231 lines
7.2 KiB
Python
231 lines
7.2 KiB
Python
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import logging
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import gobject
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from datetime import datetime, timedelta, time
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from itertools import izip, imap
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from functools import partial
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# Victron packages
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from ve_utils import exit_on_error
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from delegates.base import SystemCalcDelegate
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from delegates.batterylife import BatteryLife, BLPATH
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from delegates.batterylife import State as BatteryLifeState
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from delegates.dvcc import Dvcc
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HUB4_SERVICE = 'com.victronenergy.hub4'
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# Number of scheduled charge slots
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NUM_SCHEDULES = 5
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def prev_week_day(adate, w):
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""" finds the previous w-day of the week before adate.
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Sun=0 or 7, Sat=6, that is what unix uses. """
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w %= 7
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return adate - timedelta(days=(adate.weekday()+7-w) % 7 + 1)
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def next_week_day(adate, w):
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""" Finds the next w-day after or equal to adate.
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Sun=0 or 7, Sat=6, that is what unix uses. """
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w %= 7
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return adate + timedelta(days=(w - adate.weekday() - 1) % 7)
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def next_schedule_day(adate, w):
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if w < 7:
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# A specific week day
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return next_week_day(adate, w)
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elif w == 7:
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# 7 days a week
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return adate
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elif w == 8:
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# week days
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if adate.weekday() > 4:
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return next_week_day(adate, 1) # Monday
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return adate
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# w >=9, weekend days
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if adate.weekday() < 5:
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return next_week_day(adate, 6) # Saturday
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return adate
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def prev_schedule_day(adate, w):
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if w < 7:
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# A specific week day
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return prev_week_day(adate, w)
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elif w == 7:
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# 7 days a week
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return adate - timedelta(days=1)
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elif w == 8:
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# week days
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if adate.weekday() in (0, 6):
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return prev_week_day(adate, 5) # Mon,Sun preceded by Friday
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return adate - timedelta(days=1)
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# w >= 9, weekend days
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if 0 < adate.weekday() < 5:
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return prev_week_day(adate, 0) # Sunday
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return adate - timedelta(days=1)
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class ScheduledWindow(object):
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def __init__(self, starttime, duration):
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self.start = starttime
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self.stop = self.start + timedelta(seconds=duration)
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def __contains__(self, t):
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return self.start <= t < self.stop
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def __eq__(self, other):
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return self.start == other.start and self.stop == other.stop
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def __repr__(self):
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return "Start: {}, Stop: {}".format(self.start, self.stop)
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class ScheduledChargeWindow(ScheduledWindow):
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def __init__(self, starttime, duration, soc):
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super(ScheduledChargeWindow, self).__init__(starttime, duration)
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self.soc = soc
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def soc_reached(self, s):
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return s >= self.soc
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def __repr__(self):
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return "Start charge: {}, Stop: {}, Soc: {}".format(
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self.start, self.stop, self.soc)
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class ScheduledCharging(SystemCalcDelegate):
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""" Let the system do other things based on time schedule. """
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_get_time = datetime.now
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def __init__(self):
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super(ScheduledCharging, self).__init__()
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self.soc = None
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self.pvpower = 0
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self.active = False
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self.hysteresis = True
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self.socreached = False
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self._timer = gobject.timeout_add(5000, exit_on_error, self._on_timer)
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def set_sources(self, dbusmonitor, settings, dbusservice):
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SystemCalcDelegate.set_sources(self, dbusmonitor, settings, dbusservice)
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self._dbusservice.add_path('/Control/ScheduledCharge', value=0)
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def get_input(self):
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return [
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(HUB4_SERVICE, ['/Overrides/ForceCharge', '/Overrides/MaxDischargePower'])
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]
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def settings_changed(self, setting, oldvalue, newvalue):
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if setting.startswith("schedule_soc_"):
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# target SOC was modified. Disable the hysteresis on the next
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# run.
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self.hysteresis = False
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def get_settings(self):
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settings = []
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# Paths for scheduled charging. We'll allow 5 for now.
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for i in range(NUM_SCHEDULES):
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settings.append(("schedule_day_{}".format(i),
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BLPATH + "/Schedule/Charge/{}/Day".format(i), -7, -10, 9))
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settings.append(("schedule_start_{}".format(i),
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BLPATH + "/Schedule/Charge/{}/Start".format(i), 0, 0, 0))
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settings.append(("schedule_duration_{}".format(i),
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BLPATH + "/Schedule/Charge/{}/Duration".format(i), 0, 0, 0))
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settings.append(("schedule_soc_{}".format(i),
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BLPATH + "/Schedule/Charge/{}/Soc".format(i), 100, 0, 100))
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return settings
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@classmethod
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def _charge_windows(klass, today, days, starttimes, durations, stopsocs):
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starttimes = (time(x/3600, x/60 % 60, x % 60) for x in starttimes)
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for d, starttime, duration, soc in izip(days, starttimes, durations, stopsocs):
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if d >= 0:
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d0 = prev_schedule_day(today, d)
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d1 = next_schedule_day(today, d)
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yield ScheduledChargeWindow(
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datetime.combine(d0, starttime), duration, soc)
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yield ScheduledChargeWindow(
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datetime.combine(d1, starttime), duration, soc)
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def charge_windows(self, today):
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days = (self._settings['schedule_day_{}'.format(i)] for i in range(NUM_SCHEDULES))
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starttimes = (self._settings['schedule_start_{}'.format(i)] for i in range(NUM_SCHEDULES))
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durations = (self._settings['schedule_duration_{}'.format(i)] for i in range(NUM_SCHEDULES))
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stopsocs = (self._settings['schedule_soc_{}'.format(i)] for i in range(NUM_SCHEDULES))
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return self._charge_windows(today, days, starttimes, durations, stopsocs)
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@property
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def forcecharge(self):
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return self._dbusmonitor.get_value(HUB4_SERVICE, '/Overrides/ForceCharge')
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@forcecharge.setter
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def forcecharge(self, v):
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return self._dbusmonitor.set_value_async(HUB4_SERVICE,
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'/Overrides/ForceCharge', 1 if v else 0)
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@property
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def maxdischargepower(self):
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return self._dbusmonitor.get_value(HUB4_SERVICE, '/Overrides/MaxDischargePower')
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@maxdischargepower.setter
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def maxdischargepower(self, v):
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return self._dbusmonitor.set_value_async(HUB4_SERVICE, '/Overrides/MaxDischargePower', v)
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def _on_timer(self):
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if self.soc is None:
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return True
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if not Dvcc.instance.has_ess_assistant:
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return True
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if BatteryLife.instance.state == BatteryLifeState.KeepCharged:
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self._dbusservice['/Control/ScheduledCharge'] = 0
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return True
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now = self._get_time()
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today = now.date()
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for w in self.charge_windows(today):
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if now in w:
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if w.soc_reached(self.soc):
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self.forcecharge = False
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self.socreached = True
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# elif self.hysteresis and w.soc_reached(self.soc + 5):
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# If we are within 5%, keep it the same, but write it to
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# avoid a timeout.
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#self.forcecharge = self.forcecharge
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elif not self.socreached:
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# SoC not reached yet
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# Note: soc_reached always returns False for a target of
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# 100%, so this is the only branch that is ever excuted
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# in those cases.
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self.forcecharge = True
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# Signal that scheduled charging is active
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self.active = True
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# The discharge is limited to 1W or whatever is available
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# from PV. 1W essentially disables discharge without
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# disabling feed-in, so Power-Assist and feeding in
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# the excess continues to work. Setting this to the pv-power
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# causes it to directly consume the PV for loads and charge
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# only with the excess. Scale it between 80% and 93%
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# of PV-power depending on the SOC.
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scale = 0.8 + min(max(0, self.soc - w.soc), 1.3)*0.1
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self.maxdischargepower = max(1, round(self.pvpower*scale))
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break
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else:
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self.forcecharge = False
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self.maxdischargepower = -1
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self.active = False
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self.socreached=False
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self._dbusservice['/Control/ScheduledCharge'] = int(self.active)
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self.hysteresis = True
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return True
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def update_values(self, newvalues):
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self.soc = newvalues.get('/Dc/Battery/Soc')
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self.pvpower = max(newvalues.get('/Dc/Pv/Power'), 0)
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