<decltype(m_ramp_padding)>(name(), "ramp-coreload-spacing", 1);
m_formatter->add(DEFAULT_FORMAT, TAG_LABEL, {TAG_LABEL, TAG_BAR_LOAD, TAG_RAMP_LOAD, TAG_RAMP_LOAD_PER_CORE});
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// warmup cpu times
read_values();
read_values();
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if (m_formatter->has(TAG_BAR_LOAD)) {
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m_barload = load_progressbar(m_bar, m_conf, name(), TAG_BAR_LOAD);
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}
if (m_formatter->has(TAG_RAMP_LOAD)) {
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m_rampload = load_ramp(m_conf, name(), TAG_RAMP_LOAD);
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}
if (m_formatter->has(TAG_RAMP_LOAD_PER_CORE)) {
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m_rampload_core = load_ramp(m_conf, name(), TAG_RAMP_LOAD_PER_CORE);
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}
if (m_formatter->has(TAG_LABEL)) {
m_label = load_optional_label(m_conf, name(), TAG_LABEL, "%percentage%%");
}
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}
bool cpu_module::update() {
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if (!read_values()) {
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return false;
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}
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m_total = 0.0f;
m_load.clear();
auto cores_n = m_cputimes.size();
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if (!cores_n) {
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return false;
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}
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vector<string> percentage_cores;
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for (size_t i = 0; i < cores_n; i++) {
auto load = get_load(i);
m_total += load;
m_load.emplace_back(load);
if (m_label) {
percentage_cores.emplace_back(to_string(static_cast<int>(load + 0.5)));
}
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}
m_total = m_total / static_cast<float>(cores_n);
if (m_label) {
m_label->reset_tokens();
m_label->replace_token("%percentage%", to_string(static_cast<int>(m_total + 0.5)));
m_label->replace_token("%percentage-cores%", string_util::join(percentage_cores, "% ") + "%");
for (size_t i = 0; i < percentage_cores.size(); i++) {
m_label->replace_token("%percentage-core" + to_string(i + 1) + "%", percentage_cores[i]);
}
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}
return true;
}
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bool cpu_module::build(builder* builder, const string& tag) const {
if (tag == TAG_LABEL) {
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builder->node(m_label);
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} else if (tag == TAG_BAR_LOAD) {
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builder->node(m_barload->output(m_total));
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} else if (tag == TAG_RAMP_LOAD) {
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builder->node(m_rampload->get_by_percentage(m_total));
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} else if (tag == TAG_RAMP_LOAD_PER_CORE) {
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auto i = 0;
for (auto&& load : m_load) {
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if (i++ > 0) {
builder->space(m_ramp_padding);
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}
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builder->node(m_rampload_core->get_by_percentage(load));
}
builder->node(builder->flush());
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} else {
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return false;
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}
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return true;
}
bool cpu_module::read_values() {
m_cputimes_prev.swap(m_cputimes);
m_cputimes.clear();
try {
std::ifstream in(PATH_CPU_INFO);
string str;
while (std::getline(in, str) && str.compare(0, 3, "cpu") == 0) {
// skip line with accumulated value
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if (str.compare(0, 4, "cpu ") == 0) {
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continue;
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}
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auto values = string_util::split(str, ' ');
m_cputimes.emplace_back(new cpu_time);
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m_cputimes.back()->user = std::stoull(values[1], nullptr, 10);
m_cputimes.back()->nice = std::stoull(values[2], nullptr, 10);
m_cputimes.back()->system = std::stoull(values[3], nullptr, 10);
m_cputimes.back()->idle = std::stoull(values[4], nullptr, 10);
m_cputimes.back()->total =
m_cputimes.back()->user + m_cputimes.back()->nice + m_cputimes.back()->system + m_cputimes.back()->idle;
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}
} catch (const std::ios_base::failure& e) {
m_log.err("Failed to read CPU values (what: %s)", e.what());
}
return !m_cputimes.empty();
}
float cpu_module::get_load(size_t core) const {
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if (m_cputimes.empty() || m_cputimes_prev.empty()) {
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return 0;
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} else if (core >= m_cputimes.size() || core >= m_cputimes_prev.size()) {
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return 0;
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}
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auto& last = m_cputimes[core];
auto& prev = m_cputimes_prev[core];
auto last_idle = last->idle;
auto prev_idle = prev->idle;
auto diff = last->total - prev->total;
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if (diff == 0) {
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return 0;
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}
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float percentage = 100.0f * (diff - (last_idle - prev_idle)) / diff;
return math_util::cap<float>(percentage, 0, 100);
}
}
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POLYBAR_NS_END