mirror of
https://github.com/prometheus/prometheus.git
synced 2024-12-30 07:59:40 -08:00
8f4c7ece92
The use of naked return values is frowned upon. This is the first of two bulk updates to remove them.
710 lines
17 KiB
Go
710 lines
17 KiB
Go
// Copyright 2013 Prometheus Team
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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 ast
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import (
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"errors"
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"fmt"
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"github.com/prometheus/prometheus/model"
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"github.com/prometheus/prometheus/storage/metric"
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"log"
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"math"
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"sort"
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"strings"
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"time"
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)
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// ----------------------------------------------------------------------------
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// Raw data value types.
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type Vector model.Samples
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type Matrix []model.SampleSet
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type groupedAggregation struct {
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labels model.Metric
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value model.SampleValue
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groupCount int
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}
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type labelValuePair struct {
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label model.LabelName
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value model.LabelValue
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}
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// ----------------------------------------------------------------------------
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// Enums.
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// Rule language expression types.
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type ExprType int
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const (
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SCALAR ExprType = iota
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VECTOR
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MATRIX
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STRING
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)
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// Binary operator types.
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type BinOpType int
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const (
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ADD BinOpType = iota
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SUB
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MUL
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DIV
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MOD
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NE
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EQ
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GT
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LT
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GE
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LE
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AND
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OR
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)
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// Aggregation types.
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type AggrType int
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const (
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SUM AggrType = iota
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AVG
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MIN
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MAX
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COUNT
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)
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// ----------------------------------------------------------------------------
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// Interfaces.
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// All node interfaces include the Node interface.
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type Node interface {
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Type() ExprType
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NodeTreeToDotGraph() string
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Children() []Node
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}
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// All node types implement one of the following interfaces. The name of the
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// interface represents the type returned to the parent node.
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type ScalarNode interface {
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Node
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Eval(timestamp time.Time, view *viewAdapter) model.SampleValue
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}
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type VectorNode interface {
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Node
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Eval(timestamp time.Time, view *viewAdapter) Vector
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}
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type MatrixNode interface {
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Node
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Eval(timestamp time.Time, view *viewAdapter) Matrix
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EvalBoundaries(timestamp time.Time, view *viewAdapter) Matrix
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}
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type StringNode interface {
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Node
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Eval(timestamp time.Time, view *viewAdapter) string
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}
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// ----------------------------------------------------------------------------
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// ScalarNode types.
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type (
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// A numeric literal.
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ScalarLiteral struct {
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value model.SampleValue
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}
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// A function of numeric return type.
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ScalarFunctionCall struct {
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function *Function
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args []Node
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}
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// An arithmetic expression of numeric type.
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ScalarArithExpr struct {
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opType BinOpType
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lhs ScalarNode
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rhs ScalarNode
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}
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)
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// ----------------------------------------------------------------------------
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// VectorNode types.
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type (
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// Vector literal, i.e. metric name plus labelset.
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VectorLiteral struct {
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labels model.LabelSet
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// Fingerprints are populated from labels at query analysis time.
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fingerprints model.Fingerprints
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}
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// A function of vector return type.
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VectorFunctionCall struct {
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function *Function
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args []Node
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}
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// A vector aggregation with vector return type.
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VectorAggregation struct {
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aggrType AggrType
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groupBy []model.LabelName
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vector VectorNode
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}
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// An arithmetic expression of vector type.
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VectorArithExpr struct {
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opType BinOpType
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lhs VectorNode
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rhs Node
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}
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)
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// ----------------------------------------------------------------------------
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// MatrixNode types.
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type (
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// Matrix literal, i.e. metric name plus labelset and timerange.
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MatrixLiteral struct {
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labels model.LabelSet
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// Fingerprints are populated from labels at query analysis time.
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fingerprints model.Fingerprints
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interval time.Duration
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}
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)
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// ----------------------------------------------------------------------------
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// StringNode types.
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type (
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// String literal.
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StringLiteral struct {
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str string
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}
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// A function of string return type.
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StringFunctionCall struct {
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function *Function
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args []Node
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}
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)
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// ----------------------------------------------------------------------------
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// Implementations.
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// Node.Type() methods.
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func (node ScalarLiteral) Type() ExprType { return SCALAR }
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func (node ScalarFunctionCall) Type() ExprType { return SCALAR }
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func (node ScalarArithExpr) Type() ExprType { return SCALAR }
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func (node VectorLiteral) Type() ExprType { return VECTOR }
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func (node VectorFunctionCall) Type() ExprType { return VECTOR }
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func (node VectorAggregation) Type() ExprType { return VECTOR }
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func (node VectorArithExpr) Type() ExprType { return VECTOR }
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func (node MatrixLiteral) Type() ExprType { return MATRIX }
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func (node StringLiteral) Type() ExprType { return STRING }
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func (node StringFunctionCall) Type() ExprType { return STRING }
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// Node.Children() methods.
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func (node ScalarLiteral) Children() []Node { return []Node{} }
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func (node ScalarFunctionCall) Children() []Node { return node.args }
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func (node ScalarArithExpr) Children() []Node { return []Node{node.lhs, node.rhs} }
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func (node VectorLiteral) Children() []Node { return []Node{} }
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func (node VectorFunctionCall) Children() []Node { return node.args }
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func (node VectorAggregation) Children() []Node { return []Node{node.vector} }
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func (node VectorArithExpr) Children() []Node { return []Node{node.lhs, node.rhs} }
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func (node MatrixLiteral) Children() []Node { return []Node{} }
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func (node StringLiteral) Children() []Node { return []Node{} }
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func (node StringFunctionCall) Children() []Node { return node.args }
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func (node *ScalarLiteral) Eval(timestamp time.Time, view *viewAdapter) model.SampleValue {
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return node.value
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}
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func (node *ScalarArithExpr) Eval(timestamp time.Time, view *viewAdapter) model.SampleValue {
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lhs := node.lhs.Eval(timestamp, view)
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rhs := node.rhs.Eval(timestamp, view)
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return evalScalarBinop(node.opType, lhs, rhs)
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}
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func (node *ScalarFunctionCall) Eval(timestamp time.Time, view *viewAdapter) model.SampleValue {
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return node.function.callFn(timestamp, view, node.args).(model.SampleValue)
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}
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func (node *VectorAggregation) labelsToGroupingKey(labels model.Metric) string {
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keyParts := []string{}
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for _, keyLabel := range node.groupBy {
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keyParts = append(keyParts, string(labels[keyLabel]))
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}
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return strings.Join(keyParts, ",") // TODO not safe when label value contains comma.
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}
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func labelsToKey(labels model.Metric) string {
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keyParts := []string{}
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for label, value := range labels {
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keyParts = append(keyParts, fmt.Sprintf("%v='%v'", label, value))
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}
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sort.Strings(keyParts)
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return strings.Join(keyParts, ",") // TODO not safe when label value contains comma.
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}
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func EvalVectorInstant(node VectorNode, timestamp time.Time, storage *metric.TieredStorage) (vector Vector, err error) {
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viewAdapter, err := viewAdapterForInstantQuery(node, timestamp, storage)
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if err != nil {
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return
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}
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vector = node.Eval(timestamp, viewAdapter)
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return
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}
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func EvalVectorRange(node VectorNode, start time.Time, end time.Time, interval time.Duration, storage *metric.TieredStorage) (Matrix, error) {
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// Explicitly initialize to an empty matrix since a nil Matrix encodes to
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// null in JSON.
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matrix := Matrix{}
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viewAdapter, err := viewAdapterForRangeQuery(node, start, end, interval, storage)
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if err != nil {
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return nil, err
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}
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// TODO implement watchdog timer for long-running queries.
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sampleSets := map[string]*model.SampleSet{}
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for t := start; t.Before(end); t = t.Add(interval) {
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vector := node.Eval(t, viewAdapter)
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for _, sample := range vector {
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samplePair := model.SamplePair{
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Value: sample.Value,
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Timestamp: sample.Timestamp,
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}
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groupingKey := labelsToKey(sample.Metric)
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if sampleSets[groupingKey] == nil {
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sampleSets[groupingKey] = &model.SampleSet{
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Metric: sample.Metric,
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Values: model.Values{samplePair},
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}
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} else {
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sampleSets[groupingKey].Values = append(sampleSets[groupingKey].Values, samplePair)
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}
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}
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}
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for _, sampleSet := range sampleSets {
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matrix = append(matrix, *sampleSet)
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}
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return matrix, nil
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}
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func labelIntersection(metric1, metric2 model.Metric) model.Metric {
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intersection := model.Metric{}
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for label, value := range metric1 {
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if metric2[label] == value {
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intersection[label] = value
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}
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}
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return intersection
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}
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func (node *VectorAggregation) groupedAggregationsToVector(aggregations map[string]*groupedAggregation, timestamp time.Time) Vector {
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vector := Vector{}
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for _, aggregation := range aggregations {
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switch node.aggrType {
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case AVG:
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aggregation.value = aggregation.value / model.SampleValue(aggregation.groupCount)
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case COUNT:
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aggregation.value = model.SampleValue(aggregation.groupCount)
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default:
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// For other aggregations, we already have the right value.
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}
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sample := model.Sample{
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Metric: aggregation.labels,
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Value: aggregation.value,
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Timestamp: timestamp,
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}
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vector = append(vector, sample)
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}
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return vector
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}
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func (node *VectorAggregation) Eval(timestamp time.Time, view *viewAdapter) Vector {
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vector := node.vector.Eval(timestamp, view)
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result := map[string]*groupedAggregation{}
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for _, sample := range vector {
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groupingKey := node.labelsToGroupingKey(sample.Metric)
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if groupedResult, ok := result[groupingKey]; ok {
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groupedResult.labels = labelIntersection(groupedResult.labels, sample.Metric)
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switch node.aggrType {
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case SUM:
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groupedResult.value += sample.Value
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case AVG:
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groupedResult.value += sample.Value
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groupedResult.groupCount++
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case MAX:
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if groupedResult.value < sample.Value {
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groupedResult.value = sample.Value
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}
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case MIN:
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if groupedResult.value > sample.Value {
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groupedResult.value = sample.Value
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}
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case COUNT:
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groupedResult.groupCount++
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default:
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panic("Unknown aggregation type")
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}
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} else {
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result[groupingKey] = &groupedAggregation{
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labels: sample.Metric,
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value: sample.Value,
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groupCount: 1,
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}
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}
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}
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return node.groupedAggregationsToVector(result, timestamp)
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}
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func (node *VectorLiteral) Eval(timestamp time.Time, view *viewAdapter) Vector {
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values, err := view.GetValueAtTime(node.fingerprints, timestamp)
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if err != nil {
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log.Printf("Unable to get vector values")
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return Vector{}
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}
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return values
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}
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func (node *VectorFunctionCall) Eval(timestamp time.Time, view *viewAdapter) Vector {
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return node.function.callFn(timestamp, view, node.args).(Vector)
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}
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func evalScalarBinop(opType BinOpType,
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lhs model.SampleValue,
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rhs model.SampleValue) model.SampleValue {
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switch opType {
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case ADD:
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return lhs + rhs
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case SUB:
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return lhs - rhs
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case MUL:
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return lhs * rhs
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case DIV:
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if rhs != 0 {
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return lhs / rhs
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} else {
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return model.SampleValue(math.Inf(int(rhs)))
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}
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case MOD:
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if rhs != 0 {
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return model.SampleValue(int(lhs) % int(rhs))
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} else {
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return model.SampleValue(math.Inf(int(rhs)))
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}
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case EQ:
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if lhs == rhs {
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return 1
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} else {
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return 0
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}
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case NE:
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if lhs != rhs {
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return 1
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} else {
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return 0
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}
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case GT:
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if lhs > rhs {
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return 1
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} else {
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return 0
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}
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case LT:
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if lhs < rhs {
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return 1
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} else {
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return 0
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}
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case GE:
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if lhs >= rhs {
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return 1
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} else {
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return 0
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}
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case LE:
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if lhs <= rhs {
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return 1
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} else {
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return 0
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}
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}
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panic("Not all enum values enumerated in switch")
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}
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func evalVectorBinop(opType BinOpType,
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lhs model.SampleValue,
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rhs model.SampleValue) (model.SampleValue, bool) {
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switch opType {
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case ADD:
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return lhs + rhs, true
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case SUB:
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return lhs - rhs, true
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case MUL:
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return lhs * rhs, true
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case DIV:
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if rhs != 0 {
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return lhs / rhs, true
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} else {
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return model.SampleValue(math.Inf(int(rhs))), true
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}
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case MOD:
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if rhs != 0 {
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return model.SampleValue(int(lhs) % int(rhs)), true
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} else {
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return model.SampleValue(math.Inf(int(rhs))), true
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}
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case EQ:
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if lhs == rhs {
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return lhs, true
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} else {
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return 0, false
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}
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case NE:
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if lhs != rhs {
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return lhs, true
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} else {
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return 0, false
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}
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case GT:
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if lhs > rhs {
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return lhs, true
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} else {
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return 0, false
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}
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case LT:
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if lhs < rhs {
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return lhs, true
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} else {
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return 0, false
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}
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case GE:
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if lhs >= rhs {
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return lhs, true
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} else {
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return 0, false
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}
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case LE:
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if lhs <= rhs {
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return lhs, true
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} else {
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return 0, false
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}
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case AND:
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return lhs, true
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case OR:
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return lhs, true // TODO: implement OR
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}
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panic("Not all enum values enumerated in switch")
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}
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func labelsEqual(labels1, labels2 model.Metric) bool {
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if len(labels1) != len(labels2) {
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return false
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}
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for label, value := range labels1 {
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if labels2[label] != value && label != model.MetricNameLabel {
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return false
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}
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}
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return true
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}
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func (node *VectorArithExpr) Eval(timestamp time.Time, view *viewAdapter) Vector {
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lhs := node.lhs.Eval(timestamp, view)
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result := Vector{}
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if node.rhs.Type() == SCALAR {
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rhs := node.rhs.(ScalarNode).Eval(timestamp, view)
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for _, lhsSample := range lhs {
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value, keep := evalVectorBinop(node.opType, lhsSample.Value, rhs)
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if keep {
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lhsSample.Value = value
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result = append(result, lhsSample)
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}
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}
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return result
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} else if node.rhs.Type() == VECTOR {
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rhs := node.rhs.(VectorNode).Eval(timestamp, view)
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for _, lhsSample := range lhs {
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for _, rhsSample := range rhs {
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if labelsEqual(lhsSample.Metric, rhsSample.Metric) {
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value, keep := evalVectorBinop(node.opType, lhsSample.Value, rhsSample.Value)
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if keep {
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lhsSample.Value = value
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result = append(result, lhsSample)
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}
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}
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}
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}
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return result
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}
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panic("Invalid vector arithmetic expression operands")
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}
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func (node *MatrixLiteral) Eval(timestamp time.Time, view *viewAdapter) Matrix {
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interval := &model.Interval{
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OldestInclusive: timestamp.Add(-node.interval),
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NewestInclusive: timestamp,
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}
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values, err := view.GetRangeValues(node.fingerprints, interval)
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if err != nil {
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log.Printf("Unable to get values for vector interval")
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return Matrix{}
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}
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return values
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}
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func (node *MatrixLiteral) EvalBoundaries(timestamp time.Time, view *viewAdapter) Matrix {
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interval := &model.Interval{
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OldestInclusive: timestamp.Add(-node.interval),
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NewestInclusive: timestamp,
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}
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values, err := view.GetBoundaryValues(node.fingerprints, interval)
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if err != nil {
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log.Printf("Unable to get boundary values for vector interval")
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return Matrix{}
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}
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return values
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}
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func (matrix Matrix) Len() int {
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return len(matrix)
|
|
}
|
|
|
|
func (matrix Matrix) Less(i, j int) bool {
|
|
return labelsToKey(matrix[i].Metric) < labelsToKey(matrix[j].Metric)
|
|
}
|
|
|
|
func (matrix Matrix) Swap(i, j int) {
|
|
matrix[i], matrix[j] = matrix[j], matrix[i]
|
|
}
|
|
|
|
func (node *StringLiteral) Eval(timestamp time.Time, view *viewAdapter) string {
|
|
return node.str
|
|
}
|
|
|
|
func (node *StringFunctionCall) Eval(timestamp time.Time, view *viewAdapter) string {
|
|
return node.function.callFn(timestamp, view, node.args).(string)
|
|
}
|
|
|
|
// ----------------------------------------------------------------------------
|
|
// Constructors.
|
|
|
|
func NewScalarLiteral(value model.SampleValue) *ScalarLiteral {
|
|
return &ScalarLiteral{
|
|
value: value,
|
|
}
|
|
}
|
|
|
|
func NewVectorLiteral(labels model.LabelSet) *VectorLiteral {
|
|
return &VectorLiteral{
|
|
labels: labels,
|
|
}
|
|
}
|
|
|
|
func NewVectorAggregation(aggrType AggrType, vector VectorNode, groupBy []model.LabelName) *VectorAggregation {
|
|
return &VectorAggregation{
|
|
aggrType: aggrType,
|
|
groupBy: groupBy,
|
|
vector: vector,
|
|
}
|
|
}
|
|
|
|
func NewFunctionCall(function *Function, args []Node) (Node, error) {
|
|
if err := function.CheckArgTypes(args); err != nil {
|
|
return nil, err
|
|
}
|
|
switch function.returnType {
|
|
case SCALAR:
|
|
return &ScalarFunctionCall{
|
|
function: function,
|
|
args: args,
|
|
}, nil
|
|
case VECTOR:
|
|
return &VectorFunctionCall{
|
|
function: function,
|
|
args: args,
|
|
}, nil
|
|
case STRING:
|
|
return &StringFunctionCall{
|
|
function: function,
|
|
args: args,
|
|
}, nil
|
|
}
|
|
panic("Function with invalid return type")
|
|
}
|
|
|
|
func nodesHaveTypes(nodes []Node, exprTypes []ExprType) bool {
|
|
for _, node := range nodes {
|
|
correctType := false
|
|
for _, exprType := range exprTypes {
|
|
if node.Type() == exprType {
|
|
correctType = true
|
|
}
|
|
}
|
|
if !correctType {
|
|
return false
|
|
}
|
|
}
|
|
return true
|
|
}
|
|
|
|
func NewArithExpr(opType BinOpType, lhs Node, rhs Node) (Node, error) {
|
|
if !nodesHaveTypes([]Node{lhs, rhs}, []ExprType{SCALAR, VECTOR}) {
|
|
return nil, errors.New("Binary operands must be of vector or scalar type")
|
|
}
|
|
if lhs.Type() == SCALAR && rhs.Type() == VECTOR {
|
|
return nil, errors.New("Left side of vector binary operation must be of vector type")
|
|
}
|
|
|
|
if opType == AND || opType == OR {
|
|
if lhs.Type() == SCALAR || rhs.Type() == SCALAR {
|
|
return nil, errors.New("AND and OR operators may only be used between vectors")
|
|
}
|
|
}
|
|
|
|
if lhs.Type() == VECTOR || rhs.Type() == VECTOR {
|
|
return &VectorArithExpr{
|
|
opType: opType,
|
|
lhs: lhs.(VectorNode),
|
|
rhs: rhs,
|
|
}, nil
|
|
}
|
|
|
|
return &ScalarArithExpr{
|
|
opType: opType,
|
|
lhs: lhs.(ScalarNode),
|
|
rhs: rhs.(ScalarNode),
|
|
}, nil
|
|
}
|
|
|
|
func NewMatrixLiteral(vector *VectorLiteral, interval time.Duration) *MatrixLiteral {
|
|
return &MatrixLiteral{
|
|
labels: vector.labels,
|
|
interval: interval,
|
|
}
|
|
}
|
|
|
|
func NewStringLiteral(str string) *StringLiteral {
|
|
return &StringLiteral{
|
|
str: str,
|
|
}
|
|
}
|