diff --git a/src/go/types/decl.go b/src/go/types/decl.go index 9211febc6da..12ee51b9201 100644 --- a/src/go/types/decl.go +++ b/src/go/types/decl.go @@ -333,7 +333,7 @@ func (check *Checker) validType(typ Type, path []Object) typeInfo { switch t.info { case unknown: t.info = marked - t.info = check.validType(t.orig, append(path, t.obj)) // only types of current package added to path + t.info = check.validType(t.fromRHS, append(path, t.obj)) // only types of current package added to path case marked: // cycle detected for i, tn := range path { @@ -692,9 +692,8 @@ func (check *Checker) typeDecl(obj *TypeName, tdecl *ast.TypeSpec, def *Named) { } else { // defined type declaration - named := check.newNamed(obj, nil, nil) + named := check.newNamed(obj, nil, nil, nil, nil) def.setUnderlying(named) - obj.typ = named // make sure recursive type declarations terminate if tparams := typeparams.Get(tdecl); tparams != nil { check.openScope(tdecl, "type parameters") @@ -703,7 +702,7 @@ func (check *Checker) typeDecl(obj *TypeName, tdecl *ast.TypeSpec, def *Named) { } // determine underlying type of named - named.orig = check.definedType(tdecl.Type, named) + named.fromRHS = check.definedType(tdecl.Type, named) // The underlying type of named may be itself a named type that is // incomplete: @@ -718,7 +717,7 @@ func (check *Checker) typeDecl(obj *TypeName, tdecl *ast.TypeSpec, def *Named) { // and which has as its underlying type the named type B. // Determine the (final, unnamed) underlying type by resolving // any forward chain. - // TODO(gri) Investigate if we can just use named.origin here + // TODO(gri) Investigate if we can just use named.fromRHS here // and rely on lazy computation of the underlying type. named.underlying = under(named) } diff --git a/src/go/types/sanitize.go b/src/go/types/sanitize.go index f167cdd8b63..88fc3f83772 100644 --- a/src/go/types/sanitize.go +++ b/src/go/types/sanitize.go @@ -138,8 +138,8 @@ func (s sanitizer) typ(typ Type) Type { if debug && t.check != nil { panic("internal error: Named.check != nil") } - if orig := s.typ(t.orig); orig != t.orig { - t.orig = orig + if orig := s.typ(t.fromRHS); orig != t.fromRHS { + t.fromRHS = orig } if under := s.typ(t.underlying); under != t.underlying { t.underlying = under diff --git a/src/go/types/sizeof_test.go b/src/go/types/sizeof_test.go index 5a9d07ca418..3af9079a85c 100644 --- a/src/go/types/sizeof_test.go +++ b/src/go/types/sizeof_test.go @@ -30,7 +30,7 @@ func TestSizeof(t *testing.T) { {Interface{}, 60, 120}, {Map{}, 16, 32}, {Chan{}, 12, 24}, - {Named{}, 64, 128}, + {Named{}, 68, 136}, {_TypeParam{}, 28, 48}, {instance{}, 44, 88}, {bottom{}, 0, 0}, diff --git a/src/go/types/subst.go b/src/go/types/subst.go index d27f3645cc3..43a64d04bb5 100644 --- a/src/go/types/subst.go +++ b/src/go/types/subst.go @@ -396,8 +396,7 @@ func (subst *subster) typ(typ Type) Type { // create a new named type and populate caches to avoid endless recursion tname := NewTypeName(subst.pos, t.obj.pkg, t.obj.name, nil) - named := subst.check.newNamed(tname, t.underlying, t.methods) // method signatures are updated lazily - named.tparams = t.tparams // new type is still parameterized + named := subst.check.newNamed(tname, t, t.underlying, t.tparams, t.methods) // method signatures are updated lazily named.targs = newTargs if subst.check != nil { subst.check.typMap[h] = named @@ -407,7 +406,7 @@ func (subst *subster) typ(typ Type) Type { // do the substitution dump(">>> subst %s with %s (new: %s)", t.underlying, subst.smap, newTargs) named.underlying = subst.typOrNil(t.underlying) - named.orig = named.underlying // for cycle detection (Checker.validType) + named.fromRHS = named.underlying // for cycle detection (Checker.validType) return named diff --git a/src/go/types/type.go b/src/go/types/type.go index 2ea4d76d8b4..55b5c815405 100644 --- a/src/go/types/type.go +++ b/src/go/types/type.go @@ -642,12 +642,15 @@ func (c *Chan) Dir() ChanDir { return c.dir } // Elem returns the element type of channel c. func (c *Chan) Elem() Type { return c.elem } +// TODO(rfindley) Clean up Named struct below; specifically the fromRHS field (can we use underlying?). + // A Named represents a named (defined) type. type Named struct { check *Checker // for Named.under implementation; nilled once under has been called info typeInfo // for cycle detection obj *TypeName // corresponding declared object - orig Type // type (on RHS of declaration) this *Named type is derived of (for cycle reporting) + orig *Named // original, uninstantiated type + fromRHS Type // type (on RHS of declaration) this *Named type is derived of (for cycle reporting) underlying Type // possibly a *Named during setup; never a *Named once set up completely tparams []*TypeName // type parameters, or nil targs []Type // type arguments (after instantiation), or nil @@ -661,11 +664,14 @@ func NewNamed(obj *TypeName, underlying Type, methods []*Func) *Named { if _, ok := underlying.(*Named); ok { panic("types.NewNamed: underlying type must not be *Named") } - return (*Checker)(nil).newNamed(obj, underlying, methods) + return (*Checker)(nil).newNamed(obj, nil, underlying, nil, methods) } -func (check *Checker) newNamed(obj *TypeName, underlying Type, methods []*Func) *Named { - typ := &Named{check: check, obj: obj, orig: underlying, underlying: underlying, methods: methods} +func (check *Checker) newNamed(obj *TypeName, orig *Named, underlying Type, tparams []*TypeName, methods []*Func) *Named { + typ := &Named{check: check, obj: obj, orig: orig, fromRHS: underlying, underlying: underlying, tparams: tparams, methods: methods} + if typ.orig == nil { + typ.orig = typ + } if obj.typ == nil { obj.typ = typ } @@ -692,6 +698,10 @@ func (check *Checker) newNamed(obj *TypeName, underlying Type, methods []*Func) // Obj returns the type name for the named type t. func (t *Named) Obj() *TypeName { return t.obj } +// _Orig returns the original generic type an instantiated type is derived from. +// If t is not an instantiated type, the result is t. +func (t *Named) _Orig() *Named { return t.orig } + // TODO(gri) Come up with a better representation and API to distinguish // between parameterized instantiated and non-instantiated types. @@ -699,10 +709,13 @@ func (t *Named) Obj() *TypeName { return t.obj } // The result is non-nil for an (originally) parameterized type even if it is instantiated. func (t *Named) _TParams() []*TypeName { return t.tparams } +// _SetTParams sets the type parameters of the named type t. +func (t *Named) _SetTParams(tparams []*TypeName) { t.tparams = tparams } + // _TArgs returns the type arguments after instantiation of the named type t, or nil if not instantiated. func (t *Named) _TArgs() []Type { return t.targs } -// _SetTArgs sets the type arguments of Named. +// SetTArgs sets the type arguments of the named type t. func (t *Named) _SetTArgs(args []Type) { t.targs = args } // NumMethods returns the number of explicit methods whose receiver is named type t. @@ -741,9 +754,9 @@ func nextID() uint64 { return uint64(atomic.AddUint32(&lastID, 1)) } // A _TypeParam represents a type parameter type. type _TypeParam struct { check *Checker // for lazy type bound completion - id uint64 // unique id + id uint64 // unique id, for debugging only obj *TypeName // corresponding type name - index int // parameter index + index int // type parameter index in source order, starting at 0 bound Type // *Named or *Interface; underlying type is always *Interface }