vsphere-influxdb-go/vendor/github.com/influxdata/influxdb/tsdb/engine/tsm1/compact.gen.go.tmpl

package tsm1

import (
	"runtime"
)

{{range .}}

// merge combines the next set of blocks into merged blocks.
func (k *tsmKeyIterator) merge{{.Name}}() {
	// No blocks left, or pending merged values, we're done
	if len(k.blocks) == 0 && len(k.merged) == 0 && len(k.merged{{.Name}}Values) == 0 {
		return
	}

	dedup := len(k.merged{{.Name}}Values) != 0
	if len(k.blocks) > 0 && !dedup {
		// If we have more than one block or any partially tombstoned blocks, we many need to dedup
		dedup = len(k.blocks[0].tombstones) > 0 || k.blocks[0].partiallyRead()

		// Quickly scan each block to see if any overlap with the prior block, if they overlap then
		// we need to dedup as there may be duplicate points now
		for i := 1; !dedup && i < len(k.blocks); i++ {
			if k.blocks[i].partiallyRead() {
				dedup = true
				break
			}

			if k.blocks[i].minTime <= k.blocks[i-1].maxTime || len(k.blocks[i].tombstones) > 0 {
				dedup = true
				break
			}
		}

	}

	k.merged = k.combine{{.Name}}(dedup)
}

// combine returns a new set of blocks using the current blocks in the buffers.  If dedup
// is true, all the blocks will be decoded, dedup and sorted in in order.  If dedup is false,
// only blocks that are smaller than the chunk size will be decoded and combined.
func (k *tsmKeyIterator) combine{{.Name}}(dedup bool) blocks {
	if dedup {
		for len(k.merged{{.Name}}Values) < k.size && len(k.blocks) > 0 {
			for len(k.blocks) > 0 && k.blocks[0].read() {
				k.blocks = k.blocks[1:]
			}

			if len(k.blocks) == 0 {
				break
			}
			first := k.blocks[0]
			minTime := first.minTime
			maxTime := first.maxTime

			// Adjust the min time to the start of any overlapping blocks.
			for i := 0; i < len(k.blocks); i++ {
				if k.blocks[i].overlapsTimeRange(minTime, maxTime) && !k.blocks[i].read() {
					if k.blocks[i].minTime < minTime {
						minTime = k.blocks[i].minTime
					}
					if k.blocks[i].maxTime > minTime && k.blocks[i].maxTime < maxTime {
                        maxTime = k.blocks[i].maxTime
                    }
				}
			}

			// We have some overlapping blocks so decode all, append in order and then dedup
			for i := 0; i < len(k.blocks); i++ {
				if !k.blocks[i].overlapsTimeRange(minTime, maxTime) || k.blocks[i].read() {
					continue
				}

				v, err := Decode{{.Name}}Block(k.blocks[i].b, &[]{{.Name}}Value{})
				if err != nil {
					k.err = err
					return nil
				}

				// Remove values we already read
				v = {{.Name}}Values(v).Exclude(k.blocks[i].readMin, k.blocks[i].readMax)

				// Filter out only the values for overlapping block
				v = {{.Name}}Values(v).Include(minTime, maxTime)
				if len(v) > 0 {
					// Record that we read a subset of the block
					k.blocks[i].markRead(v[0].UnixNano(), v[len(v)-1].UnixNano())
				}

				// Apply each tombstone to the block
				for _, ts := range k.blocks[i].tombstones {
					v = {{.Name}}Values(v).Exclude(ts.Min, ts.Max)
				}

				k.merged{{.Name}}Values = k.merged{{.Name}}Values.Merge(v)

				// Allow other goroutines to run
				runtime.Gosched()

			}
		}

		// Since we combined multiple blocks, we could have more values than we should put into
		// a single block.  We need to chunk them up into groups and re-encode them.
		return k.chunk{{.Name}}(nil)
	} else {
		var chunked blocks
		var i int

		for i < len(k.blocks) {

			// skip this block if it's values were already read
			if k.blocks[i].read() {
				i++
				continue
			}
			// If we this block is already full, just add it as is
			if BlockCount(k.blocks[i].b) >= k.size {
				chunked = append(chunked, k.blocks[i])
			} else {
				break
			}
			i++
			// Allow other goroutines to run
			runtime.Gosched()
		}

		if k.fast {
			for i < len(k.blocks) {
				// skip this block if it's values were already read
				if k.blocks[i].read() {
					i++
					continue
				}

				chunked = append(chunked, k.blocks[i])
				i++
				// Allow other goroutines to run
				runtime.Gosched()
			}
		}

		// If we only have 1 blocks left, just append it as is and avoid decoding/recoding
		if i == len(k.blocks)-1 {
			if !k.blocks[i].read() {
				chunked = append(chunked, k.blocks[i])
			}
			i++
		}

		// The remaining blocks can be combined and we know that they do not overlap and
		// so we can just append each, sort and re-encode.
		for i < len(k.blocks) && len(k.merged{{.Name}}Values) < k.size {
			if k.blocks[i].read() {
				i++
				continue
			}

			v, err := Decode{{.Name}}Block(k.blocks[i].b, &[]{{.Name}}Value{})
			if err != nil {
				k.err = err
				return nil
			}

			// Apply each tombstone to the block
			for _, ts := range k.blocks[i].tombstones {
				v = {{.Name}}Values(v).Exclude(ts.Min, ts.Max)
			}

			k.blocks[i].markRead(k.blocks[i].minTime, k.blocks[i].maxTime)

			k.merged{{.Name}}Values = k.merged{{.Name}}Values.Merge(v)
			i++
			// Allow other goroutines to run
			runtime.Gosched()
		}

		k.blocks = k.blocks[i:]

		return k.chunk{{.Name}}(chunked)
	}
}

func (k *tsmKeyIterator) chunk{{.Name}}(dst blocks) blocks {
	if len(k.merged{{.Name}}Values) > k.size {
		values := k.merged{{.Name}}Values[:k.size]
		cb, err := {{.Name}}Values(values).Encode(nil)
		if err != nil {
			k.err = err
			return nil
		}

		dst = append(dst, &block{
			minTime: values[0].UnixNano(),
			maxTime: values[len(values)-1].UnixNano(),
			key:     k.key,
			b:       cb,
		})
		k.merged{{.Name}}Values = k.merged{{.Name}}Values[k.size:]
		return dst
	}

	// Re-encode the remaining values into the last block
	if len(k.merged{{.Name}}Values) > 0 {
		cb, err := {{.Name}}Values(k.merged{{.Name}}Values).Encode(nil)
		if err != nil {
			k.err = err
			return nil
		}

		dst = append(dst, &block{
			minTime: k.merged{{.Name}}Values[0].UnixNano(),
			maxTime: k.merged{{.Name}}Values[len(k.merged{{.Name}}Values)-1].UnixNano(),
			key:     k.key,
			b:       cb,
		})
		k.merged{{.Name}}Values = k.merged{{.Name}}Values[:0]
	}
	return dst
}

{{ end }}