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Golang Query.GetEndTime方法代碼示例

本文整理匯總了Golang中parser.Query.GetEndTime方法的典型用法代碼示例。如果您正苦於以下問題:Golang Query.GetEndTime方法的具體用法?Golang Query.GetEndTime怎麽用?Golang Query.GetEndTime使用的例子?那麽, 這裏精選的方法代碼示例或許可以為您提供幫助。您也可以進一步了解該方法所在parser.Query的用法示例。


在下文中一共展示了Query.GetEndTime方法的2個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Golang代碼示例。

示例1: executeQueryForSeries

func (self *LevelDbDatastore) executeQueryForSeries(database, series string, columns []string, query *parser.Query, yield func(*protocol.Series) error) error {
	startTimeBytes, endTimeBytes := self.byteArraysForStartAndEndTimes(common.TimeToMicroseconds(query.GetStartTime()), common.TimeToMicroseconds(query.GetEndTime()))

	fields, err := self.getFieldsForSeries(database, series, columns)
	if err != nil {
		return err
	}
	fieldCount := len(fields)
	prefixes := make([][]byte, fieldCount, fieldCount)
	iterators := make([]*levigo.Iterator, fieldCount, fieldCount)
	fieldNames := make([]string, len(fields))

	// start the iterators to go through the series data
	for i, field := range fields {
		fieldNames[i] = field.Name
		prefixes[i] = field.Id
		iterators[i] = self.db.NewIterator(self.readOptions)
		if query.Ascending {
			iterators[i].Seek(append(field.Id, startTimeBytes...))
		} else {
			iterators[i].Seek(append(append(field.Id, endTimeBytes...), MAX_SEQUENCE...))
			if iterators[i].Valid() {
				iterators[i].Prev()
			}
		}
	}

	result := &protocol.Series{Name: &series, Fields: fieldNames, Points: make([]*protocol.Point, 0)}
	rawColumnValues := make([]*rawColumnValue, fieldCount, fieldCount)
	isValid := true

	limit := query.Limit
	if limit == 0 {
		limit = MAX_POINTS_TO_SCAN
	}

	resultByteCount := 0

	// TODO: clean up, this is super gnarly
	// optimize for the case where we're pulling back only a single column or aggregate
	for isValid {
		isValid = false
		latestTimeRaw := make([]byte, 8, 8)
		latestSequenceRaw := make([]byte, 8, 8)
		point := &protocol.Point{Values: make([]*protocol.FieldValue, fieldCount, fieldCount)}
		for i, it := range iterators {
			if rawColumnValues[i] == nil && it.Valid() {
				k := it.Key()
				if len(k) >= 16 {
					t := k[8:16]
					if bytes.Equal(k[:8], fields[i].Id) && bytes.Compare(t, startTimeBytes) > -1 && bytes.Compare(t, endTimeBytes) < 1 {
						v := it.Value()
						s := k[16:]
						rawColumnValues[i] = &rawColumnValue{time: t, sequence: s, value: v}
						timeCompare := bytes.Compare(t, latestTimeRaw)
						if timeCompare == 1 {
							latestTimeRaw = t
							latestSequenceRaw = s
						} else if timeCompare == 0 {
							if bytes.Compare(s, latestSequenceRaw) == 1 {
								latestSequenceRaw = s
							}
						}
					}
				}
			}
		}

		for i, iterator := range iterators {
			if rawColumnValues[i] != nil && bytes.Equal(rawColumnValues[i].time, latestTimeRaw) && bytes.Equal(rawColumnValues[i].sequence, latestSequenceRaw) {
				isValid = true
				if query.Ascending {
					iterator.Next()
				} else {
					iterator.Prev()
				}
				fv := &protocol.FieldValue{}
				err := proto.Unmarshal(rawColumnValues[i].value, fv)
				if err != nil {
					return err
				}
				resultByteCount += len(rawColumnValues[i].value)
				point.Values[i] = fv
				var t uint64
				binary.Read(bytes.NewBuffer(rawColumnValues[i].time), binary.BigEndian, &t)
				time := self.convertUintTimestampToInt64(&t)
				var sequence uint64
				binary.Read(bytes.NewBuffer(rawColumnValues[i].sequence), binary.BigEndian, &sequence)
				seq32 := uint32(sequence)
				point.SetTimestampInMicroseconds(time)
				point.SequenceNumber = &seq32
				rawColumnValues[i] = nil
			}
		}
		if isValid {
			limit -= 1
			result.Points = append(result.Points, point)

			// add byte count for the timestamp and the sequence
			resultByteCount += 16
//.........這裏部分代碼省略.........
開發者ID:jondot,項目名稱:influxdb,代碼行數:101,代碼來源:leveldb_datastore.go

示例2: executeQueryForSeries

func (self *LevelDbDatastore) executeQueryForSeries(database, series string, columns []string, query *parser.Query, yield func(*protocol.Series) error) error {
	startTimeBytes, endTimeBytes := self.byteArraysForStartAndEndTimes(common.TimeToMicroseconds(query.GetStartTime()), common.TimeToMicroseconds(query.GetEndTime()))

	fields, err := self.getFieldsForSeries(database, series, columns)
	if err != nil {
		return err
	}
	fieldCount := len(fields)
	fieldNames, iterators := self.getIterators(fields, startTimeBytes, endTimeBytes, query.Ascending)

	// iterators :=

	result := &protocol.Series{Name: &series, Fields: fieldNames, Points: make([]*protocol.Point, 0)}
	rawColumnValues := make([]*rawColumnValue, fieldCount, fieldCount)

	limit := query.Limit
	if limit == 0 {
		limit = MAX_POINTS_TO_SCAN
	}

	resultByteCount := 0

	// TODO: clean up, this is super gnarly
	// optimize for the case where we're pulling back only a single column or aggregate
	for {
		isValid := false

		point := &protocol.Point{Values: make([]*protocol.FieldValue, fieldCount, fieldCount)}
		for i, it := range iterators {
			if rawColumnValues[i] != nil || !it.Valid() {
				continue
			}

			key := it.Key()
			if len(key) < 16 {
				continue
			}

			if !isPointInRange(fields[i].Id, startTimeBytes, endTimeBytes, key) {
				continue
			}

			time := key[8:16]
			value := it.Value()
			sequenceNumber := key[16:]

			rawValue := &rawColumnValue{time: time, sequence: sequenceNumber, value: value}
			rawColumnValues[i] = rawValue
		}

		var pointTimeRaw []byte
		var pointSequenceRaw []byte
		// choose the highest (or lowest in case of ascending queries) timestamp
		// and sequence number. that will become the timestamp and sequence of
		// the next point.
		for _, value := range rawColumnValues {
			if value == nil {
				continue
			}

			pointTimeRaw, pointSequenceRaw = value.updatePointTimeAndSequence(pointTimeRaw,
				pointSequenceRaw, query.Ascending)
		}

		for i, iterator := range iterators {
			// if the value is nil, or doesn't match the point's timestamp and sequence number
			// then skip it
			if rawColumnValues[i] == nil ||
				!bytes.Equal(rawColumnValues[i].time, pointTimeRaw) ||
				!bytes.Equal(rawColumnValues[i].sequence, pointSequenceRaw) {

				continue
			}

			// if we emitted at lease one column, then we should keep
			// trying to get more points
			isValid = true

			// advance the iterator to read a new value in the next iteration
			if query.Ascending {
				iterator.Next()
			} else {
				iterator.Prev()
			}
			fv := &protocol.FieldValue{}
			err := proto.Unmarshal(rawColumnValues[i].value, fv)
			if err != nil {
				return err
			}
			resultByteCount += len(rawColumnValues[i].value)
			point.Values[i] = fv
			var t uint64
			binary.Read(bytes.NewBuffer(rawColumnValues[i].time), binary.BigEndian, &t)
			time := self.convertUintTimestampToInt64(&t)
			var sequence uint64
			binary.Read(bytes.NewBuffer(rawColumnValues[i].sequence), binary.BigEndian, &sequence)
			seq32 := uint32(sequence)
			point.SetTimestampInMicroseconds(time)
			point.SequenceNumber = &seq32
			rawColumnValues[i] = nil
//.........這裏部分代碼省略.........
開發者ID:pombredanne,項目名稱:influxdb,代碼行數:101,代碼來源:leveldb_datastore.go


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