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477 lines
14 KiB
477 lines
14 KiB
// 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 parser |
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import ( |
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"context" |
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"time" |
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"github.com/pkg/errors" |
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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(), PromQLExpr(), 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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// PositionRange returns the position of the AST Node in the query string. |
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PositionRange() PositionRange |
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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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// PromQLStmt ensures that no other type accidentally implements the interface |
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// nolint:unused |
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PromQLStmt() |
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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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func (*EvalStmt) PromQLStmt() {} |
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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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// PromQLExpr ensures that no other types accidentally implement the interface. |
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PromQLExpr() |
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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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PosRange PositionRange |
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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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PosRange PositionRange |
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} |
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// MatrixSelector represents a Matrix selection. |
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type MatrixSelector struct { |
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// It is safe to assume that this is an VectorSelector |
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// if the parser hasn't returned an error. |
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VectorSelector Expr |
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Range time.Duration |
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EndPos Pos |
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} |
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// SubqueryExpr represents a subquery. |
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type SubqueryExpr struct { |
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Expr Expr |
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Range time.Duration |
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// OriginalOffset is the actual offset that was set in the query. |
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// This never changes. |
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OriginalOffset time.Duration |
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// Offset is the offset used during the query execution |
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// which is calculated using the original offset, at modifier time, |
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// eval time, and subquery offsets in the AST tree. |
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Offset time.Duration |
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Timestamp *int64 |
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StartOrEnd ItemType // Set when @ is used with start() or end() |
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Step time.Duration |
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EndPos Pos |
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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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PosRange PositionRange |
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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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PosRange PositionRange |
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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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PosRange PositionRange |
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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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StartPos Pos |
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} |
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// StepInvariantExpr represents a query which evaluates to the same result |
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// irrespective of the evaluation time given the raw samples from TSDB remain unchanged. |
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// Currently this is only used for engine optimisations and the parser does not produce this. |
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type StepInvariantExpr struct { |
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Expr Expr |
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} |
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func (e *StepInvariantExpr) String() string { return e.Expr.String() } |
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func (e *StepInvariantExpr) PositionRange() PositionRange { return e.Expr.PositionRange() } |
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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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// OriginalOffset is the actual offset that was set in the query. |
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// This never changes. |
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OriginalOffset time.Duration |
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// Offset is the offset used during the query execution |
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// which is calculated using the original offset, at modifier time, |
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// eval time, and subquery offsets in the AST tree. |
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Offset time.Duration |
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Timestamp *int64 |
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StartOrEnd ItemType // Set when @ is used with start() or end() |
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LabelMatchers []*labels.Matcher |
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// The unexpanded seriesSet populated at query preparation time. |
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UnexpandedSeriesSet storage.SeriesSet |
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Series []storage.Series |
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PosRange PositionRange |
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} |
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// TestStmt is an internal helper statement that allows execution |
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// of an arbitrary function during handling. It is used to test the Engine. |
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type TestStmt func(context.Context) error |
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func (TestStmt) String() string { return "test statement" } |
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func (TestStmt) PromQLStmt() {} |
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func (TestStmt) PositionRange() PositionRange { |
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return PositionRange{ |
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Start: -1, |
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End: -1, |
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} |
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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 *SubqueryExpr) 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 (e *StepInvariantExpr) Type() ValueType { return e.Expr.Type() } |
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func (*AggregateExpr) PromQLExpr() {} |
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func (*BinaryExpr) PromQLExpr() {} |
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func (*Call) PromQLExpr() {} |
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func (*MatrixSelector) PromQLExpr() {} |
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func (*SubqueryExpr) PromQLExpr() {} |
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func (*NumberLiteral) PromQLExpr() {} |
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func (*ParenExpr) PromQLExpr() {} |
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func (*StringLiteral) PromQLExpr() {} |
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func (*UnaryExpr) PromQLExpr() {} |
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func (*VectorSelector) PromQLExpr() {} |
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func (*StepInvariantExpr) PromQLExpr() {} |
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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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for _, e := range Children(node) { |
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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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_, err = v.Visit(nil, nil) |
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return err |
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} |
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func ExtractSelectors(expr Expr) [][]*labels.Matcher { |
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var selectors [][]*labels.Matcher |
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Inspect(expr, func(node Node, _ []Node) error { |
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vs, ok := node.(*VectorSelector) |
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if ok { |
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selectors = append(selectors, vs.LabelMatchers) |
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} |
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return nil |
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}) |
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return selectors |
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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 nil, err |
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} |
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return f, nil |
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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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//nolint: errcheck |
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Walk(inspector(f), node, nil) |
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} |
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// Children returns a list of all child nodes of a syntax tree node. |
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func Children(node Node) []Node { |
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// For some reasons these switches have significantly better performance than interfaces |
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switch n := node.(type) { |
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case *EvalStmt: |
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return []Node{n.Expr} |
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case Expressions: |
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// golang cannot convert slices of interfaces |
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ret := make([]Node, len(n)) |
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for i, e := range n { |
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ret[i] = e |
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} |
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return ret |
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case *AggregateExpr: |
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// While this does not look nice, it should avoid unnecessary allocations |
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// caused by slice resizing |
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if n.Expr == nil && n.Param == nil { |
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return nil |
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} else if n.Expr == nil { |
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return []Node{n.Param} |
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} else if n.Param == nil { |
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return []Node{n.Expr} |
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} else { |
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return []Node{n.Expr, n.Param} |
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} |
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case *BinaryExpr: |
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return []Node{n.LHS, n.RHS} |
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case *Call: |
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// golang cannot convert slices of interfaces |
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ret := make([]Node, len(n.Args)) |
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for i, e := range n.Args { |
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ret[i] = e |
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} |
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return ret |
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case *SubqueryExpr: |
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return []Node{n.Expr} |
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case *ParenExpr: |
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return []Node{n.Expr} |
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case *UnaryExpr: |
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return []Node{n.Expr} |
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case *MatrixSelector: |
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return []Node{n.VectorSelector} |
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case *StepInvariantExpr: |
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return []Node{n.Expr} |
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case *NumberLiteral, *StringLiteral, *VectorSelector: |
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// nothing to do |
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return []Node{} |
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default: |
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panic(errors.Errorf("promql.Children: unhandled node type %T", node)) |
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} |
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} |
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// PositionRange describes a position in the input string of the parser. |
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type PositionRange struct { |
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Start Pos |
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End Pos |
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} |
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// mergeRanges is a helper function to merge the PositionRanges of two Nodes. |
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// Note that the arguments must be in the same order as they |
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// occur in the input string. |
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func mergeRanges(first Node, last Node) PositionRange { |
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return PositionRange{ |
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Start: first.PositionRange().Start, |
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End: last.PositionRange().End, |
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} |
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} |
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// Item implements the Node interface. |
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// This makes it possible to call mergeRanges on them. |
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func (i *Item) PositionRange() PositionRange { |
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return PositionRange{ |
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Start: i.Pos, |
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End: i.Pos + Pos(len(i.Val)), |
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} |
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} |
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func (e *AggregateExpr) PositionRange() PositionRange { |
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return e.PosRange |
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} |
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func (e *BinaryExpr) PositionRange() PositionRange { |
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return mergeRanges(e.LHS, e.RHS) |
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} |
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func (e *Call) PositionRange() PositionRange { |
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return e.PosRange |
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} |
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func (e *EvalStmt) PositionRange() PositionRange { |
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return e.Expr.PositionRange() |
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} |
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func (e Expressions) PositionRange() PositionRange { |
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if len(e) == 0 { |
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// Position undefined. |
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return PositionRange{ |
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Start: -1, |
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End: -1, |
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} |
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} |
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return mergeRanges(e[0], e[len(e)-1]) |
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} |
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func (e *MatrixSelector) PositionRange() PositionRange { |
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return PositionRange{ |
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Start: e.VectorSelector.PositionRange().Start, |
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End: e.EndPos, |
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} |
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} |
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func (e *SubqueryExpr) PositionRange() PositionRange { |
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return PositionRange{ |
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Start: e.Expr.PositionRange().Start, |
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End: e.EndPos, |
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} |
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} |
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func (e *NumberLiteral) PositionRange() PositionRange { |
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return e.PosRange |
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} |
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func (e *ParenExpr) PositionRange() PositionRange { |
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return e.PosRange |
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} |
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func (e *StringLiteral) PositionRange() PositionRange { |
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return e.PosRange |
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} |
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func (e *UnaryExpr) PositionRange() PositionRange { |
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return PositionRange{ |
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Start: e.StartPos, |
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End: e.Expr.PositionRange().End, |
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} |
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} |
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func (e *VectorSelector) PositionRange() PositionRange { |
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return e.PosRange |
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}
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