VictoriaMetrics/app/vmselect/promql/binary_op.go
2019-05-23 00:18:06 +03:00

500 lines
11 KiB
Go

package promql
import (
"fmt"
"math"
"strings"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/storage"
)
var binaryOpFuncs = map[string]binaryOpFunc{
"+": newBinaryOpArithFunc(binaryOpPlus),
"-": newBinaryOpArithFunc(binaryOpMinus),
"*": newBinaryOpArithFunc(binaryOpMul),
"/": newBinaryOpArithFunc(binaryOpDiv),
"%": newBinaryOpArithFunc(binaryOpMod),
"^": newBinaryOpArithFunc(binaryOpPow),
// cmp ops
"==": newBinaryOpCmpFunc(binaryOpEq),
"!=": newBinaryOpCmpFunc(binaryOpNeq),
">": newBinaryOpCmpFunc(binaryOpGt),
"<": newBinaryOpCmpFunc(binaryOpLt),
">=": newBinaryOpCmpFunc(binaryOpGte),
"<=": newBinaryOpCmpFunc(binaryOpLte),
// logical set ops
"and": binaryOpAnd,
"or": binaryOpOr,
"unless": binaryOpUnless,
// New op
"if": newBinaryOpArithFunc(binaryOpIf),
"ifnot": newBinaryOpArithFunc(binaryOpIfnot),
"default": newBinaryOpArithFunc(binaryOpDefault),
}
var binaryOpPriorities = map[string]int{
"default": -1,
"if": 0,
"ifnot": 0,
// See https://prometheus.io/docs/prometheus/latest/querying/operators/#binary-operator-precedence
"or": 1,
"and": 2,
"unless": 2,
"==": 3,
"!=": 3,
"<": 3,
">": 3,
"<=": 3,
">=": 3,
"+": 4,
"-": 4,
"*": 5,
"/": 5,
"%": 5,
"^": 6,
}
func getBinaryOpFunc(op string) binaryOpFunc {
op = strings.ToLower(op)
return binaryOpFuncs[op]
}
func isBinaryOp(op string) bool {
return getBinaryOpFunc(op) != nil
}
func binaryOpPriority(op string) int {
op = strings.ToLower(op)
return binaryOpPriorities[op]
}
func scanBinaryOpPrefix(s string) int {
n := 0
for op := range binaryOpFuncs {
if len(s) < len(op) {
continue
}
ss := strings.ToLower(s[:len(op)])
if ss == op && len(op) > n {
n = len(op)
}
}
return n
}
func isRightAssociativeBinaryOp(op string) bool {
// See https://prometheus.io/docs/prometheus/latest/querying/operators/#binary-operator-precedence
return op == "^"
}
func isBinaryOpGroupModifier(s string) bool {
s = strings.ToLower(s)
switch s {
// See https://prometheus.io/docs/prometheus/latest/querying/operators/#vector-matching
case "on", "ignoring":
return true
default:
return false
}
}
func isBinaryOpJoinModifier(s string) bool {
s = strings.ToLower(s)
switch s {
case "group_left", "group_right":
return true
default:
return false
}
}
func isBinaryOpBoolModifier(s string) bool {
s = strings.ToLower(s)
return s == "bool"
}
func isBinaryOpCmp(op string) bool {
switch op {
case "==", "!=", ">", "<", ">=", "<=":
return true
default:
return false
}
}
func isBinaryOpLogicalSet(op string) bool {
op = strings.ToLower(op)
switch op {
case "and", "or", "unless":
return true
default:
return false
}
}
func binaryOpConstants(op string, left, right float64, isBool bool) float64 {
if isBinaryOpCmp(op) {
evalCmp := func(cf func(left, right float64) bool) float64 {
if isBool {
if cf(left, right) {
return 1
}
return 0
}
if cf(left, right) {
return left
}
return nan
}
switch op {
case "==":
left = evalCmp(binaryOpEq)
case "!=":
left = evalCmp(binaryOpNeq)
case ">":
left = evalCmp(binaryOpGt)
case "<":
left = evalCmp(binaryOpLt)
case ">=":
left = evalCmp(binaryOpGte)
case "<=":
left = evalCmp(binaryOpLte)
default:
logger.Panicf("BUG: unexpected comparison binaryOp: %q", op)
}
} else {
switch op {
case "+":
left = binaryOpPlus(left, right)
case "-":
left = binaryOpMinus(left, right)
case "*":
left = binaryOpMul(left, right)
case "/":
left = binaryOpDiv(left, right)
case "%":
left = binaryOpMod(left, right)
case "^":
left = binaryOpPow(left, right)
case "and":
// Nothing to do
case "or":
// Nothing to do
case "unless":
left = nan
case "default":
left = binaryOpDefault(left, right)
case "if":
left = binaryOpIf(left, right)
case "ifnot":
left = binaryOpIfnot(left, right)
default:
logger.Panicf("BUG: unexpected non-comparison binaryOp: %q", op)
}
}
return left
}
type binaryOpFuncArg struct {
be *binaryOpExpr
left []*timeseries
right []*timeseries
}
type binaryOpFunc func(bfa *binaryOpFuncArg) ([]*timeseries, error)
func newBinaryOpCmpFunc(cf func(left, right float64) bool) binaryOpFunc {
cfe := func(left, right float64, isBool bool) float64 {
if !isBool {
if cf(left, right) {
return left
}
return nan
}
if cf(left, right) {
return 1
}
return 0
}
return newBinaryOpFunc(cfe)
}
func newBinaryOpArithFunc(af func(left, right float64) float64) binaryOpFunc {
afe := func(left, right float64, isBool bool) float64 {
return af(left, right)
}
return newBinaryOpFunc(afe)
}
func newBinaryOpFunc(bf func(left, right float64, isBool bool) float64) binaryOpFunc {
return func(bfa *binaryOpFuncArg) ([]*timeseries, error) {
isBool := bfa.be.Bool
left, right, dst, err := adjustBinaryOpTags(bfa.be, bfa.left, bfa.right)
if err != nil {
return nil, err
}
if len(left) != len(right) || len(left) != len(dst) {
logger.Panicf("BUG: len(left) must match len(right) and len(dst); got %d vs %d vs %d", len(left), len(right), len(dst))
}
for i, tsLeft := range left {
leftValues := tsLeft.Values
rightValues := right[i].Values
dstValues := dst[i].Values
if len(leftValues) != len(rightValues) || len(leftValues) != len(dstValues) {
logger.Panicf("BUG: len(leftVaues) must match len(rightValues) and len(dstValues); got %d vs %d vs %d",
len(leftValues), len(rightValues), len(dstValues))
}
for j, a := range leftValues {
b := rightValues[j]
dstValues[j] = bf(a, b, isBool)
}
}
return dst, nil
}
}
func adjustBinaryOpTags(be *binaryOpExpr, left, right []*timeseries) ([]*timeseries, []*timeseries, []*timeseries, error) {
if len(be.GroupModifier.Op) == 0 && len(be.JoinModifier.Op) == 0 {
if isScalar(left) {
// Fast path: `scalar op vector`
rvsLeft := make([]*timeseries, len(right))
tsLeft := left[0]
for i, tsRight := range right {
tsRight.MetricName.ResetMetricGroup()
rvsLeft[i] = tsLeft
}
return rvsLeft, right, right, nil
}
if isScalar(right) {
// Fast path: `vector op scalar`
rvsRight := make([]*timeseries, len(left))
tsRight := right[0]
for i, tsLeft := range left {
tsLeft.MetricName.ResetMetricGroup()
rvsRight[i] = tsRight
}
return left, rvsRight, left, nil
}
}
// Slow path: `vector op vector` or `a op {on|ignoring} {group_left|group_right} b`
ensureOneX := func(side string, tss []*timeseries) error {
if len(tss) == 0 {
logger.Panicf("BUG: tss must contain at least one value")
}
if len(tss) == 1 {
return nil
}
return fmt.Errorf(`duplicate timeseries on the %s side of %q: %s %s`, side, be.Op, stringMetricTags(&tss[0].MetricName), be.GroupModifier.AppendString(nil))
}
var rvsLeft, rvsRight []*timeseries
mLeft, mRight := createTimeseriesMapByTagSet(be, left, right)
joinOp := strings.ToLower(be.JoinModifier.Op)
joinTags := be.JoinModifier.Args
for k, tssLeft := range mLeft {
tssRight := mRight[k]
if len(tssRight) == 0 {
continue
}
switch joinOp {
case "group_left":
if err := ensureOneX("right", tssRight); err != nil {
return nil, nil, nil, err
}
src := tssRight[0]
for _, ts := range tssLeft {
ts.MetricName.AddMissingTags(joinTags, &src.MetricName)
rvsLeft = append(rvsLeft, ts)
rvsRight = append(rvsRight, src)
}
case "group_right":
if err := ensureOneX("left", tssLeft); err != nil {
return nil, nil, nil, err
}
src := tssLeft[0]
for _, ts := range tssRight {
ts.MetricName.AddMissingTags(joinTags, &src.MetricName)
rvsLeft = append(rvsLeft, src)
rvsRight = append(rvsRight, ts)
}
case "":
if err := ensureOneX("left", tssLeft); err != nil {
return nil, nil, nil, err
}
if err := ensureOneX("right", tssRight); err != nil {
return nil, nil, nil, err
}
tssLeft[0].MetricName.ResetMetricGroup()
rvsLeft = append(rvsLeft, tssLeft[0])
rvsRight = append(rvsRight, tssRight[0])
default:
return nil, nil, nil, fmt.Errorf(`unexpected join modifier %q`, joinOp)
}
}
dst := rvsLeft
if joinOp == "group_right" {
dst = rvsRight
}
return rvsLeft, rvsRight, dst, nil
}
func binaryOpPlus(left, right float64) float64 {
return left + right
}
func binaryOpMinus(left, right float64) float64 {
return left - right
}
func binaryOpMul(left, right float64) float64 {
return left * right
}
func binaryOpDiv(left, right float64) float64 {
return left / right
}
func binaryOpMod(left, right float64) float64 {
return math.Mod(left, right)
}
func binaryOpPow(left, right float64) float64 {
return math.Pow(left, right)
}
func binaryOpDefault(left, right float64) float64 {
if math.IsNaN(left) {
return right
}
return left
}
func binaryOpIf(left, right float64) float64 {
if math.IsNaN(right) {
return nan
}
return left
}
func binaryOpIfnot(left, right float64) float64 {
if math.IsNaN(right) {
return left
}
return nan
}
func binaryOpEq(left, right float64) bool {
return left == right
}
func binaryOpNeq(left, right float64) bool {
return left != right
}
func binaryOpGt(left, right float64) bool {
return left > right
}
func binaryOpLt(left, right float64) bool {
return left < right
}
func binaryOpGte(left, right float64) bool {
return left >= right
}
func binaryOpLte(left, right float64) bool {
return left <= right
}
func binaryOpAnd(bfa *binaryOpFuncArg) ([]*timeseries, error) {
mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right)
var rvs []*timeseries
for k := range mRight {
if tss := mLeft[k]; tss != nil {
rvs = append(rvs, tss...)
}
}
return rvs, nil
}
func binaryOpOr(bfa *binaryOpFuncArg) ([]*timeseries, error) {
mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right)
var rvs []*timeseries
for _, tss := range mLeft {
rvs = append(rvs, tss...)
}
for k, tss := range mRight {
if mLeft[k] == nil {
rvs = append(rvs, tss...)
}
}
return rvs, nil
}
func binaryOpUnless(bfa *binaryOpFuncArg) ([]*timeseries, error) {
mLeft, mRight := createTimeseriesMapByTagSet(bfa.be, bfa.left, bfa.right)
var rvs []*timeseries
for k, tss := range mLeft {
if mRight[k] == nil {
rvs = append(rvs, tss...)
}
}
return rvs, nil
}
func createTimeseriesMapByTagSet(be *binaryOpExpr, left, right []*timeseries) (map[string][]*timeseries, map[string][]*timeseries) {
groupTags := be.GroupModifier.Args
groupOp := strings.ToLower(be.GroupModifier.Op)
if len(groupOp) == 0 {
groupOp = "ignoring"
}
getTagsMap := func(arg []*timeseries) map[string][]*timeseries {
bb := bbPool.Get()
m := make(map[string][]*timeseries, len(arg))
mn := storage.GetMetricName()
for _, ts := range arg {
mn.CopyFrom(&ts.MetricName)
mn.ResetMetricGroup()
switch groupOp {
case "on":
mn.RemoveTagsOn(groupTags)
case "ignoring":
mn.RemoveTagsIgnoring(groupTags)
default:
logger.Panicf("BUG: unexpected binary op modifier %q", groupOp)
}
bb.B = marshalMetricTagsSorted(bb.B[:0], mn)
m[string(bb.B)] = append(m[string(bb.B)], ts)
}
storage.PutMetricName(mn)
bbPool.Put(bb)
return m
}
mLeft := getTagsMap(left)
mRight := getTagsMap(right)
return mLeft, mRight
}
func isScalar(arg []*timeseries) bool {
if len(arg) != 1 {
return false
}
mn := &arg[0].MetricName
if len(mn.MetricGroup) > 0 {
return false
}
return len(mn.Tags) == 0
}