Exemple #1
0
    def _check_schedule():
        current_time = datetime.datetime.now()
        check_start = current_time - datetime.timedelta(days=1)
        check_end = current_time + datetime.timedelta(days=1)

        rain = not options.manual_mode and (rain_blocks.block_end() > datetime.datetime.now() or
                                            inputs.rain_sensed())

        active = log.active_runs()
        for entry in active:
            ignore_rain = stations.get(entry['station']).ignore_rain
            if entry['end'] <= current_time or (rain and not ignore_rain and not entry['blocked'] and not entry['manual']):
                log.finish_run(entry)
                if not entry['blocked']:
                    stations.deactivate(entry['station'])

        if not options.manual_mode:
            schedule = predicted_schedule(check_start, check_end)
            #import pprint
            #logging.debug("Schedule: %s", pprint.pformat(schedule))
            for entry in schedule:
                if entry['start'] <= current_time < entry['end']:
                    log.start_run(entry)
                    if not entry['blocked']:
                        stations.activate(entry['station'])

        if stations.master is not None or options.master_relay:
            master_on = False

            # It's easy if we don't have to use delays:
            if options.master_on_delay == options.master_off_delay == 0:
                for entry in active:
                    if not entry['blocked'] and stations.get(entry['station']).activate_master:
                        master_on = True
                        break

            else:
                # In manual mode we cannot predict, we only know what is currently running and the history
                if options.manual_mode:
                    active = log.finished_runs() + active
                else:
                    active = combined_schedule(check_start, check_end)

                for entry in active:
                    if not entry['blocked'] and stations.get(entry['station']).activate_master:
                        if entry['start'] + datetime.timedelta(seconds=options.master_on_delay) \
                                <= current_time < \
                                entry['end'] + datetime.timedelta(seconds=options.master_off_delay):
                            master_on = True
                            break

            if stations.master is not None:
                master_station = stations.get(stations.master)

                if master_on != master_station.active:
                    master_station.active = master_on

            if options.master_relay:
                if master_on != outputs.relay_output:
                    outputs.relay_output = master_on
Exemple #2
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    def run(self):
        # Activate outputs upon start if needed:
        current_time = datetime.datetime.now()
        rain = not options.manual_mode and (
            rain_blocks.block_end() > datetime.datetime.now()
            or inputs.rain_sensed())
        active = log.active_runs()
        for entry in active:
            ignore_rain = stations.get(entry['station']).ignore_rain
            if entry['end'] > current_time and (
                    not rain or ignore_rain) and not entry['blocked']:
                stations.activate(entry['station'])

        while True:
            self._check_schedule()
            time.sleep(1)
Exemple #3
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    def run(self):
        # Activate outputs upon start if needed:
        current_time = datetime.datetime.now()
        rain = not options.manual_mode and (rain_blocks.block_end() > datetime.datetime.now() or
                                            inputs.rain_sensed())
        active = log.active_runs()
        for entry in active:
            ignore_rain = stations.get(entry['station']).ignore_rain
            if entry['end'] > current_time and (not rain or ignore_rain) and not entry['blocked']:
                stations.activate(entry['station'])

        while True:
            try:
                self._check_schedule()
            except Exception:
                logging.warning('Scheduler error:\n' + traceback.format_exc())
            time.sleep(1)
Exemple #4
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    def run(self):
        log.clear(NAME)

        if not plugin_options['enabled']:
            log.info(NAME, _('Pressurizer is disabled.'))
        else:
            log.info(NAME, _('Pressurizer is enabled.'))

        start_master = False  # for master station ON/OFF
        pressurizer_master_relay_off.send(
        )  # send signal relay off from this plugin

        while not self._stop_event.is_set():
            try:
                if plugin_options['enabled']:  # plugin is enabled
                    current_time = datetime.datetime.now()
                    user_pre_time = current_time + datetime.timedelta(
                        seconds=int(plugin_options['pre_time']))
                    check_start = current_time - datetime.timedelta(days=1)
                    check_end = current_time + datetime.timedelta(days=1)

                    schedule = predicted_schedule(check_start, check_end)
                    rain = not options.manual_mode and (
                        rain_blocks.block_end() > datetime.datetime.now()
                        or inputs.rain_sensed())

                    if stations.master is None:
                        start_master = False
                        log.clear(NAME)
                        log.info(
                            NAME,
                            datetime_string() + ' ' +
                            _('This plugin requires setting master station to enabled. Setup this in options! And also enable the relay as master station in options!'
                              ))
                        self._sleep(10)

                    for entry in schedule:
                        if entry['start'] <= user_pre_time < entry[
                                'end']:  # is possible program in this interval?
                            if not rain and not entry[
                                    'blocked']:  # is not blocked and not ignored rain?
                                if stations.master is not None:
                                    log.clear(NAME)
                                    log.info(
                                        NAME,
                                        datetime_string() + ' ' +
                                        _('Is time for pump running...'))
                                    start_master = True

                    if start_master:  # is time for run relay
                        pname = _('Pressurizer plug-in')
                        program_name = "%s " % pname.encode(
                            "utf-8", errors="ignore").decode(
                                "utf-8")  # program name

                        sname = 0

                        for station in stations.get():
                            if station.is_master:
                                sname = station.index  # master pump index

                        pend = current_time + datetime.timedelta(
                            seconds=int(plugin_options['run_time']))

                        _entry = {
                            'active':
                            None,
                            'program':
                            -1,
                            'program_name':
                            program_name,
                            'fixed':
                            True,
                            'cut_off':
                            0,
                            'manual':
                            True,
                            'blocked':
                            False,
                            'start':
                            datetime.datetime.now(),
                            'original_start':
                            datetime.datetime.now(),
                            'end':
                            pend,
                            'uid':
                            '%s-%s-%d' % (datetime.datetime.now(),
                                          str(program_name), sname),
                            'usage':
                            2.0,
                            'station':
                            sname
                        }

                        if plugin_options['relay']:
                            pressurizer_master_relay_on.send(
                            )  # send signal relay on from this plugin
                            self._sleep(0.5)
                            outputs.relay_output = True  # activate relay
                            log.info(NAME, _('Activating relay.'))
                            log.start_run(_entry)

                            wait_for_run = plugin_options[
                                'run_time']  # pump run time
                            if wait_for_run > plugin_options[
                                    'pre_time']:  # is not run time > pre run time?
                                wait_for_run = plugin_options[
                                    'pre_time']  # scheduller tick is 1 second

                            log.info(
                                NAME,
                                datetime_string() + ' ' + _('Waiting') + ' ' +
                                str(wait_for_run) + ' ' + _('second.'))
                            self._sleep(
                                int(wait_for_run))  # waiting on run time

                            pressurizer_master_relay_off.send(
                            )  # send signal relay off from this plugin
                            self._sleep(0.5)
                            outputs.relay_output = False  # deactivate relay
                            log.info(NAME, _('Deactivating relay.'))
                            log.finish_run(_entry)

                            log.info(NAME,
                                     datetime_string() + ' ' + _('Ready.'))
                            start_master = False

                            seconds = int(
                                plugin_options['mm'] or 0) * 60 + int(
                                    plugin_options['ss'] or 0)  # (mm:ss)
                            log.info(
                                NAME,
                                datetime_string() + ' ' + _('Waiting') + ' ' +
                                str(seconds) + ' ' + _('second.'))
                            self._sleep(
                                seconds
                            )  # How long after the relay is activated wait for another stations

                    else:
                        self._sleep(2)

                else:
                    self._sleep(5)

                self._sleep(1)

            except Exception:
                log.error(
                    NAME,
                    _('Pressurizer plug-in') + ':\n' + traceback.format_exc())
                self._sleep(60)
Exemple #5
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    def _check_schedule():
        current_time = datetime.datetime.now()
        check_start = current_time - datetime.timedelta(days=1)
        check_end = current_time + datetime.timedelta(days=1)

        rain = not options.manual_mode and (
            rain_blocks.block_end() > datetime.datetime.now()
            or inputs.rain_sensed())

        active = log.active_runs()
        for entry in active:
            ignore_rain = stations.get(entry['station']).ignore_rain
            if entry['end'] <= current_time or (rain and not ignore_rain
                                                and not entry['blocked']
                                                and not entry['manual']):
                log.finish_run(entry)
                if not entry['blocked']:
                    stations.deactivate(entry['station'])

        if not options.manual_mode:
            schedule = predicted_schedule(check_start, check_end)
            #import pprint
            #logging.debug("Schedule: %s", pprint.pformat(schedule))
            for entry in schedule:
                if entry['start'] <= current_time < entry['end']:
                    log.start_run(entry)
                    if not entry['blocked']:
                        stations.activate(entry['station'])

        if stations.master is not None:
            master_on = False

            # It's easy if we don't have to use delays:
            if options.master_on_delay == options.master_off_delay == 0:
                for entry in active:
                    if not entry['blocked'] and stations.get(
                            entry['station']).activate_master:
                        master_on = True
                        break

            else:
                # In manual mode we cannot predict, we only know what is currently running and the history
                if options.manual_mode:
                    active = log.finished_runs() + active
                else:
                    active = combined_schedule(check_start, check_end)

                for entry in active:
                    if not entry['blocked'] and stations.get(
                            entry['station']).activate_master:
                        if entry['start'] + datetime.timedelta(seconds=options.master_on_delay) \
                                <= current_time < \
                                entry['end'] + datetime.timedelta(seconds=options.master_off_delay):
                            master_on = True
                            break

            if stations.master is not None:
                master_station = stations.get(stations.master)

                if master_on != master_station.active:
                    master_station.active = master_on

            if options.master_relay:
                outputs.relay_output = master_on

        if stations.master_two is not None:
            master_two_on = False

            # It's easy if we don't have to use delays:
            if options.master_on_delay_two == options.master_off_delay_two == 0:
                for entry in active:
                    if not entry['blocked'] and stations.get(
                            entry['station']).activate_master_two:
                        master_two_on = True
                        break

            else:
                # In manual mode we cannot predict, we only know what is currently running and the history
                if options.manual_mode:
                    active = log.finished_runs() + active
                else:
                    active = combined_schedule(check_start, check_end)

                for entry in active:
                    if not entry['blocked'] and stations.get(
                            entry['station']).activate_master_two:
                        if entry['start'] + datetime.timedelta(seconds=options.master_on_delay) \
                                <= current_time < \
                                entry['end'] + datetime.timedelta(seconds=options.master_off_delay):
                            master_two_on = True
                            break

            if stations.master_two is not None:
                master_station_two = stations.get(stations.master_two)

                if master_two_on != master_station_two.active:
                    master_station_two.active = master_two_on
Exemple #6
0
def predicted_schedule(start_time, end_time):
    """Determines all schedules for the given time range.
    To calculate what should currently be active, a start time of some time (a day) ago should be used."""

    adjustment = level_adjustments.total_adjustment()
    max_usage = options.max_usage
    delay_delta = datetime.timedelta(seconds=options.station_delay)

    rain_block_start = datetime.datetime.now()
    rain_block_end = rain_blocks.block_end()

    skip_intervals = log.finished_runs() + log.active_runs()
    current_active = [
        interval for interval in skip_intervals if not interval['blocked']
    ]

    usage_changes = {}
    for active in current_active:
        start = active['start']
        end = active['end']
        if start not in usage_changes:
            usage_changes[start] = 0
        if end not in usage_changes:
            usage_changes[end] = 0

        usage_changes[start] += active['usage']
        usage_changes[end] -= active['usage']

    station_schedules = {}

    # Get run-once information:
    for station in stations.enabled_stations():
        run_once_intervals = run_once.active_intervals(start_time, end_time,
                                                       station.index)
        for interval in run_once_intervals:
            if station.index not in station_schedules:
                station_schedules[station.index] = []

            program_name = _('Run-Once')

            new_schedule = {
                'active':
                None,
                'program':
                -1,
                'program_name':
                program_name,
                'fixed':
                True,
                'cut_off':
                0,
                'manual':
                True,
                'blocked':
                False,
                'start':
                interval['start'],
                'original_start':
                interval['start'],
                'end':
                interval['end'],
                'uid':
                '%s-%s-%d' %
                (str(interval['start']), str(program_name), station.index),
                'usage':
                station.usage
            }
            station_schedules[station.index].append(new_schedule)

    # Get run-now information:
    if programs.run_now_program is not None:
        program = programs.run_now_program
        for station in sorted(program.stations):
            run_now_intervals = program.active_intervals(
                start_time, end_time, station)
            for interval in run_now_intervals:
                if station >= stations.count(
                ) or stations.master == station or stations.master_two == station or not stations[
                        station].enabled:
                    continue

                if station not in station_schedules:
                    station_schedules[station] = []

                program_name = "%s " % program.name + _('Run-Now')

                new_schedule = {
                    'active':
                    None,
                    'program':
                    -1,
                    'program_name':
                    program_name,
                    'fixed':
                    program.
                    fixed,  # True for ignore water level else program.fixed for use water level in run now-program xx
                    'cut_off':
                    0,
                    'manual':
                    True,
                    'blocked':
                    False,
                    'start':
                    interval['start'],
                    'original_start':
                    interval['start'],
                    'end':
                    interval['end'],
                    'uid':
                    '%s-%s-%d' %
                    (str(interval['start']), str(program_name), station),
                    'usage':
                    stations.get(station).usage
                }
                station_schedules[station].append(new_schedule)

    # Aggregate per station:
    for program in programs.get():
        if not program.enabled:
            continue

        for station in sorted(program.stations):
            program_intervals = program.active_intervals(
                start_time, end_time, station)
            if station >= stations.count(
            ) or stations.master == station or stations.master_two == station or not stations[
                    station].enabled:
                continue

            if station not in station_schedules:
                station_schedules[station] = []

            for interval in program_intervals:
                if current_active and current_active[-1][
                        'original_start'] > interval['start']:
                    continue

                new_schedule = {
                    'active':
                    None,
                    'program':
                    program.index,
                    'program_name':
                    program.name,  # Save it because programs can be renamed
                    'fixed':
                    program.fixed,
                    'cut_off':
                    program.cut_off / 100.0,
                    'manual':
                    program.manual,
                    'blocked':
                    False,
                    'start':
                    interval['start'],
                    'original_start':
                    interval['start'],
                    'end':
                    interval['end'],
                    'uid':
                    '%s-%d-%d' %
                    (str(interval['start']), program.index, station),
                    'usage':
                    stations.get(station).usage
                }
                station_schedules[station].append(new_schedule)

    # Make lists sorted on start time, check usage
    for station in station_schedules:
        if 0 < max_usage < stations.get(station).usage:
            station_schedules[station] = []  # Impossible to schedule
        else:
            station_schedules[station].sort(key=lambda inter: inter['start'])

    all_intervals = []
    # Adjust for weather and remove overlap:
    for station, schedule in station_schedules.iteritems():
        for interval in schedule:
            if not interval['fixed']:
                time_delta = interval['end'] - interval['start']
                time_delta = datetime.timedelta(
                    seconds=(time_delta.days * 24 * 3600 +
                             time_delta.seconds) * adjustment)
                interval['end'] = interval['start'] + time_delta
                interval['adjustment'] = adjustment
            else:
                interval['adjustment'] = 1.0

        last_end = datetime.datetime(2000, 1, 1)
        for interval in schedule:
            if last_end > interval['start']:
                time_delta = last_end - interval['start']
                interval['start'] += time_delta
                interval['end'] += time_delta
            last_end = interval['end']

            new_interval = {'station': station}
            new_interval.update(interval)

            all_intervals.append(new_interval)

    # Make list of entries sorted on duration and time (stable sorted on station #)
    all_intervals.sort(key=lambda inter: inter['end'] - inter['start'])
    all_intervals.sort(key=lambda inter: inter['start'])

    # If we have processed some intervals before, we should skip all that were scheduled before them
    for to_skip in skip_intervals:
        index = 0
        while index < len(all_intervals):
            interval = all_intervals[index]

            if interval['original_start'] < to_skip['original_start'] and (
                    not to_skip['blocked'] or interval['blocked']):
                del all_intervals[index]
            elif interval['uid'] == to_skip['uid']:
                del all_intervals[index]
                break
            else:
                index += 1

    # And make sure manual programs get priority:
    all_intervals.sort(key=lambda inter: not inter['manual'])

    # Try to add each interval
    for interval in all_intervals:
        if not interval['manual'] and not options.scheduler_enabled:
            interval['blocked'] = 'disabled scheduler'
            continue
        elif not interval['manual'] and not stations.get(interval['station']).ignore_rain and \
                rain_block_start <= interval['start'] < rain_block_end:
            interval['blocked'] = 'rain delay'
            continue
        elif not interval['manual'] and not stations.get(
                interval['station']).ignore_rain and inputs.rain_sensed():
            interval['blocked'] = 'rain sensor'
            continue
        elif not interval[
                'fixed'] and interval['adjustment'] < interval['cut_off']:
            interval['blocked'] = 'cut-off'
            continue

        if max_usage > 0:
            usage_keys = sorted(usage_changes.keys())
            start_usage = 0
            start_key_index = -1

            for index, key in enumerate(usage_keys):
                if key > interval['start']:
                    break
                start_key_index = index
                start_usage += usage_changes[key]

            failed = False
            finished = False
            while not failed and not finished:
                parallel_usage = 0
                parallel_current = 0
                for index in range(start_key_index + 1, len(usage_keys)):
                    key = usage_keys[index]
                    if key >= interval['end']:
                        break
                    parallel_current += usage_changes[key]
                    parallel_usage = max(parallel_usage, parallel_current)

                if start_usage + parallel_usage + interval[
                        'usage'] <= max_usage:

                    start = interval['start']
                    end = interval['end']
                    if start not in usage_changes:
                        usage_changes[start] = 0
                    if end not in usage_changes:
                        usage_changes[end] = 0

                    usage_changes[start] += interval['usage']
                    usage_changes[end] -= interval['usage']
                    finished = True
                else:
                    while not failed:
                        # Shift this interval to next possibility
                        start_key_index += 1

                        # No more options
                        if start_key_index >= len(usage_keys):
                            failed = True
                        else:
                            next_option = usage_keys[start_key_index]
                            next_change = usage_changes[next_option]
                            start_usage += next_change

                            # Lower usage at this starting point:
                            if next_change < 0:
                                skip_delay = False
                                if options.min_runtime > 0:
                                    # Try to determine how long we have been running at this point:
                                    min_runtime_delta = datetime.timedelta(
                                        seconds=options.min_runtime)
                                    temp_usage = 0
                                    running_since = next_option
                                    not_running_since = next_option
                                    for temp_index in range(
                                            0, start_key_index):
                                        temp_usage_key = usage_keys[temp_index]
                                        if temp_usage < 0.01 and usage_changes[
                                                temp_usage_key] > 0 and temp_usage_key - not_running_since > datetime.timedelta(
                                                    seconds=3):
                                            running_since = temp_usage_key
                                        temp_usage += usage_changes[
                                            temp_usage_key]
                                        if temp_usage < 0.01 and usage_changes[
                                                temp_usage_key] < 0:
                                            not_running_since = temp_usage_key
                                    if next_option - running_since < min_runtime_delta:
                                        skip_delay = True

                                if skip_delay:
                                    time_to_next = next_option - interval[
                                        'start']
                                else:
                                    time_to_next = next_option + delay_delta - interval[
                                        'start']

                                interval['start'] += time_to_next
                                interval['end'] += time_to_next
                                break

            if failed:
                logging.warning('Could not schedule %s.', interval['uid'])
                interval['blocked'] = 'scheduler error'

    all_intervals.sort(key=lambda inter: inter['start'])

    return all_intervals
Exemple #7
0
def predicted_schedule(start_time, end_time):
    """Determines all schedules for the given time range.
    To calculate what should currently be active, a start time of some time (a day) ago should be used."""

    adjustment = level_adjustments.total_adjustment()
    max_usage = options.max_usage
    delay_delta = datetime.timedelta(seconds=options.station_delay)

    rain_block_start = datetime.datetime.now()
    rain_block_end = rain_blocks.block_end()

    skip_intervals = log.finished_runs() + log.active_runs()
    current_active = [interval for interval in skip_intervals if not interval['blocked']]

    usage_changes = {}
    for active in current_active:
        start = active['start']
        end = active['end']
        if start not in usage_changes:
            usage_changes[start] = 0
        if end not in usage_changes:
            usage_changes[end] = 0

        usage_changes[start] += active['usage']
        usage_changes[end] -= active['usage']

    station_schedules = {}

    # Get run-once information:
    for station in stations.enabled_stations():
        run_once_intervals = run_once.active_intervals(start_time, end_time, station.index)
        for interval in run_once_intervals:
            if station.index not in station_schedules:
                station_schedules[station.index] = []

            new_schedule = {
                'active': None,
                'program': -1,
                'program_name': "Run-Once",
                'fixed': True,
                'cut_off': 0,
                'manual': True,
                'blocked': False,
                'start': interval['start'],
                'original_start': interval['start'],
                'end': interval['end'],
                'uid': '%s-%s-%d' % (str(interval['start']), "Run-Once", station.index),
                'usage': station.usage
            }
            station_schedules[station.index].append(new_schedule)

    # Get run-now information:
    if programs.run_now_program is not None:
        program = programs.run_now_program
        for station in sorted(program.stations):
            run_now_intervals = program.active_intervals(start_time, end_time, station)
            for interval in run_now_intervals:
                if station >= stations.count() or stations.master == station or not stations[station].enabled:
                    continue

                if station not in station_schedules:
                    station_schedules[station] = []

                program_name = "%s (Run-Now)" % program.name

                new_schedule = {
                    'active': None,
                    'program': -1,
                    'program_name': program_name,
                    'fixed': True,
                    'cut_off': 0,
                    'manual': True,
                    'blocked': False,
                    'start': interval['start'],
                    'original_start': interval['start'],
                    'end': interval['end'],
                    'uid': '%s-%s-%d' % (str(interval['start']), program_name, station),
                    'usage': stations.get(station).usage
                }
                station_schedules[station].append(new_schedule)

    # Aggregate per station:
    for program in programs.get():
        if not program.enabled:
            continue

        for station in sorted(program.stations):
            program_intervals = program.active_intervals(start_time, end_time, station)

            if station >= stations.count() or stations.master == station or not stations[station].enabled:
                continue

            if station not in station_schedules:
                station_schedules[station] = []

            for interval in program_intervals:
                if current_active and current_active[-1]['original_start'] > interval['start']:
                    continue

                new_schedule = {
                    'active': None,
                    'program': program.index,
                    'program_name': program.name, # Save it because programs can be renamed
                    'fixed': program.fixed,
                    'cut_off': program.cut_off/100.0,
                    'manual': program.manual,
                    'blocked': False,
                    'start': interval['start'],
                    'original_start': interval['start'],
                    'end': interval['end'],
                    'uid': '%s-%d-%d' % (str(interval['start']), program.index, station),
                    'usage': stations.get(station).usage
                }
                station_schedules[station].append(new_schedule)

    # Make lists sorted on start time, check usage
    for station in station_schedules:
        if 0 < max_usage < stations.get(station).usage:
            station_schedules[station] = []  # Impossible to schedule
        else:
            station_schedules[station].sort(key=lambda inter: inter['start'])

    all_intervals = []
    # Adjust for weather and remove overlap:
    for station, schedule in station_schedules.iteritems():
        for interval in schedule:
            if not interval['fixed']:
                time_delta = interval['end'] - interval['start']
                time_delta = datetime.timedelta(seconds=(time_delta.days * 24 * 3600 + time_delta.seconds) * adjustment)
                interval['end'] = interval['start'] + time_delta
                interval['adjustment'] = adjustment
            else:
                interval['adjustment'] = 1.0

        last_end = datetime.datetime(2000, 1, 1)
        for interval in schedule:
            if last_end > interval['start']:
                time_delta = last_end - interval['start']
                interval['start'] += time_delta
                interval['end'] += time_delta
            last_end = interval['end']

            new_interval = {
                'station': station
            }
            new_interval.update(interval)

            all_intervals.append(new_interval)

    # Make list of entries sorted on duration and time (stable sorted on station #)
    all_intervals.sort(key=lambda inter: inter['end'] - inter['start'])
    all_intervals.sort(key=lambda inter: inter['start'])

    # If we have processed some intervals before, we should skip all that were scheduled before them
    for to_skip in skip_intervals:
        index = 0
        while index < len(all_intervals):
            interval = all_intervals[index]

            if interval['original_start'] < to_skip['original_start'] and (not to_skip['blocked'] or interval['blocked']):
                del all_intervals[index]
            elif interval['uid'] == to_skip['uid']:
                del all_intervals[index]
                break
            else:
                index += 1

    # And make sure manual programs get priority:
    all_intervals.sort(key=lambda inter: not inter['manual'])

    # Try to add each interval
    for interval in all_intervals:
        if not interval['manual'] and not options.scheduler_enabled:
            interval['blocked'] = 'disabled scheduler'
            continue
        elif not interval['manual'] and not stations.get(interval['station']).ignore_rain and \
                rain_block_start <= interval['start'] < rain_block_end:
            interval['blocked'] = 'rain delay'
            continue
        elif not interval['manual'] and not stations.get(interval['station']).ignore_rain and inputs.rain_sensed():
            interval['blocked'] = 'rain sensor'
            continue
        elif not interval['fixed'] and interval['adjustment'] < interval['cut_off']:
            interval['blocked'] = 'cut-off'
            continue

        if max_usage > 0:
            usage_keys = sorted(usage_changes.keys())
            start_usage = 0
            start_key_index = -1

            for index, key in enumerate(usage_keys):
                if key > interval['start']:
                    break
                start_key_index = index
                start_usage += usage_changes[key]

            failed = False
            finished = False
            while not failed and not finished:
                parallel_usage = 0
                parallel_current = 0
                for index in range(start_key_index+1, len(usage_keys)):
                    key = usage_keys[index]
                    if key >= interval['end']:
                        break
                    parallel_current += usage_changes[key]
                    parallel_usage = max(parallel_usage, parallel_current)

                if start_usage + parallel_usage + interval['usage'] <= max_usage:

                    start = interval['start']
                    end = interval['end']
                    if start not in usage_changes:
                        usage_changes[start] = 0
                    if end not in usage_changes:
                        usage_changes[end] = 0

                    usage_changes[start] += interval['usage']
                    usage_changes[end] -= interval['usage']
                    finished = True
                else:
                    while not failed:
                        # Shift this interval to next possibility
                        start_key_index += 1

                        # No more options
                        if start_key_index >= len(usage_keys):
                            failed = True
                        else:
                            next_option = usage_keys[start_key_index]
                            next_change = usage_changes[next_option]
                            start_usage += next_change

                            # Lower usage at this starting point:
                            if next_change < 0:
                                skip_delay = False
                                if options.min_runtime > 0:
                                    # Try to determine how long we have been running at this point:
                                    min_runtime_delta = datetime.timedelta(seconds=options.min_runtime)
                                    temp_usage = 0
                                    running_since = next_option
                                    not_running_since = next_option
                                    for temp_index in range(0, start_key_index):
                                        temp_usage_key = usage_keys[temp_index]
                                        if temp_usage < 0.01 and usage_changes[temp_usage_key] > 0 and temp_usage_key - not_running_since > datetime.timedelta(seconds=3):
                                            running_since = temp_usage_key
                                        temp_usage += usage_changes[temp_usage_key]
                                        if temp_usage < 0.01 and usage_changes[temp_usage_key] < 0:
                                            not_running_since = temp_usage_key
                                    if next_option - running_since < min_runtime_delta:
                                        skip_delay = True

                                if skip_delay:
                                    time_to_next = next_option - interval['start']
                                else:
                                    time_to_next = next_option + delay_delta - interval['start']

                                interval['start'] += time_to_next
                                interval['end'] += time_to_next
                                break

            if failed:
                logging.warning('Could not schedule %s.', interval['uid'])
                interval['blocked'] = 'scheduler error'



    all_intervals.sort(key=lambda inter: inter['start'])

    return all_intervals
Exemple #8
0
    def run(self):
        log.clear(NAME)

        if not plugin_options['enabled']:
            log.info(NAME, _('Voice notification is disabled.'))
        else:
            log.info(NAME, _('Voice notification is enabled.'))

        once_test = True  # for test installing pygame
        play = False  # for enabling play
        last_play = False  # for disabling nonstop playing
        post_song = ' '  # mp3 song filename for vs0 - vs128 (stations song)

        while not self._stop.is_set():
            try:
                if plugin_options['enabled']:  # plugin is enabled
                    try:
                        from pygame import mixer  # https://www.pygame.org/docs/ref/music.html

                    except ImportError:
                        if once_test:  # only once instalation
                            log.clear(NAME)
                            log.info(NAME, _('Pygame is not installed.'))
                            log.info(NAME,
                                     _('Please wait installing pygame...'))
                            cmd = "sudo apt-get install python-pygame -y"
                            run_command(self, cmd)
                            once_test = False
                            log.info(NAME, _('Pygame is now installed.'))

                    if plugin_options[
                            'voice_start_station']:  # start notifications
                        current_time = datetime.datetime.now()
                        user_pre_time = current_time + datetime.timedelta(
                            seconds=int(plugin_options['pre_time']))
                        check_start = current_time - datetime.timedelta(days=1)
                        check_end = current_time + datetime.timedelta(days=1)

                        rain = not options.manual_mode and (
                            rain_blocks.block_end() > datetime.datetime.now()
                            or inputs.rain_sensed())

                        if current_time.hour >= plugin_options[
                                'start_hour'] and current_time.hour <= plugin_options[
                                    'stop_hour']:  # play notifications only from xx hour to yy hour
                            play = False
                            post_song = ' '
                            stat_run_num = -1

                            schedule = predicted_schedule(
                                check_start, check_end)
                            for entry in schedule:
                                if entry['start'] <= user_pre_time < entry[
                                        'end']:  # is possible program in this interval?
                                    if not entry['blocked']:
                                        for station_num in plugin_options[
                                                'skip_stations']:
                                            if entry[
                                                    'station'] == station_num:  # station skiping
                                                log.clear(NAME)
                                                log.info(
                                                    NAME,
                                                    _('Skiping playing on station'
                                                      ) + ': ' +
                                                    str(entry['station'] + 1) +
                                                    '.')
                                                self._sleep(1)
                                                return  # not playing skipping

                                        play = True
                                        stat_run_num = entry['station']

                            if play != last_play:
                                last_play = play

                                if stat_run_num != -1:
                                    post_song = plugin_options['vs%d' %
                                                               stat_run_num]
                                    #print post_song

                                if last_play:
                                    log.clear(NAME)
                                    play_voice(
                                        self,
                                        "voice.mp3")  # play voice in folder
                                    if post_song != ' ':
                                        play_voice(
                                            self, post_song
                                        )  # play post station voice in folder

                                    self._sleep(2)

                                    if plugin_options['repeating'] == 2:
                                        log.info(
                                            NAME,
                                            _('Repeating playing nr. 2...'))
                                        play_voice(self, "voice.mp3"
                                                   )  # play voice in folder
                                        if post_song != ' ':
                                            play_voice(
                                                self, post_song
                                            )  # play post station voice in folder

                                        self._sleep(2)

                                    if plugin_options['repeating'] == 3:
                                        log.info(
                                            NAME,
                                            _('Repeating playing nr. 3...'))
                                        play_voice(self, "voice.mp3"
                                                   )  # play voice in folder
                                        if post_song != ' ':
                                            play_voice(
                                                self, post_song
                                            )  # play post station voice in folder

            except Exception:
                log.error(
                    NAME,
                    _('Voice Notification plug-in') + ':\n' +
                    traceback.format_exc())
                self._sleep(60)
Exemple #9
0
    def run(self):
        log.clear(NAME)

        if not plugin_options['enabled']:
            log.info(NAME, _(u'Voice notification is disabled.'))
        else:
            log.info(NAME, _(u'Voice notification is enabled.'))

        read_folder(
        )  # read name from file in data folder and add to plugin_options "sound"
        once_test = True  # for test installing pygame
        is_installed = True  # if pygame is installed
        last_station_on = -1

        while not self._stop_event.is_set():
            try:
                if plugin_options['enabled']:  # plugin is enabled
                    try:
                        from pygame import mixer  # https://www.pygame.org/docs/ref/music.html

                    except ImportError:
                        if once_test:  # only once instalation
                            log.clear(NAME)
                            log.info(NAME, _(u'Pygame is not installed.'))
                            log.info(NAME,
                                     _(u'Please wait installing pygame...'))
                            cmd = "sudo apt-get install python-pygame -y"
                            run_command(cmd)
                            once_test = False
                            log.info(NAME, _(u'Pygame is now installed.'))
                            is_installed = False

                    current_time = datetime.datetime.now()
                    user_pre_time = current_time + datetime.timedelta(
                        seconds=int(plugin_options['pre_time']))
                    check_start = current_time - datetime.timedelta(days=1)
                    check_end = current_time + datetime.timedelta(days=1)

                    if int(current_time.hour) >= int(
                            plugin_options['start_hour']
                    ) and int(current_time.hour) <= int(
                            plugin_options['stop_hour']
                    ) and is_installed:  # play notifications only from xx hour to yy hour
                        schedule = predicted_schedule(check_start, check_end)
                        for entry in schedule:
                            if entry['start'] <= user_pre_time < entry[
                                    'end']:  # is possible program in this interval?
                                if not entry['blocked']:
                                    for station_num in plugin_options[
                                            'skip_stations']:
                                        if entry[
                                                'station'] == station_num:  # station skiping
                                            log.clear(NAME)
                                            log.info(
                                                NAME,
                                                _(u'Skiping playing on station'
                                                  ) + ': ' +
                                                str(entry['station'] + 1) +
                                                '.')
                                            self._sleep(1)
                                            return  # not playing skipping

                                    rain = not options.manual_mode and (
                                        rain_blocks.block_end() >
                                        datetime.datetime.now()
                                        or inputs.rain_sensed())
                                    ignore_rain = stations.get(
                                        entry['station']).ignore_rain

                                    if not rain or ignore_rain:  # if station has ignore rain or not rain
                                        stat_num = int(entry['station'])
                                        if len(plugin_options['sounds']) > 0:
                                            log.clear(NAME)
                                            data = {}
                                            data['song'] = plugin_options[
                                                'sounds'][int(
                                                    plugin_options['on']
                                                    [stat_num])]
                                            path = os.path.join(
                                                plugin_data_dir(),
                                                data['song'])
                                            if os.path.isfile(path):
                                                if last_station_on != stat_num:
                                                    last_station_on = stat_num
                                                    log.info(
                                                        NAME,
                                                        _(u'Add song {} to queue.'
                                                          ).format(
                                                              data['song']))
                                                    update_song_queue(
                                                        data
                                                    )  # save song name to song queue
                                                    if plugin_options[
                                                            'repeating'] == 2 or plugin_options[
                                                                'repeating'] == 3:
                                                        log.info(
                                                            NAME,
                                                            _(u'Add 2. repeating for song.'
                                                              ))
                                                        song_queue = read_song_queue(
                                                        )
                                                        song_queue.insert(
                                                            1, data)
                                                        write_song_queue(
                                                            song_queue)
                                                    if plugin_options[
                                                            'repeating'] == 3:
                                                        log.info(
                                                            NAME,
                                                            _(u'Add 3. repeating for song.'
                                                              ))
                                                        song_queue = read_song_queue(
                                                        )
                                                        song_queue.insert(
                                                            2, data)
                                                        write_song_queue(
                                                            song_queue)
                if is_installed:
                    play_voice()

                self._sleep(1)

            except Exception:
                log.error(
                    NAME,
                    _(u'Voice Notification plug-in') + ':\n' +
                    traceback.format_exc())
                self._sleep(60)