mirror of
https://github.com/ceph/ceph-csi.git
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1052 lines
30 KiB
Go
1052 lines
30 KiB
Go
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// Copyright 2019 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 interpreter
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import (
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"fmt"
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"math"
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"github.com/google/cel-go/common/containers"
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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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"github.com/google/cel-go/common/types/traits"
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exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1"
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)
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// AttributeFactory provides methods creating Attribute and Qualifier values.
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type AttributeFactory interface {
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// AbsoluteAttribute creates an attribute that refers to a top-level variable name.
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//
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// Checked expressions generate absolute attribute with a single name.
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// Parse-only expressions may have more than one possible absolute identifier when the
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// expression is created within a container, e.g. package or namespace.
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//
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// When there is more than one name supplied to the AbsoluteAttribute call, the names
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// must be in CEL's namespace resolution order. The name arguments provided here are
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// returned in the same order as they were provided by the NamespacedAttribute
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// CandidateVariableNames method.
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AbsoluteAttribute(id int64, names ...string) NamespacedAttribute
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// ConditionalAttribute creates an attribute with two Attribute branches, where the Attribute
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// that is resolved depends on the boolean evaluation of the input 'expr'.
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ConditionalAttribute(id int64, expr Interpretable, t, f Attribute) Attribute
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// MaybeAttribute creates an attribute that refers to either a field selection or a namespaced
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// variable name.
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//
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// Only expressions which have not been type-checked may generate oneof attributes.
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MaybeAttribute(id int64, name string) Attribute
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// RelativeAttribute creates an attribute whose value is a qualification of a dynamic
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// computation rather than a static variable reference.
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RelativeAttribute(id int64, operand Interpretable) Attribute
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// NewQualifier creates a qualifier on the target object with a given value.
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//
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// The 'val' may be an Attribute or any proto-supported map key type: bool, int, string, uint.
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//
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// The qualifier may consider the object type being qualified, if present. If absent, the
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// qualification should be considered dynamic and the qualification should still work, though
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// it may be sub-optimal.
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NewQualifier(objType *exprpb.Type, qualID int64, val interface{}) (Qualifier, error)
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}
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// Qualifier marker interface for designating different qualifier values and where they appear
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// within field selections and index call expressions (`_[_]`).
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type Qualifier interface {
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// ID where the qualifier appears within an expression.
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ID() int64
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// Qualify performs a qualification, e.g. field selection, on the input object and returns
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// the value or error that results.
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Qualify(vars Activation, obj interface{}) (interface{}, error)
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}
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// ConstantQualifier interface embeds the Qualifier interface and provides an option to inspect the
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// qualifier's constant value.
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//
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// Non-constant qualifiers are of Attribute type.
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type ConstantQualifier interface {
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Qualifier
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Value() ref.Val
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}
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// Attribute values are a variable or value with an optional set of qualifiers, such as field, key,
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// or index accesses.
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type Attribute interface {
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Qualifier
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// AddQualifier adds a qualifier on the Attribute or error if the qualification is not a valid
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// qualifier type.
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AddQualifier(Qualifier) (Attribute, error)
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// Resolve returns the value of the Attribute given the current Activation.
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Resolve(Activation) (interface{}, error)
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}
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// NamespacedAttribute values are a variable within a namespace, and an optional set of qualifiers
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// such as field, key, or index accesses.
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type NamespacedAttribute interface {
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Attribute
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// CandidateVariableNames returns the possible namespaced variable names for this Attribute in
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// the CEL namespace resolution order.
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CandidateVariableNames() []string
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// Qualifiers returns the list of qualifiers associated with the Attribute.s
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Qualifiers() []Qualifier
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// TryResolve attempts to return the value of the attribute given the current Activation.
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// If an error is encountered during attribute resolution, it will be returned immediately.
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// If the attribute cannot be resolved within the Activation, the result must be: `nil`,
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// `false`, `nil`.
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TryResolve(Activation) (interface{}, bool, error)
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}
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// NewAttributeFactory returns a default AttributeFactory which is produces Attribute values
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// capable of resolving types by simple names and qualify the values using the supported qualifier
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// types: bool, int, string, and uint.
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func NewAttributeFactory(cont *containers.Container,
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a ref.TypeAdapter,
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p ref.TypeProvider) AttributeFactory {
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return &attrFactory{
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container: cont,
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adapter: a,
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provider: p,
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}
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}
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type attrFactory struct {
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container *containers.Container
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adapter ref.TypeAdapter
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provider ref.TypeProvider
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}
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// AbsoluteAttribute refers to a variable value and an optional qualifier path.
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//
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// The namespaceNames represent the names the variable could have based on namespace
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// resolution rules.
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func (r *attrFactory) AbsoluteAttribute(id int64, names ...string) NamespacedAttribute {
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return &absoluteAttribute{
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id: id,
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namespaceNames: names,
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qualifiers: []Qualifier{},
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adapter: r.adapter,
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provider: r.provider,
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fac: r,
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}
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}
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// ConditionalAttribute supports the case where an attribute selection may occur on a conditional
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// expression, e.g. (cond ? a : b).c
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func (r *attrFactory) ConditionalAttribute(id int64, expr Interpretable, t, f Attribute) Attribute {
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return &conditionalAttribute{
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id: id,
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expr: expr,
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truthy: t,
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falsy: f,
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adapter: r.adapter,
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fac: r,
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}
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}
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// MaybeAttribute collects variants of unchecked AbsoluteAttribute values which could either be
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// direct variable accesses or some combination of variable access with qualification.
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func (r *attrFactory) MaybeAttribute(id int64, name string) Attribute {
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return &maybeAttribute{
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id: id,
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attrs: []NamespacedAttribute{
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r.AbsoluteAttribute(id, r.container.ResolveCandidateNames(name)...),
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},
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adapter: r.adapter,
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provider: r.provider,
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fac: r,
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}
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}
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// RelativeAttribute refers to an expression and an optional qualifier path.
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func (r *attrFactory) RelativeAttribute(id int64, operand Interpretable) Attribute {
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return &relativeAttribute{
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id: id,
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operand: operand,
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qualifiers: []Qualifier{},
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adapter: r.adapter,
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fac: r,
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}
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}
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// NewQualifier is an implementation of the AttributeFactory interface.
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func (r *attrFactory) NewQualifier(objType *exprpb.Type,
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qualID int64,
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val interface{}) (Qualifier, error) {
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// Before creating a new qualifier check to see if this is a protobuf message field access.
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// If so, use the precomputed GetFrom qualification method rather than the standard
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// stringQualifier.
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str, isStr := val.(string)
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if isStr && objType != nil && objType.GetMessageType() != "" {
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ft, found := r.provider.FindFieldType(objType.GetMessageType(), str)
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if found && ft.IsSet != nil && ft.GetFrom != nil {
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return &fieldQualifier{
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id: qualID,
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Name: str,
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FieldType: ft,
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adapter: r.adapter,
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}, nil
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}
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}
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return newQualifier(r.adapter, qualID, val)
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}
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type absoluteAttribute struct {
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id int64
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// namespaceNames represent the names the variable could have based on declared container
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// (package) of the expression.
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namespaceNames []string
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qualifiers []Qualifier
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adapter ref.TypeAdapter
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provider ref.TypeProvider
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fac AttributeFactory
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}
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// ID implements the Attribute interface method.
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func (a *absoluteAttribute) ID() int64 {
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return a.id
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}
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// Cost implements the Coster interface method.
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func (a *absoluteAttribute) Cost() (min, max int64) {
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for _, q := range a.qualifiers {
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minQ, maxQ := estimateCost(q)
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min += minQ
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max += maxQ
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}
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min++ // For object retrieval.
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max++
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return
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}
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// AddQualifier implements the Attribute interface method.
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func (a *absoluteAttribute) AddQualifier(qual Qualifier) (Attribute, error) {
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a.qualifiers = append(a.qualifiers, qual)
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return a, nil
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}
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// CandidateVariableNames implements the NamespaceAttribute interface method.
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func (a *absoluteAttribute) CandidateVariableNames() []string {
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return a.namespaceNames
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}
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// Qualifiers returns the list of Qualifier instances associated with the namespaced attribute.
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func (a *absoluteAttribute) Qualifiers() []Qualifier {
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return a.qualifiers
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}
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// Qualify is an implementation of the Qualifier interface method.
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func (a *absoluteAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) {
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val, err := a.Resolve(vars)
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if err != nil {
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return nil, err
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}
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unk, isUnk := val.(types.Unknown)
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if isUnk {
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return unk, nil
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}
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qual, err := a.fac.NewQualifier(nil, a.id, val)
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if err != nil {
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return nil, err
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}
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return qual.Qualify(vars, obj)
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}
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// Resolve returns the resolved Attribute value given the Activation, or error if the Attribute
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// variable is not found, or if its Qualifiers cannot be applied successfully.
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func (a *absoluteAttribute) Resolve(vars Activation) (interface{}, error) {
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obj, found, err := a.TryResolve(vars)
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if err != nil {
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return nil, err
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}
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if found {
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return obj, nil
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}
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return nil, fmt.Errorf("no such attribute: %v", a)
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}
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// String implements the Stringer interface method.
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func (a *absoluteAttribute) String() string {
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return fmt.Sprintf("id: %v, names: %v", a.id, a.namespaceNames)
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}
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// TryResolve iterates through the namespaced variable names until one is found within the
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// Activation or TypeProvider.
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//
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// If the variable name cannot be found as an Activation variable or in the TypeProvider as
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// a type, then the result is `nil`, `false`, `nil` per the interface requirement.
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func (a *absoluteAttribute) TryResolve(vars Activation) (interface{}, bool, error) {
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for _, nm := range a.namespaceNames {
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// If the variable is found, process it. Otherwise, wait until the checks to
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// determine whether the type is unknown before returning.
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op, found := vars.ResolveName(nm)
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if found {
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var err error
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for _, qual := range a.qualifiers {
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op, err = qual.Qualify(vars, op)
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if err != nil {
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return nil, true, err
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}
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}
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return op, true, nil
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}
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// Attempt to resolve the qualified type name if the name is not a variable identifier.
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typ, found := a.provider.FindIdent(nm)
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if found {
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if len(a.qualifiers) == 0 {
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return typ, true, nil
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}
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return nil, true, fmt.Errorf("no such attribute: %v", typ)
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}
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}
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return nil, false, nil
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}
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type conditionalAttribute struct {
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id int64
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expr Interpretable
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truthy Attribute
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falsy Attribute
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adapter ref.TypeAdapter
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fac AttributeFactory
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}
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// ID is an implementation of the Attribute interface method.
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func (a *conditionalAttribute) ID() int64 {
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return a.id
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}
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// Cost provides the heuristic cost of a ternary operation <expr> ? <t> : <f>.
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// The cost is computed as cost(expr) plus the min/max costs of evaluating either
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// `t` or `f`.
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func (a *conditionalAttribute) Cost() (min, max int64) {
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tMin, tMax := estimateCost(a.truthy)
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fMin, fMax := estimateCost(a.falsy)
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eMin, eMax := estimateCost(a.expr)
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return eMin + findMin(tMin, fMin), eMax + findMax(tMax, fMax)
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}
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// AddQualifier appends the same qualifier to both sides of the conditional, in effect managing
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// the qualification of alternate attributes.
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func (a *conditionalAttribute) AddQualifier(qual Qualifier) (Attribute, error) {
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_, err := a.truthy.AddQualifier(qual)
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if err != nil {
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return nil, err
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}
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_, err = a.falsy.AddQualifier(qual)
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if err != nil {
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return nil, err
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}
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return a, nil
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}
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// Qualify is an implementation of the Qualifier interface method.
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func (a *conditionalAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) {
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val, err := a.Resolve(vars)
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if err != nil {
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return nil, err
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}
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unk, isUnk := val.(types.Unknown)
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if isUnk {
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return unk, nil
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}
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qual, err := a.fac.NewQualifier(nil, a.id, val)
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if err != nil {
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return nil, err
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}
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return qual.Qualify(vars, obj)
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}
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// Resolve evaluates the condition, and then resolves the truthy or falsy branch accordingly.
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func (a *conditionalAttribute) Resolve(vars Activation) (interface{}, error) {
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val := a.expr.Eval(vars)
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if types.IsError(val) {
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return nil, val.(*types.Err)
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}
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if val == types.True {
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return a.truthy.Resolve(vars)
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}
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if val == types.False {
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return a.falsy.Resolve(vars)
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}
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||
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if types.IsUnknown(val) {
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return val, nil
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}
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return nil, types.MaybeNoSuchOverloadErr(val).(*types.Err)
|
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}
|
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|
|
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// String is an implementation of the Stringer interface method.
|
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func (a *conditionalAttribute) String() string {
|
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|
return fmt.Sprintf("id: %v, truthy attribute: %v, falsy attribute: %v", a.id, a.truthy, a.falsy)
|
||
|
}
|
||
|
|
||
|
type maybeAttribute struct {
|
||
|
id int64
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||
|
attrs []NamespacedAttribute
|
||
|
adapter ref.TypeAdapter
|
||
|
provider ref.TypeProvider
|
||
|
fac AttributeFactory
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Attribute interface method.
|
||
|
func (a *maybeAttribute) ID() int64 {
|
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return a.id
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}
|
||
|
|
||
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// Cost implements the Coster interface method. The min cost is computed as the minimal cost among
|
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// all the possible attributes, the max cost ditto.
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||
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func (a *maybeAttribute) Cost() (min, max int64) {
|
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min, max = math.MaxInt64, 0
|
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for _, a := range a.attrs {
|
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minA, maxA := estimateCost(a)
|
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min = findMin(min, minA)
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max = findMax(max, maxA)
|
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}
|
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return
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}
|
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|
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func findMin(x, y int64) int64 {
|
||
|
if x < y {
|
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return x
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}
|
||
|
return y
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}
|
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|
|
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func findMax(x, y int64) int64 {
|
||
|
if x > y {
|
||
|
return x
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||
|
}
|
||
|
return y
|
||
|
}
|
||
|
|
||
|
// AddQualifier adds a qualifier to each possible attribute variant, and also creates
|
||
|
// a new namespaced variable from the qualified value.
|
||
|
//
|
||
|
// The algorithm for building the maybe attribute is as follows:
|
||
|
//
|
||
|
// 1. Create a maybe attribute from a simple identifier when it occurs in a parsed-only expression
|
||
|
//
|
||
|
// mb = MaybeAttribute(<id>, "a")
|
||
|
//
|
||
|
// Initializing the maybe attribute creates an absolute attribute internally which includes the
|
||
|
// possible namespaced names of the attribute. In this example, let's assume we are in namespace
|
||
|
// 'ns', then the maybe is either one of the following variable names:
|
||
|
//
|
||
|
// possible variables names -- ns.a, a
|
||
|
//
|
||
|
// 2. Adding a qualifier to the maybe means that the variable name could be a longer qualified
|
||
|
// name, or a field selection on one of the possible variable names produced earlier:
|
||
|
//
|
||
|
// mb.AddQualifier("b")
|
||
|
//
|
||
|
// possible variables names -- ns.a.b, a.b
|
||
|
// possible field selection -- ns.a['b'], a['b']
|
||
|
//
|
||
|
// If none of the attributes within the maybe resolves a value, the result is an error.
|
||
|
func (a *maybeAttribute) AddQualifier(qual Qualifier) (Attribute, error) {
|
||
|
str := ""
|
||
|
isStr := false
|
||
|
cq, isConst := qual.(ConstantQualifier)
|
||
|
if isConst {
|
||
|
str, isStr = cq.Value().Value().(string)
|
||
|
}
|
||
|
var augmentedNames []string
|
||
|
// First add the qualifier to all existing attributes in the oneof.
|
||
|
for _, attr := range a.attrs {
|
||
|
if isStr && len(attr.Qualifiers()) == 0 {
|
||
|
candidateVars := attr.CandidateVariableNames()
|
||
|
augmentedNames = make([]string, len(candidateVars))
|
||
|
for i, name := range candidateVars {
|
||
|
augmentedNames[i] = fmt.Sprintf("%s.%s", name, str)
|
||
|
}
|
||
|
}
|
||
|
_, err := attr.AddQualifier(qual)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
}
|
||
|
// Next, ensure the most specific variable / type reference is searched first.
|
||
|
a.attrs = append([]NamespacedAttribute{a.fac.AbsoluteAttribute(qual.ID(), augmentedNames...)}, a.attrs...)
|
||
|
return a, nil
|
||
|
}
|
||
|
|
||
|
// Qualify is an implementation of the Qualifier interface method.
|
||
|
func (a *maybeAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
val, err := a.Resolve(vars)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
unk, isUnk := val.(types.Unknown)
|
||
|
if isUnk {
|
||
|
return unk, nil
|
||
|
}
|
||
|
qual, err := a.fac.NewQualifier(nil, a.id, val)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
return qual.Qualify(vars, obj)
|
||
|
}
|
||
|
|
||
|
// Resolve follows the variable resolution rules to determine whether the attribute is a variable
|
||
|
// or a field selection.
|
||
|
func (a *maybeAttribute) Resolve(vars Activation) (interface{}, error) {
|
||
|
for _, attr := range a.attrs {
|
||
|
obj, found, err := attr.TryResolve(vars)
|
||
|
// Return an error if one is encountered.
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
// If the object was found, return it.
|
||
|
if found {
|
||
|
return obj, nil
|
||
|
}
|
||
|
}
|
||
|
// Else, produce a no such attribute error.
|
||
|
return nil, fmt.Errorf("no such attribute: %v", a)
|
||
|
}
|
||
|
|
||
|
// String is an implementation of the Stringer interface method.
|
||
|
func (a *maybeAttribute) String() string {
|
||
|
return fmt.Sprintf("id: %v, attributes: %v", a.id, a.attrs)
|
||
|
}
|
||
|
|
||
|
type relativeAttribute struct {
|
||
|
id int64
|
||
|
operand Interpretable
|
||
|
qualifiers []Qualifier
|
||
|
adapter ref.TypeAdapter
|
||
|
fac AttributeFactory
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Attribute interface method.
|
||
|
func (a *relativeAttribute) ID() int64 {
|
||
|
return a.id
|
||
|
}
|
||
|
|
||
|
// Cost implements the Coster interface method.
|
||
|
func (a *relativeAttribute) Cost() (min, max int64) {
|
||
|
min, max = estimateCost(a.operand)
|
||
|
for _, qual := range a.qualifiers {
|
||
|
minQ, maxQ := estimateCost(qual)
|
||
|
min += minQ
|
||
|
max += maxQ
|
||
|
}
|
||
|
return
|
||
|
}
|
||
|
|
||
|
// AddQualifier implements the Attribute interface method.
|
||
|
func (a *relativeAttribute) AddQualifier(qual Qualifier) (Attribute, error) {
|
||
|
a.qualifiers = append(a.qualifiers, qual)
|
||
|
return a, nil
|
||
|
}
|
||
|
|
||
|
// Qualify is an implementation of the Qualifier interface method.
|
||
|
func (a *relativeAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
val, err := a.Resolve(vars)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
unk, isUnk := val.(types.Unknown)
|
||
|
if isUnk {
|
||
|
return unk, nil
|
||
|
}
|
||
|
qual, err := a.fac.NewQualifier(nil, a.id, val)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
return qual.Qualify(vars, obj)
|
||
|
}
|
||
|
|
||
|
// Resolve expression value and qualifier relative to the expression result.
|
||
|
func (a *relativeAttribute) Resolve(vars Activation) (interface{}, error) {
|
||
|
// First, evaluate the operand.
|
||
|
v := a.operand.Eval(vars)
|
||
|
if types.IsError(v) {
|
||
|
return nil, v.(*types.Err)
|
||
|
}
|
||
|
if types.IsUnknown(v) {
|
||
|
return v, nil
|
||
|
}
|
||
|
// Next, qualify it. Qualification handles unknowns as well, so there's no need to recheck.
|
||
|
var err error
|
||
|
var obj interface{} = v
|
||
|
for _, qual := range a.qualifiers {
|
||
|
obj, err = qual.Qualify(vars, obj)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
}
|
||
|
return obj, nil
|
||
|
}
|
||
|
|
||
|
// String is an implementation of the Stringer interface method.
|
||
|
func (a *relativeAttribute) String() string {
|
||
|
return fmt.Sprintf("id: %v, operand: %v", a.id, a.operand)
|
||
|
}
|
||
|
|
||
|
func newQualifier(adapter ref.TypeAdapter, id int64, v interface{}) (Qualifier, error) {
|
||
|
var qual Qualifier
|
||
|
switch val := v.(type) {
|
||
|
case Attribute:
|
||
|
return &attrQualifier{id: id, Attribute: val}, nil
|
||
|
case string:
|
||
|
qual = &stringQualifier{id: id, value: val, celValue: types.String(val), adapter: adapter}
|
||
|
case int:
|
||
|
qual = &intQualifier{id: id, value: int64(val), celValue: types.Int(val), adapter: adapter}
|
||
|
case int32:
|
||
|
qual = &intQualifier{id: id, value: int64(val), celValue: types.Int(val), adapter: adapter}
|
||
|
case int64:
|
||
|
qual = &intQualifier{id: id, value: val, celValue: types.Int(val), adapter: adapter}
|
||
|
case uint:
|
||
|
qual = &uintQualifier{id: id, value: uint64(val), celValue: types.Uint(val), adapter: adapter}
|
||
|
case uint32:
|
||
|
qual = &uintQualifier{id: id, value: uint64(val), celValue: types.Uint(val), adapter: adapter}
|
||
|
case uint64:
|
||
|
qual = &uintQualifier{id: id, value: val, celValue: types.Uint(val), adapter: adapter}
|
||
|
case bool:
|
||
|
qual = &boolQualifier{id: id, value: val, celValue: types.Bool(val), adapter: adapter}
|
||
|
case float32:
|
||
|
qual = &doubleQualifier{id: id, value: float64(val), celValue: types.Double(val), adapter: adapter}
|
||
|
case float64:
|
||
|
qual = &doubleQualifier{id: id, value: val, celValue: types.Double(val), adapter: adapter}
|
||
|
case types.String:
|
||
|
qual = &stringQualifier{id: id, value: string(val), celValue: val, adapter: adapter}
|
||
|
case types.Int:
|
||
|
qual = &intQualifier{id: id, value: int64(val), celValue: val, adapter: adapter}
|
||
|
case types.Uint:
|
||
|
qual = &uintQualifier{id: id, value: uint64(val), celValue: val, adapter: adapter}
|
||
|
case types.Bool:
|
||
|
qual = &boolQualifier{id: id, value: bool(val), celValue: val, adapter: adapter}
|
||
|
case types.Double:
|
||
|
qual = &doubleQualifier{id: id, value: float64(val), celValue: val, adapter: adapter}
|
||
|
default:
|
||
|
return nil, fmt.Errorf("invalid qualifier type: %T", v)
|
||
|
}
|
||
|
return qual, nil
|
||
|
}
|
||
|
|
||
|
type attrQualifier struct {
|
||
|
id int64
|
||
|
Attribute
|
||
|
}
|
||
|
|
||
|
func (q *attrQualifier) ID() int64 {
|
||
|
return q.id
|
||
|
}
|
||
|
|
||
|
// Cost returns zero for constant field qualifiers
|
||
|
func (q *attrQualifier) Cost() (min, max int64) {
|
||
|
return estimateCost(q.Attribute)
|
||
|
}
|
||
|
|
||
|
type stringQualifier struct {
|
||
|
id int64
|
||
|
value string
|
||
|
celValue ref.Val
|
||
|
adapter ref.TypeAdapter
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Qualifier interface method.
|
||
|
func (q *stringQualifier) ID() int64 {
|
||
|
return q.id
|
||
|
}
|
||
|
|
||
|
// Qualify implements the Qualifier interface method.
|
||
|
func (q *stringQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
s := q.value
|
||
|
isMap := false
|
||
|
isKey := false
|
||
|
switch o := obj.(type) {
|
||
|
case map[string]interface{}:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]string:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]int:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]int32:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]int64:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]uint:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]uint32:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]uint64:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]float32:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]float64:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case map[string]bool:
|
||
|
isMap = true
|
||
|
obj, isKey = o[s]
|
||
|
case types.Unknown:
|
||
|
return o, nil
|
||
|
default:
|
||
|
elem, err := refResolve(q.adapter, q.celValue, obj)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
return elem, nil
|
||
|
}
|
||
|
if isMap && !isKey {
|
||
|
return nil, fmt.Errorf("no such key: %v", s)
|
||
|
}
|
||
|
return obj, nil
|
||
|
}
|
||
|
|
||
|
// Value implements the ConstantQualifier interface
|
||
|
func (q *stringQualifier) Value() ref.Val {
|
||
|
return q.celValue
|
||
|
}
|
||
|
|
||
|
// Cost returns zero for constant field qualifiers
|
||
|
func (q *stringQualifier) Cost() (min, max int64) {
|
||
|
return 0, 0
|
||
|
}
|
||
|
|
||
|
type intQualifier struct {
|
||
|
id int64
|
||
|
value int64
|
||
|
celValue ref.Val
|
||
|
adapter ref.TypeAdapter
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Qualifier interface method.
|
||
|
func (q *intQualifier) ID() int64 {
|
||
|
return q.id
|
||
|
}
|
||
|
|
||
|
// Qualify implements the Qualifier interface method.
|
||
|
func (q *intQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
i := q.value
|
||
|
isMap := false
|
||
|
isKey := false
|
||
|
isIndex := false
|
||
|
switch o := obj.(type) {
|
||
|
// The specialized map types supported by an int qualifier are considerably fewer than the set
|
||
|
// of specialized map types supported by string qualifiers since they are less frequently used
|
||
|
// than string-based map keys. Additional specializations may be added in the future if
|
||
|
// desired.
|
||
|
case map[int]interface{}:
|
||
|
isMap = true
|
||
|
obj, isKey = o[int(i)]
|
||
|
case map[int32]interface{}:
|
||
|
isMap = true
|
||
|
obj, isKey = o[int32(i)]
|
||
|
case map[int64]interface{}:
|
||
|
isMap = true
|
||
|
obj, isKey = o[i]
|
||
|
case []interface{}:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []string:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []int:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []int32:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []int64:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []uint:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []uint32:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []uint64:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []float32:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []float64:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case []bool:
|
||
|
isIndex = i >= 0 && i < int64(len(o))
|
||
|
if isIndex {
|
||
|
obj = o[i]
|
||
|
}
|
||
|
case types.Unknown:
|
||
|
return o, nil
|
||
|
default:
|
||
|
elem, err := refResolve(q.adapter, q.celValue, obj)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
return elem, nil
|
||
|
}
|
||
|
if isMap && !isKey {
|
||
|
return nil, fmt.Errorf("no such key: %v", i)
|
||
|
}
|
||
|
if !isMap && !isIndex {
|
||
|
return nil, fmt.Errorf("index out of bounds: %v", i)
|
||
|
}
|
||
|
return obj, nil
|
||
|
}
|
||
|
|
||
|
// Value implements the ConstantQualifier interface
|
||
|
func (q *intQualifier) Value() ref.Val {
|
||
|
return q.celValue
|
||
|
}
|
||
|
|
||
|
// Cost returns zero for constant field qualifiers
|
||
|
func (q *intQualifier) Cost() (min, max int64) {
|
||
|
return 0, 0
|
||
|
}
|
||
|
|
||
|
type uintQualifier struct {
|
||
|
id int64
|
||
|
value uint64
|
||
|
celValue ref.Val
|
||
|
adapter ref.TypeAdapter
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Qualifier interface method.
|
||
|
func (q *uintQualifier) ID() int64 {
|
||
|
return q.id
|
||
|
}
|
||
|
|
||
|
// Qualify implements the Qualifier interface method.
|
||
|
func (q *uintQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
u := q.value
|
||
|
isMap := false
|
||
|
isKey := false
|
||
|
switch o := obj.(type) {
|
||
|
// The specialized map types supported by a uint qualifier are considerably fewer than the set
|
||
|
// of specialized map types supported by string qualifiers since they are less frequently used
|
||
|
// than string-based map keys. Additional specializations may be added in the future if
|
||
|
// desired.
|
||
|
case map[uint]interface{}:
|
||
|
isMap = true
|
||
|
obj, isKey = o[uint(u)]
|
||
|
case map[uint32]interface{}:
|
||
|
isMap = true
|
||
|
obj, isKey = o[uint32(u)]
|
||
|
case map[uint64]interface{}:
|
||
|
isMap = true
|
||
|
obj, isKey = o[u]
|
||
|
case types.Unknown:
|
||
|
return o, nil
|
||
|
default:
|
||
|
elem, err := refResolve(q.adapter, q.celValue, obj)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
return elem, nil
|
||
|
}
|
||
|
if isMap && !isKey {
|
||
|
return nil, fmt.Errorf("no such key: %v", u)
|
||
|
}
|
||
|
return obj, nil
|
||
|
}
|
||
|
|
||
|
// Value implements the ConstantQualifier interface
|
||
|
func (q *uintQualifier) Value() ref.Val {
|
||
|
return q.celValue
|
||
|
}
|
||
|
|
||
|
// Cost returns zero for constant field qualifiers
|
||
|
func (q *uintQualifier) Cost() (min, max int64) {
|
||
|
return 0, 0
|
||
|
}
|
||
|
|
||
|
type boolQualifier struct {
|
||
|
id int64
|
||
|
value bool
|
||
|
celValue ref.Val
|
||
|
adapter ref.TypeAdapter
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Qualifier interface method.
|
||
|
func (q *boolQualifier) ID() int64 {
|
||
|
return q.id
|
||
|
}
|
||
|
|
||
|
// Qualify implements the Qualifier interface method.
|
||
|
func (q *boolQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
b := q.value
|
||
|
isKey := false
|
||
|
switch o := obj.(type) {
|
||
|
// The specialized map types supported by a bool qualifier are considerably fewer than the set
|
||
|
// of specialized map types supported by string qualifiers since they are less frequently used
|
||
|
// than string-based map keys. Additional specializations may be added in the future if
|
||
|
// desired.
|
||
|
case map[bool]interface{}:
|
||
|
obj, isKey = o[b]
|
||
|
case types.Unknown:
|
||
|
return o, nil
|
||
|
default:
|
||
|
elem, err := refResolve(q.adapter, q.celValue, obj)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
return elem, nil
|
||
|
}
|
||
|
if !isKey {
|
||
|
return nil, fmt.Errorf("no such key: %v", b)
|
||
|
}
|
||
|
return obj, nil
|
||
|
}
|
||
|
|
||
|
// Value implements the ConstantQualifier interface
|
||
|
func (q *boolQualifier) Value() ref.Val {
|
||
|
return q.celValue
|
||
|
}
|
||
|
|
||
|
// Cost returns zero for constant field qualifiers
|
||
|
func (q *boolQualifier) Cost() (min, max int64) {
|
||
|
return 0, 0
|
||
|
}
|
||
|
|
||
|
// fieldQualifier indicates that the qualification is a well-defined field with a known
|
||
|
// field type. When the field type is known this can be used to improve the speed and
|
||
|
// efficiency of field resolution.
|
||
|
type fieldQualifier struct {
|
||
|
id int64
|
||
|
Name string
|
||
|
FieldType *ref.FieldType
|
||
|
adapter ref.TypeAdapter
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Qualifier interface method.
|
||
|
func (q *fieldQualifier) ID() int64 {
|
||
|
return q.id
|
||
|
}
|
||
|
|
||
|
// Qualify implements the Qualifier interface method.
|
||
|
func (q *fieldQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
if rv, ok := obj.(ref.Val); ok {
|
||
|
obj = rv.Value()
|
||
|
}
|
||
|
return q.FieldType.GetFrom(obj)
|
||
|
}
|
||
|
|
||
|
// Value implements the ConstantQualifier interface
|
||
|
func (q *fieldQualifier) Value() ref.Val {
|
||
|
return types.String(q.Name)
|
||
|
}
|
||
|
|
||
|
// Cost returns zero for constant field qualifiers
|
||
|
func (q *fieldQualifier) Cost() (min, max int64) {
|
||
|
return 0, 0
|
||
|
}
|
||
|
|
||
|
// doubleQualifier qualifies a CEL object, map, or list using a double value.
|
||
|
//
|
||
|
// This qualifier is used for working with dynamic data like JSON or protobuf.Any where the value
|
||
|
// type may not be known ahead of time and may not conform to the standard types supported as valid
|
||
|
// protobuf map key types.
|
||
|
type doubleQualifier struct {
|
||
|
id int64
|
||
|
value float64
|
||
|
celValue ref.Val
|
||
|
adapter ref.TypeAdapter
|
||
|
}
|
||
|
|
||
|
// ID is an implementation of the Qualifier interface method.
|
||
|
func (q *doubleQualifier) ID() int64 {
|
||
|
return q.id
|
||
|
}
|
||
|
|
||
|
// Qualify implements the Qualifier interface method.
|
||
|
func (q *doubleQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) {
|
||
|
switch o := obj.(type) {
|
||
|
case types.Unknown:
|
||
|
return o, nil
|
||
|
default:
|
||
|
elem, err := refResolve(q.adapter, q.celValue, obj)
|
||
|
if err != nil {
|
||
|
return nil, err
|
||
|
}
|
||
|
return elem, nil
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// refResolve attempts to convert the value to a CEL value and then uses reflection methods
|
||
|
// to try and resolve the qualifier.
|
||
|
func refResolve(adapter ref.TypeAdapter, idx ref.Val, obj interface{}) (ref.Val, error) {
|
||
|
celVal := adapter.NativeToValue(obj)
|
||
|
mapper, isMapper := celVal.(traits.Mapper)
|
||
|
if isMapper {
|
||
|
elem, found := mapper.Find(idx)
|
||
|
if !found {
|
||
|
return nil, fmt.Errorf("no such key: %v", idx)
|
||
|
}
|
||
|
return elem, nil
|
||
|
}
|
||
|
indexer, isIndexer := celVal.(traits.Indexer)
|
||
|
if isIndexer {
|
||
|
elem := indexer.Get(idx)
|
||
|
if types.IsError(elem) {
|
||
|
return nil, elem.(*types.Err)
|
||
|
}
|
||
|
return elem, nil
|
||
|
}
|
||
|
if types.IsUnknown(celVal) {
|
||
|
return celVal, nil
|
||
|
}
|
||
|
// TODO: If the types.Err value contains more than just an error message at some point in the
|
||
|
// future, then it would be reasonable to return error values as ref.Val types rather than
|
||
|
// simple go error types.
|
||
|
if types.IsError(celVal) {
|
||
|
return nil, celVal.(*types.Err)
|
||
|
}
|
||
|
return nil, fmt.Errorf("no such key: %v", idx)
|
||
|
}
|