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go/types: use correct recv for parameterized embedded methods
This is a direct port of CL 298129 to go/types. Fixes #44688 Change-Id: I950992ea7beea5b9c8bea0c296b5ce03b2aa9b12 Reviewed-on: https://go-review.googlesource.com/c/go/+/298349 Trust: Robert Findley <rfindley@google.com> Trust: Robert Griesemer <gri@golang.org> Run-TryBot: Robert Findley <rfindley@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: Robert Griesemer <gri@golang.org>
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@ -592,31 +592,42 @@ func (check *Checker) selector(x *operand, e *ast.SelectorExpr) {
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// methods may not have a fully set up signature yet
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if m, _ := obj.(*Func); m != nil {
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check.objDecl(m, nil)
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// If m has a parameterized receiver type, infer the type parameter
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// values from the actual receiver provided and then substitute the
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// type parameters in the signature accordingly.
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// If m has a parameterized receiver type, infer the type arguments from
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// the actual receiver provided and then substitute the type parameters in
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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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// 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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// embedded struct or interface that declared the method.
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// Traverse the embedding to find that type (issue #44688).
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recv := x.typ
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for i := 0; i < len(index)-1; i++ {
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// The embedded type is either a struct or a pointer to
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// a struct except for the last one (which we don't need).
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recv = asStruct(derefStructPtr(recv)).Field(index[i]).typ
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}
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// The method may have a pointer receiver, but the actually provided receiver
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// may be a (hopefully addressable) non-pointer value, or vice versa. Here we
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// only care about inferring receiver type parameters; to make the inference
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// work, match up pointer-ness of receiver and argument.
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arg := x
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if ptrRecv := isPointer(sig.recv.typ); ptrRecv != isPointer(arg.typ) {
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copy := *arg
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if ptrRecv := isPointer(sig.recv.typ); ptrRecv != isPointer(recv) {
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if ptrRecv {
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copy.typ = NewPointer(arg.typ)
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recv = NewPointer(recv)
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} else {
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copy.typ = arg.typ.(*Pointer).base
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recv = recv.(*Pointer).base
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}
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arg = ©
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}
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targs, failed := check.infer(sig.rparams, NewTuple(sig.recv), []*operand{arg})
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arg := operand{mode: variable, expr: x.expr, typ: recv}
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targs, failed := check.infer(sig.rparams, NewTuple(sig.recv), []*operand{&arg})
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if failed >= 0 {
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// We may reach here if there were other errors (see issue #40056).
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// check.infer will report a follow-up error.
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// TODO(gri) avoid the follow-up error or provide better explanation.
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// TODO(gri) avoid the follow-up error as it is confusing
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// (there's no inference in the source code)
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goto Error
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}
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// Don't modify m. Instead - for now - make a copy of m and use that instead.
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83
src/go/types/fixedbugs/issue44688.go2
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83
src/go/types/fixedbugs/issue44688.go2
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@ -0,0 +1,83 @@
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// Copyright 2021 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package P
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type A1[T any] struct{}
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func (*A1[T]) m1(T) {}
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type A2[T any] interface {
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m2(T)
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}
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type B1[T any] struct {
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filler int
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*A1[T]
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A2[T]
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}
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type B2[T any] interface {
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A2[T]
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}
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type C[T any] struct {
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filler1 int
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filler2 int
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B1[T]
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}
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type D[T any] struct {
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filler1 int
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filler2 int
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filler3 int
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C[T]
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}
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func _() {
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// calling embedded methods
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var b1 B1[string]
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b1.A1.m1("")
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b1.m1("")
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b1.A2.m2("")
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b1.m2("")
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var b2 B2[string]
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b2.m2("")
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// a deeper nesting
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var d D[string]
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d.m1("")
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d.m2("")
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// calling method expressions
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m1x := B1[string].m1
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m1x(b1, "")
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m2x := B2[string].m2
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m2x(b2, "")
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// calling method values
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m1v := b1.m1
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m1v("")
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m2v := b1.m2
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m2v("")
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b2v := b2.m2
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b2v("")
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}
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// actual test case from issue
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type A[T any] struct{}
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func (*A[T]) f(T) {}
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type B[T any] struct{ A[T] }
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func _() {
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var b B[string]
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b.A.f("")
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b.f("")
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}
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