# 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) * battery.showdevice : If set to "true", add the device name to the widget (defaults to False) """ 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): widgets = [] super(Module, self).__init__(engine, config, widgets) self._batteries = self.parameter("device", "auto").split(",") if self._batteries[0] == "auto": self._batteries = glob.glob("/sys/class/power_supply/BAT*") else: self._batteries = [ "/sys/class/power_supply/{}".format(b) for b in self._batteries ] if len(self._batteries) == 0: self._batteries = [ "/sys/class/power_supply/BAT0" ] self._estimate = "n/a" self.update(widgets) engine.input.register_callback(self, button=bumblebee.input.LEFT_MOUSE, cmd="gnome-power-statistics") def update(self, widgets): new_widgets = [] for path in self._batteries: widget = self.widget(path) if not widget: widget = bumblebee.output.Widget(full_text=self.capacity, name=path) new_widgets.append(widget) self.capacity(widget) while len(widgets) > 0: del widgets[0] for widget in new_widgets: widgets.append(widget) self._widgets = widgets if bumblebee.util.asbool(self.parameter("showremaining", False)): self._widgets.append(bumblebee.output.Widget(full_text=self.remaining)) self._widgets[-1].set("type", "remaining") try: type = power.PowerManagement().get_providing_power_source_type() estimate = power.PowerManagement().get_time_remaining_estimate() if type == power.POWER_TYPE_AC and estimate == -2.0: self._estimate = "Unlimited" elif estimate == -1.0: self._estimate = "Unknown" else: self._estimate = str(round(estimate / 60, 1)) + ' h' except Exception as e: self._estimate = "n/a" def remaining(self, widget): return str(self._estimate) def capacity(self, widget): widget.set("capacity", -1) widget.set("ac", False) if not os.path.exists(widget.name): widget.set("capacity", 100) widget.set("ac", True) return "ac" capacity = 100 try: with open("{}/capacity".format(widget.name)) as f: capacity = int(f.read()) except IOError: return "n/a" capacity = capacity if capacity < 100 else 100 widget.set("capacity", capacity) if bumblebee.util.asbool(self.parameter("showdevice", False)): widget.set("theme.minwidth", "100% ({})".format(os.path.basename(widget.name))) return "{}% ({})".format(capacity, os.path.basename(widget.name)) widget.set("theme.minwidth", "100%") return "{}%".format(capacity) def state(self, widget): state = [] if widget.get("type", "battery") == "remaining": if self._estimate == "Unlimited": return "unlimited" return "estimate" 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 = "" with open("{}/status".format(widget.name)) as f: charge = f.read().strip() if charge == "Discharging": state.append("discharging-{}".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 # vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4