// Code generated by "go test -run=Generate -write=all"; DO NOT EDIT. // Source: ../../cmd/compile/internal/types2/alias.go // Copyright 2023 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. package types import "fmt" // An Alias represents an alias type. // Whether or not Alias types are created is controlled by the // gotypesalias setting with the GODEBUG environment variable. // For gotypesalias=1, alias declarations produce an Alias type. // Otherwise, the alias information is only in the type name, // which points directly to the actual (aliased) type. type Alias struct { obj *TypeName // corresponding declared alias object orig *Alias // original, uninstantiated alias tparams *TypeParamList // type parameters, or nil targs *TypeList // type arguments, or nil fromRHS Type // RHS of type alias declaration; may be an alias actual Type // actual (aliased) type; never an alias } // NewAlias creates a new Alias type with the given type name and rhs. // rhs must not be nil. func NewAlias(obj *TypeName, rhs Type) *Alias { alias := (*Checker)(nil).newAlias(obj, rhs) // Ensure that alias.actual is set (#65455). alias.cleanup() return alias } func (a *Alias) Obj() *TypeName { return a.obj } func (a *Alias) String() string { return TypeString(a, nil) } // Underlying returns the [underlying type] of the alias type a, which is the // underlying type of the aliased type. Underlying types are never Named, // TypeParam, or Alias types. // // [underlying type]: https://go.dev/ref/spec#Underlying_types. func (a *Alias) Underlying() Type { return unalias(a).Underlying() } // Origin returns the generic Alias type of which a is an instance. // If a is not an instance of a generic alias, Origin returns a. func (a *Alias) Origin() *Alias { return a.orig } // TypeParams returns the type parameters of the alias type a, or nil. // A generic Alias and its instances have the same type parameters. func (a *Alias) TypeParams() *TypeParamList { return a.tparams } // SetTypeParams sets the type parameters of the alias type a. // The alias a must not have type arguments. func (a *Alias) SetTypeParams(tparams []*TypeParam) { assert(a.targs == nil) a.tparams = bindTParams(tparams) } // TypeArgs returns the type arguments used to instantiate the Alias type. // If a is not an instance of a generic alias, the result is nil. func (a *Alias) TypeArgs() *TypeList { return a.targs } // Rhs returns the type R on the right-hand side of an alias // declaration "type A = R", which may be another alias. func (a *Alias) Rhs() Type { return a.fromRHS } // Unalias returns t if it is not an alias type; // otherwise it follows t's alias chain until it // reaches a non-alias type which is then returned. // Consequently, the result is never an alias type. func Unalias(t Type) Type { if a0, _ := t.(*Alias); a0 != nil { return unalias(a0) } return t } func unalias(a0 *Alias) Type { if a0.actual != nil { return a0.actual } var t Type for a := a0; a != nil; a, _ = t.(*Alias) { t = a.fromRHS } if t == nil { panic(fmt.Sprintf("non-terminated alias %s", a0.obj.name)) } // Memoize the type only if valid. // In the presence of unfinished cyclic declarations, Unalias // would otherwise latch the invalid value (#66704). // TODO(adonovan): rethink, along with checker.typeDecl's use // of Invalid to mark unfinished aliases. if t != Typ[Invalid] { a0.actual = t } return t } // asNamed returns t as *Named if that is t's // actual type. It returns nil otherwise. func asNamed(t Type) *Named { n, _ := Unalias(t).(*Named) return n } // newAlias creates a new Alias type with the given type name and rhs. // rhs must not be nil. func (check *Checker) newAlias(obj *TypeName, rhs Type) *Alias { assert(rhs != nil) a := new(Alias) a.obj = obj a.orig = a a.fromRHS = rhs if obj.typ == nil { obj.typ = a } // Ensure that a.actual is set at the end of type checking. if check != nil { check.needsCleanup(a) } return a } func (a *Alias) cleanup() { // Ensure a.actual is set before types are published, // so Unalias is a pure "getter", not a "setter". actual := Unalias(a) if actual == Typ[Invalid] { // We don't set a.actual to Typ[Invalid] during type checking, // as it may indicate that the RHS is not fully set up. a.actual = actual } }