"""Helpers for listening to events."""
import functools as ft
from datetime import timedelta

from ..const import (
    ATTR_NOW, EVENT_STATE_CHANGED, EVENT_TIME_CHANGED, MATCH_ALL)
from ..util import dt as dt_util


def track_state_change(hass, entity_ids, action, from_state=None,
                       to_state=None):
    """Track specific state changes.

    entity_ids, from_state and to_state can be string or list.
    Use list to match multiple.

    Returns the listener that listens on the bus for EVENT_STATE_CHANGED.
    Pass the return value into hass.bus.remove_listener to remove it.
    """
    from_state = _process_state_match(from_state)
    to_state = _process_state_match(to_state)

    # Ensure it is a lowercase list with entity ids we want to match on
    if entity_ids == MATCH_ALL:
        pass
    elif isinstance(entity_ids, str):
        entity_ids = (entity_ids.lower(),)
    else:
        entity_ids = tuple(entity_id.lower() for entity_id in entity_ids)

    @ft.wraps(action)
    def state_change_listener(event):
        """The listener that listens for specific state changes."""
        if entity_ids != MATCH_ALL and \
           event.data.get('entity_id') not in entity_ids:
            return

        if event.data.get('old_state') is not None:
            old_state = event.data['old_state'].state
        else:
            old_state = None

        if event.data.get('new_state') is not None:
            new_state = event.data['new_state'].state
        else:
            new_state = None

        if _matcher(old_state, from_state) and _matcher(new_state, to_state):
            action(event.data.get('entity_id'),
                   event.data.get('old_state'),
                   event.data.get('new_state'))

    hass.bus.listen(EVENT_STATE_CHANGED, state_change_listener)

    return state_change_listener


def track_point_in_time(hass, action, point_in_time):
    """Add a listener that fires once after a spefic point in time."""
    utc_point_in_time = dt_util.as_utc(point_in_time)

    @ft.wraps(action)
    def utc_converter(utc_now):
        """Convert passed in UTC now to local now."""
        action(dt_util.as_local(utc_now))

    return track_point_in_utc_time(hass, utc_converter, utc_point_in_time)


def track_point_in_utc_time(hass, action, point_in_time):
    """Add a listener that fires once after a specific point in UTC time."""
    # Ensure point_in_time is UTC
    point_in_time = dt_util.as_utc(point_in_time)

    @ft.wraps(action)
    def point_in_time_listener(event):
        """Listen for matching time_changed events."""
        now = event.data[ATTR_NOW]

        if now >= point_in_time and \
           not hasattr(point_in_time_listener, 'run'):

            # Set variable so that we will never run twice.
            # Because the event bus might have to wait till a thread comes
            # available to execute this listener it might occur that the
            # listener gets lined up twice to be executed. This will make
            # sure the second time it does nothing.
            point_in_time_listener.run = True

            hass.bus.remove_listener(EVENT_TIME_CHANGED,
                                     point_in_time_listener)

            action(now)

    hass.bus.listen(EVENT_TIME_CHANGED, point_in_time_listener)
    return point_in_time_listener


def track_sunrise(hass, action, offset=None):
    """Add a listener that will fire a specified offset from sunrise daily."""
    from homeassistant.components import sun
    offset = offset or timedelta()

    def next_rise():
        """Return the next sunrise."""
        next_time = sun.next_rising_utc(hass) + offset

        while next_time < dt_util.utcnow():
            next_time = next_time + timedelta(days=1)

        return next_time

    def sunrise_automation_listener(now):
        """Called when it's time for action."""
        track_point_in_utc_time(hass, sunrise_automation_listener, next_rise())
        action()

    track_point_in_utc_time(hass, sunrise_automation_listener, next_rise())


def track_sunset(hass, action, offset=None):
    """Add a listener that will fire a specified offset from sunset daily."""
    from homeassistant.components import sun
    offset = offset or timedelta()

    def next_set():
        """Return next sunrise."""
        next_time = sun.next_setting_utc(hass) + offset

        while next_time < dt_util.utcnow():
            next_time = next_time + timedelta(days=1)

        return next_time

    def sunset_automation_listener(now):
        """Called when it's time for action."""
        track_point_in_utc_time(hass, sunset_automation_listener, next_set())
        action()

    track_point_in_utc_time(hass, sunset_automation_listener, next_set())


# pylint: disable=too-many-arguments
def track_utc_time_change(hass, action, year=None, month=None, day=None,
                          hour=None, minute=None, second=None, local=False):
    """Add a listener that will fire if time matches a pattern."""
    # We do not have to wrap the function with time pattern matching logic
    # if no pattern given
    if all(val is None for val in (year, month, day, hour, minute, second)):
        @ft.wraps(action)
        def time_change_listener(event):
            """Fire every time event that comes in."""
            action(event.data[ATTR_NOW])

        hass.bus.listen(EVENT_TIME_CHANGED, time_change_listener)
        return time_change_listener

    pmp = _process_time_match
    year, month, day = pmp(year), pmp(month), pmp(day)
    hour, minute, second = pmp(hour), pmp(minute), pmp(second)

    @ft.wraps(action)
    def pattern_time_change_listener(event):
        """Listen for matching time_changed events."""
        now = event.data[ATTR_NOW]

        if local:
            now = dt_util.as_local(now)
        mat = _matcher

        # pylint: disable=too-many-boolean-expressions
        if mat(now.year, year) and \
           mat(now.month, month) and \
           mat(now.day, day) and \
           mat(now.hour, hour) and \
           mat(now.minute, minute) and \
           mat(now.second, second):

            action(now)

    hass.bus.listen(EVENT_TIME_CHANGED, pattern_time_change_listener)
    return pattern_time_change_listener


# pylint: disable=too-many-arguments
def track_time_change(hass, action, year=None, month=None, day=None,
                      hour=None, minute=None, second=None):
    """Add a listener that will fire if UTC time matches a pattern."""
    return track_utc_time_change(hass, action, year, month, day, hour, minute,
                                 second, local=True)


def _process_state_match(parameter):
    """Wrap parameter in a tuple if it is not one and returns it."""
    if parameter is None or parameter == MATCH_ALL:
        return MATCH_ALL
    elif isinstance(parameter, str) or not hasattr(parameter, '__iter__'):
        return (parameter,)
    else:
        return tuple(parameter)


def _process_time_match(parameter):
    """Wrap parameter in a tuple if it is not one and returns it."""
    if parameter is None or parameter == MATCH_ALL:
        return MATCH_ALL
    elif isinstance(parameter, str) and parameter.startswith('/'):
        return parameter
    elif isinstance(parameter, str) or not hasattr(parameter, '__iter__'):
        return (parameter,)
    else:
        return tuple(parameter)


def _matcher(subject, pattern):
    """Return True if subject matches the pattern.

    Pattern is either a tuple of allowed subjects or a `MATCH_ALL`.
    """
    if isinstance(pattern, str) and pattern.startswith('/'):
        try:
            return subject % float(pattern.lstrip('/')) == 0
        except ValueError:
            return False

    return MATCH_ALL == pattern or subject in pattern