ceph-csi/vendor/github.com/google/cel-go/common/ast/expr.go

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// Copyright 2023 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package ast
import (
"github.com/google/cel-go/common/types/ref"
)
// ExprKind represents the expression node kind.
type ExprKind int
const (
// UnspecifiedExprKind represents an unset expression with no specified properties.
UnspecifiedExprKind ExprKind = iota
// CallKind represents a function call.
CallKind
// ComprehensionKind represents a comprehension expression generated by a macro.
ComprehensionKind
// IdentKind represents a simple variable, constant, or type identifier.
IdentKind
// ListKind represents a list literal expression.
ListKind
// LiteralKind represents a primitive scalar literal.
LiteralKind
// MapKind represents a map literal expression.
MapKind
// SelectKind represents a field selection expression.
SelectKind
// StructKind represents a struct literal expression.
StructKind
)
// Expr represents the base expression node in a CEL abstract syntax tree.
//
// Depending on the `Kind()` value, the Expr may be converted to a concrete expression types
// as indicated by the `As<Kind>` methods.
type Expr interface {
// ID of the expression as it appears in the AST
ID() int64
// Kind of the expression node. See ExprKind for the valid enum values.
Kind() ExprKind
// AsCall adapts the expr into a CallExpr
//
// The Kind() must be equal to a CallKind for the conversion to be well-defined.
AsCall() CallExpr
// AsComprehension adapts the expr into a ComprehensionExpr.
//
// The Kind() must be equal to a ComprehensionKind for the conversion to be well-defined.
AsComprehension() ComprehensionExpr
// AsIdent adapts the expr into an identifier string.
//
// The Kind() must be equal to an IdentKind for the conversion to be well-defined.
AsIdent() string
// AsLiteral adapts the expr into a constant ref.Val.
//
// The Kind() must be equal to a LiteralKind for the conversion to be well-defined.
AsLiteral() ref.Val
// AsList adapts the expr into a ListExpr.
//
// The Kind() must be equal to a ListKind for the conversion to be well-defined.
AsList() ListExpr
// AsMap adapts the expr into a MapExpr.
//
// The Kind() must be equal to a MapKind for the conversion to be well-defined.
AsMap() MapExpr
// AsSelect adapts the expr into a SelectExpr.
//
// The Kind() must be equal to a SelectKind for the conversion to be well-defined.
AsSelect() SelectExpr
// AsStruct adapts the expr into a StructExpr.
//
// The Kind() must be equal to a StructKind for the conversion to be well-defined.
AsStruct() StructExpr
// RenumberIDs performs an in-place update of the expression and all of its descendents numeric ids.
RenumberIDs(IDGenerator)
// SetKindCase replaces the contents of the current expression with the contents of the other.
//
// The SetKindCase takes ownership of any expression instances references within the input Expr.
// A shallow copy is made of the Expr value itself, but not a deep one.
//
// This method should only be used during AST rewrites using temporary Expr values.
SetKindCase(Expr)
// isExpr is a marker interface.
isExpr()
}
// EntryExprKind represents the possible EntryExpr kinds.
type EntryExprKind int
const (
// UnspecifiedEntryExprKind indicates that the entry expr is not set.
UnspecifiedEntryExprKind EntryExprKind = iota
// MapEntryKind indicates that the entry is a MapEntry type with key and value expressions.
MapEntryKind
// StructFieldKind indicates that the entry is a StructField with a field name and initializer
// expression.
StructFieldKind
)
// EntryExpr represents the base entry expression in a CEL map or struct literal.
type EntryExpr interface {
// ID of the entry as it appears in the AST.
ID() int64
// Kind of the entry expression node. See EntryExprKind for valid enum values.
Kind() EntryExprKind
// AsMapEntry casts the EntryExpr to a MapEntry.
//
// The Kind() must be equal to MapEntryKind for the conversion to be well-defined.
AsMapEntry() MapEntry
// AsStructField casts the EntryExpr to a StructField
//
// The Kind() must be equal to StructFieldKind for the conversion to be well-defined.
AsStructField() StructField
// RenumberIDs performs an in-place update of the expression and all of its descendents numeric ids.
RenumberIDs(IDGenerator)
isEntryExpr()
}
// IDGenerator produces unique ids suitable for tagging expression nodes
type IDGenerator func(originalID int64) int64
// CallExpr defines an interface for inspecting a function call and its arugments.
type CallExpr interface {
// FunctionName returns the name of the function.
FunctionName() string
// IsMemberFunction returns whether the call has a non-nil target indicating it is a member function
IsMemberFunction() bool
// Target returns the target of the expression if one is present.
Target() Expr
// Args returns the list of call arguments, excluding the target.
Args() []Expr
// marker interface method
isExpr()
}
// ListExpr defines an interface for inspecting a list literal expression.
type ListExpr interface {
// Elements returns the list elements as navigable expressions.
Elements() []Expr
// OptionalIndicies returns the list of optional indices in the list literal.
OptionalIndices() []int32
// IsOptional indicates whether the given element index is optional.
IsOptional(int32) bool
// Size returns the number of elements in the list.
Size() int
// marker interface method
isExpr()
}
// SelectExpr defines an interface for inspecting a select expression.
type SelectExpr interface {
// Operand returns the selection operand expression.
Operand() Expr
// FieldName returns the field name being selected from the operand.
FieldName() string
// IsTestOnly indicates whether the select expression is a presence test generated by a macro.
IsTestOnly() bool
// marker interface method
isExpr()
}
// MapExpr defines an interface for inspecting a map expression.
type MapExpr interface {
// Entries returns the map key value pairs as EntryExpr values.
Entries() []EntryExpr
// Size returns the number of entries in the map.
Size() int
// marker interface method
isExpr()
}
// MapEntry defines an interface for inspecting a map entry.
type MapEntry interface {
// Key returns the map entry key expression.
Key() Expr
// Value returns the map entry value expression.
Value() Expr
// IsOptional returns whether the entry is optional.
IsOptional() bool
// marker interface method
isEntryExpr()
}
// StructExpr defines an interfaces for inspecting a struct and its field initializers.
type StructExpr interface {
// TypeName returns the struct type name.
TypeName() string
// Fields returns the set of field initializers in the struct expression as EntryExpr values.
Fields() []EntryExpr
// marker interface method
isExpr()
}
// StructField defines an interface for inspecting a struct field initialization.
type StructField interface {
// Name returns the name of the field.
Name() string
// Value returns the field initialization expression.
Value() Expr
// IsOptional returns whether the field is optional.
IsOptional() bool
// marker interface method
isEntryExpr()
}
// ComprehensionExpr defines an interface for inspecting a comprehension expression.
type ComprehensionExpr interface {
// IterRange returns the iteration range expression.
IterRange() Expr
// IterVar returns the iteration variable name.
IterVar() string
// AccuVar returns the accumulation variable name.
AccuVar() string
// AccuInit returns the accumulation variable initialization expression.
AccuInit() Expr
// LoopCondition returns the loop condition expression.
LoopCondition() Expr
// LoopStep returns the loop step expression.
LoopStep() Expr
// Result returns the comprehension result expression.
Result() Expr
// marker interface method
isExpr()
}
var _ Expr = &expr{}
type expr struct {
id int64
exprKindCase
}
type exprKindCase interface {
Kind() ExprKind
renumberIDs(IDGenerator)
isExpr()
}
func (e *expr) ID() int64 {
if e == nil {
return 0
}
return e.id
}
func (e *expr) Kind() ExprKind {
if e == nil || e.exprKindCase == nil {
return UnspecifiedExprKind
}
return e.exprKindCase.Kind()
}
func (e *expr) AsCall() CallExpr {
if e.Kind() != CallKind {
return nilCall
}
return e.exprKindCase.(CallExpr)
}
func (e *expr) AsComprehension() ComprehensionExpr {
if e.Kind() != ComprehensionKind {
return nilCompre
}
return e.exprKindCase.(ComprehensionExpr)
}
func (e *expr) AsIdent() string {
if e.Kind() != IdentKind {
return ""
}
return string(e.exprKindCase.(baseIdentExpr))
}
func (e *expr) AsLiteral() ref.Val {
if e.Kind() != LiteralKind {
return nil
}
return e.exprKindCase.(*baseLiteral).Val
}
func (e *expr) AsList() ListExpr {
if e.Kind() != ListKind {
return nilList
}
return e.exprKindCase.(ListExpr)
}
func (e *expr) AsMap() MapExpr {
if e.Kind() != MapKind {
return nilMap
}
return e.exprKindCase.(MapExpr)
}
func (e *expr) AsSelect() SelectExpr {
if e.Kind() != SelectKind {
return nilSel
}
return e.exprKindCase.(SelectExpr)
}
func (e *expr) AsStruct() StructExpr {
if e.Kind() != StructKind {
return nilStruct
}
return e.exprKindCase.(StructExpr)
}
func (e *expr) SetKindCase(other Expr) {
if e == nil {
return
}
if other == nil {
e.exprKindCase = nil
return
}
switch other.Kind() {
case CallKind:
c := other.AsCall()
e.exprKindCase = &baseCallExpr{
function: c.FunctionName(),
target: c.Target(),
args: c.Args(),
isMember: c.IsMemberFunction(),
}
case ComprehensionKind:
c := other.AsComprehension()
e.exprKindCase = &baseComprehensionExpr{
iterRange: c.IterRange(),
iterVar: c.IterVar(),
accuVar: c.AccuVar(),
accuInit: c.AccuInit(),
loopCond: c.LoopCondition(),
loopStep: c.LoopStep(),
result: c.Result(),
}
case IdentKind:
e.exprKindCase = baseIdentExpr(other.AsIdent())
case ListKind:
l := other.AsList()
optIndexMap := make(map[int32]struct{}, len(l.OptionalIndices()))
for _, idx := range l.OptionalIndices() {
optIndexMap[idx] = struct{}{}
}
e.exprKindCase = &baseListExpr{
elements: l.Elements(),
optIndices: l.OptionalIndices(),
optIndexMap: optIndexMap,
}
case LiteralKind:
e.exprKindCase = &baseLiteral{Val: other.AsLiteral()}
case MapKind:
e.exprKindCase = &baseMapExpr{
entries: other.AsMap().Entries(),
}
case SelectKind:
s := other.AsSelect()
e.exprKindCase = &baseSelectExpr{
operand: s.Operand(),
field: s.FieldName(),
testOnly: s.IsTestOnly(),
}
case StructKind:
s := other.AsStruct()
e.exprKindCase = &baseStructExpr{
typeName: s.TypeName(),
fields: s.Fields(),
}
case UnspecifiedExprKind:
e.exprKindCase = nil
}
}
func (e *expr) RenumberIDs(idGen IDGenerator) {
if e == nil {
return
}
e.id = idGen(e.id)
if e.exprKindCase != nil {
e.exprKindCase.renumberIDs(idGen)
}
}
type baseCallExpr struct {
function string
target Expr
args []Expr
isMember bool
}
func (*baseCallExpr) Kind() ExprKind {
return CallKind
}
func (e *baseCallExpr) FunctionName() string {
if e == nil {
return ""
}
return e.function
}
func (e *baseCallExpr) IsMemberFunction() bool {
if e == nil {
return false
}
return e.isMember
}
func (e *baseCallExpr) Target() Expr {
if e == nil || !e.IsMemberFunction() {
return nilExpr
}
return e.target
}
func (e *baseCallExpr) Args() []Expr {
if e == nil {
return []Expr{}
}
return e.args
}
func (e *baseCallExpr) renumberIDs(idGen IDGenerator) {
if e.IsMemberFunction() {
e.Target().RenumberIDs(idGen)
}
for _, arg := range e.Args() {
arg.RenumberIDs(idGen)
}
}
func (*baseCallExpr) isExpr() {}
var _ ComprehensionExpr = &baseComprehensionExpr{}
type baseComprehensionExpr struct {
iterRange Expr
iterVar string
accuVar string
accuInit Expr
loopCond Expr
loopStep Expr
result Expr
}
func (*baseComprehensionExpr) Kind() ExprKind {
return ComprehensionKind
}
func (e *baseComprehensionExpr) IterRange() Expr {
if e == nil {
return nilExpr
}
return e.iterRange
}
func (e *baseComprehensionExpr) IterVar() string {
return e.iterVar
}
func (e *baseComprehensionExpr) AccuVar() string {
return e.accuVar
}
func (e *baseComprehensionExpr) AccuInit() Expr {
if e == nil {
return nilExpr
}
return e.accuInit
}
func (e *baseComprehensionExpr) LoopCondition() Expr {
if e == nil {
return nilExpr
}
return e.loopCond
}
func (e *baseComprehensionExpr) LoopStep() Expr {
if e == nil {
return nilExpr
}
return e.loopStep
}
func (e *baseComprehensionExpr) Result() Expr {
if e == nil {
return nilExpr
}
return e.result
}
func (e *baseComprehensionExpr) renumberIDs(idGen IDGenerator) {
e.IterRange().RenumberIDs(idGen)
e.AccuInit().RenumberIDs(idGen)
e.LoopCondition().RenumberIDs(idGen)
e.LoopStep().RenumberIDs(idGen)
e.Result().RenumberIDs(idGen)
}
func (*baseComprehensionExpr) isExpr() {}
var _ exprKindCase = baseIdentExpr("")
type baseIdentExpr string
func (baseIdentExpr) Kind() ExprKind {
return IdentKind
}
func (e baseIdentExpr) renumberIDs(IDGenerator) {}
func (baseIdentExpr) isExpr() {}
var _ exprKindCase = &baseLiteral{}
var _ ref.Val = &baseLiteral{}
type baseLiteral struct {
ref.Val
}
func (*baseLiteral) Kind() ExprKind {
return LiteralKind
}
func (l *baseLiteral) renumberIDs(IDGenerator) {}
func (*baseLiteral) isExpr() {}
var _ ListExpr = &baseListExpr{}
type baseListExpr struct {
elements []Expr
optIndices []int32
optIndexMap map[int32]struct{}
}
func (*baseListExpr) Kind() ExprKind {
return ListKind
}
func (e *baseListExpr) Elements() []Expr {
if e == nil {
return []Expr{}
}
return e.elements
}
func (e *baseListExpr) IsOptional(index int32) bool {
_, found := e.optIndexMap[index]
return found
}
func (e *baseListExpr) OptionalIndices() []int32 {
if e == nil {
return []int32{}
}
return e.optIndices
}
func (e *baseListExpr) Size() int {
return len(e.Elements())
}
func (e *baseListExpr) renumberIDs(idGen IDGenerator) {
for _, elem := range e.Elements() {
elem.RenumberIDs(idGen)
}
}
func (*baseListExpr) isExpr() {}
type baseMapExpr struct {
entries []EntryExpr
}
func (*baseMapExpr) Kind() ExprKind {
return MapKind
}
func (e *baseMapExpr) Entries() []EntryExpr {
if e == nil {
return []EntryExpr{}
}
return e.entries
}
func (e *baseMapExpr) Size() int {
return len(e.Entries())
}
func (e *baseMapExpr) renumberIDs(idGen IDGenerator) {
for _, entry := range e.Entries() {
entry.RenumberIDs(idGen)
}
}
func (*baseMapExpr) isExpr() {}
type baseSelectExpr struct {
operand Expr
field string
testOnly bool
}
func (*baseSelectExpr) Kind() ExprKind {
return SelectKind
}
func (e *baseSelectExpr) Operand() Expr {
if e == nil || e.operand == nil {
return nilExpr
}
return e.operand
}
func (e *baseSelectExpr) FieldName() string {
if e == nil {
return ""
}
return e.field
}
func (e *baseSelectExpr) IsTestOnly() bool {
if e == nil {
return false
}
return e.testOnly
}
func (e *baseSelectExpr) renumberIDs(idGen IDGenerator) {
e.Operand().RenumberIDs(idGen)
}
func (*baseSelectExpr) isExpr() {}
type baseStructExpr struct {
typeName string
fields []EntryExpr
}
func (*baseStructExpr) Kind() ExprKind {
return StructKind
}
func (e *baseStructExpr) TypeName() string {
if e == nil {
return ""
}
return e.typeName
}
func (e *baseStructExpr) Fields() []EntryExpr {
if e == nil {
return []EntryExpr{}
}
return e.fields
}
func (e *baseStructExpr) renumberIDs(idGen IDGenerator) {
for _, f := range e.Fields() {
f.RenumberIDs(idGen)
}
}
func (*baseStructExpr) isExpr() {}
type entryExprKindCase interface {
Kind() EntryExprKind
renumberIDs(IDGenerator)
isEntryExpr()
}
var _ EntryExpr = &entryExpr{}
type entryExpr struct {
id int64
entryExprKindCase
}
func (e *entryExpr) ID() int64 {
return e.id
}
func (e *entryExpr) AsMapEntry() MapEntry {
if e.Kind() != MapEntryKind {
return nilMapEntry
}
return e.entryExprKindCase.(MapEntry)
}
func (e *entryExpr) AsStructField() StructField {
if e.Kind() != StructFieldKind {
return nilStructField
}
return e.entryExprKindCase.(StructField)
}
func (e *entryExpr) RenumberIDs(idGen IDGenerator) {
e.id = idGen(e.id)
e.entryExprKindCase.renumberIDs(idGen)
}
type baseMapEntry struct {
key Expr
value Expr
isOptional bool
}
func (e *baseMapEntry) Kind() EntryExprKind {
return MapEntryKind
}
func (e *baseMapEntry) Key() Expr {
if e == nil {
return nilExpr
}
return e.key
}
func (e *baseMapEntry) Value() Expr {
if e == nil {
return nilExpr
}
return e.value
}
func (e *baseMapEntry) IsOptional() bool {
if e == nil {
return false
}
return e.isOptional
}
func (e *baseMapEntry) renumberIDs(idGen IDGenerator) {
e.Key().RenumberIDs(idGen)
e.Value().RenumberIDs(idGen)
}
func (*baseMapEntry) isEntryExpr() {}
type baseStructField struct {
field string
value Expr
isOptional bool
}
func (f *baseStructField) Kind() EntryExprKind {
return StructFieldKind
}
func (f *baseStructField) Name() string {
if f == nil {
return ""
}
return f.field
}
func (f *baseStructField) Value() Expr {
if f == nil {
return nilExpr
}
return f.value
}
func (f *baseStructField) IsOptional() bool {
if f == nil {
return false
}
return f.isOptional
}
func (f *baseStructField) renumberIDs(idGen IDGenerator) {
f.Value().RenumberIDs(idGen)
}
func (*baseStructField) isEntryExpr() {}
var (
nilExpr *expr = nil
nilCall *baseCallExpr = nil
nilCompre *baseComprehensionExpr = nil
nilList *baseListExpr = nil
nilMap *baseMapExpr = nil
nilMapEntry *baseMapEntry = nil
nilSel *baseSelectExpr = nil
nilStruct *baseStructExpr = nil
nilStructField *baseStructField = nil
)