コード例 #1
0
    def create_run(self, experiment_id, user_id, start_time, tags):
        with self.ManagedSessionMaker() as session:
            experiment = self.get_experiment(experiment_id)
            self._check_experiment_is_active(experiment)

            run_id = uuid.uuid4().hex
            artifact_location = append_to_uri_path(
                experiment.artifact_location, run_id,
                SqlAlchemyStore.ARTIFACTS_FOLDER_NAME)
            run = SqlRun(
                name="",
                artifact_uri=artifact_location,
                run_uuid=run_id,
                experiment_id=experiment_id,
                source_type=SourceType.to_string(SourceType.UNKNOWN),
                source_name="",
                entry_point_name="",
                user_id=user_id,
                status=RunStatus.to_string(RunStatus.RUNNING),
                start_time=start_time,
                end_time=None,
                source_version="",
                lifecycle_stage=LifecycleStage.ACTIVE,
            )

            tags_dict = {}
            for tag in tags:
                tags_dict[tag.key] = tag.value
            run.tags = [
                SqlTag(key=key, value=value)
                for key, value in tags_dict.items()
            ]
            self._save_to_db(objs=run, session=session)

            return run.to_mlflow_entity()
コード例 #2
0
def _get_orderby_clauses(order_by_list, session):
    """Sorts a set of runs based on their natural ordering and an overriding set of order_bys.
    Runs are naturally ordered first by start time descending, then by run id for tie-breaking.
    """

    clauses = []
    ordering_joins = []
    clause_id = 0
    # contrary to filters, it is not easily feasible to separately handle sorting
    # on attributes and on joined tables as we must keep all clauses in the same order
    if order_by_list:
        for order_by_clause in order_by_list:
            clause_id += 1
            (key_type, key, ascending) = SearchUtils.parse_order_by_for_search_runs(order_by_clause)
            if SearchUtils.is_attribute(key_type, "="):
                order_value = getattr(SqlRun, SqlRun.get_attribute_name(key))
            else:
                if SearchUtils.is_metric(key_type, "="):  # any valid comparator
                    entity = SqlLatestMetric
                elif SearchUtils.is_tag(key_type, "="):
                    entity = SqlTag
                elif SearchUtils.is_param(key_type, "="):
                    entity = SqlParam
                else:
                    raise MlflowException(
                        "Invalid identifier type '%s'" % key_type,
                        error_code=INVALID_PARAMETER_VALUE,
                    )

                # build a subquery first because we will join it in the main request so that the
                # metric we want to sort on is available when we apply the sorting clause
                subquery = session.query(entity).filter(entity.key == key).subquery()

                ordering_joins.append(subquery)
                order_value = subquery.c.value

            # sqlite does not support NULLS LAST expression, so we sort first by
            # presence of the field (and is_nan for metrics), then by actual value
            # As the subqueries are created independently and used later in the
            # same main query, the CASE WHEN columns need to have unique names to
            # avoid ambiguity
            if SearchUtils.is_metric(key_type, "="):
                clauses.append(
                    sql.case(
                        [(subquery.c.is_nan.is_(True), 1), (order_value.is_(None), 1)], else_=0
                    ).label("clause_%s" % clause_id)
                )
            else:  # other entities do not have an 'is_nan' field
                clauses.append(
                    sql.case([(order_value.is_(None), 1)], else_=0).label("clause_%s" % clause_id)
                )

            if ascending:
                clauses.append(order_value)
            else:
                clauses.append(order_value.desc())

    clauses.append(SqlRun.start_time.desc())
    clauses.append(SqlRun.run_uuid)
    return clauses, ordering_joins
コード例 #3
0
def _get_attributes_filtering_clauses(parsed):
    clauses = []
    for sql_statement in parsed:
        key_type = sql_statement.get('type')
        key_name = sql_statement.get('key')
        value = sql_statement.get('value')
        comparator = sql_statement.get('comparator')
        if SearchUtils.is_attribute(key_type, comparator):
            # validity of the comparator is checked in SearchUtils.parse_search_filter()
            op = SearchUtils.filter_ops.get(comparator)
            if op:
                # key_name is guaranteed to be a valid searchable attribute of entities.RunInfo
                # by the call to parse_search_filter
                attribute_name = SqlRun.get_attribute_name(key_name)
                clauses.append(op(getattr(SqlRun, attribute_name), value))
    return clauses
コード例 #4
0
def _get_attributes_filtering_clauses(parsed):
    clauses = []
    for sql_statement in parsed:
        key_type = sql_statement.get("type")
        key_name = sql_statement.get("key")
        value = sql_statement.get("value")
        comparator = sql_statement.get("comparator").upper()
        if SearchUtils.is_attribute(key_type, comparator):
            # key_name is guaranteed to be a valid searchable attribute of entities.RunInfo
            # by the call to parse_search_filter
            attribute = getattr(SqlRun, SqlRun.get_attribute_name(key_name))
            if comparator in SearchUtils.CASE_INSENSITIVE_STRING_COMPARISON_OPERATORS:
                op = SearchUtils.get_sql_filter_ops(attribute, comparator)
                clauses.append(op(value))
            elif comparator in SearchUtils.filter_ops:
                op = SearchUtils.filter_ops.get(comparator)
                clauses.append(op(attribute, value))
    return clauses
コード例 #5
0
ファイル: sqlalchemy_store.py プロジェクト: creinders/mlflow
def _get_orderby_clauses(order_by_list, session):
    """Sorts a set of runs based on their natural ordering and an overriding set of order_bys.
    Runs are naturally ordered first by start time descending, then by run id for tie-breaking.
    """

    clauses = []
    ordering_joins = []
    clause_id = 0
    observed_order_by_clauses = set()
    # contrary to filters, it is not easily feasible to separately handle sorting
    # on attributes and on joined tables as we must keep all clauses in the same order
    if order_by_list:
        for order_by_clause in order_by_list:
            clause_id += 1
            (key_type, key, ascending
             ) = SearchUtils.parse_order_by_for_search_runs(order_by_clause)
            if SearchUtils.is_string_attribute(
                    key_type, key, "=") or SearchUtils.is_numeric_attribute(
                        key_type, key, "="):
                order_value = getattr(SqlRun, SqlRun.get_attribute_name(key))
            else:
                if SearchUtils.is_metric(key_type,
                                         "="):  # any valid comparator
                    entity = SqlLatestMetric
                elif SearchUtils.is_tag(key_type, "="):
                    entity = SqlTag
                elif SearchUtils.is_param(key_type, "="):
                    entity = SqlParam
                else:
                    raise MlflowException(
                        "Invalid identifier type '%s'" % key_type,
                        error_code=INVALID_PARAMETER_VALUE,
                    )

                # build a subquery first because we will join it in the main request so that the
                # metric we want to sort on is available when we apply the sorting clause
                subquery = session.query(entity).filter(
                    entity.key == key).subquery()

                ordering_joins.append(subquery)
                order_value = subquery.c.value

            # sqlite does not support NULLS LAST expression, so we sort first by
            # presence of the field (and is_nan for metrics), then by actual value
            # As the subqueries are created independently and used later in the
            # same main query, the CASE WHEN columns need to have unique names to
            # avoid ambiguity
            if SearchUtils.is_metric(key_type, "="):
                clauses.append(
                    sql.case(
                        [
                            # Ideally the use of "IS" is preferred here but owing to sqlalchemy
                            # translation in MSSQL we are forced to use "=" instead.
                            # These 2 options are functionally identical / unchanged because
                            # the column (is_nan) is not nullable. However it could become an issue
                            # if this precondition changes in the future.
                            (subquery.c.is_nan == sqlalchemy.true(), 1),
                            (order_value.is_(None), 1),
                        ],
                        else_=0,
                    ).label("clause_%s" % clause_id))
            else:  # other entities do not have an 'is_nan' field
                clauses.append(
                    sql.case([(order_value.is_(None), 1)],
                             else_=0).label("clause_%s" % clause_id))

            if (key_type, key) in observed_order_by_clauses:
                raise MlflowException(
                    "`order_by` contains duplicate fields: {}".format(
                        order_by_list))
            observed_order_by_clauses.add((key_type, key))

            if ascending:
                clauses.append(order_value)
            else:
                clauses.append(order_value.desc())

    if (SearchUtils._ATTRIBUTE_IDENTIFIER,
            SqlRun.start_time.key) not in observed_order_by_clauses:
        clauses.append(SqlRun.start_time.desc())
    clauses.append(SqlRun.run_uuid)
    return clauses, ordering_joins