def record_action_metric(self, metric): """ :param metric: :return: """ key = (metric.name, metric.scope or '') # metric key for protocol packets = self.__action_packets.get(key) if packets is None: packets = TimePackets() packets.merge_time_metric(metric) self.__action_packets[key] = packets return key
def record_general_metric(self, metric): """ :param metric: :return: """ key = (metric.name.split("/", 1)[1], '') packets = self.__general_packets.get(key) if packets is None: packets = TimePackets() packets.merge_time_metric(metric) self.__general_packets[key] = packets return key
def record_time_metric(self, metric): """ :param metric: :return: """ # filter the general data from the metric, the metric node should be distinguish general and basic metric if metric.name.startswith("GENERAL"): self.record_general_metric(metric) return key = (metric.name, metric.scope or '') # metric key for protocol packets = self.__time_packets.get(key) if packets is None: packets = TimePackets() packets.merge_time_metric(metric) self.__time_packets[key] = packets return key
def test_time_packets(self): """ :return: """ time_node = TimePacketsNode(3, 2) packets = TimePackets() packets.merge_time_metric(time_node) self.assertEqual(packets[0], 1, "call times count error.") self.assertEqual(packets[1], 3, "total cost times count error.") self.assertEqual(packets[2], 2, "total exclusive times count error.") self.assertEqual(packets[3], 3, "max cost time count error.") self.assertEqual(packets[4], 3, "min cost time count error.") self.assertEqual(packets[5], 9, "time square count error.") time_node = TimePacketsNode(5, 3) packets.merge_time_metric(time_node) self.assertEqual(packets[0], 2, "call times count error.") self.assertEqual(packets[1], 8, "total cost times count error.") self.assertEqual(packets[2], 5, "total exclusive times count error.") self.assertEqual(packets[3], 5, "max cost time count error.") self.assertEqual(packets[4], 3, "min cost time count error.") self.assertEqual(packets[5], 34, "time square count error.") packets_other = TimePackets() time_node = TimePacketsNode(4, 3) packets_other.merge_time_metric(time_node) self.assertEqual(packets_other[0], 1, "call times count error.") self.assertEqual(packets_other[1], 4, "total cost times count error.") self.assertEqual(packets_other[2], 3, "total exclusive times count error.") self.assertEqual(packets_other[3], 4, "max cost time count error.") self.assertEqual(packets_other[4], 4, "min cost time count error.") self.assertEqual(packets_other[5], 16, "time square count error.") time_node = TimePacketsNode(8, 2) packets_other.merge_time_metric(time_node) self.assertEqual(packets_other[0], 2, "call times count error.") self.assertEqual(packets_other[1], 12, "total cost times count error.") self.assertEqual(packets_other[2], 5, "total exclusive times count error.") self.assertEqual(packets_other[3], 8, "max cost time count error.") self.assertEqual(packets_other[4], 4, "min cost time count error.") self.assertEqual(packets_other[5], 80, "time square count error.") packets.merge_packets(packets_other) self.assertEqual(packets[0], 4, "call times count error.") self.assertEqual(packets[1], 20, "total cost times count error.") self.assertEqual(packets[2], 10, "total exclusive times count error.") self.assertEqual(packets[3], 8, "max cost time count error.") self.assertEqual(packets[4], 3, "min cost time count error.") self.assertEqual(packets[5], 114, "time square count error.")