Exemplos de Logger.error em Python, exemplos de bitfeeds.util.Logger.error em Python

Exemplo n.º 1

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 def get_order_book_worker(self, instmt):
     """
     Get order book worker
     :param instmt: Instrument
     """
     while True:
         ExchGwQuoine.last_query_time_lock.acquire()
         if datetime.now() - ExchGwQuoine.last_query_time < timedelta(
                 seconds=ExchGwQuoine.waiting_seconds):
             ExchGwQuoine.last_query_time_lock.release()
             time.sleep(random.uniform(0, 1))
         else:
             ExchGwQuoine.last_query_time = datetime.now()
             try:
                 l2_depth = self.api_socket.get_order_book(instmt)
                 if l2_depth is not None and l2_depth.is_diff(
                         instmt.get_l2_depth()):
                     instmt.set_prev_l2_depth(instmt.get_l2_depth())
                     instmt.set_l2_depth(l2_depth)
                     instmt.incr_order_book_id()
                     self.insert_order_book(instmt)
             except Exception as e:
                 Logger.error(self.__class__.__name__,
                              "Error in order book: %s" % e)
             ExchGwQuoine.last_query_time_lock.release()

Exemplo n.º 2

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    def get_trades_worker(self, instmt):
        """
        Get order book worker thread
        :param instmt: Instrument name
        """
        while True:
            try:
                ret = self.api_socket.get_trades(instmt)
                if ret is None or len(ret) == 0:
                    time.sleep(1)
                    continue
            except Exception as e:
                Logger.error(self.__class__.__name__,
                             "Error in trades: %s" % e)

            for trade in ret:
                assert isinstance(trade.trade_id,
                                  str), "trade.trade_id(%s) = %s" % (type(
                                      trade.trade_id), trade.trade_id)
                assert isinstance(instmt.get_exch_trade_id(), str), \
                       "instmt.get_exch_trade_id()(%s) = %s" % (type(instmt.get_exch_trade_id()), instmt.get_exch_trade_id())
                if int(trade.trade_id) > int(instmt.get_exch_trade_id()):
                    instmt.set_exch_trade_id(trade.trade_id)
                    instmt.incr_trade_id()
                    self.insert_trade(instmt, trade)

            # After the first time of getting the trade, indicate the instrument
            # is recovered
            if not instmt.get_recovered():
                instmt.set_recovered(True)

            time.sleep(1)

Exemplo n.º 3

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 def on_message_handler(self, instmt, message):
     """
     Incoming message handler
     :param instmt: Instrument
     :param message: Message
     """
     keys = message.keys()
     if 'info' in keys:
         Logger.info(self.__class__.__name__, message['info'])
     elif 'subscribe' in keys:
         Logger.info(self.__class__.__name__, 'Subscription of %s is %s' % \
                     (message['request']['args'], \
                      'successful' if message['success'] else 'failed'))
     elif 'table' in keys:
         if message['table'] == 'trade':
             for trade_raw in message['data']:
                 if trade_raw["symbol"] == instmt.get_instmt_code():
                     # Filter out the initial subscriptions
                     trade = self.api_socket.parse_trade(instmt, trade_raw)
                     if trade.trade_id != instmt.get_exch_trade_id():
                         instmt.incr_trade_id()
                         instmt.set_exch_trade_id(trade.trade_id)
                         self.insert_trade(instmt, trade)
         elif message['table'] == 'orderBookL2':
             l2_depth = self.api_socket.parse_l2_depth(instmt, message)
             if l2_depth is not None and l2_depth.is_diff(instmt.get_l2_depth()):
                 instmt.set_prev_l2_depth(instmt.get_l2_depth())
                 instmt.set_l2_depth(l2_depth)
                 instmt.incr_order_book_id()
                 self.insert_order_book(instmt)
         else:
             Logger.info(self.__class__.__name__, json.dumps(message,indent=2))
     else:
         Logger.error(self.__class__.__name__, "Unrecognised message:\n" + json.dumps(message))

Exemplo n.º 4

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    def on_message_handler(self, instmt, message):
        """
        Incoming message handler
        :param instmt: Instrument
        :param message: Message
        """

        if not message:
            return

        keys = message.keys()

        if "bids" in keys:
            self.order_book = self.api_socket.parse_l2_depth(instmt, message)
            # Insert only if the first 5 levels are different
            if instmt.get_l2_depth().is_diff(instmt.get_prev_l2_depth()):
                instmt.incr_order_book_id()
                self.insert_order_book(instmt)

        elif "create_update" in keys:
            if message['create_update']:
                message['create_update'].update(
                    {"timestamp": message['timestamp']})
                self.api_socket.parse_l2_depth(instmt,
                                               message['create_update'])
                # Insert only if the first 5 levels are different
                if instmt.get_l2_depth().is_diff(instmt.get_prev_l2_depth()):
                    instmt.incr_order_book_id()
                    self.insert_order_book(instmt)

            elif message['delete_update']:
                message['delete_update'].update(
                    {"timestamp": message['timestamp']})
                self.api_socket.parse_l2_depth(instmt,
                                               message['delete_update'])
                # Insert only if the first 5 levels are different
                if instmt.get_l2_depth().is_diff(instmt.get_prev_l2_depth()):
                    instmt.incr_order_book_id()
                    self.insert_order_book(instmt)

            elif message['trade_updates']:
                for new_trade in message['trade_updates']:
                    new_trade.update({"timestamp": message['timestamp']})
                    trade = self.api_socket.parse_trade(instmt, new_trade)
                    self.api_socket.parse_l2_depth(instmt, new_trade)
                    if trade.trade_id != instmt.get_exch_trade_id():
                        instmt.incr_trade_id()
                        instmt.set_exch_trade_id(trade.trade_id)
                        self.insert_trade(instmt, trade)

        else:
            Logger.error(self.__class__.__name__,
                         "Unrecognised message:\n" + json.dumps(message))

Exemplo n.º 5

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 def get_order_book(cls, instmt):
     """
     Get order book
     :param instmt: Instrument
     :return: Object L2Depth
     """
     res = cls.request(cls.get_order_book_link(instmt))
     if len(res) > 0 and 'error' in res and len(res['error']) == 0:
         res = list(res['result'].values())[0]
         return cls.parse_l2_depth(instmt=instmt,
                                    raw=res)
     else:
         Logger.error(cls.__name__, "Cannot parse the order book. Return:\n%s" % res)
         return None

Exemplo n.º 6

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 def get_order_book_worker(self, instmt):
     """
     Get order book worker
     :param instmt: Instrument
     """
     while True:
         try:
             l2_depth = self.api_socket.get_order_book(instmt)
             if l2_depth is not None and l2_depth.is_diff(instmt.get_l2_depth()):
                 instmt.set_prev_l2_depth(instmt.get_l2_depth())
                 instmt.set_l2_depth(l2_depth)
                 instmt.incr_order_book_id()
                 self.insert_order_book(instmt)
         except Exception as e:
             Logger.error(self.__class__.__name__, "Error in order book: %s" % e)
         time.sleep(1)

Exemplo n.º 7

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    def get_trades_worker(self, instmt):
        """
        Get order book worker thread
        :param instmt: Instrument name
        """
        while True:
            ExchGwQuoine.last_query_time_lock.acquire()
            if datetime.now() - ExchGwQuoine.last_query_time < timedelta(
                    seconds=ExchGwQuoine.waiting_seconds):
                ExchGwQuoine.last_query_time_lock.release()
                time.sleep(random.uniform(0, 1))
            else:
                ExchGwQuoine.last_query_time = datetime.now()
                try:
                    ret = self.api_socket.get_trades(instmt)
                    if ret is None or len(ret) == 0:
                        ExchGwQuoine.last_query_time_lock.release()
                        continue

                    for trade in ret:
                        assert isinstance(
                            trade.trade_id,
                            str), "trade.trade_id(%s) = %s" % (type(
                                trade.trade_id), trade.trade_id)
                        assert isinstance(instmt.get_exch_trade_id(), str), \
                            "instmt.get_exch_trade_id()(%s) = %s" % (type(instmt.get_exch_trade_id()), instmt.get_exch_trade_id())
                        if int(trade.trade_id) > int(
                                instmt.get_exch_trade_id()):
                            instmt.set_exch_trade_id(trade.trade_id)
                            instmt.incr_trade_id()
                            self.insert_trade(instmt, trade)

                    # After the first time of getting the trade, indicate the instrument
                    # is recovered
                    if not instmt.get_recovered():
                        instmt.set_recovered(True)

                except Exception as e:
                    Logger.error(self.__class__.__name__,
                                 "Error in trades: %s" % e)

                ExchGwQuoine.last_query_time_lock.release()

Exemplo n.º 8

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    def get_trades_worker(self, instmt):
        """
        Get order book worker thread
        :param instmt: Instrument name
        """
        instmt.set_recovered(False)

        while True:
            try:
                ret = self.api_socket.get_trades(instmt)
                for trade in ret:
                    instmt.incr_trade_id()
                    self.insert_trade(instmt, trade)
                    
                # After the first time of getting the trade, indicate the instrument
                # is recovered
                if not instmt.get_recovered():
                    instmt.set_recovered(True)
                    
            except Exception as e:
                Logger.error(self.__class__.__name__,
                          "Error in trades: %s\nReturn: %s" % (e, ret))
            time.sleep(0.5)

Exemplo n.º 9

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    def create(self,
               table,
               columns,
               types,
               primary_key_index=[],
               is_ifnotexists=True):
        """
        Create table in the database.
        Caveat - Assign the first few column as the keys!!!
        :param table: Table name
        :param columns: Column array
        :param types: Type array
        :param is_ifnotexists: Create table if not exists keyword
        """
        if len(columns) != len(types):
            raise Exception("Incorrect create statement. Number of columns and that of types are different.\n%s\n%s" % \
                (columns, types))

        if is_ifnotexists:
            ret = self.conn("\\v")
            if ret is not None:
                for t in ret:
                    if table == self.decode_qtypes(t):
                        Logger.info(self.__class__.__name__,
                                    "Table %s has been created." % table)
                        return True

            Logger.info(self.__class__.__name__,
                        "Table %s is going to be created." % table)

        c = columns[:]

        for i in range(0, len(types)):
            t = self.convert_type(types[i])
            if t is str:
                if columns[i].find('date_time') > -1:
                    c[i] += ":`timestamp$()"
                else:
                    c[i] += ":`symbol$()"
            elif t is float:
                c[i] += ":`float$()"
            elif t is int:
                c[i] += ":`long$()"

        keys = []
        for i in primary_key_index:
            keys.append(c[i])

        for i in sorted(primary_key_index, reverse=True):
            del c[i]

        if len(keys) > 0:
            command = '%s:([%s] %s)' % (table, '; '.join(keys), '; '.join(c))
        else:
            command = '%s:(%s)' % (table, '; '.join(c))

        self.lock.acquire()
        try:
            self.conn.sync(command)
        except Exception as e:
            Logger.error(self.__class__.__name__,
                         "Error in creat statement(%s).\n%s" % (command, e))
        finally:
            self.lock.release()

        return True