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Add support for multiple batteries

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This commit is contained in:
Mikael Knutsson 2015-05-07 01:11:49 +02:00 committed by enkore
parent e50a893aa3
commit 2251889855
1 changed files with 90 additions and 16 deletions
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102
i3pystatus/battery.py
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@ -1,6 +1,7 @@
#!/usr/bin/env python
# -*- coding: utf-8 -*-
import os
import re
import configparser
@ -74,6 +75,12 @@ class BatteryCharge(Battery):
def _percentage(self, design):
return self.battery_info["CHARGE_NOW"] / self.battery_info["CHARGE_FULL" + design]
def wh_remaining(self):
return self.battery_info['CHARGE_NOW'] * self.battery_info['VOLTAGE_NOW']
def wh_depleted(self):
return (self.battery_info['CHARGE_FULL'] - self.battery_info['CHARGE_NOW']) * self.battery_info['VOLTAGE_NOW']
def remaining(self):
if self.status() == "Discharging":
if "CHARGE_NOW" in self.battery_info and "CURRENT_NOW" in self.battery_info:
@ -93,6 +100,12 @@ class BatteryEnergy(Battery):
def _percentage(self, design):
return self.battery_info["ENERGY_NOW"] / self.battery_info["ENERGY_FULL" + design]
def wh_remaining(self):
return self.battery_info['ENERGY_NOW']
def wh_depleted(self):
return self.battery_info['ENERGY_FULL'] - self.battery_info['ENERGY_NOW']
def remaining(self):
if self.status() == "Discharging":
# Wh / W = h * 60 min = min
@ -114,6 +127,7 @@ class BatteryChecker(IntervalModule):
* `{percentage_design}` absolute battery charge percentage
* `{consumption (Watts)}` current power flowing into/out of the battery
* `{status}`
# `{no_of_batteries}` — The number of batteries included
* `{battery_ident}` the same as the setting
* `{bar}` bar displaying the percentage graphically
"""
@ -133,10 +147,11 @@ class BatteryChecker(IntervalModule):
("charging_color", "The charging color"),
("critical_color", "The critical color"),
("not_present_color", "The not present color."),
("no_present_text", "The text to display when the battery is not present. Provides {battery_ident} as formatting option"),
("no_text_full", "Don't display text when battery is full - 100%"),
)
battery_ident = "BAT0"
battery_ident = "ALL"
format = "{status} {remaining}"
status = {
"DPL": "DPL",
@ -144,7 +159,7 @@ class BatteryChecker(IntervalModule):
"DIS": "DIS",
"FULL": "FULL",
}
not_present_text = "Battery not present"
not_present_text = "Battery {battery_ident} not present"
alert = False
alert_percentage = 10
@ -158,21 +173,73 @@ class BatteryChecker(IntervalModule):
no_text_full = False
path = None
paths = []
def percentage(self, batteries, design=False):
total = 0
for battery in batteries:
total += battery.percentage(design)
return total / len(batteries)
def consumption(self, batteries):
return sum([bat.consumption() for bat in batteries])
def abs_consumption(self, batteries):
abs_consumption = 0
for battery in batteries:
if battery.status() == 'Discharging':
abs_consumption -= battery.consumption()
elif battery.status() == 'Charging':
abs_consumption += battery.consumption()
return abs_consumption
def battery_status(self, batteries):
abs_consumption = self.abs_consumption(batteries)
if abs_consumption > 0:
return 'Charging'
if abs_consumption < 0:
return 'Discharging'
else:
return batteries.pop().status()
def remaining(self, batteries):
wh_depleted = 0
wh_remaining = 0
abs_consumption = self.abs_consumption(batteries)
for battery in batteries:
wh_remaining += battery.wh_remaining()
wh_depleted += battery.wh_depleted()
if abs_consumption == 0:
return 0
elif abs_consumption > 0:
return wh_depleted / self.consumption(batteries) * 60
elif abs_consumption < 0:
return wh_remaining / self.consumption(batteries) * 60
def init(self):
if not self.path:
self.path = "/sys/class/power_supply/{0}/uevent".format(
self.battery_ident)
if not self.paths:
bat_dir = '/sys/class/power_supply'
_, dirs, _ = next(os.walk(bat_dir))
all_bats = [x for x in dirs if x.startswith('BAT')]
for bat in all_bats:
self.paths.append(os.path.join(bat_dir, bat, 'uevent'))
def run(self):
urgent = False
color = self.color
batteries = []
for path in self.paths:
if self.battery_ident == 'ALL' or path.find(self.battery_ident) >= 0:
try:
battery = Battery.create(self.path)
batteries.append(Battery.create(path))
except FileNotFoundError:
pass
if not batteries:
format_dict = {'battery_ident': self.battery_ident}
self.output = {
"full_text": self.not_present_text,
"full_text": formatp(self.not_present_text, **format_dict),
"color": self.not_present_color,
}
return
@ -182,23 +249,30 @@ class BatteryChecker(IntervalModule):
"full_text": ""
}
return
if not batteries:
self.output = {
"full_text": self.not_present_text,
"color": self.not_present_color,
}
return
fdict = {
"battery_ident": self.battery_ident,
"percentage": battery.percentage(),
"percentage_design": battery.percentage(design=True),
"consumption": battery.consumption(),
"no_of_batteries": len(batteries),
"percentage": self.percentage(batteries),
"percentage_design": self.percentage(batteries, design=True),
"consumption": self.consumption(batteries),
"remaining": TimeWrapper(0, "%E%h:%M"),
"bar": make_bar(battery.percentage()),
"bar": make_bar(self.percentage(batteries)),
}
status = battery.status()
status = self.battery_status(batteries)
if status in ["Charging", "Discharging"]:
remaining = battery.remaining()
remaining = self.remaining(batteries)
fdict["remaining"] = TimeWrapper(remaining * 60, "%E%h:%M")
if status == "Discharging":
fdict["status"] = "DIS"
if battery.percentage() <= self.alert_percentage:
if self.percentage(batteries) <= self.alert_percentage:
urgent = True
color = self.critical_color
else: