first version of presence simulation with light
This commit is contained in:
Submodule apps/ad_toolbox updated: dbccd2adf6...c71094641b
@@ -26,6 +26,44 @@ home_alarm:
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reset_button: input_button.alarm_reset
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presence_simulation:
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smart_conditions: input_boolean.simulate_presence #and binary_sensor.home_alarm_armed
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target_apps:
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restroom:
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# 5 minutes every 2 hours with 1 hour jitter
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app: light_restroom
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mode: method
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start_payload:
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brightness_pct: 100
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transition: 1
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stop_payload:
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transition: 1
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on_duration_min: 5
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on_jitter_min: 1
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interval_min: 120
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interval_jitter_min: 60
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start_delay_min: 60
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start_delay_jitter_min: 20
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light_living_room:
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# Exemple "bureau toute la soiree": longues periodes allumees le soir
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# on_duration_min / interval_min are optional:
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# if omitted, the app stays active for the whole simulation window
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# (still gated by smart_conditions + time_window).
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app: light_living_room
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status_sensor: binary_sensor.home_alarm_presence_mezzanine
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mode: method
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#smart_conditions: binary_sensor.is_dark_outside
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smart_conditions: input_boolean.simulate_presence
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time_window:
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stop: '23:30'
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stop_jitter_min: 30
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start_payload:
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brightness_pct: 100
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transition: 2
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stop_payload:
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transition: 2
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home_alarm_notifications:
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module: notificationsmanager
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@@ -1,6 +1,7 @@
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import ad_toolbox.smartcondition as SmartCondition
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from ad_toolbox.smartobject import SmartObject
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from datetime import datetime
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import random
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# =============================================================================
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# HomeAlarm — Home intrusion alarm controller
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@@ -209,6 +210,9 @@ class HomeAlarm(SmartObject):
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self.log_error("No smart_conditions configured — alarm will never arm automatically")
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self.alarm_condition = None
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if 'presence_simulation' in self.args:
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self._initialize_presence_simulation()
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# ------------------------------------------------------------------
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# SmartCondition callback
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# ------------------------------------------------------------------
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@@ -256,6 +260,7 @@ class HomeAlarm(SmartObject):
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},
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)
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self._update_intrusion_sensor()
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self._refresh_presence_simulation_state()
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def on_alarm_disarmed(self):
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self.log_info("Alarm DISARMED")
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@@ -278,6 +283,11 @@ class HomeAlarm(SmartObject):
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},
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)
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self._update_intrusion_sensor()
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self._refresh_presence_simulation_state()
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def terminate(self):
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self._stop_presence_simulation(force_disable=True)
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super().terminate()
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# ------------------------------------------------------------------
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# Opening sensor state changes
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@@ -353,6 +363,483 @@ class HomeAlarm(SmartObject):
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# Helpers
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# ------------------------------------------------------------------
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def _initialize_presence_simulation(self):
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self.presence_simulation_cfg = self.args.get('presence_simulation', None)
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self.presence_simulation_slots = {}
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self.presence_simulation_condition = None
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self.presence_simulation_enabled = False
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self.presence_simulation_active_sensor = None
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self.presence_simulation_time_tick_handle = None
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if not isinstance(self.presence_simulation_cfg, dict):
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return
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self.presence_simulation_active_sensor = self.create_entity(
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f"binary_sensor.{self.name}_presence_simulation_active",
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state='off',
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icon='mdi:home-account',
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friendly_name='Presence Simulation Active',
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)
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if 'smart_conditions' in self.presence_simulation_cfg:
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self.presence_simulation_condition = SmartCondition.Evaluator(
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self,
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self.presence_simulation_cfg['smart_conditions'],
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condition_name='presence_simulation',
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on_change_cb=self.on_presence_simulation_condition_change,
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constants=self.constants,
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templates_library=self.templates_library,
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)
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slots_cfg = self.presence_simulation_cfg.get('target_apps', {})
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if not isinstance(slots_cfg, dict):
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self.log_error("presence_simulation.target_apps must be a dictionary")
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slots_cfg = {}
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for slot_name, slot_cfg in slots_cfg.items():
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if not isinstance(slot_cfg, dict):
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self.log_error(f"presence_simulation.target_apps.{slot_name} must be a dictionary")
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continue
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app_name = slot_cfg.get('app')
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if app_name is None:
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app_name = slot_cfg.get('app_name')
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if not isinstance(app_name, str) or app_name == '':
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self.log_error(
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f"presence_simulation.target_apps.{slot_name} requires a non-empty app/app_name"
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)
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continue
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mode = slot_cfg.get('mode', 'method')
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if mode not in ['method', 'event']:
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self.log_error(
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f"presence_simulation.target_apps.{slot_name}.mode must be 'method' or 'event'"
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)
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mode = 'method'
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start_method = slot_cfg.get('start_method', 'start_presence_simulation')
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stop_method = slot_cfg.get('stop_method', 'stop_presence_simulation')
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start_event = slot_cfg.get('start_event', 'presence_simulation_start')
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stop_event = slot_cfg.get('stop_event', 'presence_simulation_stop')
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start_payload = slot_cfg.get('start_payload', slot_cfg.get('payload', {}))
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stop_payload = slot_cfg.get('stop_payload', slot_cfg.get('payload', {}))
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event_data = slot_cfg.get('event_data', {})
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if not isinstance(event_data, dict):
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self.log_error(
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f"presence_simulation.target_apps.{slot_name}.event_data must be a dictionary"
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)
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event_data = {}
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time_window_cfg = slot_cfg.get('time_window', {})
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if not isinstance(time_window_cfg, dict):
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self.log_error(
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f"presence_simulation.target_apps.{slot_name}.time_window must be a dictionary"
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)
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time_window_cfg = {}
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window_start = slot_cfg.get('start_time', time_window_cfg.get('start'))
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window_stop = slot_cfg.get('stop_time', time_window_cfg.get('stop'))
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window_start_jitter_s = self._read_time_window_jitter_s(
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slot_cfg,
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time_window_cfg,
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'start_jitter_min',
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0,
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)
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window_stop_jitter_s = self._read_time_window_jitter_s(
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slot_cfg,
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time_window_cfg,
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'stop_jitter_min',
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0,
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)
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status_sensor = slot_cfg.get(
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'status_sensor',
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f"binary_sensor.{self.name}_presence_{slot_name}",
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)
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sensor_handle = self.create_entity(
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status_sensor,
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state='off',
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icon='mdi:motion-sensor',
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friendly_name=f"Presence Simulation {slot_name.replace('_', ' ').title()}",
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)
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interval_s = self._read_optional_duration_s_from_block(
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slot_cfg,
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'interval',
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)
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on_duration_s = self._read_optional_duration_s_from_block(
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slot_cfg,
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'on_duration',
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)
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interval_jitter_s = self._read_duration_s_from_block(
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slot_cfg,
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'interval_jitter',
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0,
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allow_zero=True,
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)
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on_jitter_s = self._read_duration_s_from_block(
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slot_cfg,
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'on_jitter',
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0,
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allow_zero=True,
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)
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start_delay_s = self._read_duration_s_from_block(
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slot_cfg,
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'start_delay',
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0,
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allow_zero=True,
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)
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start_delay_jitter_s = self._read_duration_s_from_block(
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slot_cfg,
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'start_delay_jitter',
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interval_jitter_s,
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allow_zero=True,
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)
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slot = {
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'name': slot_name,
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'entity_id': status_sensor,
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'entity': sensor_handle,
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'app_name': app_name,
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'mode': mode,
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'start_method': start_method,
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'stop_method': stop_method,
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'start_event': start_event,
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'stop_event': stop_event,
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'start_payload': start_payload,
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'stop_payload': stop_payload,
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'event_data': event_data,
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'window_start': self._parse_time_string(
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window_start,
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f"presence_simulation.target_apps.{slot_name}.time_window.start",
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),
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'window_stop': self._parse_time_string(
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window_stop,
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f"presence_simulation.target_apps.{slot_name}.time_window.stop",
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),
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'window_start_jitter_s': window_start_jitter_s,
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'window_stop_jitter_s': window_stop_jitter_s,
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'window_start_effective': None,
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'window_stop_effective': None,
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'window_jitter_day': None,
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'interval_s': interval_s,
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'interval_jitter_s': interval_jitter_s,
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'on_duration_s': on_duration_s,
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'on_jitter_s': on_jitter_s,
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'start_delay_s': start_delay_s,
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'start_delay_jitter_s': start_delay_jitter_s,
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'cycle_handle': None,
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'off_handle': None,
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'active': False,
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'state': 'off',
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'condition': None,
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'window_started': False,
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'window_stop_deadline': None,
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}
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if 'smart_conditions' in slot_cfg:
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slot['condition'] = SmartCondition.Evaluator(
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self,
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slot_cfg['smart_conditions'],
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condition_name=f"presence_simulation_{slot_name}",
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on_change_cb=(
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lambda old_result, new_result, slot_name=slot_name:
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self.on_presence_slot_condition_change(old_result, new_result, slot_name)
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),
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constants=self.constants,
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templates_library=self.templates_library,
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)
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self.presence_simulation_slots[slot_name] = slot
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# Re-evaluate periodically so time windows can open/close without
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# requiring an entity state change.
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self.presence_simulation_time_tick_handle = self.run_every(
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self.on_presence_simulation_time_tick,
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"now+60",
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60,
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)
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self._refresh_presence_simulation_state()
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def on_presence_simulation_condition_change(self, old_result, new_result):
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self._refresh_presence_simulation_state()
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def on_presence_slot_condition_change(self, old_result, new_result, slot_name):
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self._refresh_presence_simulation_state()
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def on_presence_simulation_time_tick(self, kwargs):
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self._refresh_presence_simulation_state()
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def _is_presence_simulation_globally_enabled(self):
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if self.presence_simulation_condition is None:
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return True
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result = self.presence_simulation_condition.evaluate(False)
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return result == SmartCondition.Result.Succeeded
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def _is_presence_slot_enabled(self, slot):
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evaluator = slot.get('condition')
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if evaluator is None:
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return True
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result = evaluator.evaluate(False)
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return result == SmartCondition.Result.Succeeded
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def _is_presence_slot_in_time_window(self, slot):
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self._refresh_slot_time_window_jitter(slot)
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window_start = slot.get('window_start_effective')
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window_stop = slot.get('window_stop_effective')
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if window_start is None and window_stop is None:
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return True
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now = datetime.now()
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# Both boundaries provided: evaluate as a classic daily time range,
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# including cross-midnight windows.
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if window_start is not None and window_stop is not None:
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return self.now_is_between(
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self._time_to_hms(window_start),
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self._time_to_hms(window_stop),
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)
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# Only start provided: slot becomes active at first crossing of start
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# and remains active until simulation ends.
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if window_start is not None:
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if not slot.get('window_started', False):
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if now.time() >= window_start:
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slot['window_started'] = True
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return slot.get('window_started', False)
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# Only stop provided: slot starts with simulation and stops at stop time.
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deadline = slot.get('window_stop_deadline')
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if deadline is None:
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deadline = self._compute_next_time_occurrence(window_stop, now)
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slot['window_stop_deadline'] = deadline
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return now < deadline
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def _reset_presence_time_windows(self):
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now = datetime.now()
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for slot in self.presence_simulation_slots.values():
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slot['window_started'] = slot.get('window_start') is None
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self._refresh_slot_time_window_jitter(slot, now)
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window_stop = slot.get('window_stop_effective')
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if slot.get('window_start') is None and window_stop is not None:
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slot['window_stop_deadline'] = self._compute_next_time_occurrence(window_stop, now)
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else:
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slot['window_stop_deadline'] = None
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def _refresh_presence_simulation_state(self):
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if not isinstance(getattr(self, 'presence_simulation_cfg', None), dict):
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return
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previous_enabled = self.presence_simulation_enabled
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should_enable = self._is_presence_simulation_globally_enabled()
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if should_enable != self.presence_simulation_enabled:
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self.presence_simulation_enabled = should_enable
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self.log_info(
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"Presence simulation enabled"
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if should_enable
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else "Presence simulation disabled"
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)
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if should_enable and not previous_enabled:
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self._reset_presence_time_windows()
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if self.presence_simulation_active_sensor is not None:
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self.presence_simulation_active_sensor.set_state(
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state='on' if self.presence_simulation_enabled else 'off'
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)
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for slot in self.presence_simulation_slots.values():
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slot_should_run = (
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self.presence_simulation_enabled
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and self._is_presence_slot_enabled(slot)
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and self._is_presence_slot_in_time_window(slot)
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)
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if slot_should_run:
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if not slot['active']:
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slot['active'] = True
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if self._is_presence_slot_cyclic(slot):
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self._schedule_presence_slot_cycle(slot, use_start_delay=True)
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else:
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self._set_presence_slot_state(slot, 'on')
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else:
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slot['active'] = False
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self._cancel_presence_slot_timers(slot)
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self._set_presence_slot_state(slot, 'off')
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def _is_presence_slot_cyclic(self, slot):
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return slot.get('interval_s') is not None and slot.get('on_duration_s') is not None
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def _schedule_presence_slot_cycle(self, slot, use_start_delay=False):
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base_delay = slot['start_delay_s'] if use_start_delay else slot['interval_s']
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jitter = slot['start_delay_jitter_s'] if use_start_delay else slot['interval_jitter_s']
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delay = self._compute_jittered_delay(base_delay, jitter)
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slot['cycle_handle'] = self.run_in(
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self.on_presence_slot_cycle,
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delay,
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slot_name=slot['name'],
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)
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def on_presence_slot_cycle(self, kwargs):
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slot_name = kwargs.get('slot_name')
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slot = self.presence_simulation_slots.get(slot_name)
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if slot is None:
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return
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slot['cycle_handle'] = None
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if not slot['active']:
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return
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self._set_presence_slot_state(slot, 'on')
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on_delay = self._compute_jittered_delay(slot['on_duration_s'], slot['on_jitter_s'])
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slot['off_handle'] = self.run_in(
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self.on_presence_slot_off,
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on_delay,
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slot_name=slot_name,
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)
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self._schedule_presence_slot_cycle(slot, use_start_delay=False)
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def on_presence_slot_off(self, kwargs):
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slot_name = kwargs.get('slot_name')
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slot = self.presence_simulation_slots.get(slot_name)
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if slot is None:
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return
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slot['off_handle'] = None
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self._set_presence_slot_state(slot, 'off')
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def _set_presence_slot_state(self, slot, new_state):
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if slot['state'] == new_state:
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return
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action = 'start' if new_state == 'on' else 'stop'
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self._dispatch_presence_slot_action(slot, action)
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slot['state'] = new_state
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slot['entity'].set_state(state=new_state)
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def _dispatch_presence_slot_action(self, slot, action):
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payload = slot['start_payload'] if action == 'start' else slot['stop_payload']
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if slot['mode'] == 'event':
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event_name = slot['start_event'] if action == 'start' else slot['stop_event']
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event_data = dict(slot['event_data'])
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event_data.update(
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{
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'source_app': self.name,
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'slot_name': slot['name'],
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'target_app': slot['app_name'],
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'payload': payload,
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}
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)
|
||||
self.fire_event(event_name, **event_data)
|
||||
return
|
||||
|
||||
app = self.get_app(slot['app_name'])
|
||||
if app is None:
|
||||
self.log_error(
|
||||
f"Presence simulation target app '{slot['app_name']}' not found for slot '{slot['name']}'"
|
||||
)
|
||||
return
|
||||
|
||||
method_name = slot['start_method'] if action == 'start' else slot['stop_method']
|
||||
method = getattr(app, method_name, None)
|
||||
if not callable(method):
|
||||
self.log_error(
|
||||
f"Presence simulation target app '{slot['app_name']}' has no callable method '{method_name}'"
|
||||
)
|
||||
return
|
||||
|
||||
try:
|
||||
method(source_app=self.name, slot_name=slot['name'], payload=payload)
|
||||
except TypeError:
|
||||
# Backward compatibility for simple zero-argument methods.
|
||||
method()
|
||||
except Exception as e:
|
||||
self.log_error(
|
||||
f"Presence simulation action '{action}' failed for app '{slot['app_name']}' "
|
||||
f"(slot '{slot['name']}'): {e}"
|
||||
)
|
||||
|
||||
def _cancel_presence_slot_timers(self, slot):
|
||||
if slot['cycle_handle'] is not None:
|
||||
if self.timer_running(slot['cycle_handle']):
|
||||
self.cancel_timer(slot['cycle_handle'])
|
||||
slot['cycle_handle'] = None
|
||||
|
||||
if slot['off_handle'] is not None:
|
||||
if self.timer_running(slot['off_handle']):
|
||||
self.cancel_timer(slot['off_handle'])
|
||||
slot['off_handle'] = None
|
||||
|
||||
def _stop_presence_simulation(self, force_disable=False):
|
||||
if not isinstance(getattr(self, 'presence_simulation_cfg', None), dict):
|
||||
return
|
||||
|
||||
for slot in self.presence_simulation_slots.values():
|
||||
slot['active'] = False
|
||||
self._cancel_presence_slot_timers(slot)
|
||||
self._set_presence_slot_state(slot, 'off')
|
||||
|
||||
if force_disable:
|
||||
self.presence_simulation_enabled = False
|
||||
if self.presence_simulation_active_sensor is not None:
|
||||
self.presence_simulation_active_sensor.set_state(state='off')
|
||||
|
||||
if self.presence_simulation_time_tick_handle is not None:
|
||||
if self.timer_running(self.presence_simulation_time_tick_handle):
|
||||
self.cancel_timer(self.presence_simulation_time_tick_handle)
|
||||
self.presence_simulation_time_tick_handle = None
|
||||
|
||||
def _compute_jittered_delay(self, base_value, jitter_value):
|
||||
if jitter_value <= 0:
|
||||
delay = int(base_value)
|
||||
else:
|
||||
delay = int(base_value) + random.randint(-int(jitter_value), int(jitter_value))
|
||||
|
||||
# Add a second-level offset to avoid round-minute schedules.
|
||||
delay += random.randint(1, 59)
|
||||
return max(1, delay)
|
||||
|
||||
def _refresh_slot_time_window_jitter(self, slot, now=None):
|
||||
if now is None:
|
||||
now = datetime.now()
|
||||
|
||||
day_key = now.strftime('%Y-%m-%d')
|
||||
if slot.get('window_jitter_day') == day_key:
|
||||
return
|
||||
|
||||
slot['window_jitter_day'] = day_key
|
||||
slot['window_start_effective'] = self._compute_jittered_time(
|
||||
slot.get('window_start'),
|
||||
slot.get('window_start_jitter_s', 0),
|
||||
)
|
||||
slot['window_stop_effective'] = self._compute_jittered_time(
|
||||
slot.get('window_stop'),
|
||||
slot.get('window_stop_jitter_s', 0),
|
||||
)
|
||||
|
||||
def _compute_jittered_time(self, base_time, jitter_s):
|
||||
if base_time is None:
|
||||
return None
|
||||
|
||||
if jitter_s is None or jitter_s <= 0:
|
||||
return base_time
|
||||
|
||||
from datetime import timedelta
|
||||
midnight = datetime.now().replace(hour=0, minute=0, second=0, microsecond=0)
|
||||
base_dt = midnight.replace(
|
||||
hour=base_time.hour,
|
||||
minute=base_time.minute,
|
||||
second=base_time.second,
|
||||
)
|
||||
jittered = base_dt + timedelta(seconds=random.randint(-int(jitter_s), int(jitter_s)))
|
||||
return jittered.time()
|
||||
|
||||
def _expand_sensor_list(self, config_key):
|
||||
"""Return a flat list of individual sensor entity IDs.
|
||||
|
||||
@@ -401,6 +888,106 @@ class HomeAlarm(SmartObject):
|
||||
return default
|
||||
return value
|
||||
|
||||
def _read_block_positive_int(self, block, key, default, allow_zero=False):
|
||||
value = block.get(key, default)
|
||||
try:
|
||||
value = int(value)
|
||||
except (TypeError, ValueError):
|
||||
self.log_error(f"Invalid value for '{key}': {value}. Using default {default}")
|
||||
return default
|
||||
|
||||
min_allowed = 0 if allow_zero else 1
|
||||
if value < min_allowed:
|
||||
comparator = ">=" if allow_zero else ">"
|
||||
self.log_error(f"Value for '{key}' must be {comparator} {min_allowed}. Using default {default}")
|
||||
return default
|
||||
|
||||
return value
|
||||
|
||||
def _read_duration_s_from_block(self, block, key_base, default_seconds, allow_zero=False):
|
||||
# Minute-based format only (e.g. interval_min).
|
||||
min_key = f"{key_base}_min"
|
||||
|
||||
if min_key in block:
|
||||
minutes = self._read_block_positive_int(
|
||||
block,
|
||||
min_key,
|
||||
int(default_seconds / 60),
|
||||
allow_zero=allow_zero,
|
||||
)
|
||||
return int(minutes) * 60
|
||||
|
||||
default_minutes = int(default_seconds / 60)
|
||||
minutes = self._read_block_positive_int(
|
||||
block,
|
||||
min_key,
|
||||
default_minutes,
|
||||
allow_zero=allow_zero,
|
||||
)
|
||||
return int(minutes) * 60
|
||||
|
||||
def _read_optional_duration_s_from_block(self, block, key_base):
|
||||
min_key = f"{key_base}_min"
|
||||
if min_key not in block:
|
||||
return None
|
||||
|
||||
minutes = self._read_block_positive_int(
|
||||
block,
|
||||
min_key,
|
||||
1,
|
||||
allow_zero=False,
|
||||
)
|
||||
return int(minutes) * 60
|
||||
|
||||
def _read_time_window_jitter_s(self, slot_cfg, time_window_cfg, key, default_seconds):
|
||||
value_min = time_window_cfg.get(key, slot_cfg.get(key, None))
|
||||
if value_min is None:
|
||||
return default_seconds
|
||||
|
||||
try:
|
||||
value_min = int(value_min)
|
||||
except (TypeError, ValueError):
|
||||
self.log_error(f"Invalid value for '{key}': {value_min}. Using default {int(default_seconds / 60)}")
|
||||
return default_seconds
|
||||
|
||||
if value_min < 0:
|
||||
self.log_error(f"Value for '{key}' must be >= 0. Using default {int(default_seconds / 60)}")
|
||||
return default_seconds
|
||||
|
||||
return value_min * 60
|
||||
|
||||
def _parse_time_string(self, raw_value, config_path):
|
||||
if raw_value is None:
|
||||
return None
|
||||
|
||||
if not isinstance(raw_value, str):
|
||||
self.log_error(f"Invalid time value for '{config_path}': {raw_value}. Expected HH:MM or HH:MM:SS")
|
||||
return None
|
||||
|
||||
for fmt in ('%H:%M:%S', '%H:%M'):
|
||||
try:
|
||||
return datetime.strptime(raw_value, fmt).time()
|
||||
except ValueError:
|
||||
pass
|
||||
|
||||
self.log_error(f"Invalid time format for '{config_path}': {raw_value}. Expected HH:MM or HH:MM:SS")
|
||||
return None
|
||||
|
||||
def _time_to_hms(self, time_value):
|
||||
return time_value.strftime('%H:%M:%S')
|
||||
|
||||
def _compute_next_time_occurrence(self, time_value, now):
|
||||
candidate = now.replace(
|
||||
hour=time_value.hour,
|
||||
minute=time_value.minute,
|
||||
second=time_value.second,
|
||||
microsecond=0,
|
||||
)
|
||||
if candidate <= now:
|
||||
from datetime import timedelta
|
||||
candidate = candidate + timedelta(days=1)
|
||||
return candidate
|
||||
|
||||
def _add_intrusion(self, increment, source, count_as_opening_intrusion=False):
|
||||
if increment <= 0:
|
||||
return
|
||||
|
||||
@@ -114,6 +114,8 @@ from ad_toolbox.eventhandler import EventHandler
|
||||
class SmartLight(SmartSwitch):
|
||||
|
||||
def on_initialize_smart_object(self):
|
||||
self.presence_simulation_slots_active = set()
|
||||
|
||||
# light_brightness_pct_list : ordered list of (Evaluator, label) pairs
|
||||
# light_brightness_pct : currently active brightness % (str label)
|
||||
self.light_brightness_pct_list = list()
|
||||
@@ -196,6 +198,15 @@ class SmartLight(SmartSwitch):
|
||||
# SmartSwitch overrides
|
||||
# ------------------------------------------------------------------
|
||||
|
||||
# While simulation is active for this light, ignore auto-off transitions
|
||||
# from smart_conditions to keep deterministic on-duration windows.
|
||||
def on_smart_conditions_change(self,prev_result,result):
|
||||
if len(self.presence_simulation_slots_active) > 0:
|
||||
if result == SmartCondition.Result.Succeeded and self.is_off():
|
||||
self.switch_on()
|
||||
return
|
||||
super().on_smart_conditions_change(prev_result,result)
|
||||
|
||||
# Override: apply light_brightness_pct when turning on, if one is active.
|
||||
def switch_on(self):
|
||||
if self.light_brightness_pct != None:
|
||||
@@ -225,4 +236,61 @@ class SmartLight(SmartSwitch):
|
||||
self.log_info("Turning off")
|
||||
self.call_service("light/turn_off", entity_id = self.entity_id)
|
||||
|
||||
# ------------------------------------------------------------------
|
||||
# Presence simulation API (called by HomeAlarm)
|
||||
# ------------------------------------------------------------------
|
||||
|
||||
def start_presence_simulation(self, source_app=None, slot_name=None, payload=None):
|
||||
if slot_name:
|
||||
self.presence_simulation_slots_active.add(slot_name)
|
||||
|
||||
if not isinstance(payload, dict):
|
||||
payload = {}
|
||||
|
||||
brightness_pct = payload.get('brightness_pct')
|
||||
transition = payload.get('transition')
|
||||
|
||||
if brightness_pct is None and transition is None:
|
||||
self.switch_on()
|
||||
return
|
||||
|
||||
service_kwargs = {'entity_id': self.entity_id}
|
||||
if brightness_pct is not None:
|
||||
service_kwargs['brightness_pct'] = brightness_pct
|
||||
if transition is not None:
|
||||
service_kwargs['transition'] = transition
|
||||
|
||||
self.call_service("light/turn_on", **service_kwargs)
|
||||
|
||||
def stop_presence_simulation(self, source_app=None, slot_name=None, payload=None):
|
||||
if slot_name and slot_name in self.presence_simulation_slots_active:
|
||||
self.presence_simulation_slots_active.remove(slot_name)
|
||||
|
||||
if not isinstance(payload, dict):
|
||||
payload = {}
|
||||
|
||||
if payload.get('keep_on', False):
|
||||
return
|
||||
|
||||
transition = payload.get('transition')
|
||||
if transition is None:
|
||||
self.switch_off()
|
||||
else:
|
||||
self.call_service(
|
||||
"light/turn_off",
|
||||
entity_id=self.entity_id,
|
||||
transition=transition,
|
||||
)
|
||||
|
||||
# If no simulation slot is still active, re-apply current automation
|
||||
# state so the light immediately converges to the expected result.
|
||||
if len(self.presence_simulation_slots_active) == 0 and self.smart_conditions_evaluator:
|
||||
result = self.smart_conditions_evaluator.evaluate(False)
|
||||
if result == SmartCondition.Result.Succeeded:
|
||||
if self.is_off():
|
||||
self.switch_on()
|
||||
else:
|
||||
if self.is_on():
|
||||
self.switch_off()
|
||||
|
||||
|
||||
|
||||
Reference in New Issue
Block a user