// Copyright 2018 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 // Identical reports whether t1 and t2 are identical types, following the spec rules. // Receiver parameter types are ignored. Named (defined) types are only equal if they // are pointer-equal - i.e. there must be a unique types.Type for each specific named // type. Also, a type containing a shape type is considered identical to another type // (shape or not) if their underlying types are the same, or they are both pointers. func Identical(t1, t2 *Type) bool { return identical(t1, t2, true, nil) } // IdenticalIgnoreTags is like Identical, but it ignores struct tags // for struct identity. func IdenticalIgnoreTags(t1, t2 *Type) bool { return identical(t1, t2, false, nil) } type typePair struct { t1 *Type t2 *Type } func identical(t1, t2 *Type, cmpTags bool, assumedEqual map[typePair]struct{}) bool { if t1 == t2 { return true } if t1 == nil || t2 == nil || t1.kind != t2.kind || t1.Broke() || t2.Broke() { return false } if t1.sym != nil || t2.sym != nil { if t1.HasShape() || t2.HasShape() { switch t1.kind { case TINT8, TUINT8, TINT16, TUINT16, TINT32, TUINT32, TINT64, TUINT64, TINT, TUINT, TUINTPTR, TCOMPLEX64, TCOMPLEX128, TFLOAT32, TFLOAT64, TBOOL, TSTRING, TPTR, TUNSAFEPTR: return true } // fall through to unnamed type comparison for complex types. goto cont } // Special case: we keep byte/uint8 and rune/int32 // separate for error messages. Treat them as equal. switch t1.kind { case TUINT8: return (t1 == Types[TUINT8] || t1 == ByteType) && (t2 == Types[TUINT8] || t2 == ByteType) case TINT32: return (t1 == Types[TINT32] || t1 == RuneType) && (t2 == Types[TINT32] || t2 == RuneType) default: return false } } cont: // Any cyclic type must go through a named type, and if one is // named, it is only identical to the other if they are the // same pointer (t1 == t2), so there's no chance of chasing // cycles ad infinitum, so no need for a depth counter. if assumedEqual == nil { assumedEqual = make(map[typePair]struct{}) } else if _, ok := assumedEqual[typePair{t1, t2}]; ok { return true } assumedEqual[typePair{t1, t2}] = struct{}{} switch t1.kind { case TIDEAL: // Historically, cmd/compile used a single "untyped // number" type, so all untyped number types were // identical. Match this behavior. // TODO(mdempsky): Revisit this. return true case TINTER: if t1.AllMethods().Len() != t2.AllMethods().Len() { return false } for i, f1 := range t1.AllMethods().Slice() { f2 := t2.AllMethods().Index(i) if f1.Sym != f2.Sym || !identical(f1.Type, f2.Type, cmpTags, assumedEqual) { return false } } return true case TSTRUCT: if t1.NumFields() != t2.NumFields() { return false } for i, f1 := range t1.FieldSlice() { f2 := t2.Field(i) if f1.Sym != f2.Sym || f1.Embedded != f2.Embedded || !identical(f1.Type, f2.Type, cmpTags, assumedEqual) { return false } if cmpTags && f1.Note != f2.Note { return false } } return true case TFUNC: // Check parameters and result parameters for type equality. // We intentionally ignore receiver parameters for type // equality, because they're never relevant. for _, f := range ParamsResults { // Loop over fields in structs, ignoring argument names. fs1, fs2 := f(t1).FieldSlice(), f(t2).FieldSlice() if len(fs1) != len(fs2) { return false } for i, f1 := range fs1 { f2 := fs2[i] if f1.IsDDD() != f2.IsDDD() || !identical(f1.Type, f2.Type, cmpTags, assumedEqual) { return false } } } return true case TARRAY: if t1.NumElem() != t2.NumElem() { return false } case TCHAN: if t1.ChanDir() != t2.ChanDir() { return false } case TMAP: if !identical(t1.Key(), t2.Key(), cmpTags, assumedEqual) { return false } } return identical(t1.Elem(), t2.Elem(), cmpTags, assumedEqual) }