- local present = first_line("/sys/class/power_supply/"
- .. battery
- .. "/present")
-
- if present == "1"
- then
- local rate = first_line("/sys/class/power_supply/"
- .. battery ..
- "/power_now")
- local ratev = first_line("/sys/class/power_supply/"
- .. battery ..
- "/voltage_now")
- local rem = first_line("/sys/class/power_supply/"
- .. battery ..
- "/energy_now")
- local tot = first_line("/sys/class/power_supply/"
- .. battery ..
- "/energy_full")
- bat_now.status = first_line("/sys/class/power_supply/"
- .. battery ..
- "/status")
-
- local time_rat = 0
- if bat_now.status == "Charging"
- then
- time_rat = (tot - rem) / rate
- elseif bat_now.status == "Discharging"
- then
- time_rat = rem / rate
+ local sum_rate_current = 0
+ local sum_rate_voltage = 0
+ local sum_rate_power = 0
+ local sum_rate_energy = 0
+ local sum_energy_now = 0
+ local sum_energy_full = 0
+ local pspath = "/sys/class/power_supply/"
+
+ for i, battery in ipairs(batteries) do
+ local bstr = pspath .. battery
+ local present = first_line(bstr .. "/present")
+
+ if tonumber(present) == 1 then
+ -- current_now(I)[uA], voltage_now(U)[uV], power_now(P)[uW]
+ local rate_current = tonumber(first_line(bstr .. "/current_now"))
+ local rate_voltage = tonumber(first_line(bstr .. "/voltage_now"))
+ local rate_power = tonumber(first_line(bstr .. "/power_now"))
+
+ -- energy_now(P)[uWh], charge_now(I)[uAh]
+ local energy_now = tonumber(first_line(bstr .. "/energy_now") or
+ first_line(bstr .. "/charge_now"))
+
+ -- energy_full(P)[uWh], charge_full(I)[uAh]
+ local energy_full = tonumber(first_line(bstr .. "/energy_full") or
+ first_line(bstr .. "/charge_full"))
+
+ local energy_percentage = tonumber(first_line(bstr .. "/capacity")) or
+ math.floor((energy_now / energy_full) * 100)
+
+ bat_now.n_status[i] = first_line(bstr .. "/status") or "N/A"
+ bat_now.n_perc[i] = energy_percentage or bat_now.n_perc[i]
+
+ sum_rate_current = sum_rate_current + (rate_current or 0)
+ sum_rate_voltage = sum_rate_voltage + (rate_voltage or 0)
+ sum_rate_power = sum_rate_power + (rate_power or 0)
+ sum_rate_energy = sum_rate_energy + (rate_power or (((rate_voltage or 0) * (rate_current or 0)) / 1e6))
+ sum_energy_now = sum_energy_now + (energy_now or 0)
+ sum_energy_full = sum_energy_full + (energy_full or 0)