// Copyright 2024 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 "iter" // This file defines go1.23 iterator methods for a variety of data // types. They are not mirrored to cmd/compile/internal/types2, as // there is no point doing so until the bootstrap compiler it at least // go1.23; therefore go1.23-style range statements should not be used // in code common to types and types2, though clients of go/types are // free to use them. // Methods returns a go1.23 iterator over all the methods of an // interface, ordered by Id. // // Example: for m := range t.Methods() { ... } func (t *Interface) Methods() iter.Seq[*Func] { return func(yield func(m *Func) bool) { for i := range t.NumMethods() { if !yield(t.Method(i)) { break } } } } // ExplicitMethods returns a go1.23 iterator over the explicit methods of // an interface, ordered by Id. // // Example: for m := range t.ExplicitMethods() { ... } func (t *Interface) ExplicitMethods() iter.Seq[*Func] { return func(yield func(m *Func) bool) { for i := range t.NumExplicitMethods() { if !yield(t.ExplicitMethod(i)) { break } } } } // EmbeddedTypes returns a go1.23 iterator over the types embedded within an interface. // // Example: for e := range t.EmbeddedTypes() { ... } func (t *Interface) EmbeddedTypes() iter.Seq[Type] { return func(yield func(e Type) bool) { for i := range t.NumEmbeddeds() { if !yield(t.EmbeddedType(i)) { break } } } } // Methods returns a go1.23 iterator over the declared methods of a named type. // // Example: for m := range t.Methods() { ... } func (t *Named) Methods() iter.Seq[*Func] { return func(yield func(m *Func) bool) { for i := range t.NumMethods() { if !yield(t.Method(i)) { break } } } } // Children returns a go1.23 iterator over the child scopes nested within scope s. // // Example: for child := range scope.Children() { ... } func (s *Scope) Children() iter.Seq[*Scope] { return func(yield func(child *Scope) bool) { for i := range s.NumChildren() { if !yield(s.Child(i)) { break } } } } // Fields returns a go1.23 iterator over the fields of a struct type. // // Example: for field := range s.Fields() { ... } func (s *Struct) Fields() iter.Seq[*Var] { return func(yield func(field *Var) bool) { for i := range s.NumFields() { if !yield(s.Field(i)) { break } } } } // Variables returns a go1.23 iterator over the variables of a tuple type. // // Example: for v := range tuple.Variables() { ... } func (t *Tuple) Variables() iter.Seq[*Var] { return func(yield func(v *Var) bool) { for i := range t.Len() { if !yield(t.At(i)) { break } } } } // Methods returns a go1.23 iterator over the methods of a method set. // // Example: for method := range s.Methods() { ... } func (s *MethodSet) Methods() iter.Seq[*Selection] { return func(yield func(method *Selection) bool) { for i := range s.Len() { if !yield(s.At(i)) { break } } } } // Terms returns a go1.23 iterator over the terms of a union. // // Example: for term := range union.Terms() { ... } func (u *Union) Terms() iter.Seq[*Term] { return func(yield func(term *Term) bool) { for i := range u.Len() { if !yield(u.Term(i)) { break } } } } // TypeParams returns a go1.23 iterator over a list of type parameters. // // Example: for tparam := range l.TypeParams() { ... } func (l *TypeParamList) TypeParams() iter.Seq[*TypeParam] { return func(yield func(tparam *TypeParam) bool) { for i := range l.Len() { if !yield(l.At(i)) { break } } } } // Types returns a go1.23 iterator over the elements of a list of types. // // Example: for t := range l.Types() { ... } func (l *TypeList) Types() iter.Seq[Type] { return func(yield func(t Type) bool) { for i := range l.Len() { if !yield(l.At(i)) { break } } } }