mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-12-29 08:20:20 +00:00
5a66991bb3
updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
577 lines
22 KiB
Go
577 lines
22 KiB
Go
// Copyright 2022 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 cel
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import (
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"fmt"
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"github.com/google/cel-go/common"
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"github.com/google/cel-go/common/ast"
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"github.com/google/cel-go/common/types"
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"github.com/google/cel-go/parser"
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exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1"
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)
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// Macro describes a function signature to match and the MacroExpander to apply.
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//
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// Note: when a Macro should apply to multiple overloads (based on arg count) of a given function,
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// a Macro should be created per arg-count or as a var arg macro.
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type Macro = parser.Macro
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// MacroFactory defines an expansion function which converts a call and its arguments to a cel.Expr value.
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type MacroFactory = parser.MacroExpander
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// MacroExprFactory assists with the creation of Expr values in a manner which is consistent
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// the internal semantics and id generation behaviors of the parser and checker libraries.
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type MacroExprFactory = parser.ExprHelper
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// MacroExpander converts a call and its associated arguments into a protobuf Expr representation.
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//
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// If the MacroExpander determines within the implementation that an expansion is not needed it may return
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// a nil Expr value to indicate a non-match. However, if an expansion is to be performed, but the arguments
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// are not well-formed, the result of the expansion will be an error.
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//
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// The MacroExpander accepts as arguments a MacroExprHelper as well as the arguments used in the function call
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// and produces as output an Expr ast node.
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//
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// Note: when the Macro.IsReceiverStyle() method returns true, the target argument will be nil.
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type MacroExpander func(eh MacroExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *Error)
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// MacroExprHelper exposes helper methods for creating new expressions within a CEL abstract syntax tree.
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// ExprHelper assists with the manipulation of proto-based Expr values in a manner which is
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// consistent with the source position and expression id generation code leveraged by both
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// the parser and type-checker.
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type MacroExprHelper interface {
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// Copy the input expression with a brand new set of identifiers.
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Copy(*exprpb.Expr) *exprpb.Expr
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// LiteralBool creates an Expr value for a bool literal.
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LiteralBool(value bool) *exprpb.Expr
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// LiteralBytes creates an Expr value for a byte literal.
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LiteralBytes(value []byte) *exprpb.Expr
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// LiteralDouble creates an Expr value for double literal.
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LiteralDouble(value float64) *exprpb.Expr
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// LiteralInt creates an Expr value for an int literal.
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LiteralInt(value int64) *exprpb.Expr
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// LiteralString creates am Expr value for a string literal.
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LiteralString(value string) *exprpb.Expr
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// LiteralUint creates an Expr value for a uint literal.
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LiteralUint(value uint64) *exprpb.Expr
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// NewList creates a CreateList instruction where the list is comprised of the optional set
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// of elements provided as arguments.
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NewList(elems ...*exprpb.Expr) *exprpb.Expr
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// NewMap creates a CreateStruct instruction for a map where the map is comprised of the
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// optional set of key, value entries.
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NewMap(entries ...*exprpb.Expr_CreateStruct_Entry) *exprpb.Expr
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// NewMapEntry creates a Map Entry for the key, value pair.
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NewMapEntry(key *exprpb.Expr, val *exprpb.Expr, optional bool) *exprpb.Expr_CreateStruct_Entry
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// NewObject creates a CreateStruct instruction for an object with a given type name and
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// optional set of field initializers.
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NewObject(typeName string, fieldInits ...*exprpb.Expr_CreateStruct_Entry) *exprpb.Expr
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// NewObjectFieldInit creates a new Object field initializer from the field name and value.
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NewObjectFieldInit(field string, init *exprpb.Expr, optional bool) *exprpb.Expr_CreateStruct_Entry
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// Fold creates a fold comprehension instruction.
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//
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// - iterVar is the iteration variable name.
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// - iterRange represents the expression that resolves to a list or map where the elements or
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// keys (respectively) will be iterated over.
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// - accuVar is the accumulation variable name, typically parser.AccumulatorName.
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// - accuInit is the initial expression whose value will be set for the accuVar prior to
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// folding.
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// - condition is the expression to test to determine whether to continue folding.
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// - step is the expression to evaluation at the conclusion of a single fold iteration.
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// - result is the computation to evaluate at the conclusion of the fold.
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//
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// The accuVar should not shadow variable names that you would like to reference within the
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// environment in the step and condition expressions. Presently, the name __result__ is commonly
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// used by built-in macros but this may change in the future.
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Fold(iterVar string,
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iterRange *exprpb.Expr,
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accuVar string,
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accuInit *exprpb.Expr,
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condition *exprpb.Expr,
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step *exprpb.Expr,
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result *exprpb.Expr) *exprpb.Expr
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// Ident creates an identifier Expr value.
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Ident(name string) *exprpb.Expr
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// AccuIdent returns an accumulator identifier for use with comprehension results.
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AccuIdent() *exprpb.Expr
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// GlobalCall creates a function call Expr value for a global (free) function.
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GlobalCall(function string, args ...*exprpb.Expr) *exprpb.Expr
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// ReceiverCall creates a function call Expr value for a receiver-style function.
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ReceiverCall(function string, target *exprpb.Expr, args ...*exprpb.Expr) *exprpb.Expr
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// PresenceTest creates a Select TestOnly Expr value for modelling has() semantics.
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PresenceTest(operand *exprpb.Expr, field string) *exprpb.Expr
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// Select create a field traversal Expr value.
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Select(operand *exprpb.Expr, field string) *exprpb.Expr
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// OffsetLocation returns the Location of the expression identifier.
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OffsetLocation(exprID int64) common.Location
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// NewError associates an error message with a given expression id.
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NewError(exprID int64, message string) *Error
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}
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// GlobalMacro creates a Macro for a global function with the specified arg count.
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func GlobalMacro(function string, argCount int, factory MacroFactory) Macro {
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return parser.NewGlobalMacro(function, argCount, factory)
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}
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// ReceiverMacro creates a Macro for a receiver function matching the specified arg count.
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func ReceiverMacro(function string, argCount int, factory MacroFactory) Macro {
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return parser.NewReceiverMacro(function, argCount, factory)
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}
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// GlobalVarArgMacro creates a Macro for a global function with a variable arg count.
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func GlobalVarArgMacro(function string, factory MacroFactory) Macro {
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return parser.NewGlobalVarArgMacro(function, factory)
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}
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// ReceiverVarArgMacro creates a Macro for a receiver function matching a variable arg count.
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func ReceiverVarArgMacro(function string, factory MacroFactory) Macro {
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return parser.NewReceiverVarArgMacro(function, factory)
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}
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// NewGlobalMacro creates a Macro for a global function with the specified arg count.
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//
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// Deprecated: use GlobalMacro
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func NewGlobalMacro(function string, argCount int, expander MacroExpander) Macro {
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expand := adaptingExpander{expander}
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return parser.NewGlobalMacro(function, argCount, expand.Expander)
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}
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// NewReceiverMacro creates a Macro for a receiver function matching the specified arg count.
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//
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// Deprecated: use ReceiverMacro
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func NewReceiverMacro(function string, argCount int, expander MacroExpander) Macro {
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expand := adaptingExpander{expander}
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return parser.NewReceiverMacro(function, argCount, expand.Expander)
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}
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// NewGlobalVarArgMacro creates a Macro for a global function with a variable arg count.
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//
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// Deprecated: use GlobalVarArgMacro
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func NewGlobalVarArgMacro(function string, expander MacroExpander) Macro {
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expand := adaptingExpander{expander}
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return parser.NewGlobalVarArgMacro(function, expand.Expander)
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}
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// NewReceiverVarArgMacro creates a Macro for a receiver function matching a variable arg count.
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//
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// Deprecated: use ReceiverVarArgMacro
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func NewReceiverVarArgMacro(function string, expander MacroExpander) Macro {
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expand := adaptingExpander{expander}
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return parser.NewReceiverVarArgMacro(function, expand.Expander)
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}
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// HasMacroExpander expands the input call arguments into a presence test, e.g. has(<operand>.field)
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func HasMacroExpander(meh MacroExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *Error) {
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ph, err := toParserHelper(meh)
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if err != nil {
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return nil, err
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}
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arg, err := adaptToExpr(args[0])
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if err != nil {
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return nil, err
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}
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if arg.Kind() == ast.SelectKind {
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s := arg.AsSelect()
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return adaptToProto(ph.NewPresenceTest(s.Operand(), s.FieldName()))
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}
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return nil, ph.NewError(arg.ID(), "invalid argument to has() macro")
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}
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// ExistsMacroExpander expands the input call arguments into a comprehension that returns true if any of the
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// elements in the range match the predicate expressions:
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// <iterRange>.exists(<iterVar>, <predicate>)
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func ExistsMacroExpander(meh MacroExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *Error) {
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ph, err := toParserHelper(meh)
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if err != nil {
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return nil, err
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}
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out, err := parser.MakeExists(ph, mustAdaptToExpr(target), mustAdaptToExprs(args))
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if err != nil {
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return nil, err
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}
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return adaptToProto(out)
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}
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// ExistsOneMacroExpander expands the input call arguments into a comprehension that returns true if exactly
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// one of the elements in the range match the predicate expressions:
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// <iterRange>.exists_one(<iterVar>, <predicate>)
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func ExistsOneMacroExpander(meh MacroExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *Error) {
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ph, err := toParserHelper(meh)
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if err != nil {
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return nil, err
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}
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out, err := parser.MakeExistsOne(ph, mustAdaptToExpr(target), mustAdaptToExprs(args))
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if err != nil {
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return nil, err
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}
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return adaptToProto(out)
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}
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// MapMacroExpander expands the input call arguments into a comprehension that transforms each element in the
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// input to produce an output list.
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//
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// There are two call patterns supported by map:
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//
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// <iterRange>.map(<iterVar>, <transform>)
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// <iterRange>.map(<iterVar>, <predicate>, <transform>)
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//
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// In the second form only iterVar values which return true when provided to the predicate expression
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// are transformed.
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func MapMacroExpander(meh MacroExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *Error) {
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ph, err := toParserHelper(meh)
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if err != nil {
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return nil, err
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}
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out, err := parser.MakeMap(ph, mustAdaptToExpr(target), mustAdaptToExprs(args))
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if err != nil {
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return nil, err
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}
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return adaptToProto(out)
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}
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// FilterMacroExpander expands the input call arguments into a comprehension which produces a list which contains
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// only elements which match the provided predicate expression:
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// <iterRange>.filter(<iterVar>, <predicate>)
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func FilterMacroExpander(meh MacroExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *Error) {
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ph, err := toParserHelper(meh)
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if err != nil {
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return nil, err
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}
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out, err := parser.MakeFilter(ph, mustAdaptToExpr(target), mustAdaptToExprs(args))
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if err != nil {
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return nil, err
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}
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return adaptToProto(out)
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}
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var (
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// Aliases to each macro in the CEL standard environment.
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// Note: reassigning these macro variables may result in undefined behavior.
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// HasMacro expands "has(m.f)" which tests the presence of a field, avoiding the need to
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// specify the field as a string.
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HasMacro = parser.HasMacro
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// AllMacro expands "range.all(var, predicate)" into a comprehension which ensures that all
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// elements in the range satisfy the predicate.
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AllMacro = parser.AllMacro
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// ExistsMacro expands "range.exists(var, predicate)" into a comprehension which ensures that
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// some element in the range satisfies the predicate.
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ExistsMacro = parser.ExistsMacro
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// ExistsOneMacro expands "range.exists_one(var, predicate)", which is true if for exactly one
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// element in range the predicate holds.
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ExistsOneMacro = parser.ExistsOneMacro
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// MapMacro expands "range.map(var, function)" into a comprehension which applies the function
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// to each element in the range to produce a new list.
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MapMacro = parser.MapMacro
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// MapFilterMacro expands "range.map(var, predicate, function)" into a comprehension which
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// first filters the elements in the range by the predicate, then applies the transform function
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// to produce a new list.
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MapFilterMacro = parser.MapFilterMacro
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// FilterMacro expands "range.filter(var, predicate)" into a comprehension which filters
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// elements in the range, producing a new list from the elements that satisfy the predicate.
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FilterMacro = parser.FilterMacro
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// StandardMacros provides an alias to all the CEL macros defined in the standard environment.
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StandardMacros = []Macro{
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HasMacro, AllMacro, ExistsMacro, ExistsOneMacro, MapMacro, MapFilterMacro, FilterMacro,
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}
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// NoMacros provides an alias to an empty list of macros
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NoMacros = []Macro{}
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)
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type adaptingExpander struct {
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legacyExpander MacroExpander
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}
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func (adapt *adaptingExpander) Expander(eh parser.ExprHelper, target ast.Expr, args []ast.Expr) (ast.Expr, *common.Error) {
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var legacyTarget *exprpb.Expr = nil
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var err *Error = nil
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if target != nil {
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legacyTarget, err = adaptToProto(target)
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if err != nil {
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return nil, err
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}
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}
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legacyArgs := make([]*exprpb.Expr, len(args))
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for i, arg := range args {
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legacyArgs[i], err = adaptToProto(arg)
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if err != nil {
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return nil, err
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}
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}
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ah := &adaptingHelper{modernHelper: eh}
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legacyExpr, err := adapt.legacyExpander(ah, legacyTarget, legacyArgs)
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if err != nil {
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return nil, err
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}
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ex, err := adaptToExpr(legacyExpr)
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if err != nil {
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return nil, err
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}
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return ex, nil
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}
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func wrapErr(id int64, message string, err error) *common.Error {
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return &common.Error{
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Location: common.NoLocation,
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Message: fmt.Sprintf("%s: %v", message, err),
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ExprID: id,
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}
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}
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type adaptingHelper struct {
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modernHelper parser.ExprHelper
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}
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// Copy the input expression with a brand new set of identifiers.
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func (ah *adaptingHelper) Copy(e *exprpb.Expr) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.Copy(mustAdaptToExpr(e)))
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}
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// LiteralBool creates an Expr value for a bool literal.
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func (ah *adaptingHelper) LiteralBool(value bool) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.NewLiteral(types.Bool(value)))
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}
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// LiteralBytes creates an Expr value for a byte literal.
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func (ah *adaptingHelper) LiteralBytes(value []byte) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.NewLiteral(types.Bytes(value)))
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}
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// LiteralDouble creates an Expr value for double literal.
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func (ah *adaptingHelper) LiteralDouble(value float64) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.NewLiteral(types.Double(value)))
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}
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// LiteralInt creates an Expr value for an int literal.
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func (ah *adaptingHelper) LiteralInt(value int64) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.NewLiteral(types.Int(value)))
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}
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// LiteralString creates am Expr value for a string literal.
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func (ah *adaptingHelper) LiteralString(value string) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.NewLiteral(types.String(value)))
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}
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// LiteralUint creates an Expr value for a uint literal.
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func (ah *adaptingHelper) LiteralUint(value uint64) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.NewLiteral(types.Uint(value)))
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}
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// NewList creates a CreateList instruction where the list is comprised of the optional set
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// of elements provided as arguments.
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func (ah *adaptingHelper) NewList(elems ...*exprpb.Expr) *exprpb.Expr {
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return mustAdaptToProto(ah.modernHelper.NewList(mustAdaptToExprs(elems)...))
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}
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// NewMap creates a CreateStruct instruction for a map where the map is comprised of the
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// optional set of key, value entries.
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func (ah *adaptingHelper) NewMap(entries ...*exprpb.Expr_CreateStruct_Entry) *exprpb.Expr {
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adaptedEntries := make([]ast.EntryExpr, len(entries))
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for i, e := range entries {
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adaptedEntries[i] = mustAdaptToEntryExpr(e)
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}
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return mustAdaptToProto(ah.modernHelper.NewMap(adaptedEntries...))
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}
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// NewMapEntry creates a Map Entry for the key, value pair.
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func (ah *adaptingHelper) NewMapEntry(key *exprpb.Expr, val *exprpb.Expr, optional bool) *exprpb.Expr_CreateStruct_Entry {
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return mustAdaptToProtoEntry(
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ah.modernHelper.NewMapEntry(mustAdaptToExpr(key), mustAdaptToExpr(val), optional))
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}
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// NewObject creates a CreateStruct instruction for an object with a given type name and
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// optional set of field initializers.
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func (ah *adaptingHelper) NewObject(typeName string, fieldInits ...*exprpb.Expr_CreateStruct_Entry) *exprpb.Expr {
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adaptedEntries := make([]ast.EntryExpr, len(fieldInits))
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for i, e := range fieldInits {
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adaptedEntries[i] = mustAdaptToEntryExpr(e)
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}
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return mustAdaptToProto(ah.modernHelper.NewStruct(typeName, adaptedEntries...))
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}
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// NewObjectFieldInit creates a new Object field initializer from the field name and value.
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func (ah *adaptingHelper) NewObjectFieldInit(field string, init *exprpb.Expr, optional bool) *exprpb.Expr_CreateStruct_Entry {
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return mustAdaptToProtoEntry(
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ah.modernHelper.NewStructField(field, mustAdaptToExpr(init), optional))
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}
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// Fold creates a fold comprehension instruction.
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//
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// - iterVar is the iteration variable name.
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// - iterRange represents the expression that resolves to a list or map where the elements or
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// keys (respectively) will be iterated over.
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// - accuVar is the accumulation variable name, typically parser.AccumulatorName.
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// - accuInit is the initial expression whose value will be set for the accuVar prior to
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// folding.
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// - condition is the expression to test to determine whether to continue folding.
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// - step is the expression to evaluation at the conclusion of a single fold iteration.
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// - result is the computation to evaluate at the conclusion of the fold.
|
|
//
|
|
// The accuVar should not shadow variable names that you would like to reference within the
|
|
// environment in the step and condition expressions. Presently, the name __result__ is commonly
|
|
// used by built-in macros but this may change in the future.
|
|
func (ah *adaptingHelper) Fold(iterVar string,
|
|
iterRange *exprpb.Expr,
|
|
accuVar string,
|
|
accuInit *exprpb.Expr,
|
|
condition *exprpb.Expr,
|
|
step *exprpb.Expr,
|
|
result *exprpb.Expr) *exprpb.Expr {
|
|
return mustAdaptToProto(
|
|
ah.modernHelper.NewComprehension(
|
|
mustAdaptToExpr(iterRange),
|
|
iterVar,
|
|
accuVar,
|
|
mustAdaptToExpr(accuInit),
|
|
mustAdaptToExpr(condition),
|
|
mustAdaptToExpr(step),
|
|
mustAdaptToExpr(result),
|
|
),
|
|
)
|
|
}
|
|
|
|
// Ident creates an identifier Expr value.
|
|
func (ah *adaptingHelper) Ident(name string) *exprpb.Expr {
|
|
return mustAdaptToProto(ah.modernHelper.NewIdent(name))
|
|
}
|
|
|
|
// AccuIdent returns an accumulator identifier for use with comprehension results.
|
|
func (ah *adaptingHelper) AccuIdent() *exprpb.Expr {
|
|
return mustAdaptToProto(ah.modernHelper.NewAccuIdent())
|
|
}
|
|
|
|
// GlobalCall creates a function call Expr value for a global (free) function.
|
|
func (ah *adaptingHelper) GlobalCall(function string, args ...*exprpb.Expr) *exprpb.Expr {
|
|
return mustAdaptToProto(ah.modernHelper.NewCall(function, mustAdaptToExprs(args)...))
|
|
}
|
|
|
|
// ReceiverCall creates a function call Expr value for a receiver-style function.
|
|
func (ah *adaptingHelper) ReceiverCall(function string, target *exprpb.Expr, args ...*exprpb.Expr) *exprpb.Expr {
|
|
return mustAdaptToProto(
|
|
ah.modernHelper.NewMemberCall(function, mustAdaptToExpr(target), mustAdaptToExprs(args)...))
|
|
}
|
|
|
|
// PresenceTest creates a Select TestOnly Expr value for modelling has() semantics.
|
|
func (ah *adaptingHelper) PresenceTest(operand *exprpb.Expr, field string) *exprpb.Expr {
|
|
op := mustAdaptToExpr(operand)
|
|
return mustAdaptToProto(ah.modernHelper.NewPresenceTest(op, field))
|
|
}
|
|
|
|
// Select create a field traversal Expr value.
|
|
func (ah *adaptingHelper) Select(operand *exprpb.Expr, field string) *exprpb.Expr {
|
|
op := mustAdaptToExpr(operand)
|
|
return mustAdaptToProto(ah.modernHelper.NewSelect(op, field))
|
|
}
|
|
|
|
// OffsetLocation returns the Location of the expression identifier.
|
|
func (ah *adaptingHelper) OffsetLocation(exprID int64) common.Location {
|
|
return ah.modernHelper.OffsetLocation(exprID)
|
|
}
|
|
|
|
// NewError associates an error message with a given expression id.
|
|
func (ah *adaptingHelper) NewError(exprID int64, message string) *Error {
|
|
return ah.modernHelper.NewError(exprID, message)
|
|
}
|
|
|
|
func mustAdaptToExprs(exprs []*exprpb.Expr) []ast.Expr {
|
|
adapted := make([]ast.Expr, len(exprs))
|
|
for i, e := range exprs {
|
|
adapted[i] = mustAdaptToExpr(e)
|
|
}
|
|
return adapted
|
|
}
|
|
|
|
func mustAdaptToExpr(e *exprpb.Expr) ast.Expr {
|
|
out, _ := adaptToExpr(e)
|
|
return out
|
|
}
|
|
|
|
func adaptToExpr(e *exprpb.Expr) (ast.Expr, *Error) {
|
|
if e == nil {
|
|
return nil, nil
|
|
}
|
|
out, err := ast.ProtoToExpr(e)
|
|
if err != nil {
|
|
return nil, wrapErr(e.GetId(), "proto conversion failure", err)
|
|
}
|
|
return out, nil
|
|
}
|
|
|
|
func mustAdaptToEntryExpr(e *exprpb.Expr_CreateStruct_Entry) ast.EntryExpr {
|
|
out, _ := ast.ProtoToEntryExpr(e)
|
|
return out
|
|
}
|
|
|
|
func mustAdaptToProto(e ast.Expr) *exprpb.Expr {
|
|
out, _ := adaptToProto(e)
|
|
return out
|
|
}
|
|
|
|
func adaptToProto(e ast.Expr) (*exprpb.Expr, *Error) {
|
|
if e == nil {
|
|
return nil, nil
|
|
}
|
|
out, err := ast.ExprToProto(e)
|
|
if err != nil {
|
|
return nil, wrapErr(e.ID(), "expr conversion failure", err)
|
|
}
|
|
return out, nil
|
|
}
|
|
|
|
func mustAdaptToProtoEntry(e ast.EntryExpr) *exprpb.Expr_CreateStruct_Entry {
|
|
out, _ := ast.EntryExprToProto(e)
|
|
return out
|
|
}
|
|
|
|
func toParserHelper(meh MacroExprHelper) (parser.ExprHelper, *Error) {
|
|
ah, ok := meh.(*adaptingHelper)
|
|
if !ok {
|
|
return nil, common.NewError(0,
|
|
fmt.Sprintf("unsupported macro helper: %v (%T)", meh, meh),
|
|
common.NoLocation)
|
|
}
|
|
return ah.modernHelper, nil
|
|
}
|