// Code generated by "go test -run=Generate -write=all"; DO NOT EDIT.
// Source: ../../cmd/compile/internal/types2/scope.go
// Copyright 2013 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// This file implements Scopes.
package types
import (
"fmt"
"go/token"
"io"
"slices"
"strings"
"sync"
)
// A Scope maintains a set of objects and links to its containing
// (parent) and contained (children) scopes. Objects may be inserted
// and looked up by name. The zero value for Scope is a ready-to-use
// empty scope.
type Scope struct {
parent *Scope
children []*Scope
number int // parent.children[number-1] is this scope; 0 if there is no parent
elems map[string]Object // lazily allocated
pos, end token.Pos // scope extent; may be invalid
comment string // for debugging only
isFunc bool // set if this is a function scope (internal use only)
}
// NewScope returns a new, empty scope contained in the given parent
// scope, if any. The comment is for debugging only.
func NewScope(parent *Scope, pos, end token.Pos, comment string) *Scope {
s := &Scope{parent, nil, 0, nil, pos, end, comment, false}
// don't add children to Universe scope!
if parent != nil && parent != Universe {
parent.children = append(parent.children, s)
s.number = len(parent.children)
}
return s
}
// Parent returns the scope's containing (parent) scope.
func (s *Scope) Parent() *Scope { return s.parent }
// Len returns the number of scope elements.
func (s *Scope) Len() int { return len(s.elems) }
// Names returns the scope's element names in sorted order.
func (s *Scope) Names() []string {
names := make([]string, len(s.elems))
i := 0
for name := range s.elems {
names[i] = name
i++
}
slices.Sort(names)
return names
}
// NumChildren returns the number of scopes nested in s.
func (s *Scope) NumChildren() int { return len(s.children) }
// Child returns the i'th child scope for 0 <= i < NumChildren().
func (s *Scope) Child(i int) *Scope { return s.children[i] }
// Lookup returns the object in scope s with the given name if such an
// object exists; otherwise the result is nil.
func (s *Scope) Lookup(name string) Object {
obj := resolve(name, s.elems[name])
// Hijack Lookup for "any": with gotypesalias=1, we want the Universe to
// return an Alias for "any", and with gotypesalias=0 we want to return
// the legacy representation of aliases.
//
// This is rather tricky, but works out after auditing of the usage of
// s.elems. The only external API to access scope elements is Lookup.
//
// TODO: remove this once gotypesalias=0 is no longer supported.
if obj == universeAnyAlias && !aliasAny() {
return universeAnyNoAlias
}
return obj
}
// Insert attempts to insert an object obj into scope s.
// If s already contains an alternative object alt with
// the same name, Insert leaves s unchanged and returns alt.
// Otherwise it inserts obj, sets the object's parent scope
// if not already set, and returns nil.
func (s *Scope) Insert(obj Object) Object {
name := obj.Name()
if alt := s.Lookup(name); alt != nil {
return alt
}
s.insert(name, obj)
// TODO(gri) Can we always set the parent to s (or is there
// a need to keep the original parent or some race condition)?
// If we can, than we may not need environment.lookupScope
// which is only there so that we get the correct scope for
// marking "used" dot-imported packages.
if obj.Parent() == nil {
obj.setParent(s)
}
return nil
}
// InsertLazy is like Insert, but allows deferring construction of the
// inserted object until it's accessed with Lookup. The Object
// returned by resolve must have the same name as given to InsertLazy.
// If s already contains an alternative object with the same name,
// InsertLazy leaves s unchanged and returns false. Otherwise it
// records the binding and returns true. The object's parent scope
// will be set to s after resolve is called.
func (s *Scope) _InsertLazy(name string, resolve func() Object) bool {
if s.elems[name] != nil {
return false
}
s.insert(name, &lazyObject{parent: s, resolve: resolve})
return true
}
func (s *Scope) insert(name string, obj Object) {
if s.elems == nil {
s.elems = make(map[string]Object)
}
s.elems[name] = obj
}
// WriteTo writes a string representation of the scope to w,
// with the scope elements sorted by name.
// The level of indentation is controlled by n >= 0, with
// n == 0 for no indentation.
// If recurse is set, it also writes nested (children) scopes.
func (s *Scope) WriteTo(w io.Writer, n int, recurse bool) {
const ind = ". "
indn := strings.Repeat(ind, n)
fmt.Fprintf(w, "%s%s scope %p {\n", indn, s.comment, s)
indn1 := indn + ind
for _, name := range s.Names() {
fmt.Fprintf(w, "%s%s\n", indn1, s.Lookup(name))
}
if recurse {
for _, s := range s.children {
s.WriteTo(w, n+1, recurse)
}
}
fmt.Fprintf(w, "%s}\n", indn)
}
// String returns a string representation of the scope, for debugging.
func (s *Scope) String() string {
var buf strings.Builder
s.WriteTo(&buf, 0, false)
return buf.String()
}
// A lazyObject represents an imported Object that has not been fully
// resolved yet by its importer.
type lazyObject struct {
parent *Scope
resolve func() Object
obj Object
once sync.Once
}
// resolve returns the Object represented by obj, resolving lazy
// objects as appropriate.
func resolve(name string, obj Object) Object {
if lazy, ok := obj.(*lazyObject); ok {
lazy.once.Do(func() {
obj := lazy.resolve()
if _, ok := obj.(*lazyObject); ok {
panic("recursive lazy object")
}
if obj.Name() != name {
panic("lazy object has unexpected name")
}
if obj.Parent() == nil {
obj.setParent(lazy.parent)
}
lazy.obj = obj
})
obj = lazy.obj
}
return obj
}
// stub implementations so *lazyObject implements Object and we can
// store them directly into Scope.elems.
func (*lazyObject) Parent() *Scope { panic("unreachable") }
func (*lazyObject) Pos() token.Pos { panic("unreachable") }
func (*lazyObject) Pkg() *Package { panic("unreachable") }
func (*lazyObject) Name() string { panic("unreachable") }
func (*lazyObject) Type() Type { panic("unreachable") }
func (*lazyObject) Exported() bool { panic("unreachable") }
func (*lazyObject) Id() string { panic("unreachable") }
func (*lazyObject) String() string { panic("unreachable") }
func (*lazyObject) order() uint32 { panic("unreachable") }
func (*lazyObject) color() color { panic("unreachable") }
func (*lazyObject) setType(Type) { panic("unreachable") }
func (*lazyObject) setOrder(uint32) { panic("unreachable") }
func (*lazyObject) setColor(color color) { panic("unreachable") }
func (*lazyObject) setParent(*Scope) { panic("unreachable") }
func (*lazyObject) sameId(*Package, string, bool) bool { panic("unreachable") }
func (*lazyObject) scopePos() token.Pos { panic("unreachable") }
func (*lazyObject) setScopePos(token.Pos) { panic("unreachable") }