def _execute_sql(
        self,
        filter: RetentionFilter,
        team: Team,
    ) -> Dict[Tuple[int, int], Dict[str, Any]]:
        period = filter.period
        prop_filters, prop_filter_params = parse_prop_clauses(
            filter.properties,
            team.pk,
            filter_test_accounts=filter.filter_test_accounts)
        target_entity = filter.target_entity
        returning_entity = filter.returning_entity
        is_first_time_retention = filter.retention_type == RETENTION_FIRST_TIME
        date_from = filter.date_from
        date_to = filter.date_to

        target_query = ""
        target_params: Dict = {}
        trunc_func = get_trunc_func_ch(period)

        target_query, target_params = self._get_condition(target_entity,
                                                          table="e")
        returning_query, returning_params = self._get_condition(
            returning_entity, table="e", prepend="returning")

        target_query_formatted = "AND {target_query}".format(
            target_query=target_query)
        returning_query_formatted = "AND {returning_query}".format(
            returning_query=returning_query)

        reference_event_sql = (REFERENCE_EVENT_UNIQUE_SQL
                               if is_first_time_retention else
                               REFERENCE_EVENT_SQL).format(
                                   target_query=target_query_formatted,
                                   filters=prop_filters,
                                   trunc_func=trunc_func,
                               )

        target_condition, _ = self._get_condition(target_entity,
                                                  table="reference_event")
        if is_first_time_retention:
            target_condition = target_condition.replace(
                "reference_event.uuid", "reference_event.min_uuid")
            target_condition = target_condition.replace(
                "reference_event.event", "reference_event.min_event")
        returning_condition, _ = self._get_condition(returning_entity,
                                                     table="event",
                                                     prepend="returning")
        result = sync_execute(
            RETENTION_SQL.format(
                target_query=target_query_formatted,
                returning_query=returning_query_formatted,
                filters=prop_filters,
                trunc_func=trunc_func,
                extra_union="UNION ALL {} ".format(reference_event_sql),
                reference_event_sql=reference_event_sql,
                target_condition=target_condition,
                returning_condition=returning_condition,
            ),
            {
                "team_id":
                team.pk,
                "start_date":
                date_from.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "end_date":
                date_to.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "reference_start_date":
                date_from.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "reference_end_date":
                ((date_from + filter.period_increment) if filter.display
                 == TRENDS_LINEAR else date_to).strftime("%Y-%m-%d{}".format(
                     " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                **prop_filter_params,
                **target_params,
                **returning_params,
                "period":
                period,
            },
        )

        initial_interval_result = sync_execute(
            INITIAL_INTERVAL_SQL.format(
                reference_event_sql=reference_event_sql,
                trunc_func=trunc_func,
            ),
            {
                "team_id":
                team.pk,
                "start_date":
                date_from.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "end_date":
                date_to.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "reference_start_date":
                date_from.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "reference_end_date":
                ((date_from + filter.period_increment) if filter.display
                 == TRENDS_LINEAR else date_to).strftime("%Y-%m-%d{}".format(
                     " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                **prop_filter_params,
                **target_params,
                **returning_params,
                "period":
                period,
            },
        )

        result_dict = {}
        for initial_res in initial_interval_result:
            result_dict.update({
                (initial_res[0], 0): {
                    "count": initial_res[1],
                    "people": []
                }
            })

        for res in result:
            result_dict.update({
                (res[0], res[1]): {
                    "count": res[2],
                    "people": []
                }
            })

        return result_dict
Esempio n. 2
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    def calculate_retention(self, filter: Filter, team: Team,
                            total_intervals: int) -> List[Dict[str, Any]]:

        period = filter.period or "Day"

        tdelta, trunc_func, t1 = self._determineTimedelta(
            total_intervals, period)

        filter._date_to = ((filter.date_to if filter.date_to else now()) +
                           t1).isoformat()

        if period == "Hour":
            date_to = filter.date_to if filter.date_to else now()
            date_from = date_to - tdelta
        else:
            date_to = (filter.date_to if filter.date_to else now()).replace(
                hour=0, minute=0, second=0, microsecond=0)
            date_from = date_to - tdelta

        filter._date_from = date_from.isoformat()
        filter._date_to = date_to.isoformat()

        prop_filters, prop_filter_params = parse_prop_clauses(
            filter.properties, team)

        target_query = ""
        target_params: Dict = {}

        target_entity = (Entity({
            "id": "$pageview",
            "type": TREND_FILTER_TYPE_EVENTS
        }) if not filter.target_entity else filter.target_entity)
        if target_entity.type == TREND_FILTER_TYPE_ACTIONS:
            action = Action.objects.get(pk=target_entity.id)
            action_query, target_params = format_action_filter(action,
                                                               use_loop=True)
            target_query = "AND e.uuid IN ({})".format(action_query)
        elif target_entity.type == TREND_FILTER_TYPE_EVENTS:
            target_query = "AND e.event = %(target_event)s"
            target_params = {"target_event": target_entity.id}

        result = sync_execute(
            RETENTION_SQL.format(
                target_query=target_query,
                filters="{filters}".format(
                    filters=prop_filters) if filter.properties else "",
                trunc_func=trunc_func,
            ),
            {
                "team_id":
                team.pk,
                "start_date":
                date_from.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "end_date":
                date_to.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                **prop_filter_params,
                **target_params,
                "period":
                period,
            },
        )

        result_dict = {}

        for res in result:
            result_dict.update({
                (res[0], res[1]): {
                    "count": res[2],
                    "people": []
                }
            })

        if period == "Week":
            date_from = date_from - timedelta(days=date_from.isoweekday() % 7)

        parsed = [{
            "values": [
                result_dict.get((first_day, day), {
                    "count": 0,
                    "people": []
                }) for day in range(total_intervals - first_day)
            ],
            "label":
            "{} {}".format(period, first_day),
            "date":
            (date_from + self._determineTimedelta(first_day, period)[0]),
        } for first_day in range(total_intervals)]

        return parsed
Esempio n. 3
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    def _execute_sql(
        self,
        filter: Filter,
        date_from: datetime.datetime,
        date_to: datetime.datetime,
        target_entity: Entity,
        returning_entity: Entity,
        is_first_time_retention: bool,
        team: Team,
    ) -> Dict[Tuple[int, int], Dict[str, Any]]:
        period = filter.period
        prop_filters, prop_filter_params = parse_prop_clauses(
            filter.properties, team.pk)

        target_query = ""
        target_params: Dict = {}
        trunc_func = self._get_trunc_func_ch(period)

        if target_entity.type == TREND_FILTER_TYPE_ACTIONS:
            action = Action.objects.get(pk=target_entity.id)
            action_query, target_params = format_action_filter(action,
                                                               use_loop=True)
            target_query = "AND e.uuid IN ({})".format(action_query)
        elif target_entity.type == TREND_FILTER_TYPE_EVENTS:
            target_query = "AND e.event = %(target_event)s"
            target_params = {"target_event": target_entity.id}

        target_query, target_params = self._get_condition(target_entity)
        returning_query, returning_params = self._get_condition(
            returning_entity, "returning")

        target_query_formatted = (
            "AND {target_query}".format(
                target_query=target_query) if is_first_time_retention else
            "AND ({target_query} OR {returning_query})".format(
                target_query=target_query, returning_query=returning_query))
        returning_query_formatted = (
            "AND {returning_query}".format(
                returning_query=returning_query) if is_first_time_retention
            else "AND ({target_query} OR {returning_query})".format(
                target_query=target_query, returning_query=returning_query))

        reference_event_sql = (REFERENCE_EVENT_UNIQUE_SQL
                               if is_first_time_retention else
                               REFERENCE_EVENT_SQL).format(
                                   target_query=target_query_formatted,
                                   filters=prop_filters,
                                   trunc_func=trunc_func,
                               )
        result = sync_execute(
            RETENTION_SQL.format(
                target_query=target_query_formatted,
                returning_query=returning_query_formatted,
                filters=prop_filters,
                trunc_func=trunc_func,
                extra_union="UNION ALL {}".format(reference_event_sql)
                if is_first_time_retention else "",
                reference_event_sql=reference_event_sql,
            ),
            {
                "team_id":
                team.pk,
                "start_date":
                date_from.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                "end_date":
                date_to.strftime("%Y-%m-%d{}".format(
                    " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
                **prop_filter_params,
                **target_params,
                **returning_params,
                "period":
                period,
            },
        )

        result_dict = {}

        for res in result:
            result_dict.update({
                (res[0], res[1]): {
                    "count": res[2],
                    "people": []
                }
            })

        return result_dict
Esempio n. 4
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    def _execute_sql(
        self,
        filter: RetentionFilter,
        team: Team,
    ) -> Dict[Tuple[int, int], Dict[str, Any]]:
        period = filter.period
        is_first_time_retention = filter.retention_type == RETENTION_FIRST_TIME
        date_from = filter.date_from
        trunc_func = get_trunc_func_ch(period)

        returning_event_query, returning_event_params = RetentionEventsQuery(
            filter=filter,
            team_id=team.pk,
            event_query_type=RetentionQueryType.RETURNING).get_query()
        target_event_query, target_event_params = RetentionEventsQuery(
            filter=filter,
            team_id=team.pk,
            event_query_type=RetentionQueryType.TARGET_FIRST_TIME
            if is_first_time_retention else RetentionQueryType.TARGET,
        ).get_query()

        all_params = {
            "team_id":
            team.pk,
            "start_date":
            date_from.strftime("%Y-%m-%d{}".format(
                " %H:%M:%S" if filter.period == "Hour" else " 00:00:00")),
            **returning_event_params,
            **target_event_params,
            "period":
            period,
        }

        result = sync_execute(
            RETENTION_SQL.format(
                returning_event_query=returning_event_query,
                trunc_func=trunc_func,
                target_event_query=target_event_query,
            ),
            all_params,
        )

        initial_interval_result = sync_execute(
            INITIAL_INTERVAL_SQL.format(
                reference_event_sql=target_event_query,
                trunc_func=trunc_func,
            ), all_params)

        result_dict = {}
        for initial_res in initial_interval_result:
            result_dict.update({
                (initial_res[0], 0): {
                    "count": initial_res[1],
                    "people": []
                }
            })

        for res in result:
            result_dict.update({
                (res[0], res[1]): {
                    "count": res[2],
                    "people": []
                }
            })

        return result_dict