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https://github.com/prometheus/prometheus.git
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404abe0f1c
This changes the Walk/Inspect API inside the promql package to bubble up errors. This is done by having the inspector return an error (instead of a bool) and then bubbling that up in the Walk. This way if any error is encountered in the Walk() the walk will stop and return the error. This avoids issues where errors from the Querier where being ignored (causing incorrect promql evaluation). Signed-off-by: Thomas Jackson <jacksontj.89@gmail.com> Fixes #4136
342 lines
9.4 KiB
Go
342 lines
9.4 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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"time"
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"github.com/prometheus/prometheus/pkg/labels"
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"github.com/prometheus/prometheus/storage"
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)
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// Node is a generic interface for all nodes in an AST.
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//
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// Whenever numerous nodes are listed such as in a switch-case statement
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// or a chain of function definitions (e.g. String(), expr(), etc.) convention is
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// to list them as follows:
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//
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// - Statements
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// - statement types (alphabetical)
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// - ...
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// - Expressions
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// - expression types (alphabetical)
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// - ...
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//
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type Node interface {
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// String representation of the node that returns the given node when parsed
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// as part of a valid query.
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String() string
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}
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// Statement is a generic interface for all statements.
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type Statement interface {
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Node
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// stmt ensures that no other type accidentally implements the interface
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stmt()
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}
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// Statements is a list of statement nodes that implements Node.
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type Statements []Statement
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// AlertStmt represents an added alert rule.
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type AlertStmt struct {
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Name string
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Expr Expr
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Duration time.Duration
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Labels labels.Labels
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Annotations labels.Labels
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}
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// EvalStmt holds an expression and information on the range it should
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// be evaluated on.
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type EvalStmt struct {
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Expr Expr // Expression to be evaluated.
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// The time boundaries for the evaluation. If Start equals End an instant
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// is evaluated.
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Start, End time.Time
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// Time between two evaluated instants for the range [Start:End].
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Interval time.Duration
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}
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// RecordStmt represents an added recording rule.
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type RecordStmt struct {
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Name string
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Expr Expr
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Labels labels.Labels
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}
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func (*AlertStmt) stmt() {}
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func (*EvalStmt) stmt() {}
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func (*RecordStmt) stmt() {}
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// Expr is a generic interface for all expression types.
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type Expr interface {
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Node
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// Type returns the type the expression evaluates to. It does not perform
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// in-depth checks as this is done at parsing-time.
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Type() ValueType
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// expr ensures that no other types accidentally implement the interface.
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expr()
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}
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// Expressions is a list of expression nodes that implements Node.
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type Expressions []Expr
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// AggregateExpr represents an aggregation operation on a Vector.
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type AggregateExpr struct {
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Op ItemType // The used aggregation operation.
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Expr Expr // The Vector expression over which is aggregated.
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Param Expr // Parameter used by some aggregators.
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Grouping []string // The labels by which to group the Vector.
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Without bool // Whether to drop the given labels rather than keep them.
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}
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// BinaryExpr represents a binary expression between two child expressions.
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type BinaryExpr struct {
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Op ItemType // The operation of the expression.
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LHS, RHS Expr // The operands on the respective sides of the operator.
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// The matching behavior for the operation if both operands are Vectors.
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// If they are not this field is nil.
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VectorMatching *VectorMatching
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// If a comparison operator, return 0/1 rather than filtering.
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ReturnBool bool
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}
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// Call represents a function call.
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type Call struct {
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Func *Function // The function that was called.
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Args Expressions // Arguments used in the call.
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}
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// MatrixSelector represents a Matrix selection.
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type MatrixSelector struct {
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Name string
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Range time.Duration
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Offset time.Duration
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LabelMatchers []*labels.Matcher
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// The series are populated at query preparation time.
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series []storage.Series
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}
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// NumberLiteral represents a number.
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type NumberLiteral struct {
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Val float64
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}
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// ParenExpr wraps an expression so it cannot be disassembled as a consequence
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// of operator precedence.
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type ParenExpr struct {
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Expr Expr
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}
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// StringLiteral represents a string.
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type StringLiteral struct {
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Val string
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}
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// UnaryExpr represents a unary operation on another expression.
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// Currently unary operations are only supported for Scalars.
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type UnaryExpr struct {
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Op ItemType
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Expr Expr
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}
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// VectorSelector represents a Vector selection.
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type VectorSelector struct {
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Name string
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Offset time.Duration
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LabelMatchers []*labels.Matcher
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// The series are populated at query preparation time.
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series []storage.Series
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}
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func (e *AggregateExpr) Type() ValueType { return ValueTypeVector }
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func (e *Call) Type() ValueType { return e.Func.ReturnType }
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func (e *MatrixSelector) Type() ValueType { return ValueTypeMatrix }
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func (e *NumberLiteral) Type() ValueType { return ValueTypeScalar }
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func (e *ParenExpr) Type() ValueType { return e.Expr.Type() }
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func (e *StringLiteral) Type() ValueType { return ValueTypeString }
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func (e *UnaryExpr) Type() ValueType { return e.Expr.Type() }
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func (e *VectorSelector) Type() ValueType { return ValueTypeVector }
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func (e *BinaryExpr) Type() ValueType {
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if e.LHS.Type() == ValueTypeScalar && e.RHS.Type() == ValueTypeScalar {
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return ValueTypeScalar
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}
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return ValueTypeVector
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}
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func (*AggregateExpr) expr() {}
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func (*BinaryExpr) expr() {}
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func (*Call) expr() {}
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func (*MatrixSelector) expr() {}
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func (*NumberLiteral) expr() {}
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func (*ParenExpr) expr() {}
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func (*StringLiteral) expr() {}
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func (*UnaryExpr) expr() {}
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func (*VectorSelector) expr() {}
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// VectorMatchCardinality describes the cardinality relationship
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// of two Vectors in a binary operation.
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type VectorMatchCardinality int
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const (
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CardOneToOne VectorMatchCardinality = iota
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CardManyToOne
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CardOneToMany
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CardManyToMany
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)
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func (vmc VectorMatchCardinality) String() string {
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switch vmc {
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case CardOneToOne:
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return "one-to-one"
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case CardManyToOne:
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return "many-to-one"
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case CardOneToMany:
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return "one-to-many"
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case CardManyToMany:
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return "many-to-many"
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}
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panic("promql.VectorMatchCardinality.String: unknown match cardinality")
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}
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// VectorMatching describes how elements from two Vectors in a binary
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// operation are supposed to be matched.
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type VectorMatching struct {
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// The cardinality of the two Vectors.
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Card VectorMatchCardinality
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// MatchingLabels contains the labels which define equality of a pair of
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// elements from the Vectors.
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MatchingLabels []string
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// On includes the given label names from matching,
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// rather than excluding them.
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On bool
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// Include contains additional labels that should be included in
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// the result from the side with the lower cardinality.
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Include []string
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}
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// Visitor allows visiting a Node and its child nodes. The Visit method is
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// invoked for each node with the path leading to the node provided additionally.
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// If the result visitor w is not nil and no error, Walk visits each of the children
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// of node with the visitor w, followed by a call of w.Visit(nil, nil).
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type Visitor interface {
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Visit(node Node, path []Node) (w Visitor, err error)
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}
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// Walk traverses an AST in depth-first order: It starts by calling
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// v.Visit(node, path); node must not be nil. If the visitor w returned by
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// v.Visit(node, path) is not nil and the visitor returns no error, Walk is
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// invoked recursively with visitor w for each of the non-nil children of node,
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// followed by a call of w.Visit(nil), returning an error
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// As the tree is descended the path of previous nodes is provided.
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func Walk(v Visitor, node Node, path []Node) error {
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var err error
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if v, err = v.Visit(node, path); v == nil || err != nil {
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return err
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}
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path = append(path, node)
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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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if err := Walk(v, s, path); err != nil {
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return err
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}
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}
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case *AlertStmt:
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if err := Walk(v, n.Expr, path); err != nil {
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return err
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}
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case *EvalStmt:
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if err := Walk(v, n.Expr, path); err != nil {
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return err
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}
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case *RecordStmt:
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if err := Walk(v, n.Expr, path); err != nil {
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return err
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}
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case Expressions:
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for _, e := range n {
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if err := Walk(v, e, path); err != nil {
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return err
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}
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}
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case *AggregateExpr:
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if err := Walk(v, n.Expr, path); err != nil {
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return err
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}
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case *BinaryExpr:
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if err := Walk(v, n.LHS, path); err != nil {
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return err
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}
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if err := Walk(v, n.RHS, path); err != nil {
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return err
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}
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case *Call:
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if err := Walk(v, n.Args, path); err != nil {
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return err
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}
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case *ParenExpr:
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if err := Walk(v, n.Expr, path); err != nil {
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return err
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}
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case *UnaryExpr:
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if err := Walk(v, n.Expr, path); err != nil {
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return err
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}
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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(fmt.Errorf("promql.Walk: unhandled node type %T", node))
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}
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_, err = v.Visit(nil, nil)
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return err
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}
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type inspector func(Node, []Node) error
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func (f inspector) Visit(node Node, path []Node) (Visitor, error) {
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if err := f(node, path); err == nil {
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return f, nil
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} else {
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return nil, err
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}
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}
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// Inspect traverses an AST in depth-first order: It starts by calling
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// f(node, path); node must not be nil. If f returns a nil error, Inspect invokes f
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// for all the non-nil children of node, recursively.
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func Inspect(node Node, f inspector) {
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Walk(inspector(f), node, nil)
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}
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