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combine.go
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combine.go
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package kapacitor
import (
"fmt"
"log"
"sort"
"time"
"github.com/influxdata/kapacitor/models"
"github.com/influxdata/kapacitor/pipeline"
"github.com/influxdata/kapacitor/tick/stateful"
)
type CombineNode struct {
node
c *pipeline.CombineNode
expressions []stateful.Expression
expressionsByGroup map[models.GroupID][]stateful.Expression
scopePools []stateful.ScopePool
combination combination
}
// Create a new CombineNode, which combines a stream with itself dynamically.
func newCombineNode(et *ExecutingTask, n *pipeline.CombineNode, l *log.Logger) (*CombineNode, error) {
cn := &CombineNode{
c: n,
node: node{Node: n, et: et, logger: l},
expressionsByGroup: make(map[models.GroupID][]stateful.Expression),
combination: combination{max: n.Max},
}
// Create stateful expressions
cn.expressions = make([]stateful.Expression, len(n.Lambdas))
cn.scopePools = make([]stateful.ScopePool, len(n.Lambdas))
for i, lambda := range n.Lambdas {
statefulExpr, err := stateful.NewExpression(lambda.Expression)
if err != nil {
return nil, fmt.Errorf("Failed to compile %v expression: %v", i, err)
}
cn.expressions[i] = statefulExpr
cn.scopePools[i] = stateful.NewScopePool(stateful.FindReferenceVariables(lambda.Expression))
}
cn.node.runF = cn.runCombine
return cn, nil
}
type buffer struct {
Time time.Time
Name string
Group models.GroupID
Dimensions models.Dimensions
Points []rawPoint
}
type timeList []time.Time
func (t timeList) Len() int { return len(t) }
func (t timeList) Less(i, j int) bool { return t[i].Before(t[j]) }
func (t timeList) Swap(i, j int) { t[i], t[j] = t[j], t[i] }
func (n *CombineNode) runCombine([]byte) error {
switch n.Wants() {
case pipeline.StreamEdge:
buffers := make(map[models.GroupID]*buffer)
for p, ok := n.ins[0].NextPoint(); ok; p, ok = n.ins[0].NextPoint() {
n.timer.Start()
t := p.Time.Round(n.c.Tolerance)
currentBuf, ok := buffers[p.Group]
if !ok {
currentBuf = &buffer{
Time: t,
Name: p.Name,
Group: p.Group,
Dimensions: p.Dimensions,
}
buffers[p.Group] = currentBuf
}
rp := rawPoint{
Time: t,
Fields: p.Fields,
Tags: p.Tags,
}
if t.Equal(currentBuf.Time) {
currentBuf.Points = append(currentBuf.Points, rp)
} else {
if err := n.combineBuffer(currentBuf); err != nil {
return err
}
currentBuf.Time = t
currentBuf.Name = p.Name
currentBuf.Group = p.Group
currentBuf.Dimensions = p.Dimensions
currentBuf.Points = currentBuf.Points[0:1]
currentBuf.Points[0] = rp
}
n.timer.Stop()
}
case pipeline.BatchEdge:
allBuffers := make(map[models.GroupID]map[time.Time]*buffer)
groupTimes := make(map[models.GroupID]time.Time)
for b, ok := n.ins[0].NextBatch(); ok; b, ok = n.ins[0].NextBatch() {
n.timer.Start()
t := b.TMax.Round(n.c.Tolerance)
buffers, ok := allBuffers[b.Group]
if !ok {
buffers = make(map[time.Time]*buffer)
allBuffers[b.Group] = buffers
groupTimes[b.Group] = t
}
groupTime := groupTimes[b.Group]
if !t.Equal(groupTime) {
// Set new groupTime
groupTimes[b.Group] = t
// Combine/Emit all old buffers
times := make(timeList, 0, len(buffers))
for t := range buffers {
times = append(times, t)
}
sort.Sort(times)
for _, t := range times {
if err := n.combineBuffer(buffers[t]); err != nil {
return err
}
delete(buffers, t)
}
}
for _, p := range b.Points {
t := p.Time.Round(n.c.Tolerance)
currentBuf, ok := buffers[t]
if !ok {
currentBuf = &buffer{
Time: t,
Name: b.Name,
Group: b.Group,
Dimensions: b.PointDimensions(),
}
buffers[t] = currentBuf
}
currentBuf.Points = append(currentBuf.Points, rawPoint{
Time: t,
Fields: p.Fields,
Tags: p.Tags,
})
}
n.timer.Stop()
}
}
return nil
}
// Simple container for point data.
type rawPoint struct {
Time time.Time
Fields models.Fields
Tags models.Tags
}
// Combine a set of points into all their combinations.
func (n *CombineNode) combineBuffer(buf *buffer) error {
if len(buf.Points) == 0 {
return nil
}
l := len(n.expressions)
expressions, ok := n.expressionsByGroup[buf.Group]
if !ok {
expressions = make([]stateful.Expression, l)
for i, expr := range n.expressions {
expressions[i] = expr.CopyReset()
}
n.expressionsByGroup[buf.Group] = expressions
}
// Compute matching result for all points
matches := make([]map[int]bool, l)
for i := 0; i < l; i++ {
matches[i] = make(map[int]bool, len(buf.Points))
}
for idx, p := range buf.Points {
for i := range expressions {
matched, err := EvalPredicate(expressions[i], n.scopePools[i], p.Time, p.Fields, p.Tags)
if err != nil {
n.logger.Println("E! evaluating lambda expression:", err)
}
matches[i][idx] = matched
}
}
p := models.Point{
Name: buf.Name,
Group: buf.Group,
Dimensions: buf.Dimensions,
}
dimensions := p.Dimensions.ToSet()
set := make([]rawPoint, l)
return n.combination.Do(len(buf.Points), l, func(indices []int) error {
valid := true
for s := 0; s < l; s++ {
found := false
for i := range indices {
if matches[s][indices[i]] {
set[s] = buf.Points[indices[i]]
indices = append(indices[0:i], indices[i+1:]...)
found = true
break
}
}
if !found {
valid = false
break
}
}
if valid {
rp := n.merge(set, dimensions)
p.Time = rp.Time.Round(n.c.Tolerance)
p.Fields = rp.Fields
p.Tags = rp.Tags
n.timer.Pause()
for _, out := range n.outs {
err := out.CollectPoint(p)
if err != nil {
return err
}
}
n.timer.Resume()
}
return nil
})
}
// Merge a set of points into a single point.
func (n *CombineNode) merge(points []rawPoint, dimensions map[string]bool) rawPoint {
fields := make(models.Fields, len(points[0].Fields)*len(points))
tags := make(models.Tags, len(points[0].Tags)*len(points))
for i, p := range points {
for field, value := range p.Fields {
fields[n.c.Names[i]+n.c.Delimiter+field] = value
}
for tag, value := range p.Tags {
if !dimensions[tag] {
tags[n.c.Names[i]+n.c.Delimiter+tag] = value
} else {
tags[tag] = value
}
}
}
return rawPoint{
Time: points[0].Time,
Fields: fields,
Tags: tags,
}
}
// Type for performing actions on a set of combinations.
type combination struct {
max int64
}
// Do action for each combination, based on combinatorial logic n choose k.
// If n choose k > max an error is returned
func (c combination) Do(n, k int, f func(indices []int) error) error {
if count := c.Count(int64(n), int64(k)); count > c.max {
return fmt.Errorf("refusing to perform combination as total combinations %d exceeds max combinations %d", count, c.max)
} else if count == -1 {
// Nothing to do
return nil
}
indices := make([]int, k)
indicesCopy := make([]int, k)
for i := 0; i < k; i++ {
indices[i] = i
}
copy(indicesCopy, indices)
if err := f(indicesCopy); err != nil {
return err
}
for {
i := k - 1
for ; i >= 0; i-- {
if indices[i] != i+n-k {
break
}
}
if i == -1 {
return nil
}
indices[i]++
for j := i + 1; j < k; j++ {
indices[j] = indices[j-1] + 1
}
copy(indicesCopy, indices)
if err := f(indicesCopy); err != nil {
return err
}
}
}
// Count the number of possible combinations of n choose k.
func (c combination) Count(n, k int64) int64 {
if n < k {
return -1
}
count := int64(1)
for i := int64(0); i < k; i++ {
count = (count * (n - i)) / (i + 1)
}
return count
}