mirror of
https://github.com/prometheus/prometheus
synced 2024-12-27 09:02:53 +00:00
400 lines
10 KiB
Go
400 lines
10 KiB
Go
// Copyright 2015 The Prometheus Authors
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package promql
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import (
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"fmt"
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"reflect"
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"sort"
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"strings"
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clientmodel "github.com/prometheus/client_golang/model"
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"github.com/prometheus/prometheus/storage/metric"
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"github.com/prometheus/prometheus/utility"
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)
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func (matrix Matrix) String() string {
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metricStrings := make([]string, 0, len(matrix))
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for _, sampleStream := range matrix {
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metricName, hasName := sampleStream.Metric.Metric[clientmodel.MetricNameLabel]
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numLabels := len(sampleStream.Metric.Metric)
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if hasName {
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numLabels--
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}
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labelStrings := make([]string, 0, numLabels)
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for label, value := range sampleStream.Metric.Metric {
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if label != clientmodel.MetricNameLabel {
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labelStrings = append(labelStrings, fmt.Sprintf("%s=%q", label, value))
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}
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}
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sort.Strings(labelStrings)
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valueStrings := make([]string, 0, len(sampleStream.Values))
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for _, value := range sampleStream.Values {
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valueStrings = append(valueStrings,
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fmt.Sprintf("\n%v @[%v]", value.Value, value.Timestamp))
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}
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metricStrings = append(metricStrings,
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fmt.Sprintf("%s{%s} => %s",
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metricName,
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strings.Join(labelStrings, ", "),
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strings.Join(valueStrings, ", ")))
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}
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sort.Strings(metricStrings)
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return strings.Join(metricStrings, "\n")
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}
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func (vector Vector) String() string {
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metricStrings := make([]string, 0, len(vector))
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for _, sample := range vector {
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metricStrings = append(metricStrings,
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fmt.Sprintf("%s => %v @[%v]",
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sample.Metric,
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sample.Value, sample.Timestamp))
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}
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return strings.Join(metricStrings, "\n")
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}
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// Tree returns a string of the tree structure of the given node.
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func Tree(node Node) string {
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return tree(node, "")
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}
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func tree(node Node, level string) string {
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if node == nil {
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return fmt.Sprintf("%s |---- %T\n", level, node)
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}
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typs := strings.Split(fmt.Sprintf("%T", node), ".")[1]
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var t string
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// Only print the number of statements for readability.
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if stmts, ok := node.(Statements); ok {
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t = fmt.Sprintf("%s |---- %s :: %d\n", level, typs, len(stmts))
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} else {
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t = fmt.Sprintf("%s |---- %s :: %s\n", level, typs, node)
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}
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level += " · · ·"
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switch n := node.(type) {
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case Statements:
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for _, s := range n {
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t += tree(s, level)
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}
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case *AlertStmt:
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t += tree(n.Expr, level)
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case *EvalStmt:
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t += tree(n.Expr, level)
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case *RecordStmt:
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t += tree(n.Expr, level)
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case Expressions:
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for _, e := range n {
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t += tree(e, level)
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}
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case *AggregateExpr:
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t += tree(n.Expr, level)
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case *BinaryExpr:
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t += tree(n.LHS, level)
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t += tree(n.RHS, level)
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case *Call:
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t += tree(n.Args, level)
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case *ParenExpr:
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t += tree(n.Expr, level)
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case *UnaryExpr:
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t += tree(n.Expr, level)
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case *MatrixSelector, *NumberLiteral, *StringLiteral, *VectorSelector:
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// nothing to do
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default:
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panic("promql.Tree: not all node types covered")
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}
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return t
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}
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func (stmts Statements) String() (s string) {
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if len(stmts) == 0 {
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return ""
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}
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for _, stmt := range stmts {
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s += stmt.String()
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s += "\n\n"
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}
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return s[:len(s)-2]
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}
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func (node *AlertStmt) String() string {
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s := fmt.Sprintf("ALERT %s", node.Name)
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s += fmt.Sprintf("\n\tIF %s", node.Expr)
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if node.Duration > 0 {
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s += fmt.Sprintf("\n\tFOR %s", utility.DurationToString(node.Duration))
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}
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if len(node.Labels) > 0 {
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s += fmt.Sprintf("\n\tWITH %s", node.Labels)
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}
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s += fmt.Sprintf("\n\tSUMMARY %q", node.Summary)
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s += fmt.Sprintf("\n\tDESCRIPTION %q", node.Description)
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return s
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}
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func (node *EvalStmt) String() string {
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return "EVAL " + node.Expr.String()
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}
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func (node *RecordStmt) String() string {
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s := fmt.Sprintf("%s%s = %s", node.Name, node.Labels, node.Expr)
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return s
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}
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func (es Expressions) String() (s string) {
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if len(es) == 0 {
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return ""
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}
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for _, e := range es {
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s += e.String()
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s += ", "
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}
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return s[:len(s)-2]
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}
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func (node *AggregateExpr) String() string {
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aggrString := fmt.Sprintf("%s(%s)", node.Op, node.Expr)
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if len(node.Grouping) > 0 {
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return fmt.Sprintf("%s BY (%s)", aggrString, node.Grouping)
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}
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return aggrString
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}
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func (node *BinaryExpr) String() string {
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matching := ""
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vm := node.VectorMatching
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if vm != nil && len(vm.On) > 0 {
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matching = fmt.Sprintf(" ON(%s)", vm.On)
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if vm.Card == CardManyToOne {
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matching += fmt.Sprintf(" GROUP_LEFT(%s)", vm.Include)
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}
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if vm.Card == CardOneToMany {
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matching += fmt.Sprintf(" GROUP_RIGHT(%s)", vm.Include)
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}
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}
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return fmt.Sprintf("%s %s%s %s", node.LHS, node.Op, matching, node.RHS)
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}
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func (node *Call) String() string {
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return fmt.Sprintf("%s(%s)", node.Func.Name, node.Args)
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}
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func (node *MatrixSelector) String() string {
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vecSelector := &VectorSelector{
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Name: node.Name,
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LabelMatchers: node.LabelMatchers,
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}
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return fmt.Sprintf("%s[%s]", vecSelector.String(), utility.DurationToString(node.Range))
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}
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func (node *NumberLiteral) String() string {
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return fmt.Sprint(node.Val)
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}
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func (node *ParenExpr) String() string {
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return fmt.Sprintf("(%s)", node.Expr)
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}
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func (node *StringLiteral) String() string {
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return fmt.Sprintf("%q", node.Val)
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}
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func (node *UnaryExpr) String() string {
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return fmt.Sprintf("%s%s", node.Op, node.Expr)
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}
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func (node *VectorSelector) String() string {
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labelStrings := make([]string, 0, len(node.LabelMatchers)-1)
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for _, matcher := range node.LabelMatchers {
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// Only include the __name__ label if its no equality matching.
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if matcher.Name == clientmodel.MetricNameLabel && matcher.Type == metric.Equal {
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continue
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}
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labelStrings = append(labelStrings, matcher.String())
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}
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if len(labelStrings) == 0 {
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return node.Name
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}
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sort.Strings(labelStrings)
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return fmt.Sprintf("%s{%s}", node.Name, strings.Join(labelStrings, ","))
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}
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// DotGraph returns a DOT representation of a statement list.
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func (ss Statements) DotGraph() string {
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graph := ""
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for _, stmt := range ss {
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graph += stmt.DotGraph()
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}
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return graph
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}
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// DotGraph returns a DOT representation of the alert statement.
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func (node *AlertStmt) DotGraph() string {
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graph := fmt.Sprintf(
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`digraph "Alert Statement" {
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%#p[shape="box",label="ALERT %s IF FOR %s"];
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%#p -> %x;
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%s
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}`,
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node, node.Name, utility.DurationToString(node.Duration),
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node, reflect.ValueOf(node.Expr).Pointer(),
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node.Expr.DotGraph(),
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)
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return graph
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}
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// DotGraph returns a DOT representation of the eval statement.
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func (node *EvalStmt) DotGraph() string {
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graph := fmt.Sprintf(
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`%#p[shape="box",label="[%d:%s:%d]";
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%#p -> %x;
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%s
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}`,
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node, node.Start, node.End, node.Interval,
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node, reflect.ValueOf(node.Expr).Pointer(),
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node.Expr.DotGraph(),
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)
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return graph
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}
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// DotGraph returns a DOT representation of the record statement.
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func (node *RecordStmt) DotGraph() string {
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graph := fmt.Sprintf(
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`%#p[shape="box",label="%s = "];
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%#p -> %x;
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%s
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}`,
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node, node.Name,
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node, reflect.ValueOf(node.Expr).Pointer(),
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node.Expr.DotGraph(),
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)
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return graph
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}
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// DotGraph returns a DOT representation of // DotGraph returns a DOT representation of the record statement.
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// DotGraph returns a DOT representation of a statement list.
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func (es Expressions) DotGraph() string {
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graph := ""
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for _, expr := range es {
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graph += expr.DotGraph()
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}
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return graph
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}
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// DotGraph returns a DOT representation of the vector aggregation.
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func (node *AggregateExpr) DotGraph() string {
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groupByStrings := make([]string, 0, len(node.Grouping))
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for _, label := range node.Grouping {
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groupByStrings = append(groupByStrings, string(label))
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}
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graph := fmt.Sprintf("%#p[label=\"%s BY (%s)\"]\n",
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node,
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node.Op,
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strings.Join(groupByStrings, ", "))
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graph += fmt.Sprintf("%#p -> %x;\n", node, reflect.ValueOf(node.Expr).Pointer())
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graph += node.Expr.DotGraph()
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return graph
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}
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// DotGraph returns a DOT representation of the expression.
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func (node *BinaryExpr) DotGraph() string {
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nodeAddr := reflect.ValueOf(node).Pointer()
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graph := fmt.Sprintf(
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`
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%x[label="%s"];
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%x -> %x;
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%x -> %x;
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%s
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%s
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}`,
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nodeAddr, node.Op,
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nodeAddr, reflect.ValueOf(node.LHS).Pointer(),
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nodeAddr, reflect.ValueOf(node.RHS).Pointer(),
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node.LHS.DotGraph(),
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node.RHS.DotGraph(),
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)
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return graph
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}
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// DotGraph returns a DOT representation of the function call.
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func (node *Call) DotGraph() string {
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graph := fmt.Sprintf("%#p[label=\"%s\"];\n", node, node.Func.Name)
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graph += functionArgsToDotGraph(node, node.Args)
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return graph
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}
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// DotGraph returns a DOT representation of the number literal.
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func (node *NumberLiteral) DotGraph() string {
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return fmt.Sprintf("%#p[label=\"%v\"];\n", node, node.Val)
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}
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// DotGraph returns a DOT representation of the encapsulated expression.
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func (node *ParenExpr) DotGraph() string {
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return node.Expr.DotGraph()
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}
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// DotGraph returns a DOT representation of the matrix selector.
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func (node *MatrixSelector) DotGraph() string {
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return fmt.Sprintf("%#p[label=\"%s\"];\n", node, node)
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}
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// DotGraph returns a DOT representation of the string literal.
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func (node *StringLiteral) DotGraph() string {
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return fmt.Sprintf("%#p[label=\"'%q'\"];\n", node, node.Val)
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}
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// DotGraph returns a DOT representation of the unary expression.
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func (node *UnaryExpr) DotGraph() string {
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nodeAddr := reflect.ValueOf(node).Pointer()
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graph := fmt.Sprintf(
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`
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%x[label="%s"];
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%x -> %x;
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%s
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%s
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}`,
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nodeAddr, node.Op,
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nodeAddr, reflect.ValueOf(node.Expr).Pointer(),
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node.Expr.DotGraph(),
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)
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return graph
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}
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// DotGraph returns a DOT representation of the vector selector.
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func (node *VectorSelector) DotGraph() string {
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return fmt.Sprintf("%#p[label=\"%s\"];\n", node, node)
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}
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func functionArgsToDotGraph(node Node, args Expressions) string {
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graph := args.DotGraph()
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for _, arg := range args {
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graph += fmt.Sprintf("%x -> %x;\n", reflect.ValueOf(node).Pointer(), reflect.ValueOf(arg).Pointer())
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}
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return graph
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}
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