mirror of
https://github.com/ceph/ceph-csi.git
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229 lines
8.1 KiB
Go
229 lines
8.1 KiB
Go
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// Copyright 2023 Google LLC
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package cel
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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/operators"
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"github.com/google/cel-go/common/overloads"
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"github.com/google/cel-go/common/types"
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"github.com/google/cel-go/common/types/traits"
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)
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// InlineVariable holds a variable name to be matched and an AST representing
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// the expression graph which should be used to replace it.
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type InlineVariable struct {
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name string
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alias string
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def *ast.AST
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}
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// Name returns the qualified variable or field selection to replace.
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func (v *InlineVariable) Name() string {
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return v.name
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}
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// Alias returns the alias to use when performing cel.bind() calls during inlining.
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func (v *InlineVariable) Alias() string {
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return v.alias
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}
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// Expr returns the inlined expression value.
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func (v *InlineVariable) Expr() ast.Expr {
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return v.def.Expr()
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}
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// Type indicates the inlined expression type.
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func (v *InlineVariable) Type() *Type {
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return v.def.GetType(v.def.Expr().ID())
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}
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// NewInlineVariable declares a variable name to be replaced by a checked expression.
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func NewInlineVariable(name string, definition *Ast) *InlineVariable {
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return NewInlineVariableWithAlias(name, name, definition)
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}
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// NewInlineVariableWithAlias declares a variable name to be replaced by a checked expression.
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// If the variable occurs more than once, the provided alias will be used to replace the expressions
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// where the variable name occurs.
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func NewInlineVariableWithAlias(name, alias string, definition *Ast) *InlineVariable {
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return &InlineVariable{name: name, alias: alias, def: definition.impl}
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}
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// NewInliningOptimizer creates and optimizer which replaces variables with expression definitions.
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//
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// If a variable occurs one time, the variable is replaced by the inline definition. If the
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// variable occurs more than once, the variable occurences are replaced by a cel.bind() call.
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func NewInliningOptimizer(inlineVars ...*InlineVariable) ASTOptimizer {
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return &inliningOptimizer{variables: inlineVars}
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}
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type inliningOptimizer struct {
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variables []*InlineVariable
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}
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func (opt *inliningOptimizer) Optimize(ctx *OptimizerContext, a *ast.AST) *ast.AST {
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root := ast.NavigateAST(a)
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for _, inlineVar := range opt.variables {
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matches := ast.MatchDescendants(root, opt.matchVariable(inlineVar.Name()))
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// Skip cases where the variable isn't in the expression graph
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if len(matches) == 0 {
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continue
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}
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// For a single match, do a direct replacement of the expression sub-graph.
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if len(matches) == 1 || !isBindable(matches, inlineVar.Expr(), inlineVar.Type()) {
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for _, match := range matches {
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// Copy the inlined AST expr and source info.
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copyExpr := ctx.CopyASTAndMetadata(inlineVar.def)
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opt.inlineExpr(ctx, match, copyExpr, inlineVar.Type())
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}
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continue
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}
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// For multiple matches, find the least common ancestor (lca) and insert the
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// variable as a cel.bind() macro.
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var lca ast.NavigableExpr = root
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lcaAncestorCount := 0
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ancestors := map[int64]int{}
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for _, match := range matches {
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// Update the identifier matches with the provided alias.
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parent, found := match, true
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for found {
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ancestorCount, hasAncestor := ancestors[parent.ID()]
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if !hasAncestor {
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ancestors[parent.ID()] = 1
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parent, found = parent.Parent()
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continue
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}
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if lcaAncestorCount < ancestorCount || (lcaAncestorCount == ancestorCount && lca.Depth() < parent.Depth()) {
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lca = parent
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lcaAncestorCount = ancestorCount
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}
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ancestors[parent.ID()] = ancestorCount + 1
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parent, found = parent.Parent()
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}
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aliasExpr := ctx.NewIdent(inlineVar.Alias())
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opt.inlineExpr(ctx, match, aliasExpr, inlineVar.Type())
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}
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// Copy the inlined AST expr and source info.
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copyExpr := ctx.CopyASTAndMetadata(inlineVar.def)
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// Update the least common ancestor by inserting a cel.bind() call to the alias.
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inlined, bindMacro := ctx.NewBindMacro(lca.ID(), inlineVar.Alias(), copyExpr, lca)
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opt.inlineExpr(ctx, lca, inlined, inlineVar.Type())
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ctx.SetMacroCall(lca.ID(), bindMacro)
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}
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return a
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}
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// inlineExpr replaces the current expression with the inlined one, unless the location of the inlining
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// happens within a presence test, e.g. has(a.b.c) -> inline alpha for a.b.c in which case an attempt is
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// made to determine whether the inlined value can be presence or existence tested.
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func (opt *inliningOptimizer) inlineExpr(ctx *OptimizerContext, prev ast.NavigableExpr, inlined ast.Expr, inlinedType *Type) {
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switch prev.Kind() {
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case ast.SelectKind:
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sel := prev.AsSelect()
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if !sel.IsTestOnly() {
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ctx.UpdateExpr(prev, inlined)
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return
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}
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opt.rewritePresenceExpr(ctx, prev, inlined, inlinedType)
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default:
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ctx.UpdateExpr(prev, inlined)
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}
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}
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// rewritePresenceExpr converts the inlined expression, when it occurs within a has() macro, to type-safe
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// expression appropriate for the inlined type, if possible.
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//
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// If the rewrite is not possible an error is reported at the inline expression site.
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func (opt *inliningOptimizer) rewritePresenceExpr(ctx *OptimizerContext, prev, inlined ast.Expr, inlinedType *Type) {
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// If the input inlined expression is not a select expression it won't work with the has()
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// macro. Attempt to rewrite the presence test in terms of the typed input, otherwise error.
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if inlined.Kind() == ast.SelectKind {
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presenceTest, hasMacro := ctx.NewHasMacro(prev.ID(), inlined)
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ctx.UpdateExpr(prev, presenceTest)
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ctx.SetMacroCall(prev.ID(), hasMacro)
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return
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}
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ctx.ClearMacroCall(prev.ID())
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if inlinedType.IsAssignableType(NullType) {
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ctx.UpdateExpr(prev,
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ctx.NewCall(operators.NotEquals,
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inlined,
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ctx.NewLiteral(types.NullValue),
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))
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return
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}
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if inlinedType.HasTrait(traits.SizerType) {
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ctx.UpdateExpr(prev,
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ctx.NewCall(operators.NotEquals,
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ctx.NewMemberCall(overloads.Size, inlined),
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ctx.NewLiteral(types.IntZero),
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))
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return
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}
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ctx.ReportErrorAtID(prev.ID(), "unable to inline expression type %v into presence test", inlinedType)
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}
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// isBindable indicates whether the inlined type can be used within a cel.bind() if the expression
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// being replaced occurs within a presence test. Value types with a size() method or field selection
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// support can be bound.
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//
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// In future iterations, support may also be added for indexer types which can be rewritten as an `in`
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// expression; however, this would imply a rewrite of the inlined expression that may not be necessary
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// in most cases.
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func isBindable(matches []ast.NavigableExpr, inlined ast.Expr, inlinedType *Type) bool {
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if inlinedType.IsAssignableType(NullType) ||
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inlinedType.HasTrait(traits.SizerType) {
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return true
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}
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for _, m := range matches {
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if m.Kind() != ast.SelectKind {
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continue
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}
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sel := m.AsSelect()
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if sel.IsTestOnly() {
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return false
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}
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}
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return true
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}
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// matchVariable matches simple identifiers, select expressions, and presence test expressions
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// which match the (potentially) qualified variable name provided as input.
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//
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// Note, this function does not support inlining against select expressions which includes optional
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// field selection. This may be a future refinement.
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func (opt *inliningOptimizer) matchVariable(varName string) ast.ExprMatcher {
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return func(e ast.NavigableExpr) bool {
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if e.Kind() == ast.IdentKind && e.AsIdent() == varName {
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return true
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}
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if e.Kind() == ast.SelectKind {
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sel := e.AsSelect()
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// While the `ToQualifiedName` call could take the select directly, this
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// would skip presence tests from possible matches, which we would like
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// to include.
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qualName, found := containers.ToQualifiedName(sel.Operand())
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return found && qualName+"."+sel.FieldName() == varName
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}
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return false
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}
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}
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