mirror of
https://github.com/golang/go
synced 2024-11-26 06:47:58 -07:00
[dev.typeparams] cmd/compile: set type parameter indices when they are bound
This is a port of CL 336249 with adjustments due to slightly different handling of type parameter declaration in types2. The CL also contains adjustments to the compiler front-end. With this change it is not necessary to export type parameter indices. Filed issue #47451 so we don't forget. Change-Id: I2834f7be313fcb4763dff2a9058f1983ee6a81b3 Reviewed-on: https://go-review.googlesource.com/c/go/+/338192 Trust: Robert Griesemer <gri@golang.org> Run-TryBot: Robert Griesemer <gri@golang.org> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Robert Findley <rfindley@google.com>
This commit is contained in:
parent
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commit
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@ -368,10 +368,13 @@ func (r *importReader) obj(name string) {
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if r.p.exportVersion < iexportVersionGenerics {
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errorf("unexpected type param type")
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}
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index := int(r.int64())
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// Type parameter indices are lazily "allocated".
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// There's no need to export them anymore.
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// TODO change the export format accordingly
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_ = int(r.int64())
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name0, sub := parseSubscript(name)
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tn := types2.NewTypeName(pos, r.currPkg, name0, nil)
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t := (*types2.Checker)(nil).NewTypeParam(tn, index, nil)
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t := (*types2.Checker)(nil).NewTypeParam(tn, nil)
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if sub == 0 {
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errorf("missing subscript")
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}
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@ -167,10 +167,10 @@ func (g *irgen) typeDecl(out *ir.Nodes, decl *syntax.TypeDecl) {
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ntyp.SetUnderlying(g.typeExpr(decl.Type))
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tparams := otyp.(*types2.Named).TParams()
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if len(tparams) > 0 {
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rparams := make([]*types.Type, len(tparams))
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if n := tparams.Len(); n > 0 {
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rparams := make([]*types.Type, n)
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for i := range rparams {
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rparams[i] = g.typ(tparams[i].Type())
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rparams[i] = g.typ(tparams.At(i).Type())
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}
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// This will set hasTParam flag if any rparams are not concrete types.
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ntyp.SetRParams(rparams)
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@ -337,7 +337,7 @@ func (g *irgen) selectorExpr(pos src.XPos, typ types2.Type, expr *syntax.Selecto
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if wantPtr {
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recvType2Base = types2.AsPointer(recvType2).Elem()
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}
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if len(types2.AsNamed(recvType2Base).TParams()) > 0 {
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if types2.AsNamed(recvType2Base).TParams().Len() > 0 {
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// recvType2 is the original generic type that is
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// instantiated for this method call.
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// selinfo.Recv() is the instantiated type
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@ -481,7 +481,7 @@ func (r *reader2) typeParamNames() []*types2.TypeName {
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pkg, name := r.localIdent()
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names[i] = types2.NewTypeName(pos, pkg, name, nil)
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r.dict.tparams[i] = r.p.check.NewTypeParam(names[i], i, nil)
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r.dict.tparams[i] = r.p.check.NewTypeParam(names[i], nil)
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}
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for i, bound := range r.dict.bounds {
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@ -304,9 +304,9 @@ func (g *irgen) fillinMethods(typ *types2.Named, ntyp *types.Type) {
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} else {
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meth2 = ir.NewNameAt(meth.Pos(), newsym)
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rparams := types2.AsSignature(m.Type()).RParams()
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tparams := make([]*types.Type, len(rparams))
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for i, rparam := range rparams {
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tparams[i] = g.typ1(rparam.Type())
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tparams := make([]*types.Type, rparams.Len())
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for i := range tparams {
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tparams[i] = g.typ1(rparams.At(i).Type())
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}
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assert(len(tparams) == len(targs))
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ts := typecheck.Tsubster{
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@ -336,9 +336,9 @@ func (g *irgen) fillinMethods(typ *types2.Named, ntyp *types.Type) {
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func (g *irgen) signature(recv *types.Field, sig *types2.Signature) *types.Type {
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tparams2 := sig.TParams()
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tparams := make([]*types.Field, len(tparams2))
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tparams := make([]*types.Field, tparams2.Len())
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for i := range tparams {
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tp := tparams2[i]
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tp := tparams2.At(i)
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tparams[i] = types.NewField(g.pos(tp), g.sym(tp), g.typ1(tp.Type()))
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}
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@ -299,7 +299,7 @@ func (pw *pkgWriter) typIdx(typ types2.Type, dict *writerDict) typeInfo {
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// Type aliases can refer to uninstantiated generic types, so we
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// might see len(TParams) != 0 && len(TArgs) == 0 here.
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// TODO(mdempsky): Revisit after #46477 is resolved.
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assert(len(typ.TParams()) == len(typ.TArgs()) || len(typ.TArgs()) == 0)
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assert(typ.TParams().Len() == len(typ.TArgs()) || len(typ.TArgs()) == 0)
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// TODO(mdempsky): Why do we need to loop here?
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orig := typ
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@ -615,9 +615,10 @@ func (w *writer) objDict(obj types2.Object, dict *writerDict) {
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w.len(len(dict.implicits))
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tparams := objTypeParams(obj)
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w.len(len(tparams))
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for _, tparam := range tparams {
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w.typ(tparam.Type().(*types2.TypeParam).Bound())
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ntparams := tparams.Len()
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w.len(ntparams)
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for i := 0; i < ntparams; i++ {
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w.typ(tparams.At(i).Type().(*types2.TypeParam).Bound())
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}
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nderived := len(dict.derived)
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@ -641,10 +642,12 @@ func (w *writer) objDict(obj types2.Object, dict *writerDict) {
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assert(len(dict.funcs) == nfuncs)
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}
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func (w *writer) typeParamNames(tparams []*types2.TypeName) {
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func (w *writer) typeParamNames(tparams *types2.TypeParams) {
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w.sync(syncTypeParamNames)
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for _, tparam := range tparams {
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ntparams := tparams.Len()
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for i := 0; i < ntparams; i++ {
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tparam := tparams.At(i)
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w.pos(tparam)
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w.localIdent(tparam)
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}
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@ -1468,13 +1471,16 @@ type declCollector struct {
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func (c *declCollector) withTParams(obj types2.Object) *declCollector {
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tparams := objTypeParams(obj)
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if len(tparams) == 0 {
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n := tparams.Len()
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if n == 0 {
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return c
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}
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copy := *c
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copy.implicits = copy.implicits[:len(copy.implicits):len(copy.implicits)]
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copy.implicits = append(copy.implicits, objTypeParams(obj)...)
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for i := 0; i < n; i++ {
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copy.implicits = append(copy.implicits, tparams.At(i))
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}
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return ©
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}
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@ -1705,7 +1711,7 @@ func (w *writer) pkgDecl(decl syntax.Decl) {
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// TODO(mdempsky): Revisit after #46477 is resolved.
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if name.IsAlias() {
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named, ok := name.Type().(*types2.Named)
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if ok && len(named.TParams()) != 0 && len(named.TArgs()) == 0 {
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if ok && named.TParams().Len() != 0 && len(named.TArgs()) == 0 {
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break
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}
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}
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@ -1851,7 +1857,7 @@ func fieldIndex(info *types2.Info, str *types2.Struct, key *syntax.Name) int {
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}
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// objTypeParams returns the type parameters on the given object.
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func objTypeParams(obj types2.Object) []*types2.TypeName {
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func objTypeParams(obj types2.Object) *types2.TypeParams {
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switch obj := obj.(type) {
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case *types2.Func:
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sig := obj.Type().(*types2.Signature)
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@ -1857,7 +1857,7 @@ func TestInstantiate(t *testing.T) {
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// type T should have one type parameter
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T := pkg.Scope().Lookup("T").Type().(*Named)
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if n := len(T.TParams()); n != 1 {
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if n := T.TParams().Len(); n != 1 {
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t.Fatalf("expected 1 type parameter; found %d", n)
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}
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@ -68,7 +68,7 @@ func (check *Checker) assignment(x *operand, T Type, context string) {
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// x.typ is typed
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// A generic (non-instantiated) function value cannot be assigned to a variable.
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if sig := asSignature(x.typ); sig != nil && len(sig.tparams) > 0 {
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if sig := asSignature(x.typ); sig != nil && sig.TParams().Len() > 0 {
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check.errorf(x, "cannot use generic function %s without instantiation in %s", x, context)
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}
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@ -837,7 +837,8 @@ func (check *Checker) applyTypeFunc(f func(Type) Type, x Type) Type {
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// type param is placed in the current package so export/import
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// works as expected.
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tpar := NewTypeName(nopos, check.pkg, "<type parameter>", nil)
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ptyp := check.NewTypeParam(tpar, tp.index, &emptyInterface) // assigns type to tpar as a side-effect
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ptyp := check.NewTypeParam(tpar, &emptyInterface) // assigns type to tpar as a side-effect
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ptyp.index = tp.index
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tsum := newUnion(rtypes, tildes)
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ptyp.bound = &Interface{complete: true, tset: &TypeSet{types: tsum}}
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@ -26,7 +26,7 @@ func (check *Checker) funcInst(x *operand, inst *syntax.IndexExpr) {
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// check number of type arguments (got) vs number of type parameters (want)
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sig := x.typ.(*Signature)
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got, want := len(targs), len(sig.tparams)
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got, want := len(targs), sig.TParams().Len()
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if !useConstraintTypeInference && got != want || got > want {
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check.errorf(xlist[got-1], "got %d type arguments but want %d", got, want)
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x.mode = invalid
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@ -37,7 +37,7 @@ func (check *Checker) funcInst(x *operand, inst *syntax.IndexExpr) {
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// if we don't have enough type arguments, try type inference
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inferred := false
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if got < want {
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targs = check.infer(inst.Pos(), sig.tparams, targs, nil, nil, true)
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targs = check.infer(inst.Pos(), sig.TParams().list(), targs, nil, nil, true)
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if targs == nil {
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// error was already reported
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x.mode = invalid
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@ -155,7 +155,7 @@ func (check *Checker) callExpr(x *operand, call *syntax.CallExpr) exprKind {
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assert(len(targs) == len(xlist))
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// check number of type arguments (got) vs number of type parameters (want)
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got, want := len(targs), len(sig.tparams)
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got, want := len(targs), sig.TParams().Len()
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if got > want {
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check.errorf(xlist[want], "got %d type arguments but want %d", got, want)
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check.use(call.ArgList...)
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@ -189,7 +189,7 @@ func (check *Checker) callExpr(x *operand, call *syntax.CallExpr) exprKind {
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// if type inference failed, a parametrized result must be invalidated
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// (operands cannot have a parametrized type)
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if x.mode == value && len(sig.tparams) > 0 && isParameterized(sig.tparams, x.typ) {
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if x.mode == value && sig.TParams().Len() > 0 && isParameterized(sig.TParams().list(), x.typ) {
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x.mode = invalid
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}
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@ -317,10 +317,10 @@ func (check *Checker) arguments(call *syntax.CallExpr, sig *Signature, targs []T
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}
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// infer type arguments and instantiate signature if necessary
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if len(sig.tparams) > 0 {
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if sig.TParams().Len() > 0 {
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// TODO(gri) provide position information for targs so we can feed
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// it to the instantiate call for better error reporting
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targs = check.infer(call.Pos(), sig.tparams, targs, sigParams, args, true)
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targs := check.infer(call.Pos(), sig.TParams().list(), targs, sigParams, args, true)
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if targs == nil {
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return // error already reported
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}
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@ -334,7 +334,7 @@ func (check *Checker) arguments(call *syntax.CallExpr, sig *Signature, targs []T
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// need to compute it from the adjusted list; otherwise we can
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// simply use the result signature's parameter list.
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if adjusted {
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sigParams = check.subst(call.Pos(), sigParams, makeSubstMap(sig.tparams, targs)).(*Tuple)
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sigParams = check.subst(call.Pos(), sigParams, makeSubstMap(sig.TParams().list(), targs)).(*Tuple)
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} else {
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sigParams = rsig.params
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}
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@ -516,7 +516,7 @@ func (check *Checker) selector(x *operand, e *syntax.SelectorExpr) {
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// the signature accordingly.
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// TODO(gri) factor this code out
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sig := m.typ.(*Signature)
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if len(sig.rparams) > 0 {
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if sig.RParams().Len() > 0 {
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// For inference to work, we must use the receiver type
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// matching the receiver in the actual method declaration.
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// If the method is embedded, the matching receiver is the
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@ -545,7 +545,7 @@ func (check *Checker) selector(x *operand, e *syntax.SelectorExpr) {
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// the receiver type arguments here, the receiver must be be otherwise invalid
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// and an error has been reported elsewhere.
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arg := operand{mode: variable, expr: x.expr, typ: recv}
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targs := check.infer(m.pos, sig.rparams, nil, NewTuple(sig.recv), []*operand{&arg}, false /* no error reporting */)
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targs := check.infer(m.pos, sig.RParams().list(), nil, NewTuple(sig.recv), []*operand{&arg}, false /* no error reporting */)
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//check.dump("### inferred targs = %s", targs)
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if targs == nil {
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// We may reach here if there were other errors (see issue #40056).
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@ -555,7 +555,7 @@ func (check *Checker) selector(x *operand, e *syntax.SelectorExpr) {
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// (If we modify m, some tests will fail; possibly because the m is in use.)
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// TODO(gri) investigate and provide a correct explanation here
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copy := *m
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copy.typ = check.subst(e.Pos(), m.typ, makeSubstMap(sig.rparams, targs))
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copy.typ = check.subst(e.Pos(), m.typ, makeSubstMap(sig.RParams().list(), targs))
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obj = ©
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}
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// TODO(gri) we also need to do substitution for parameterized interface methods
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@ -575,20 +575,20 @@ func (check *Checker) typeDecl(obj *TypeName, tdecl *syntax.TypeDecl, def *Named
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named.underlying = under(named)
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// If the RHS is a type parameter, it must be from this type declaration.
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if tpar, _ := named.underlying.(*TypeParam); tpar != nil && tparamIndex(named.tparams, tpar) < 0 {
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if tpar, _ := named.underlying.(*TypeParam); tpar != nil && tparamIndex(named.tparams.list(), tpar) < 0 {
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check.errorf(tdecl.Type, "cannot use function type parameter %s as RHS in type declaration", tpar)
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named.underlying = Typ[Invalid]
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}
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}
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func (check *Checker) collectTypeParams(list []*syntax.Field) []*TypeName {
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func (check *Checker) collectTypeParams(list []*syntax.Field) *TypeParams {
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tparams := make([]*TypeName, len(list))
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// Declare type parameters up-front.
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// The scope of type parameters starts at the beginning of the type parameter
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// list (so we can have mutually recursive parameterized type bounds).
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for i, f := range list {
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tparams[i] = check.declareTypeParam(i, f.Name)
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tparams[i] = check.declareTypeParam(f.Name)
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}
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var bound Type
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@ -602,12 +602,12 @@ func (check *Checker) collectTypeParams(list []*syntax.Field) []*TypeName {
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tparams[i].typ.(*TypeParam).bound = bound
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}
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return tparams
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return bindTParams(tparams)
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}
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func (check *Checker) declareTypeParam(index int, name *syntax.Name) *TypeName {
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func (check *Checker) declareTypeParam(name *syntax.Name) *TypeName {
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tpar := NewTypeName(name.Pos(), check.pkg, name.Value, nil)
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check.NewTypeParam(tpar, index, nil) // assigns type to tpar as a side-effect
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check.NewTypeParam(tpar, nil) // assigns type to tpar as a side-effect
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check.declare(check.scope, name, tpar, check.scope.pos) // TODO(gri) check scope position
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return tpar
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}
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@ -32,7 +32,7 @@ func (check *Checker) indexExpr(x *operand, e *syntax.IndexExpr) (isFuncInst boo
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return false
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case value:
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if sig := asSignature(x.typ); sig != nil && len(sig.tparams) > 0 {
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if sig := asSignature(x.typ); sig != nil && sig.TParams().Len() > 0 {
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// function instantiation
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return true
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}
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@ -25,7 +25,7 @@ func (n *Named) expand() {
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// tparams. This is done implicitly by the call to n.TParams, but making it
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// explicit is harmless: load is idempotent.
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n.load()
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inst := n.check.instantiate(n.instance.pos, n.orig.underlying, n.TParams(), n.targs, n.instance.posList)
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inst := n.check.instantiate(n.instance.pos, n.orig.underlying, n.TParams().list(), n.targs, n.instance.posList)
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n.underlying = inst
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n.fromRHS = inst
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n.instance = nil
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@ -29,9 +29,9 @@ func (check *Checker) Instantiate(pos syntax.Pos, typ Type, targs []Type, posLis
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var tparams []*TypeName
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switch t := typ.(type) {
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case *Named:
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tparams = t.TParams()
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tparams = t.TParams().list()
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case *Signature:
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tparams = t.tparams
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tparams = t.TParams().list()
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defer func() {
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// If we had an unexpected failure somewhere don't panic below when
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// asserting res.(*Signature). Check for *Signature in case Typ[Invalid]
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@ -109,9 +109,9 @@ func (check *Checker) InstantiateLazy(pos syntax.Pos, typ Type, targs []Type, po
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panic(fmt.Sprintf("%v: cannot instantiate %v", pos, typ))
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}
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if verify && len(base.tparams) == len(targs) {
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if verify && base.TParams().Len() == len(targs) {
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check.later(func() {
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check.verify(pos, base.tparams, targs, posList)
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check.verify(pos, base.tparams.list(), targs, posList)
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})
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}
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@ -125,7 +125,7 @@ func (check *Checker) InstantiateLazy(pos syntax.Pos, typ Type, targs []Type, po
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}
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tname := NewTypeName(pos, base.obj.pkg, base.obj.name, nil)
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named := check.newNamed(tname, base, nil, nil, nil) // methods and tparams are set when named is loaded.
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named := check.newNamed(tname, base, nil, nil, nil) // methods and tparams are set when named is loaded
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named.targs = targs
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named.instance = &instance{pos, posList}
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if check != nil {
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@ -315,10 +315,10 @@ func (check *Checker) missingMethod(V Type, T *Interface, static bool) (method,
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// both methods must have the same number of type parameters
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ftyp := f.typ.(*Signature)
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mtyp := m.typ.(*Signature)
|
||||
if len(ftyp.tparams) != len(mtyp.tparams) {
|
||||
if ftyp.TParams().Len() != mtyp.TParams().Len() {
|
||||
return m, f
|
||||
}
|
||||
if !acceptMethodTypeParams && len(ftyp.tparams) > 0 {
|
||||
if !acceptMethodTypeParams && ftyp.TParams().Len() > 0 {
|
||||
panic("internal error: method with type parameters")
|
||||
}
|
||||
|
||||
@ -328,7 +328,7 @@ func (check *Checker) missingMethod(V Type, T *Interface, static bool) (method,
|
||||
// TODO(gri) is this always correct? what about type bounds?
|
||||
// (Alternative is to rename/subst type parameters and compare.)
|
||||
u := newUnifier(true)
|
||||
u.x.init(ftyp.tparams)
|
||||
u.x.init(ftyp.TParams().list())
|
||||
if !u.unify(ftyp, mtyp) {
|
||||
return m, f
|
||||
}
|
||||
@ -367,10 +367,10 @@ func (check *Checker) missingMethod(V Type, T *Interface, static bool) (method,
|
||||
// both methods must have the same number of type parameters
|
||||
ftyp := f.typ.(*Signature)
|
||||
mtyp := m.typ.(*Signature)
|
||||
if len(ftyp.tparams) != len(mtyp.tparams) {
|
||||
if ftyp.TParams().Len() != mtyp.TParams().Len() {
|
||||
return m, f
|
||||
}
|
||||
if !acceptMethodTypeParams && len(ftyp.tparams) > 0 {
|
||||
if !acceptMethodTypeParams && ftyp.TParams().Len() > 0 {
|
||||
panic("internal error: method with type parameters")
|
||||
}
|
||||
|
||||
@ -381,17 +381,17 @@ func (check *Checker) missingMethod(V Type, T *Interface, static bool) (method,
|
||||
// In order to compare the signatures, substitute the receiver
|
||||
// type parameters of ftyp with V's instantiation type arguments.
|
||||
// This lazily instantiates the signature of method f.
|
||||
if Vn != nil && len(Vn.TParams()) > 0 {
|
||||
if Vn != nil && Vn.TParams().Len() > 0 {
|
||||
// Be careful: The number of type arguments may not match
|
||||
// the number of receiver parameters. If so, an error was
|
||||
// reported earlier but the length discrepancy is still
|
||||
// here. Exit early in this case to prevent an assertion
|
||||
// failure in makeSubstMap.
|
||||
// TODO(gri) Can we avoid this check by fixing the lengths?
|
||||
if len(ftyp.rparams) != len(Vn.targs) {
|
||||
if len(ftyp.RParams().list()) != len(Vn.targs) {
|
||||
return
|
||||
}
|
||||
ftyp = check.subst(nopos, ftyp, makeSubstMap(ftyp.rparams, Vn.targs)).(*Signature)
|
||||
ftyp = check.subst(nopos, ftyp, makeSubstMap(ftyp.RParams().list(), Vn.targs)).(*Signature)
|
||||
}
|
||||
|
||||
// If the methods have type parameters we don't care whether they
|
||||
@ -400,7 +400,7 @@ func (check *Checker) missingMethod(V Type, T *Interface, static bool) (method,
|
||||
// TODO(gri) is this always correct? what about type bounds?
|
||||
// (Alternative is to rename/subst type parameters and compare.)
|
||||
u := newUnifier(true)
|
||||
if len(ftyp.tparams) > 0 {
|
||||
if ftyp.TParams().Len() > 0 {
|
||||
// We reach here only if we accept method type parameters.
|
||||
// In this case, unification must consider any receiver
|
||||
// and method type parameters as "free" type parameters.
|
||||
@ -410,9 +410,9 @@ func (check *Checker) missingMethod(V Type, T *Interface, static bool) (method,
|
||||
// unimplemented call so that we test this code if we
|
||||
// enable method type parameters.
|
||||
unimplemented()
|
||||
u.x.init(append(ftyp.rparams, ftyp.tparams...))
|
||||
u.x.init(append(ftyp.RParams().list(), ftyp.TParams().list()...))
|
||||
} else {
|
||||
u.x.init(ftyp.rparams)
|
||||
u.x.init(ftyp.RParams().list())
|
||||
}
|
||||
if !u.unify(ftyp, mtyp) {
|
||||
return m, f
|
||||
|
@ -17,7 +17,7 @@ type Named struct {
|
||||
fromRHS Type // type (on RHS of declaration) this *Named type is derived from (for cycle reporting)
|
||||
underlying Type // possibly a *Named during setup; never a *Named once set up completely
|
||||
instance *instance // position information for lazy instantiation, or nil
|
||||
tparams []*TypeName // type parameters, or nil
|
||||
tparams *TypeParams // type parameters, or nil
|
||||
targs []Type // type arguments (after instantiation), or nil
|
||||
methods []*Func // methods declared for this type (not the method set of this type); signatures are type-checked lazily
|
||||
|
||||
@ -69,7 +69,7 @@ func (t *Named) load() *Named {
|
||||
panic("invalid underlying type")
|
||||
}
|
||||
|
||||
t.tparams = tparams
|
||||
t.tparams = bindTParams(tparams)
|
||||
t.underlying = underlying
|
||||
t.methods = methods
|
||||
})
|
||||
@ -77,7 +77,7 @@ func (t *Named) load() *Named {
|
||||
}
|
||||
|
||||
// newNamed is like NewNamed but with a *Checker receiver and additional orig argument.
|
||||
func (check *Checker) newNamed(obj *TypeName, orig *Named, underlying Type, tparams []*TypeName, methods []*Func) *Named {
|
||||
func (check *Checker) newNamed(obj *TypeName, orig *Named, underlying Type, tparams *TypeParams, 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
|
||||
@ -117,12 +117,10 @@ func (t *Named) Orig() *Named { return t.orig }
|
||||
|
||||
// TParams returns the type parameters of the named type t, or nil.
|
||||
// The result is non-nil for an (originally) parameterized type even if it is instantiated.
|
||||
func (t *Named) TParams() []*TypeName {
|
||||
return t.load().tparams
|
||||
}
|
||||
func (t *Named) TParams() *TypeParams { return t.load().tparams }
|
||||
|
||||
// SetTParams sets the type parameters of the named type t.
|
||||
func (t *Named) SetTParams(tparams []*TypeName) { t.load().tparams = tparams }
|
||||
func (t *Named) SetTParams(tparams []*TypeName) { t.load().tparams = bindTParams(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 }
|
||||
|
@ -475,8 +475,8 @@ func writeObject(buf *bytes.Buffer, obj Object, qf Qualifier) {
|
||||
if _, ok := typ.(*Basic); ok {
|
||||
return
|
||||
}
|
||||
if named, _ := typ.(*Named); named != nil && len(named.tparams) > 0 {
|
||||
writeTParamList(buf, named.tparams, qf, nil)
|
||||
if named, _ := typ.(*Named); named != nil && named.TParams().Len() > 0 {
|
||||
writeTParamList(buf, named.TParams().list(), qf, nil)
|
||||
}
|
||||
if tname.IsAlias() {
|
||||
buf.WriteString(" =")
|
||||
|
@ -227,7 +227,7 @@ func identical(x, y Type, cmpTags bool, p *ifacePair) bool {
|
||||
// parameter names.
|
||||
if y, ok := y.(*Signature); ok {
|
||||
return x.variadic == y.variadic &&
|
||||
identicalTParams(x.tparams, y.tparams, cmpTags, p) &&
|
||||
identicalTParams(x.TParams().list(), y.TParams().list(), cmpTags, p) &&
|
||||
identical(x.params, y.params, cmpTags, p) &&
|
||||
identical(x.results, y.results, cmpTags, p)
|
||||
}
|
||||
|
@ -19,8 +19,8 @@ type Signature struct {
|
||||
// and store it in the Func Object) because when type-checking a function
|
||||
// literal we call the general type checker which returns a general Type.
|
||||
// We then unpack the *Signature and use the scope for the literal body.
|
||||
rparams []*TypeName // receiver type parameters from left to right; or nil
|
||||
tparams []*TypeName // type parameters from left to right; or nil
|
||||
rparams *TypeParams // receiver type parameters from left to right, or nil
|
||||
tparams *TypeParams // type parameters from left to right, or nil
|
||||
scope *Scope // function scope, present for package-local signatures
|
||||
recv *Var // nil if not a method
|
||||
params *Tuple // (incoming) parameters from left to right; or nil
|
||||
@ -54,16 +54,16 @@ func NewSignature(recv *Var, params, results *Tuple, variadic bool) *Signature {
|
||||
func (s *Signature) Recv() *Var { return s.recv }
|
||||
|
||||
// TParams returns the type parameters of signature s, or nil.
|
||||
func (s *Signature) TParams() []*TypeName { return s.tparams }
|
||||
|
||||
// RParams returns the receiver type params of signature s, or nil.
|
||||
func (s *Signature) RParams() []*TypeName { return s.rparams }
|
||||
func (s *Signature) TParams() *TypeParams { return s.tparams }
|
||||
|
||||
// SetTParams sets the type parameters of signature s.
|
||||
func (s *Signature) SetTParams(tparams []*TypeName) { s.tparams = tparams }
|
||||
func (s *Signature) SetTParams(tparams []*TypeName) { s.tparams = bindTParams(tparams) }
|
||||
|
||||
// RParams returns the receiver type parameters of signature s, or nil.
|
||||
func (s *Signature) RParams() *TypeParams { return s.rparams }
|
||||
|
||||
// SetRParams sets the receiver type params of signature s.
|
||||
func (s *Signature) SetRParams(rparams []*TypeName) { s.rparams = rparams }
|
||||
func (s *Signature) SetRParams(rparams []*TypeName) { s.rparams = bindTParams(rparams) }
|
||||
|
||||
// Params returns the parameters of signature s, or nil.
|
||||
func (s *Signature) Params() *Tuple { return s.params }
|
||||
@ -119,10 +119,11 @@ func (check *Checker) funcType(sig *Signature, recvPar *syntax.Field, tparams []
|
||||
// blank identifiers were found => use rewritten receiver type
|
||||
recvTyp = isubst(recvPar.Type, smap)
|
||||
}
|
||||
sig.rparams = make([]*TypeName, len(rparams))
|
||||
rlist := make([]*TypeName, len(rparams))
|
||||
for i, rparam := range rparams {
|
||||
sig.rparams[i] = check.declareTypeParam(i, rparam)
|
||||
rlist[i] = check.declareTypeParam(rparam)
|
||||
}
|
||||
sig.rparams = bindTParams(rlist)
|
||||
// determine receiver type to get its type parameters
|
||||
// and the respective type parameter bounds
|
||||
var recvTParams []*TypeName
|
||||
@ -132,19 +133,19 @@ func (check *Checker) funcType(sig *Signature, recvPar *syntax.Field, tparams []
|
||||
// again when we type-check the signature.
|
||||
// TODO(gri) maybe the receiver should be marked as invalid instead?
|
||||
if recv := asNamed(check.genericType(rname, false)); recv != nil {
|
||||
recvTParams = recv.TParams()
|
||||
recvTParams = recv.TParams().list()
|
||||
}
|
||||
}
|
||||
// provide type parameter bounds
|
||||
// - only do this if we have the right number (otherwise an error is reported elsewhere)
|
||||
if len(sig.rparams) == len(recvTParams) {
|
||||
if sig.RParams().Len() == len(recvTParams) {
|
||||
// We have a list of *TypeNames but we need a list of Types.
|
||||
list := make([]Type, len(sig.rparams))
|
||||
for i, t := range sig.rparams {
|
||||
list := make([]Type, sig.RParams().Len())
|
||||
for i, t := range sig.RParams().list() {
|
||||
list[i] = t.typ
|
||||
}
|
||||
smap := makeSubstMap(recvTParams, list)
|
||||
for i, tname := range sig.rparams {
|
||||
for i, tname := range sig.RParams().list() {
|
||||
bound := recvTParams[i].typ.(*TypeParam).bound
|
||||
// bound is (possibly) parameterized in the context of the
|
||||
// receiver type declaration. Substitute parameters for the
|
||||
|
@ -26,12 +26,12 @@ func TestSizeof(t *testing.T) {
|
||||
{Struct{}, 24, 48},
|
||||
{Pointer{}, 8, 16},
|
||||
{Tuple{}, 12, 24},
|
||||
{Signature{}, 44, 88},
|
||||
{Signature{}, 28, 56},
|
||||
{Union{}, 12, 24},
|
||||
{Interface{}, 40, 80},
|
||||
{Map{}, 16, 32},
|
||||
{Chan{}, 12, 24},
|
||||
{Named{}, 88, 168},
|
||||
{Named{}, 80, 152},
|
||||
{TypeParam{}, 28, 48},
|
||||
{term{}, 12, 24},
|
||||
{top{}, 0, 0},
|
||||
|
@ -197,7 +197,7 @@ func (subst *subster) typ(typ Type) Type {
|
||||
if len(t.targs) > 0 {
|
||||
// already instantiated
|
||||
dump(">>> %s already instantiated", t)
|
||||
assert(len(t.targs) == len(t.TParams()))
|
||||
assert(len(t.targs) == t.TParams().Len())
|
||||
// For each (existing) type argument targ, determine if it needs
|
||||
// to be substituted; i.e., if it is or contains a type parameter
|
||||
// that has a type argument for it.
|
||||
@ -207,7 +207,7 @@ func (subst *subster) typ(typ Type) Type {
|
||||
if new_targ != targ {
|
||||
dump(">>> substituted %d targ %s => %s", i, targ, new_targ)
|
||||
if new_targs == nil {
|
||||
new_targs = make([]Type, len(t.TParams()))
|
||||
new_targs = make([]Type, t.TParams().Len())
|
||||
copy(new_targs, t.targs)
|
||||
}
|
||||
new_targs[i] = new_targ
|
||||
|
@ -28,15 +28,19 @@ type TypeParam struct {
|
||||
// Obj returns the type name for the type parameter t.
|
||||
func (t *TypeParam) Obj() *TypeName { return t.obj }
|
||||
|
||||
// NewTypeParam returns a new TypeParam. bound can be nil (and set later).
|
||||
func (check *Checker) NewTypeParam(obj *TypeName, index int, bound Type) *TypeParam {
|
||||
// NewTypeParam returns a new TypeParam. Type parameters may be set on a Named
|
||||
// or Signature type by calling SetTParams. Setting a type parameter on more
|
||||
// than one type will result in a panic.
|
||||
//
|
||||
// The bound argument can be nil, and set later via SetBound.
|
||||
func (check *Checker) NewTypeParam(obj *TypeName, bound Type) *TypeParam {
|
||||
// Always increment lastID, even if it is not used.
|
||||
id := nextID()
|
||||
if check != nil {
|
||||
check.nextID++
|
||||
id = check.nextID
|
||||
}
|
||||
typ := &TypeParam{check: check, id: id, obj: obj, index: index, bound: bound}
|
||||
typ := &TypeParam{check: check, id: id, obj: obj, index: -1, bound: bound}
|
||||
if obj.typ == nil {
|
||||
obj.typ = typ
|
||||
}
|
||||
@ -88,6 +92,42 @@ func (t *TypeParam) SetBound(bound Type) {
|
||||
func (t *TypeParam) Underlying() Type { return t }
|
||||
func (t *TypeParam) String() string { return TypeString(t, nil) }
|
||||
|
||||
// TypeParams holds a list of type parameters bound to a type.
|
||||
type TypeParams struct{ tparams []*TypeName }
|
||||
|
||||
// Len returns the number of type parameters in the list.
|
||||
// It is safe to call on a nil receiver.
|
||||
func (tps *TypeParams) Len() int {
|
||||
return len(tps.list())
|
||||
}
|
||||
|
||||
// At returns the i'th type parameter in the list.
|
||||
// It is safe to call on a nil receiver.
|
||||
func (tps *TypeParams) At(i int) *TypeName {
|
||||
return tps.list()[i]
|
||||
}
|
||||
|
||||
func (tps *TypeParams) list() []*TypeName {
|
||||
if tps == nil {
|
||||
return nil
|
||||
}
|
||||
return tps.tparams
|
||||
}
|
||||
|
||||
func bindTParams(list []*TypeName) *TypeParams {
|
||||
if len(list) == 0 {
|
||||
return nil
|
||||
}
|
||||
for i, tp := range list {
|
||||
typ := tp.Type().(*TypeParam)
|
||||
if typ.index >= 0 {
|
||||
panic("internal error: type parameter bound more than once")
|
||||
}
|
||||
typ.index = i
|
||||
}
|
||||
return &TypeParams{tparams: list}
|
||||
}
|
||||
|
||||
// ----------------------------------------------------------------------------
|
||||
// Implementation
|
||||
|
||||
|
@ -280,7 +280,7 @@ func writeType(buf *bytes.Buffer, typ Type, qf Qualifier, visited []Type) {
|
||||
buf.WriteByte(']')
|
||||
} else if t.TParams() != nil {
|
||||
// parameterized type
|
||||
writeTParamList(buf, t.TParams(), qf, visited)
|
||||
writeTParamList(buf, t.TParams().list(), qf, visited)
|
||||
}
|
||||
|
||||
case *TypeParam:
|
||||
@ -426,7 +426,7 @@ func WriteSignature(buf *bytes.Buffer, sig *Signature, qf Qualifier) {
|
||||
|
||||
func writeSignature(buf *bytes.Buffer, sig *Signature, qf Qualifier, visited []Type) {
|
||||
if sig.tparams != nil {
|
||||
writeTParamList(buf, sig.tparams, qf, visited)
|
||||
writeTParamList(buf, sig.TParams().list(), qf, visited)
|
||||
}
|
||||
|
||||
writeTuple(buf, sig.params, sig.variadic, qf, visited)
|
||||
|
Loading…
Reference in New Issue
Block a user