def standalone():
    db = Session()
    while True:
        try:
            log.info("Opening serial port")
            ser = serial.Serial('/dev/ttyACM0', 115200, timeout=10)
            log.info("Serial port open")

            while True:
                line = ser.readline()
                if line:
                    (node_id, seq_no, reading_type, reading,
                     checksum_sent, checksum_calc) = line.split(" ")
                    r = Reading()
                    r.node_id = int(node_id)
                    r.seq_no = int(seq_no)
                    r.reading_type = reading_type
                    r.reading = float(reading)
                    r.checksum_sent = int(checksum_sent, 16)
                    r.checksum_calc = int(checksum_calc, 16)
                    db.add(r)
                    db.commit();
                    log.info("Read line: %r", line)
        except Exception:
            log.exception("Exception")
            time.sleep(20)
def test_add_and_get_data(get_example_data):
    with Session.begin() as s:
        CrudTable().add_data(s, get_example_data)
    with Session.begin() as s:
        assert len(CrudTable().get_data(s)) == 6
        assert len(CrudTable().get_data(s, user_name="Tom Cat")) == 1
        assert len(CrudTable().get_data(s, user_name="Jerry Mouse")) == 1
Exemple #3
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    def game_count(self):
        s = Session()
        gameCount = s.query(Champion).\
            join(Match, Champion.match_id == Match.match_id).\
            filter(Champion.champion_key == self.championKey).\
            filter(Match.created_on > (
                datetime.utcnow() - timedelta(days=self.days))).count()

        return gameCount
Exemple #4
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    def game_count(self):
        s = Session()
        gameCount = s.query(Champion).\
            join(Match, Champion.match_id == Match.match_id).\
            filter(Champion.champion_key == self.championKey).\
            filter(Match.created_on > (
                datetime.utcnow() - timedelta(days=self.days))).count()

        return gameCount
def evaluate(model, dictionary, session_queries):
    session = Session()
    session.queries = session_queries
    session_queries, session_query_length, rel_docs, rel_docs_length, doc_labels = helper.session_to_tensor(
        [session], dictionary, iseval=True)
    if model.config.cuda:
        session_queries = session_queries.cuda()
        session_query_length = session_query_length.cuda()
    return suggest_next_query(model, session_queries, session_query_length, dictionary)
def evaluate(model, dictionary, session_queries):
    sess = Session()
    sess.queries = session_queries
    session_tensor, query_lengths = helper.session_to_tensor([sess],
                                                             dictionary, True)
    if args.cuda:
        session_tensor = session_tensor.cuda()
        query_lengths = query_lengths.cuda()
    return suggest_next_query(model, dictionary, session_tensor, query_lengths)
def test_update_data():
    new_data = {"email": "*****@*****.**"}
    with Session.begin() as s:
        target = CrudTable().get_data(s, email="*****@*****.**")
        assert len(target) == 0
        user = CrudTable().get_data(s, email="*****@*****.**")[0]
        CrudTable().update_data(user, new_data)
    with Session.begin() as s:
        target = CrudTable().get_data(s, email="*****@*****.**")
        assert len(target) == 1
Exemple #8
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def main():
    name = sys.argv[1]

    session = Session()
    team_a = session.query(Team).filter(Team.name == "Matematici").one()
    team_b = session.query(Team).filter(Team.name == "Fisici").one()
    sched_begin = datetime.datetime.strptime(sys.argv[2], '%Y-%m-%d %H:%M:%S')
    sched_end = datetime.datetime.strptime(sys.argv[3], '%Y-%m-%d %H:%M:%S')
    match_id = act_init_match(session, name, team_a, team_b, sched_begin, sched_end)
    session.commit()
    print "> Created match with ID %d" % (match_id)
    def done(self, _):
        """Saves the current performer details"""
        session = Session() # Get a database session

        performer = self._target(session)
        performer.name   = self.name.get_edit_text()
        performer.email  = self.email.get_edit_text()
        performer.mobile = self.mobile.get_edit_text()
        performer.nfc = self.nfc.get_edit_text()

        session.add(performer)
        session.commit()
        self.callback(None, performer)
Exemple #10
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def insert_tags(all_tags):
    s = Session()
    for tag in all_tags:
        t = Tags(name=tag)
        try:
            s.add(t)
            s.commit()
            print "Added:", tag
        except IntegrityError as e:
            s.rollback()
            pass
Exemple #11
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def create_teams():
    session = Session()
    Base.metadata.create_all()
    session.commit()
    t1 = Team()
    t1.name = 'Matematici'
    t2 = Team()
    t2.name = 'Fisici'
    session.add(t1)
    session.add(t2)
    session.commit()
Exemple #12
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    def __init__(self, match_id):
        self.session = Session()
        self.match = self.session.query(Match).filter(Match.id == match_id).one()
        self.teams = [self.match.team_a, self.match.team_b]
        self.order = [None, None]
        self.queues = [[], []]
        self.score = [0, 0]
        self.players = [[None, None], [None, None]]
        self.listeners = []

        self.last_event_id = 0
        self.last_player_match_id = 0
        self.last_timestamp = None
    def get(self):
        sess = Session()

        self.set_header("Content-Type", "application/json")

        self.write('{"num_nodes":3,"readings":[')
        i = 0
        last_timestamp = {}
        now = datetime.datetime.utcnow()
        one_month_ago = now - datetime.timedelta(days=30)
        one_year_ago = now - datetime.timedelta(days=365)
        one_week_ago = now - datetime.timedelta(days=7)
        one_day_ago = now - datetime.timedelta(days=1)
        for r in (sess.query(Reading).
                      filter(Reading.checksum_calc == Reading.checksum_sent).
                      filter(Reading.created_at > one_year_ago).
                      order_by(Reading.created_at)):
            if r.created_at < one_month_ago:
                min_delta = datetime.timedelta(hours=4)
            elif r.created_at < one_week_ago:
                min_delta = datetime.timedelta(hours=2)
            elif r.created_at < one_day_ago:
                min_delta = datetime.timedelta(hours=1)
            else:
                min_delta = datetime.timedelta()
            if (last_timestamp.get(r.node_id, None) is None or
                r.created_at > last_timestamp[r.node_id] + min_delta):
                self.write(("" if i == 0 else ",") +
                       cjson.encode([time.mktime(r.created_at.timetuple()), #@UndefinedVariable
                                     r.reading if r.node_id == 1 else None,
                                     r.reading if r.node_id == 2 else None,
                                     r.reading if r.node_id == 3 else None]))
                last_timestamp[r.node_id] = r.created_at
            i += 1
            if (i % 20) == 0:
                self.flush()

        self.finish("]}")
Exemple #14
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def main(filename):
    Base.metadata.create_all(Engine)
    session = Session()
    fortunes = pd.read_csv(filename)

    for index, row in fortunes.iterrows():
        logger.info('Loading rank {} into DB'.format(row['rank']))
        fortune = Fortune(row['rank'],
                           row['title'],
                           row['website'],
                           row['employees'],
                           row['sector'],
                           row['industry'])

        session.add(fortune)
    session.commit()
    session.close()
def attach_foreignkeys(gen):
	s = Session()
	all_answers = {x[0] for x in s.query(Answers.id).all()}
	print "Answers loaded."

	for index, line in enumerate(gen):
		line = line.strip()
		if line.startswith("<row"):
			node = etree.fromstring(line)
			post_object = node.attrib

			if post_object.get('PostTypeId') == "1":
				attach_question(s, post_object, all_answers)
			if post_object.get('PostTypeId') == "2":
				attach_answer(s, post_object)
		if index % 2000 == 0:
			print index, "attached."
			sys.stdout.flush()

		if index % 50000 == 0:
			s.commit()
	s.commit()
def parse_lines(gen):
	s = Session()
	for index, line in enumerate(gen):
		line = line.strip()
		if line.startswith("<row"):
			node = etree.fromstring(line)
			post_object = node.attrib

			if post_object.get('PostTypeId') == "1":
				process_questions(s, post_object)
			if post_object.get('PostTypeId') == "2":
				process_answers(s, post_object)
		if index % 2000 == 0:
			print index, "processed."
			sys.stdout.flush()

		if index % 50000 == 0:
			s.commit()
	s.commit()
def standalone():
    db = Session()
    while True:
        try:
            log.info("Opening serial port")
            serial = pyserial.Serial('COM3', 115200, timeout=10) #/dev/ttyACM0
            log.info("Serial port open")

            while True:
                line = str(serial.readline(), 'ascii')
                if line:
                    (node_id, seq_no, reading_type, temperature,
                     checksum_sent, checksum_calc) = line.split(" ")
                    reading = Reading()
                    reading.node_id = int(node_id)
                    reading.seq_no = int(seq_no)
                    reading.reading_type = reading_type
                    reading.reading = float(temperature)
                    reading.checksum_sent = int(checksum_sent, 16)
                    reading.checksum_calc = int(checksum_calc, 16)
                    db.add(reading)
                    db.commit()
                    log.info("Read line: %r", line)         
                    
                    setpoint = db.query(Setpoint).filter(Setpoint.zone_id == reading.node_id).order_by(desc(Setpoint.created_at)).first()
                    if setpoint is not None:
                        log.info("actual temp %s desired temp %s" % (reading.reading, setpoint.temperature))
                        if setpoint.temperature > reading.reading:
                            serial.write(struct.pack('!B', (reading.node_id << 1))) # flip that zone to on
                            log.info("opening zone %s" % reading.node_id)
                        else:
                            serial.write(struct.pack('!B', (reading.node_id << 1) + 1)) # flip that zone to off
                            log.info("closing zone %s" % reading.node_id)


        except Exception:
            log.exception("Exception")
            time.sleep(20)
Exemple #18
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                                turns=self.turns)


def usage():
    """Print usage and exit."""
    print "Usage: {} match_id filename".format(sys.argv[0])
    sys.exit(1)


if __name__ == "__main__":
    try:
        match_id = int(sys.argv[1])
        filename = sys.argv[2]
    except IndexError, ValueError:
        usage()
    session = Session()
    players = {}

    try:
        # Load turns from csv file
        turns = []
        with open(filename, "rb") as csvfile:
            csvreader = csv.reader(csvfile, delimiter=",", quotechar="'")
            for row in csvreader:
                turn = Turn.from_csv_line(row)
                turns.append(turn)
                for team in (1, 2):
                    for player_id in turn.players[team]:
                        if player_id not in players:
                            players[player_id] = PlayerInfo(player_id, team)
        # print(turns)
Exemple #19
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class SubottoCore:

    def __init__(self, match_id):
        self.session = Session()
        self.match = self.session.query(Match).filter(Match.id == match_id).one()
        self.teams = [self.match.team_a, self.match.team_b]
        self.order = [None, None]
        self.queues = [[], []]
        self.score = [0, 0]
        self.players = [[None, None], [None, None]]
        self.listeners = []

        self.last_event_id = 0
        self.last_player_match_id = 0
        self.last_timestamp = None

    def close(self):
        self.session.rollback()
        self.session.close()

    def detect_team(self, team):
        if team == self.match.team_a:
            return 0
        else:
            return 1

    def new_player_match(self, player_match):
        print >> sys.stderr, "> Received new player match: %r" % (player_match)

        for listener in self.listeners:
            listener.new_player_match(player_match)

    def new_event(self, event):
        print >> sys.stderr, "> Received new event: %r" % (event)

        if event.type == Event.EV_TYPE_SWAP:
            self.order = [event.red_team, event.blue_team]

        elif event.type == Event.EV_TYPE_CHANGE:
            self.players[self.detect_team(event.team)] = [event.player_a, event.player_b]

        elif event.type == Event.EV_TYPE_GOAL:
            self.score[self.detect_team(event.team)] += 1

        elif event.type == Event.EV_TYPE_GOAL_UNDO:
            self.score[self.detect_team(event.team)] -= 1

        elif event.type == Event.EV_TYPE_ADVANTAGE_PHASE:
            pass

        else:
            print >> sys.stderr, "> Wrong event type %r\n" % (event.type)

        for listener in self.listeners:
            listener.new_event(event)

    def regenerate(self):
        print >> sys.stderr, "> Regeneration"
        for listener in self.listeners:
            listener.regenerate()

    def update(self):
        self.session.rollback()

        for player_match in self.session.query(PlayerMatch).filter(PlayerMatch.match == self.match).filter(PlayerMatch.id > self.last_player_match_id).order_by(PlayerMatch.id):
            self.new_player_match(player_match)
            self.last_player_match_id = player_match.id

        for event in self.session.query(Event).filter(Event.match == self.match).filter(Event.id > self.last_event_id).order_by(Event.id):
            if self.last_timestamp is not None and event.timestamp <= self.last_timestamp:
                print >> sys.stderr, "> Timestamp monotonicity error at %s!\n" % (event.timestamp)
                #sys.exit(1)
            self.new_event(event)
            self.last_timestamp = event.timestamp
            self.last_event_id = event.id

        for idx in [0, 1]:
            team = self.teams[idx]
            this_num = 0
            self.queues[idx] = []
            for queue_element in self.match.get_queue(team):
                if queue_element.num != this_num:
                    printf >> sys.stderr, "> Error: queues are inconsistent"
                this_num += 1
                self.queues[idx].append((queue_element.player_a, queue_element.player_b))

        self.regenerate()
        return True

    def act_event(self, event, source=None):
        event.timestamp = now()
        event.match = self.match
        if source is None:
            event.source = Event.EV_SOURCE_MANUAL
        else:
            event.source = source
        if not event.check_type():
            print >> sys.stderr, "> Sending bad event..."
        self.session.add(event)
        self.session.commit()
        self.update()

    def act_switch_teams(self, source=None):
        e = Event()
        e.type = Event.EV_TYPE_SWAP
        if self.order == [None, None]:
            e.red_team = self.teams[0]
            e.blue_team = self.teams[1]
        else:
            e.red_team = self.order[1]
            e.blue_team = self.order[0]
        self.act_event(e, source)

    def act_goal(self, team, source=None):
        e = Event()
        e.type = Event.EV_TYPE_GOAL
        e.team = team
        self.act_event(e, source)

    def act_goal_undo(self, team, source=None):
        e = Event()
        e.type = Event.EV_TYPE_GOAL_UNDO
        e.team = team
        self.act_event(e, source)

    def act_team_change(self, team, player_a, player_b, source=None):
        e = Event()
        e.type = Event.EV_TYPE_CHANGE
        e.team = team
        e.player_a = player_a
        e.player_b = player_b
        self.act_event(e, source)

    def act_add_to_queue(self, team, player_a, player_b):
        qe = QueueElement()
        qe.match = self.match
        qe.team = team
        qe.player_a = player_a
        qe.player_b = player_b
        qe.num = len(self.queues[self.detect_team(team)])
        self.session.add(qe)
        self.session.commit()
        self.update()

    def act_remove_from_queue(self, team, num):
        queue = self.match.get_queue(team)
        self.session.delete(queue[num])
        self.session.flush()
        del queue[num]
        # Indirect assignement to prevent failing constraints
        for i in xrange(num, len(queue)):
            queue[i].num = None
        self.session.flush()
        for i in xrange(num, len(queue)):
            queue[i].num = i
        self.session.commit()
        self.update()

    def act_swap_queue(self, team, num1, num2):
        queue = self.match.get_queue(team)
        # Indirect assignement to prevent failing constraints
        queue[num1].num = None
        queue[num2].num = None
        self.session.flush()
        queue[num1].num = num2
        queue[num2].num = num1
        self.session.commit()
        self.update()

    def act_begin_match(self, begin=None):
        if begin is None:
            begin = datetime.datetime.now()
        self.match.begin = begin
        self.session.commit()

    def act_end_match(self, end=None):
        if end is None:
            end = datetime.datetime.now()
        self.match.end = end
        self.session.commit()

    def act_add_player_match_from_name(self, team, fname, lname, comment=None, bulk=False):
        player = Player.get_or_create(self.session, fname, lname, comment)
        try:
            player_match = self.session.query(PlayerMatch).filter(PlayerMatch.match == self.match). \
                filter(PlayerMatch.player == player).one()
        except NoResultFound:
            player_match = PlayerMatch()
            player_match.player = player
            player_match.match = self.match
            player_match.team = team
            self.session.add(player_match)
            if not bulk:
                self.session.commit()

    def easy_get_red_team(self):
        return self.order[0]

    def easy_get_blue_team(self):
        return self.order[1]

    def easy_get_red_score(self):
        return self.score[self.detect_team(self.easy_get_red_team())]

    def easy_get_blue_score(self):
        return self.score[self.detect_team(self.easy_get_blue_team())]

    def easy_act_red_goal_cell(self):
        self.act_goal(self.easy_get_blue_team(), source=Event.EV_SOURCE_CELL_RED_PLAIN)

    def easy_act_red_supergoal_cell(self):
        self.act_goal(self.easy_get_blue_team(), source=Event.EV_SOURCE_CELL_RED_SUPER)

    def easy_act_red_goal_button(self):
        self.act_goal(self.easy_get_red_team(), source=Event.EV_SOURCE_BUTTON_RED_GOAL)

    def easy_act_red_goalundo_button(self):
        self.act_goal_undo(self.easy_get_red_team(), source=Event.EV_SOURCE_BUTTON_RED_UNDO)

    def easy_act_blue_goal_cell(self):
        self.act_goal(self.easy_get_red_team(), source=Event.EV_SOURCE_CELL_BLUE_PLAIN)

    def easy_act_blue_supergoal_cell(self):
        self.act_goal(self.easy_get_red_team(), source=Event.EV_SOURCE_CELL_BLUE_SUPER)

    def easy_act_blue_goal_button(self):
        self.act_goal(self.easy_get_blue_team(), source=Event.EV_SOURCE_BUTTON_BLUE_GOAL)

    def easy_act_blue_goalundo_button(self):
        self.act_goal_undo(self.easy_get_blue_team(), source=Event.EV_SOURCE_BUTTON_BLUE_UNDO)
Exemple #20
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    def run(self):
        session = Session()
        last_id = Log.get_last_id(session, simulate_time=self.simulate_time)
        if last_id is None:
            last_id = 0
        last_id -= BUFFER_LEN

        time_delta = None
        if self.simulate_time:
            time_delta = monotonic_time() - self.simulate_time

        while not self.closing:
            query = session.query(Log).filter(Log.id > last_id).filter(Log.interesting == True).order_by(Log.id)
            if time_delta is not None:
                log2 = session.query(Log).filter(Log.interesting == True).filter(Log.timestamp <= monotonic_time() - time_delta).order_by(Log.timestamp.desc()).first()
                query = query.filter(Log.id <= log2.id)
            new_data = query.all()
            if len(new_data) > 0:
                last_id = new_data[-1].id

            #print >> sys.stderr, "Read %d records" % (len(new_data))
            self.buffer += new_data
            self.buffer = self.buffer[-BUFFER_LEN:]
            session.expunge_all()
            session.rollback()
            time.sleep(SLEEP_TIME)

        session.rollback()
        session.close()
Exemple #21
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def replay_match(orig_match_id, mult=1.0, initial_wait=0.0):

    session = Session()

    # Retrieve the original match and prepare the new event list
    # (already sorted by SQLAlchemy)
    orig_match = session.query(Match).filter(Match.id == orig_match_id).one()
    events = [((min(max(x.timestamp, orig_match.begin), orig_match.end) - orig_match.begin).total_seconds(), x)
              for x in orig_match.events]
    ref_time = 0.0
    for i in xrange(len(events)):
        delta = events[i][0] - ref_time
        ref_time = events[i][0]
        events[i] = (delta / mult, events[i][1])

    # Replicate the original match
    match = Match()
    match.sched_begin = datetime.datetime.now() + datetime.timedelta(seconds=0.5 * initial_wait)
    match.sched_end = match.sched_begin + multiply_timedelta(1.0 / mult, orig_match.sched_end - orig_match.sched_begin)
    match.name = "Replay of \"%s\"" % (orig_match.name)
    match.team_a = orig_match.team_a
    match.team_b = orig_match.team_b
    session.add(match)

    # Add the advantage phases
    phase = AdvantagePhase()
    phase.match = match
    phase.start_sec = 0
    phase.advantage = 10
    session.add(phase)
    phase = AdvantagePhase()
    phase.match = match
    phase.start_sec = 30 * 60
    phase.advantage = 5
    session.add(phase)
    phase = AdvantagePhase()
    phase.match = match
    phase.start_sec = 60 * 60
    phase.advantage = 3
    session.add(phase)

    # Replicate the player_matches
    for orig_pm in session.query(PlayerMatch).filter(PlayerMatch.match == orig_match):
        pm = PlayerMatch()
        pm.match = match
        pm.player = orig_pm.player
        pm.team = orig_pm.team
        session.add(pm)

    # Flush and commit
    session.flush()
    session.commit()

    # Print match ID and start wait
    print "> Feeding match with ID %d" % (match.id)
    print "> Scheduled times: %s -- %s" % (match.sched_begin, match.sched_end)
    print "> Waiting initial %f seconds..." % (initial_wait)
    time.sleep(initial_wait)

    # Set begin
    match.begin = datetime.datetime.now()
    print "> Match begins at %s" % (match.begin)
    session.commit()

    # Replay events
    for wait_secs, orig_ev in events:
        print "> Waiting %f seconds..." % (wait_secs)
        time.sleep(wait_secs)
        ev = Event()
        ev.timestamp = datetime.datetime.now()
        ev.match = match
        ev.type = orig_ev.type
        ev.source = orig_ev.source
        ev.team = orig_ev.team
        ev.player_a = orig_ev.player_a
        ev.player_b = orig_ev.player_b
        ev.red_team = orig_ev.red_team
        ev.blue_team = orig_ev.blue_team
        ev.phase = orig_ev.phase
        print "> Pushing event of type %s and timestamp %s" % (ev.type, ev.timestamp)
        session.add(ev)
        ev.check_type()
        session.commit()

    # Set end
    match.end = datetime.datetime.now()
    print "> Match ends at %s" % (match.end)
    session.commit()

    print "> Finished feeding match with ID %d" % (match.id)
    print "> Scheduled times were: %s -- %s" % (match.sched_begin, match.sched_end)
Exemple #22
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def listen_match(match_id, old_matches_id, post_url):

    session = Session()

    match = session.query(Match).filter(Match.id == match_id).one()
    old_matches = session.query(Match).filter(Match.id.in_(old_matches_id)).all()
    players = session.query(Player).all()
    old_player_matches = session.query(PlayerMatch).filter(PlayerMatch.match_id.in_(old_matches_id)).all()
    old_events = session.query(Event).filter(Event.match_id.in_(old_matches_id)).order_by(Event.timestamp).all()
    old_stats_player_matches = session.query(StatsPlayerMatch).filter(StatsPlayerMatch.match_id.in_(old_matches_id)).all()

    stats = Statistics(match, old_matches, players, old_player_matches, old_events, old_stats_player_matches)
    last_event_id = 0
    last_player_match_id = 0
    last_timestamp = None

    try:
        while True:
            session.rollback()
            for player_match in session.query(PlayerMatch).filter(PlayerMatch.match == match).filter(PlayerMatch.id > last_player_match_id).order_by(PlayerMatch.id):
                stats.new_player_match(player_match)
                last_player_match_id = player_match.id
            for event in session.query(Event).filter(Event.match == match).filter(Event.id > last_event_id).order_by(Event.id):
                if last_timestamp is not None and event.timestamp <= last_timestamp:
                    print >> sys.stderr, "> Timestamp monotonicity error at %s!\n" % (event.timestamp)
                    #sys.exit(1)
                stats.new_event(event)
                last_timestamp = event.timestamp
                last_event_id = event.id

            # Send data to the web server
            stats.generate_current_data()
            data = stats.data
            headers = {'content-type': 'application/json'}
            json_data = json.dumps({'action': 'set', 'password': PASSWD, 'data': data})
            print json_data

            try:
                r = requests.post(post_url, data=json_data, headers=headers)
                print 'Request done', r.status_code
                print r.text
            except:
                print >> sys.stderr, "Exception caught, continuing..."
                traceback.print_exc()


            time.sleep(SLEEP_TIME)

    except KeyboardInterrupt:
        pass
Exemple #23
0
import sys
import time

from data import Session, Log, INTERESTING_FPS

COMMIT_FREQ = 1.0

def my_float(x):
    if x == '':
        return None
    else:
        return float(x)

if __name__ == '__main__':
    session = Session()
    retime = 'retime' in sys.argv[1:]

    last_commit = time.time()
    last_interesting = 0.0
    try:
        while True:
            line = sys.stdin.readline()
            if line == '':
                break
            data = [my_float(x) for x in line.strip().split(",")]
            if retime:
                data[0] = time.time()
            timestamp = float(data[0])
            log = Log.from_tuple(data)
            if timestamp - last_interesting >= 1.0 / INTERESTING_FPS:
Exemple #24
0
from data import Session, User, Status, Role, Post, Activity
from functools import wraps
from flask import Flask, render_template, Response, request, redirect, send_from_directory, url_for, Response
from flask_wtf import FlaskForm
from wtforms import StringField, PasswordField, SubmitField
from flask_login import LoginManager, login_required, login_user, current_user, logout_user
import werkzeug
app = Flask(__name__)
app.config["SECRET_KEY"] = "kek"
session = Session(autocommit=True, autoflush=True)
app.app_context()
login_manager = LoginManager()
login_manager.init_app(app)


class LoginForm(FlaskForm):
    nickname = StringField('nickname')
    password = PasswordField('password')
    submit = SubmitField('submit')


@login_manager.user_loader
def load_user(id):
    return session.query(User).filter(User.id == id).first()


@app.route("/logout")
def logout():
    logout_user()
    return redirect("/index")
Exemple #25
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	with open(sys.argv[2], "r") as f:
		for line in f:
			line = line.strip()
			if line.startswith("<row"):
				node = etree.fromstring(line)
				post_object = node.attrib
				if post_object.get('PostTypeId') == "1":
					tags = re.findall("\<(.*?)\>", post_object.get('Tags'))
					for tag in tags:
						s = "INSERT INTO poststags(PostsId, TagsId) VALUES (" + \
							 post_object.get('Id') + "," + str(tag_dict[tag]) +");"
						print >> g, s
				
			
def tags_dict(path):
	tags = {}
	with open(path, "r") as f:
		for line in f:
			val= tuple(line.split())
			if val[1] not in tags:
				tags[val[1]]= int(val[0])
	return tags
          
if __name__=="__main__":
	s = Session()
#	with open(sys.argv[1], "w") as f:
#		get_tags(s, f)
	tags = tags_dict(sys.argv[1])
	with open(sys.argv[3], "w") as g:
		update_poststags(tags, g)
            self.ends.append(time)

    def __str__(self):
        status = ""
        if self.running():
            status = "(Now Playing)"
        seconds = int(self.total_time().total_seconds())

        if seconds > 0:
            return "%s: %s seconds %s" % (self.performer.name, 
                seconds, 
                status)
        else:
            return "%s %s" % (self.performer.name, 
                status)

if __name__ == "__main__":
    from data import Session
    # Do an actual write.
    session = Session()

    dom = Performer(name="Dominic Rout", email="*****@*****.**", mobile = "07427549166")
    al_g = Performer(name="Al Gordon", email="*****@*****.**", mobile = "1234123412312")
    al_p = Performer(name="Al Pearson", email="*****@*****.**", mobile = "12341231123412312")

    session.add(dom)
    session.add(al_g)
    session.add(al_p)

    found_al = session.query(Performer).filter(Performer.name.like("%Al%")).first() 
    print(found_al)
def test_truncate_table():
    with Session.begin() as s:
        CrudTable().truncate_table(s)
    with Session.begin() as s:
        assert len(CrudTable.get_data(s)) == 0
Exemple #28
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def import_from_2012():
    old_session = OldSession()
    session = Session()

    # Match and teams
    match = Match()
    match.name = "24 ore 2012"
    first_team = session.query(Team).filter(Team.name == "Matematici").one()
    second_team = session.query(Team).filter(Team.name == "Fisici").one()
    match.team_a = first_team
    match.team_b = second_team

    # Team mapping
    _team_map = {}
    old_first_team = old_session.query(OldTeam).filter(OldTeam.name == "Matematici").one()
    old_second_team = old_session.query(OldTeam).filter(OldTeam.name == "Fisici").one()
    _team_map[old_first_team.id] = first_team
    _team_map[old_second_team.id] = second_team
    team_map = lambda x: _team_map[x.id]

    # Player mapping
    _player_map = {}
    player_matches = []
    found_player_id = set()
    for old_player in old_session.query(OldPlayer).all():
        player = Player.get_or_create(session, old_player.fname, old_player.lname, None)
        _player_map[old_player.id] = player
        player_match = PlayerMatch()
        player_match.player = player
        player_match.match = match
        player_match.team = team_map(old_player.team)
        player_matches.append(player_match)
    player_map = lambda x: _player_map[x.id]

    # Events
    events = []
    for old_event in old_session.query(OldEvent).order_by(OldEvent.timestamp).all():
        if old_event.type == 'sched_begin':
            match.sched_begin = old_event.timestamp
        elif old_event.type == 'begin':
            match.begin = old_event.timestamp
        elif old_event.type == 'sched_end':
            match.sched_end = old_event.timestamp
        elif old_event.type  == 'end':
            match.end = old_event.timestamp
        else:
            event = Event()
            event.match = match
            event.timestamp = old_event.timestamp
            event.source = Event.EV_SOURCE_MANUAL
            event.type = old_event.type
            if old_event.type in [Event.EV_TYPE_GOAL, Event.EV_TYPE_GOAL_UNDO]:
                event.team = _team_map[int(old_event.param)]
            elif old_event.type == Event.EV_TYPE_SWAP:
                old_red_team_id, old_blue_team_id = map(int, old_event.param.split(','))
                event.red_team = _team_map[old_red_team_id]
                event.blue_team = _team_map[old_blue_team_id]
            elif old_event.type == Event.EV_TYPE_CHANGE:
                old_team_id, old_player_a_id, old_player_b_id = map(int, old_event.param.split(','))
                event.team = _team_map[old_team_id]
                event.player_a = _player_map[old_player_a_id]
                event.player_b = _player_map[old_player_b_id]
                found_player_id.add(event.player_a.id)
                found_player_id.add(event.player_b.id)
            else:
                assert(False, "Command not supported")
            events.append(event)

    session.add(match)
    for pm in player_matches:
        if pm.player.id in found_player_id:
            session.add(pm)
    for ev in events:
        session.add(ev)
        assert(ev.check_type())
    session.flush()
    old_session.rollback()
    session.commit()
Exemple #29
0
def destroy_all():
    session = Session()
    Base.metadata.drop_all()
    session.commit()
Exemple #30
0
def listen_match(match_id, old_matches_id):

    session = Session()

    match = session.query(Match).filter(Match.id == match_id).one()
    old_matches = session.query(Match).filter(Match.id.in_(old_matches_id)).all()
    players = session.query(Player).all()
    old_player_matches = session.query(PlayerMatch).filter(PlayerMatch.match_id.in_(old_matches_id)).all()
    old_events = session.query(Event).filter(Event.match_id.in_(old_matches_id)).order_by(Event.timestamp).all()
    old_stats_player_matches = session.query(StatsPlayerMatch).filter(StatsPlayerMatch.match_id.in_(old_matches_id)).all()
    
    stats = Statistics(match, old_matches, players, old_player_matches, old_events, old_stats_player_matches)
    last_event_id = 0
    last_player_match_id = 0
    last_timestamp = None
    
    overlay_logic = OverlayLogic(stats)
    last_display_event_id = 0

    try:
        while True:
            session.rollback()
            for player_match in session.query(PlayerMatch).filter(PlayerMatch.match == match).filter(PlayerMatch.id > last_player_match_id).order_by(PlayerMatch.id):
                stats.new_player_match(player_match)
                last_player_match_id = player_match.id
            for event in session.query(Event).filter(Event.match == match).filter(Event.id > last_event_id).order_by(Event.id):
                if last_timestamp is not None and event.timestamp <= last_timestamp:
                    print >> sys.stderr, "> Timestamp monotonicity error at %s!\n" % (event.timestamp)
                    #sys.exit(1)
                stats.new_event(event)
                overlay_logic.receive_game_event(event)
                last_timestamp = event.timestamp
                last_event_id = event.id
            
            # Generate data
            stats.generate_current_data()
            data = stats.data
            
            # FIXME
            display_events = overlay_logic.get_display_events(last_display_event_id)
            for e in display_events:
                overlay_logic.ack_display_events_received(e.id)

            time.sleep(SLEEP_TIME)

    except KeyboardInterrupt:
        pass
Exemple #31
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#!/usr/bin/env python2
# -*- coding: utf-8 -*-

import sys
import time

from data import Session, Log

if __name__ == '__main__':
    session = Session()
    for log in session.query(Log):
        session.delete(log)
    session.commit()
"""
Get email addresses from the database and export them one per line
"""

import data.performer as performer
from data import Session

import sys


if len(sys.argv) != 2:
    print "Please enter a filename to which to save the email addresses"
else:
    print "Saving to %s" % sys.argv[1]

    with open(sys.argv[1], "w") as f:
        session = Session()

        query = session.query(performer.Performer).all()

        for _performer in query:
            print >> f, _performer.email