diff --git a/src/cmd/compile/internal/noder/irgen.go b/src/cmd/compile/internal/noder/irgen.go index 29882eb7731..d53c254001c 100644 --- a/src/cmd/compile/internal/noder/irgen.go +++ b/src/cmd/compile/internal/noder/irgen.go @@ -149,6 +149,9 @@ type irgen struct { // statements yet. exprStmtOK bool + // types which we need to finish, by doing g.fillinMethods. + typesToFinalize []*typeDelayInfo + // Fully-instantiated generic types whose methods should be instantiated instTypeList []*types.Type @@ -184,6 +187,11 @@ type delayInfo struct { off int } +type typeDelayInfo struct { + typ *types2.Named + ntyp *types.Type +} + func (g *irgen) generate(noders []*noder) { types.LocalPkg.Name = g.self.Name() types.LocalPkg.Height = g.self.Height() diff --git a/src/cmd/compile/internal/noder/types.go b/src/cmd/compile/internal/noder/types.go index f5d91097f24..e00a3a5da91 100644 --- a/src/cmd/compile/internal/noder/types.go +++ b/src/cmd/compile/internal/noder/types.go @@ -35,6 +35,16 @@ func (g *irgen) typ(typ types2.Type) *types.Type { types.DeferCheckSize() res := g.typ1(typ) types.ResumeCheckSize() + + // Finish up any types on typesToFinalize, now that we are at the top of a + // fully-defined (possibly recursive) type. fillinMethods could create more + // types to finalize. + for len(g.typesToFinalize) > 0 { + l := len(g.typesToFinalize) + info := g.typesToFinalize[l-1] + g.typesToFinalize = g.typesToFinalize[:l-1] + g.fillinMethods(info.typ, info.ntyp) + } return res } @@ -151,10 +161,19 @@ func (g *irgen) typ0(typ types2.Type) *types.Type { ntyp.SetRParams(rparams) //fmt.Printf("Saw new type %v %v\n", instName, ntyp.HasTParam()) - ntyp.SetUnderlying(g.typ1(typ.Underlying())) - g.fillinMethods(typ, ntyp) // Save the symbol for the base generic type. ntyp.OrigSym = g.pkg(typ.Obj().Pkg()).Lookup(typ.Obj().Name()) + ntyp.SetUnderlying(g.typ1(typ.Underlying())) + if typ.NumMethods() != 0 { + // Save a delayed call to g.fillinMethods() (once + // potentially recursive types have been fully + // resolved). + g.typesToFinalize = append(g.typesToFinalize, + &typeDelayInfo{ + typ: typ, + ntyp: ntyp, + }) + } return ntyp } obj := g.obj(typ.Obj()) @@ -266,76 +285,75 @@ func (g *irgen) typ0(typ types2.Type) *types.Type { } } -// fillinMethods fills in the method name nodes and types for a defined type. This -// is needed for later typechecking when looking up methods of instantiated types, -// and for actually generating the methods for instantiated types. +// fillinMethods fills in the method name nodes and types for a defined type with at +// least one method. This is needed for later typechecking when looking up methods of +// instantiated types, and for actually generating the methods for instantiated +// types. func (g *irgen) fillinMethods(typ *types2.Named, ntyp *types.Type) { - if typ.NumMethods() != 0 { - targs2 := typ.TArgs() - targs := make([]*types.Type, targs2.Len()) - for i := range targs { - targs[i] = g.typ1(targs2.At(i)) - } + targs2 := typ.TArgs() + targs := make([]*types.Type, targs2.Len()) + for i := range targs { + targs[i] = g.typ1(targs2.At(i)) + } - methods := make([]*types.Field, typ.NumMethods()) - for i := range methods { - m := typ.Method(i) - recvType := deref2(types2.AsSignature(m.Type()).Recv().Type()) - var meth *ir.Name - if m.Pkg() != g.self { - // Imported methods cannot be loaded by name (what - // g.obj() does) - they must be loaded via their - // type. - meth = g.obj(recvType.(*types2.Named).Obj()).Type().Methods().Index(i).Nname.(*ir.Name) + methods := make([]*types.Field, typ.NumMethods()) + for i := range methods { + m := typ.Method(i) + recvType := deref2(types2.AsSignature(m.Type()).Recv().Type()) + var meth *ir.Name + if m.Pkg() != g.self { + // Imported methods cannot be loaded by name (what + // g.obj() does) - they must be loaded via their + // type. + meth = g.obj(recvType.(*types2.Named).Obj()).Type().Methods().Index(i).Nname.(*ir.Name) + } else { + meth = g.obj(m) + } + if recvType != types2.Type(typ) { + // Unfortunately, meth is the type of the method of the + // generic type, so we have to do a substitution to get + // the name/type of the method of the instantiated type, + // using m.Type().RParams() and typ.TArgs() + inst2 := instTypeName2("", typ.TArgs()) + name := meth.Sym().Name + i1 := strings.Index(name, "[") + i2 := strings.Index(name[i1:], "]") + assert(i1 >= 0 && i2 >= 0) + // Generate the name of the instantiated method. + name = name[0:i1] + inst2 + name[i1+i2+1:] + newsym := meth.Sym().Pkg.Lookup(name) + var meth2 *ir.Name + if newsym.Def != nil { + meth2 = newsym.Def.(*ir.Name) } else { - meth = g.obj(m) - } - if recvType != types2.Type(typ) { - // Unfortunately, meth is the type of the method of the - // generic type, so we have to do a substitution to get - // the name/type of the method of the instantiated type, - // using m.Type().RParams() and typ.TArgs() - inst2 := instTypeName2("", typ.TArgs()) - name := meth.Sym().Name - i1 := strings.Index(name, "[") - i2 := strings.Index(name[i1:], "]") - assert(i1 >= 0 && i2 >= 0) - // Generate the name of the instantiated method. - name = name[0:i1] + inst2 + name[i1+i2+1:] - newsym := meth.Sym().Pkg.Lookup(name) - var meth2 *ir.Name - if newsym.Def != nil { - meth2 = newsym.Def.(*ir.Name) - } else { - meth2 = ir.NewNameAt(meth.Pos(), newsym) - rparams := types2.AsSignature(m.Type()).RParams() - tparams := make([]*types.Type, rparams.Len()) - for i := range tparams { - tparams[i] = g.typ1(rparams.At(i)) - } - assert(len(tparams) == len(targs)) - ts := typecheck.Tsubster{ - Tparams: tparams, - Targs: targs, - } - // Do the substitution of the type - meth2.SetType(ts.Typ(meth.Type())) - // Add any new fully instantiated types - // seen during the substitution to - // g.instTypeList. - g.instTypeList = append(g.instTypeList, ts.InstTypeList...) - newsym.Def = meth2 + meth2 = ir.NewNameAt(meth.Pos(), newsym) + rparams := types2.AsSignature(m.Type()).RParams() + tparams := make([]*types.Type, rparams.Len()) + for i := range tparams { + tparams[i] = g.typ1(rparams.At(i)) } - meth = meth2 + assert(len(tparams) == len(targs)) + ts := typecheck.Tsubster{ + Tparams: tparams, + Targs: targs, + } + // Do the substitution of the type + meth2.SetType(ts.Typ(meth.Type())) + // Add any new fully instantiated types + // seen during the substitution to + // g.instTypeList. + g.instTypeList = append(g.instTypeList, ts.InstTypeList...) + newsym.Def = meth2 } - methods[i] = types.NewField(meth.Pos(), g.selector(m), meth.Type()) - methods[i].Nname = meth - } - ntyp.Methods().Set(methods) - if !ntyp.HasTParam() && !ntyp.HasShape() { - // Generate all the methods for a new fully-instantiated type. - g.instTypeList = append(g.instTypeList, ntyp) + meth = meth2 } + methods[i] = types.NewField(meth.Pos(), g.selector(m), meth.Type()) + methods[i].Nname = meth + } + ntyp.Methods().Set(methods) + if !ntyp.HasTParam() && !ntyp.HasShape() { + // Generate all the methods for a new fully-instantiated type. + g.instTypeList = append(g.instTypeList, ntyp) } } diff --git a/src/cmd/compile/internal/reflectdata/reflect.go b/src/cmd/compile/internal/reflectdata/reflect.go index deb806beace..ca48db03f5d 100644 --- a/src/cmd/compile/internal/reflectdata/reflect.go +++ b/src/cmd/compile/internal/reflectdata/reflect.go @@ -927,7 +927,7 @@ func formalType(t *types.Type) *types.Type { func writeType(t *types.Type) *obj.LSym { t = formalType(t) - if t.IsUntyped() { + if t.IsUntyped() || t.HasTParam() { base.Fatalf("writeType %v", t) } diff --git a/test/typeparam/issue47710.go b/test/typeparam/issue47710.go new file mode 100644 index 00000000000..0882cb41377 --- /dev/null +++ b/test/typeparam/issue47710.go @@ -0,0 +1,19 @@ +// compile -G=3 + +// Copyright 2021 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 p + +type FooType[t any] interface { + Foo(BarType[t]) +} +type BarType[t any] interface { + Int(IntType[t]) FooType[int] +} + +type IntType[t any] int + +func (n IntType[t]) Foo(BarType[t]) {} +func (n IntType[_]) String() {}