mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-12-19 03:20:20 +00:00
5a66991bb3
updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
457 lines
13 KiB
Go
457 lines
13 KiB
Go
// Copyright 2023 Google LLC
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//
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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 declares data structures useful for parsed and checked abstract syntax trees
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package ast
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import (
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"github.com/google/cel-go/common"
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"github.com/google/cel-go/common/types"
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"github.com/google/cel-go/common/types/ref"
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)
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// AST contains a protobuf expression and source info along with CEL-native type and reference information.
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type AST struct {
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expr Expr
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sourceInfo *SourceInfo
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typeMap map[int64]*types.Type
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refMap map[int64]*ReferenceInfo
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}
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// Expr returns the root ast.Expr value in the AST.
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func (a *AST) Expr() Expr {
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if a == nil {
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return nilExpr
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}
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return a.expr
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}
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// SourceInfo returns the source metadata associated with the parse / type-check passes.
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func (a *AST) SourceInfo() *SourceInfo {
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if a == nil {
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return nil
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}
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return a.sourceInfo
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}
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// GetType returns the type for the expression at the given id, if one exists, else types.DynType.
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func (a *AST) GetType(id int64) *types.Type {
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if t, found := a.TypeMap()[id]; found {
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return t
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}
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return types.DynType
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}
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// SetType sets the type of the expression node at the given id.
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func (a *AST) SetType(id int64, t *types.Type) {
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if a == nil {
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return
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}
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a.typeMap[id] = t
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}
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// TypeMap returns the map of expression ids to type-checked types.
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//
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// If the AST is not type-checked, the map will be empty.
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func (a *AST) TypeMap() map[int64]*types.Type {
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if a == nil {
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return map[int64]*types.Type{}
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}
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return a.typeMap
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}
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// GetOverloadIDs returns the set of overload function names for a given expression id.
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//
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// If the expression id is not a function call, or the AST is not type-checked, the result will be empty.
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func (a *AST) GetOverloadIDs(id int64) []string {
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if ref, found := a.ReferenceMap()[id]; found {
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return ref.OverloadIDs
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}
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return []string{}
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}
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// ReferenceMap returns the map of expression id to identifier, constant, and function references.
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func (a *AST) ReferenceMap() map[int64]*ReferenceInfo {
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if a == nil {
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return map[int64]*ReferenceInfo{}
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}
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return a.refMap
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}
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// SetReference adds a reference to the checked AST type map.
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func (a *AST) SetReference(id int64, r *ReferenceInfo) {
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if a == nil {
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return
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}
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a.refMap[id] = r
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}
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// IsChecked returns whether the AST is type-checked.
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func (a *AST) IsChecked() bool {
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return a != nil && len(a.TypeMap()) > 0
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}
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// NewAST creates a base AST instance with an ast.Expr and ast.SourceInfo value.
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func NewAST(e Expr, sourceInfo *SourceInfo) *AST {
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if e == nil {
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e = nilExpr
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}
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return &AST{
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expr: e,
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sourceInfo: sourceInfo,
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typeMap: make(map[int64]*types.Type),
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refMap: make(map[int64]*ReferenceInfo),
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}
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}
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// NewCheckedAST wraps an parsed AST and augments it with type and reference metadata.
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func NewCheckedAST(parsed *AST, typeMap map[int64]*types.Type, refMap map[int64]*ReferenceInfo) *AST {
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return &AST{
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expr: parsed.Expr(),
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sourceInfo: parsed.SourceInfo(),
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typeMap: typeMap,
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refMap: refMap,
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}
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}
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// Copy creates a deep copy of the Expr and SourceInfo values in the input AST.
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//
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// Copies of the Expr value are generated using an internal default ExprFactory.
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func Copy(a *AST) *AST {
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if a == nil {
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return nil
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}
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e := defaultFactory.CopyExpr(a.expr)
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if !a.IsChecked() {
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return NewAST(e, CopySourceInfo(a.SourceInfo()))
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}
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typesCopy := make(map[int64]*types.Type, len(a.typeMap))
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for id, t := range a.typeMap {
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typesCopy[id] = t
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}
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refsCopy := make(map[int64]*ReferenceInfo, len(a.refMap))
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for id, r := range a.refMap {
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refsCopy[id] = r
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}
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return NewCheckedAST(NewAST(e, CopySourceInfo(a.SourceInfo())), typesCopy, refsCopy)
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}
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// MaxID returns the upper-bound, non-inclusive, of ids present within the AST's Expr value.
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func MaxID(a *AST) int64 {
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visitor := &maxIDVisitor{maxID: 1}
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PostOrderVisit(a.Expr(), visitor)
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for id, call := range a.SourceInfo().MacroCalls() {
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PostOrderVisit(call, visitor)
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if id > visitor.maxID {
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visitor.maxID = id + 1
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}
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}
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return visitor.maxID + 1
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}
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// NewSourceInfo creates a simple SourceInfo object from an input common.Source value.
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func NewSourceInfo(src common.Source) *SourceInfo {
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var lineOffsets []int32
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var desc string
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baseLine := int32(0)
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baseCol := int32(0)
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if src != nil {
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desc = src.Description()
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lineOffsets = src.LineOffsets()
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// Determine whether the source metadata should be computed relative
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// to a base line and column value. This can be determined by requesting
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// the location for offset 0 from the source object.
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if loc, found := src.OffsetLocation(0); found {
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baseLine = int32(loc.Line()) - 1
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baseCol = int32(loc.Column())
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}
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}
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return &SourceInfo{
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desc: desc,
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lines: lineOffsets,
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baseLine: baseLine,
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baseCol: baseCol,
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offsetRanges: make(map[int64]OffsetRange),
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macroCalls: make(map[int64]Expr),
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}
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}
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// CopySourceInfo creates a deep copy of the MacroCalls within the input SourceInfo.
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//
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// Copies of macro Expr values are generated using an internal default ExprFactory.
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func CopySourceInfo(info *SourceInfo) *SourceInfo {
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if info == nil {
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return nil
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}
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rangesCopy := make(map[int64]OffsetRange, len(info.offsetRanges))
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for id, off := range info.offsetRanges {
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rangesCopy[id] = off
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}
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callsCopy := make(map[int64]Expr, len(info.macroCalls))
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for id, call := range info.macroCalls {
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callsCopy[id] = defaultFactory.CopyExpr(call)
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}
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return &SourceInfo{
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syntax: info.syntax,
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desc: info.desc,
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lines: info.lines,
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baseLine: info.baseLine,
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baseCol: info.baseCol,
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offsetRanges: rangesCopy,
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macroCalls: callsCopy,
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}
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}
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// SourceInfo records basic information about the expression as a textual input and
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// as a parsed expression value.
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type SourceInfo struct {
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syntax string
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desc string
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lines []int32
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baseLine int32
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baseCol int32
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offsetRanges map[int64]OffsetRange
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macroCalls map[int64]Expr
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}
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// SyntaxVersion returns the syntax version associated with the text expression.
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func (s *SourceInfo) SyntaxVersion() string {
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if s == nil {
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return ""
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}
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return s.syntax
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}
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// Description provides information about where the expression came from.
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func (s *SourceInfo) Description() string {
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if s == nil {
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return ""
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}
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return s.desc
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}
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// LineOffsets returns a list of the 0-based character offsets in the input text where newlines appear.
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func (s *SourceInfo) LineOffsets() []int32 {
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if s == nil {
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return []int32{}
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}
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return s.lines
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}
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// MacroCalls returns a map of expression id to ast.Expr value where the id represents the expression
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// node where the macro was inserted into the AST, and the ast.Expr value represents the original call
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// signature which was replaced.
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func (s *SourceInfo) MacroCalls() map[int64]Expr {
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if s == nil {
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return map[int64]Expr{}
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}
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return s.macroCalls
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}
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// GetMacroCall returns the original ast.Expr value for the given expression if it was generated via
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// a macro replacement.
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//
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// Note, parsing options must be enabled to track macro calls before this method will return a value.
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func (s *SourceInfo) GetMacroCall(id int64) (Expr, bool) {
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e, found := s.MacroCalls()[id]
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return e, found
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}
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// SetMacroCall records a macro call at a specific location.
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func (s *SourceInfo) SetMacroCall(id int64, e Expr) {
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if s != nil {
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s.macroCalls[id] = e
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}
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}
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// ClearMacroCall removes the macro call at the given expression id.
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func (s *SourceInfo) ClearMacroCall(id int64) {
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if s != nil {
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delete(s.macroCalls, id)
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}
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}
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// OffsetRanges returns a map of expression id to OffsetRange values where the range indicates either:
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// the start and end position in the input stream where the expression occurs, or the start position
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// only. If the range only captures start position, the stop position of the range will be equal to
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// the start.
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func (s *SourceInfo) OffsetRanges() map[int64]OffsetRange {
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if s == nil {
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return map[int64]OffsetRange{}
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}
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return s.offsetRanges
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}
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// GetOffsetRange retrieves an OffsetRange for the given expression id if one exists.
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func (s *SourceInfo) GetOffsetRange(id int64) (OffsetRange, bool) {
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if s == nil {
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return OffsetRange{}, false
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}
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o, found := s.offsetRanges[id]
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return o, found
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}
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// SetOffsetRange sets the OffsetRange for the given expression id.
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func (s *SourceInfo) SetOffsetRange(id int64, o OffsetRange) {
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if s == nil {
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return
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}
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s.offsetRanges[id] = o
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}
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// GetStartLocation calculates the human-readable 1-based line and 0-based column of the first character
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// of the expression node at the id.
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func (s *SourceInfo) GetStartLocation(id int64) common.Location {
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if o, found := s.GetOffsetRange(id); found {
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line := 1
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col := int(o.Start)
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for _, lineOffset := range s.LineOffsets() {
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if lineOffset < o.Start {
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line++
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col = int(o.Start - lineOffset)
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} else {
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break
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}
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}
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return common.NewLocation(line, col)
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}
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return common.NoLocation
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}
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// GetStopLocation calculates the human-readable 1-based line and 0-based column of the last character for
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// the expression node at the given id.
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//
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// If the SourceInfo was generated from a serialized protobuf representation, the stop location will
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// be identical to the start location for the expression.
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func (s *SourceInfo) GetStopLocation(id int64) common.Location {
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if o, found := s.GetOffsetRange(id); found {
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line := 1
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col := int(o.Stop)
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for _, lineOffset := range s.LineOffsets() {
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if lineOffset < o.Stop {
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line++
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col = int(o.Stop - lineOffset)
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} else {
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break
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}
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}
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return common.NewLocation(line, col)
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}
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return common.NoLocation
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}
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// ComputeOffset calculates the 0-based character offset from a 1-based line and 0-based column.
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func (s *SourceInfo) ComputeOffset(line, col int32) int32 {
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if s != nil {
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line = s.baseLine + line
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col = s.baseCol + col
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}
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if line == 1 {
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return col
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}
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if line < 1 || line > int32(len(s.LineOffsets())) {
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return -1
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}
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offset := s.LineOffsets()[line-2]
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return offset + col
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}
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// OffsetRange captures the start and stop positions of a section of text in the input expression.
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type OffsetRange struct {
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Start int32
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Stop int32
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}
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// ReferenceInfo contains a CEL native representation of an identifier reference which may refer to
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// either a qualified identifier name, a set of overload ids, or a constant value from an enum.
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type ReferenceInfo struct {
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Name string
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OverloadIDs []string
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Value ref.Val
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}
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// NewIdentReference creates a ReferenceInfo instance for an identifier with an optional constant value.
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func NewIdentReference(name string, value ref.Val) *ReferenceInfo {
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return &ReferenceInfo{Name: name, Value: value}
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}
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// NewFunctionReference creates a ReferenceInfo instance for a set of function overloads.
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func NewFunctionReference(overloads ...string) *ReferenceInfo {
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info := &ReferenceInfo{}
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for _, id := range overloads {
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info.AddOverload(id)
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}
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return info
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}
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// AddOverload appends a function overload ID to the ReferenceInfo.
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func (r *ReferenceInfo) AddOverload(overloadID string) {
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for _, id := range r.OverloadIDs {
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if id == overloadID {
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return
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}
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}
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r.OverloadIDs = append(r.OverloadIDs, overloadID)
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}
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// Equals returns whether two references are identical to each other.
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func (r *ReferenceInfo) Equals(other *ReferenceInfo) bool {
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if r.Name != other.Name {
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return false
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}
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if len(r.OverloadIDs) != len(other.OverloadIDs) {
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return false
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}
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if len(r.OverloadIDs) != 0 {
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overloadMap := make(map[string]struct{}, len(r.OverloadIDs))
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for _, id := range r.OverloadIDs {
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overloadMap[id] = struct{}{}
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}
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for _, id := range other.OverloadIDs {
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_, found := overloadMap[id]
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if !found {
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return false
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}
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}
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}
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if r.Value == nil && other.Value == nil {
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return true
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}
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if r.Value == nil && other.Value != nil ||
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r.Value != nil && other.Value == nil ||
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r.Value.Equal(other.Value) != types.True {
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return false
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}
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return true
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}
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type maxIDVisitor struct {
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maxID int64
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*baseVisitor
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}
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// VisitExpr updates the max identifier if the incoming expression id is greater than previously observed.
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func (v *maxIDVisitor) VisitExpr(e Expr) {
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if v.maxID < e.ID() {
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v.maxID = e.ID()
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}
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}
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// VisitEntryExpr updates the max identifier if the incoming entry id is greater than previously observed.
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func (v *maxIDVisitor) VisitEntryExpr(e EntryExpr) {
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if v.maxID < e.ID() {
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v.maxID = e.ID()
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}
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}
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