func NewDerivativeAggregator(q *parser.SelectQuery, v *parser.Value, defaultValue *parser.Value) (Aggregator, error) {
	if len(v.Elems) != 1 {
		return nil, common.NewQueryError(common.WrongNumberOfArguments, "function derivative() requires exactly one argument")
	}

	if v.Elems[0].Type == parser.ValueWildcard {
		return nil, common.NewQueryError(common.InvalidArgument, "function derivative() doesn't work with wildcards")
	}

	wrappedDefaultValue, err := wrapDefaultValue(defaultValue)
	if err != nil {
		return nil, err
	}

	da := &DerivativeAggregator{
		AbstractAggregator: AbstractAggregator{
			value: v.Elems[0],
		},
		defaultValue: wrappedDefaultValue,
		alias:        v.Alias,
	}

	da.duration, _, err = q.GetGroupByClause().GetGroupByTime()
	if err != nil {
		return nil, err
	}

	return da, nil
}
Example #2
0
func (self *QueryEngine) executeCountQueryWithGroupBy(query *parser.SelectQuery, yield func(*protocol.Series) error) error {
	self.aggregateYield = yield
	duration, err := query.GetGroupByClause().GetGroupByTime()
	if err != nil {
		return err
	}

	self.isAggregateQuery = true
	self.duration = duration
	self.aggregators = []Aggregator{}

	for _, value := range query.GetColumnNames() {
		if !value.IsFunctionCall() {
			continue
		}
		lowerCaseName := strings.ToLower(value.Name)
		initializer := registeredAggregators[lowerCaseName]
		if initializer == nil {
			return common.NewQueryError(common.InvalidArgument, fmt.Sprintf("Unknown function %s", value.Name))
		}
		aggregator, err := initializer(query, value, query.GetGroupByClause().FillValue)
		if err != nil {
			return common.NewQueryError(common.InvalidArgument, fmt.Sprintf("%s", err))
		}
		self.aggregators = append(self.aggregators, aggregator)
	}

	for _, elem := range query.GetGroupByClause().Elems {
		if elem.IsFunctionCall() {
			continue
		}
		self.elems = append(self.elems, elem)
	}

	self.fillWithZero = query.GetGroupByClause().FillWithZero

	// This is a special case for issue #426. If the start time is
	// specified and there's a group by clause and fill with zero, then
	// we need to fill the entire range from start time to end time
	if query.IsStartTimeSpecified() && self.duration != nil && self.fillWithZero {
		self.startTimeSpecified = true
		self.startTime = query.GetStartTime().Truncate(*self.duration).UnixNano() / 1000
		self.endTime = query.GetEndTime().Truncate(*self.duration).UnixNano() / 1000
	}

	self.initializeFields()

	err = self.distributeQuery(query, func(series *protocol.Series) error {
		if len(series.Points) == 0 {
			return nil
		}

		return self.aggregateValuesForSeries(series)
	})

	return err
}
func NewAggregatorEngine(query *parser.SelectQuery, next Processor) (*AggregatorEngine, error) {
	ae := &AggregatorEngine{
		next:         next,
		seriesStates: make(map[string]*SeriesState),
		ascending:    query.Ascending,
	}

	var err error
	ae.duration, ae.irregularInterval, err = query.GetGroupByClause().GetGroupByTime()
	if err != nil {
		return nil, err
	}

	ae.aggregators = []Aggregator{}

	for _, value := range query.GetColumnNames() {
		if !value.IsFunctionCall() {
			continue
		}
		lowerCaseName := strings.ToLower(value.Name)
		initializer := registeredAggregators[lowerCaseName]
		if initializer == nil {
			return nil, common.NewQueryError(common.InvalidArgument, fmt.Sprintf("Unknown function %s", value.Name))
		}
		aggregator, err := initializer(query, value, query.GetGroupByClause().FillValue)
		if err != nil {
			return nil, common.NewQueryError(common.InvalidArgument, fmt.Sprintf("%s", err))
		}
		ae.aggregators = append(ae.aggregators, aggregator)
	}

	for _, elem := range query.GetGroupByClause().Elems {
		if elem.IsFunctionCall() {
			continue
		}
		ae.elems = append(ae.elems, elem)
	}

	ae.isFillQuery = query.GetGroupByClause().FillWithZero

	// This is a special case for issue #426. If the start time is
	// specified and there's a group by clause and fill with zero, then
	// we need to fill the entire range from start time to end time
	if query.IsStartTimeSpecified() && ae.duration != nil && ae.isFillQuery {
		ae.startTimeSpecified = true
		ae.startTime = query.GetStartTime().Truncate(*ae.duration).UnixNano() / 1000
		ae.endTime = query.GetEndTime().Truncate(*ae.duration).UnixNano() / 1000
	}

	ae.initializeFields()

	return ae, nil
}
Example #4
0
func (self *QueryEngine) executeCountQueryWithGroupBy(query *parser.SelectQuery, yield func(*protocol.Series) error) error {
	self.aggregateYield = yield
	duration, err := query.GetGroupByClause().GetGroupByTime()
	if err != nil {
		return err
	}

	self.isAggregateQuery = true
	self.duration = duration
	self.aggregators = []Aggregator{}

	for _, value := range query.GetColumnNames() {
		if !value.IsFunctionCall() {
			continue
		}
		lowerCaseName := strings.ToLower(value.Name)
		initializer := registeredAggregators[lowerCaseName]
		if initializer == nil {
			return common.NewQueryError(common.InvalidArgument, fmt.Sprintf("Unknown function %s", value.Name))
		}
		aggregator, err := initializer(query, value, query.GetGroupByClause().FillValue)
		if err != nil {
			return common.NewQueryError(common.InvalidArgument, fmt.Sprintf("%s", err))
		}
		self.aggregators = append(self.aggregators, aggregator)
	}

	for _, elem := range query.GetGroupByClause().Elems {
		if elem.IsFunctionCall() {
			continue
		}
		self.elems = append(self.elems, elem)
	}

	self.fillWithZero = query.GetGroupByClause().FillWithZero

	self.initializeFields()

	err = self.distributeQuery(query, func(series *protocol.Series) error {
		if len(series.Points) == 0 {
			return nil
		}

		return self.aggregateValuesForSeries(series)
	})

	return err
}