import json

from peewee import JOIN_LEFT_OUTER, SQL, fn
from datetime import datetime, timedelta, date
from cachetools import lru_cache

from data.database import LogEntry, LogEntryKind, User, db

# TODO: Find a way to get logs without slowing down pagination significantly.
def _logs_query(selections, start_time, end_time, performer=None, repository=None, namespace=None):
  joined = (LogEntry
            .select(*selections)
            .switch(LogEntry)
            .where(LogEntry.datetime >= start_time, LogEntry.datetime < end_time))

  if repository:
    joined = joined.where(LogEntry.repository == repository)

  if performer:
    joined = joined.where(LogEntry.performer == performer)

  if namespace:
    joined = joined.join(User).where(User.username == namespace)

  return joined


@lru_cache(maxsize=1)
def get_log_entry_kinds():
  kind_map = {}
  for kind in LogEntryKind.select():
    kind_map[kind.id] = kind.name

  return kind_map


def get_aggregated_logs(start_time, end_time, performer=None, repository=None, namespace=None):
  date = db.extract_date('day', LogEntry.datetime)
  selections = [LogEntry.kind, date.alias('day'), fn.Count(LogEntry.id).alias('count')]
  query = _logs_query(selections, start_time, end_time, performer, repository, namespace)
  return query.group_by(date, LogEntry.kind)


def get_logs_query(start_time, end_time, performer=None, repository=None, namespace=None):
  Performer = User.alias()
  selections = [LogEntry, Performer]

  query = _logs_query(selections, start_time, end_time, performer, repository, namespace)
  query = (query.switch(LogEntry)
                .join(Performer, JOIN_LEFT_OUTER,
                  on=(LogEntry.performer == Performer.id).alias('performer')))

  return query


def log_action(kind_name, user_or_organization_name, performer=None, repository=None,
               ip=None, metadata={}, timestamp=None):
  if not timestamp:
    timestamp = datetime.today()

  kind = LogEntryKind.get(LogEntryKind.name == kind_name)
  account = User.get(User.username == user_or_organization_name)
  LogEntry.create(kind=kind, account=account, performer=performer,
                  repository=repository, ip=ip, metadata_json=json.dumps(metadata),
                  datetime=timestamp)


def _get_repository_events(repository, time_delta, time_delta_earlier, clause):
  """ Returns a pair representing the count of the number of events for the given
      repository in each of the specified time deltas. The date ranges are calculated by
      taking the current time today and subtracting the time delta given. Since
      we want to grab *two* ranges, we restrict the second range to be greater
      than the first (i.e. referring to an earlier time), so we can conduct the
      lookup in a single query. The clause is used to further filter the kind of
      events being found.
  """
  since = date.today() - time_delta
  since_earlier = date.today() - time_delta_earlier

  if since_earlier >= since:
    raise ValueError('time_delta_earlier must be greater than time_delta')

  # This uses a CASE WHEN inner clause to further filter the count.
  formatted = since.strftime('%Y-%m-%d')
  case_query = 'CASE WHEN datetime >= \'%s\' THEN 1 ELSE 0 END' % formatted

  result = (LogEntry
            .select(fn.Sum(SQL(case_query)), fn.Count(SQL('*')))
            .where(LogEntry.repository == repository)
            .where(clause)
            .where(LogEntry.datetime >= since_earlier)
            .tuples()
            .get())

  return (int(result[0]) if result[0] else 0, int(result[1]) if result[1] else 0)


def get_repository_pushes(repository, time_delta, time_delta_earlier):
  push_repo = LogEntryKind.get(name='push_repo')
  clauses = (LogEntry.kind == push_repo)
  return _get_repository_events(repository, time_delta, time_delta_earlier, clauses)


def get_repository_pulls(repository, time_delta, time_delta_earlier):
  repo_pull = LogEntryKind.get(name='pull_repo')
  repo_verb = LogEntryKind.get(name='repo_verb')
  clauses = ((LogEntry.kind == repo_pull) | (LogEntry.kind == repo_verb))
  return _get_repository_events(repository, time_delta, time_delta_earlier, clauses)


def get_repository_usage():
  one_month_ago = date.today() - timedelta(weeks=4)
  repo_pull = LogEntryKind.get(name='pull_repo')
  repo_verb = LogEntryKind.get(name='repo_verb')
  return (LogEntry
          .select(LogEntry.ip, LogEntry.repository)
          .where((LogEntry.kind == repo_pull) | (LogEntry.kind == repo_verb))
          .where(~(LogEntry.repository >> None))
          .where(LogEntry.datetime >= one_month_ago)
          .group_by(LogEntry.ip, LogEntry.repository)
          .count())


def get_stale_logs_start_id():
  """ Gets the oldest log entry. """
  try:
    return (LogEntry
            .select(LogEntry.id)
            .order_by(LogEntry.id)
            .limit(1)
            .tuples())[0][0]
  except IndexError:
    return None


def get_stale_logs_cutoff_id(cutoff_date):
  """ Gets the most recent ID created before the cutoff_date. """
  try:
    return (LogEntry
            .select(LogEntry.id)
            .where(LogEntry.datetime <= cutoff_date)
            .order_by(LogEntry.id.desc())
            .limit(1)
            .tuples())[0][0]
  except IndexError:
    return None


def get_stale_logs(start_id, end_id):
  """ Returns all the logs with IDs between start_id and end_id inclusively. """
  return LogEntry.select().where((LogEntry.id >= start_id), (LogEntry.id <= end_id))


def delete_stale_logs(start_id, end_id):
  """ Deletes all the logs with IDs between start_id and end_id. """
  LogEntry.delete().where((LogEntry.id >= start_id), (LogEntry.id <= end_id)).execute()