mirror of
https://github.com/ceph/ceph-csi.git
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5a66991bb3
updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
186 lines
7.2 KiB
Go
186 lines
7.2 KiB
Go
// Copyright 2018 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 provides functions to evaluate parsed expressions with
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// the option to augment the evaluation with inputs and functions supplied at
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// evaluation time.
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package interpreter
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import (
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"github.com/google/cel-go/common/ast"
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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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)
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// Interpreter generates a new Interpretable from a checked or unchecked expression.
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type Interpreter interface {
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// NewInterpretable creates an Interpretable from a checked expression and an
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// optional list of InterpretableDecorator values.
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NewInterpretable(exprAST *ast.AST, decorators ...InterpretableDecorator) (Interpretable, error)
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}
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// EvalObserver is a functional interface that accepts an expression id and an observed value.
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// The id identifies the expression that was evaluated, the programStep is the Interpretable or Qualifier that
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// was evaluated and value is the result of the evaluation.
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type EvalObserver func(id int64, programStep any, value ref.Val)
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// Observe constructs a decorator that calls all the provided observers in order after evaluating each Interpretable
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// or Qualifier during program evaluation.
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func Observe(observers ...EvalObserver) InterpretableDecorator {
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if len(observers) == 1 {
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return decObserveEval(observers[0])
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}
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observeFn := func(id int64, programStep any, val ref.Val) {
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for _, observer := range observers {
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observer(id, programStep, val)
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}
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}
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return decObserveEval(observeFn)
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}
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// EvalCancelledError represents a cancelled program evaluation operation.
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type EvalCancelledError struct {
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Message string
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// Type identifies the cause of the cancellation.
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Cause CancellationCause
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}
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func (e EvalCancelledError) Error() string {
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return e.Message
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}
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// CancellationCause enumerates the ways a program evaluation operation can be cancelled.
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type CancellationCause int
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const (
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// ContextCancelled indicates that the operation was cancelled in response to a Golang context cancellation.
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ContextCancelled CancellationCause = iota
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// CostLimitExceeded indicates that the operation was cancelled in response to the actual cost limit being
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// exceeded.
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CostLimitExceeded
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)
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// TODO: Replace all usages of TrackState with EvalStateObserver
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// TrackState decorates each expression node with an observer which records the value
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// associated with the given expression id. EvalState must be provided to the decorator.
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// This decorator is not thread-safe, and the EvalState must be reset between Eval()
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// calls.
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// DEPRECATED: Please use EvalStateObserver instead. It composes gracefully with additional observers.
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func TrackState(state EvalState) InterpretableDecorator {
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return Observe(EvalStateObserver(state))
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}
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// EvalStateObserver provides an observer which records the value
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// associated with the given expression id. EvalState must be provided to the observer.
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// This decorator is not thread-safe, and the EvalState must be reset between Eval()
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// calls.
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func EvalStateObserver(state EvalState) EvalObserver {
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return func(id int64, programStep any, val ref.Val) {
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state.SetValue(id, val)
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}
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}
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// ExhaustiveEval replaces operations that short-circuit with versions that evaluate
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// expressions and couples this behavior with the TrackState() decorator to provide
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// insight into the evaluation state of the entire expression. EvalState must be
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// provided to the decorator. This decorator is not thread-safe, and the EvalState
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// must be reset between Eval() calls.
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func ExhaustiveEval() InterpretableDecorator {
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ex := decDisableShortcircuits()
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return func(i Interpretable) (Interpretable, error) {
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return ex(i)
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}
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}
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// InterruptableEval annotates comprehension loops with information that indicates they
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// should check the `#interrupted` state within a custom Activation.
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//
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// The custom activation is currently managed higher up in the stack within the 'cel' package
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// and should not require any custom support on behalf of callers.
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func InterruptableEval() InterpretableDecorator {
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return decInterruptFolds()
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}
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// Optimize will pre-compute operations such as list and map construction and optimize
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// call arguments to set membership tests. The set of optimizations will increase over time.
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func Optimize() InterpretableDecorator {
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return decOptimize()
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}
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// RegexOptimization provides a way to replace an InterpretableCall for a regex function when the
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// RegexIndex argument is a string constant. Typically, the Factory would compile the regex pattern at
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// RegexIndex and report any errors (at program creation time) and then use the compiled regex for
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// all regex function invocations.
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type RegexOptimization struct {
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// Function is the name of the function to optimize.
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Function string
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// OverloadID is the ID of the overload to optimize.
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OverloadID string
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// RegexIndex is the index position of the regex pattern argument. Only calls to the function where this argument is
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// a string constant will be delegated to this optimizer.
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RegexIndex int
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// Factory constructs a replacement InterpretableCall node that optimizes the regex function call. Factory is
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// provided with the unoptimized regex call and the string constant at the RegexIndex argument.
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// The Factory may compile the regex for use across all invocations of the call, return any errors and
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// return an interpreter.NewCall with the desired regex optimized function impl.
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Factory func(call InterpretableCall, regexPattern string) (InterpretableCall, error)
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}
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// CompileRegexConstants compiles regex pattern string constants at program creation time and reports any regex pattern
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// compile errors.
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func CompileRegexConstants(regexOptimizations ...*RegexOptimization) InterpretableDecorator {
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return decRegexOptimizer(regexOptimizations...)
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}
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type exprInterpreter struct {
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dispatcher Dispatcher
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container *containers.Container
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provider types.Provider
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adapter types.Adapter
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attrFactory AttributeFactory
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}
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// NewInterpreter builds an Interpreter from a Dispatcher and TypeProvider which will be used
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// throughout the Eval of all Interpretable instances generated from it.
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func NewInterpreter(dispatcher Dispatcher,
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container *containers.Container,
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provider types.Provider,
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adapter types.Adapter,
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attrFactory AttributeFactory) Interpreter {
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return &exprInterpreter{
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dispatcher: dispatcher,
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container: container,
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provider: provider,
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adapter: adapter,
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attrFactory: attrFactory}
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}
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// NewIntepretable implements the Interpreter interface method.
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func (i *exprInterpreter) NewInterpretable(
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checked *ast.AST,
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decorators ...InterpretableDecorator) (Interpretable, error) {
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p := newPlanner(
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i.dispatcher,
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i.provider,
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i.adapter,
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i.attrFactory,
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i.container,
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checked,
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decorators...)
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return p.Plan(checked.Expr())
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}
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