# pylint: disable=C0111,R0903
"""Displays battery status, remaining percentage and charging information.
Parameters:
* battery.device : Comma-separated list of battery devices to read information from (defaults to auto for auto-detection)
* battery.warning : Warning threshold in % of remaining charge (defaults to 20)
* battery.critical : Critical threshold in % of remaining charge (defaults to 10)
"""
import os
import glob
import bumblebee.input
import bumblebee.output
import bumblebee.engine
import bumblebee.util
try:
import power
except ImportError:
pass
class Module(bumblebee.engine.Module):
def __init__(self, engine, config):
self._batteries = []
# TODO: list all batteries
self._batteries.append("/sys/class/power_supply/BAT0")
self._batteries.append("/sys/class/power_supply/BAT1")
self._batteries.append("/sys/class/power_supply/battery")
super(Module, self).__init__(engine, config, bumblebee.output.Widget(full_text=self.capacity))
engine.input.register_callback(self, button=bumblebee.input.LEFT_MOUSE,
cmd="gnome-power-statistics")
def remaining(self):
estimate = 0.0
power_now = 0.0
try:
estimate = power.PowerManagement().get_time_remaining_estimate()
# do not show remaining if on AC
if estimate == power.common.TIME_REMAINING_UNLIMITED:
return None
elif estimate == power.common.TIME_REMAINING_UNKNOWN:
return ""
else:
for path in self._batteries:
try:
with open("{}/power_now".format(path)) as o:
power_now += int(o.read())
except IOError:
return "n/a"
except Exception:
errors += 1
estimate = float( self.energy_now / power_now)
except Exception:
return ""
return bumblebee.util.durationfmt(estimate*60, shorten=True, suffix=True) # estimate is in minutes
def capacity(self, widget):
widget.set("capacity", -1)
widget.set("ac", False)
capacity = 100
self.energy_now = 0
self.energy_full = 0
errors = 0
for path in self._batteries:
try:
with open("{}/energy_full".format(path)) as f:
self.energy_full += int(f.read())
with open("{}/energy_now".format(path)) as o:
self.energy_now += int(o.read())
except IOError:
return "n/a"
except Exception:
errors += 1
if errors == len(self._batteries):
# if all batteries return errors, but we are still running
# assume we are on A/C
widget.set("ac", True)
widget.set("capacity", 100)
return "ac"
capacity = int( self.energy_now / self.energy_full * 100)
capacity = capacity if capacity < 100 else 100
widget.set("capacity", capacity)
output = "{}%".format(capacity)
widget.set("theme.minwidth", "100%")
if bumblebee.util.asbool(self.parameter("showremaining", True))\
and self.getCharge(widget) == "Discharging":
output = "{} {}".format(output, self.remaining())
return output
def state(self, widget):
state = []
capacity = widget.get("capacity")
if capacity < 0:
return ["critical", "unknown"]
if capacity < int(self.parameter("critical", 10)):
state.append("critical")
elif capacity < int(self.parameter("warning", 20)):
state.append("warning")
if widget.get("ac"):
state.append("AC")
else:
charge = self.getCharge(widget)
if charge == "Discharging":
state.append("discharging-{}".format(min([10, 25, 50, 80, 100], key=lambda i: abs(i-capacity))))
elif charge == "Unknown":
state.append("unknown-{}".format(min([10, 25, 50, 80, 100], key=lambda i: abs(i-capacity))))
else:
if capacity > 95:
state.append("charged")
else:
state.append("charging")
return state
def getCharge(self, widget):
charge = ""
charge_list = []
for x in range(len(self._batteries)):
try:
with open("{}/status".format(self._batteries[x])) as f:
charge_list.append(f.read().strip())
except IOError:
pass
for x in range(len(charge_list)):
if charge_list[x] == "Discharging":
charge = charge_list[x]
break
return charge