1
0
mirror of https://github.com/golang/go synced 2024-11-22 21:00:04 -07:00

go/parser: move type params in scope for the function signature

Type parameter resolution is a bit tricky: type parameters are in the
function scope, but unlike ordinary parameters may reference eachother.
When resolving the function scope, we must be careful about the order in
which objects are resolved and declared.

Using ordering allows us to avoid passing around temporary scopes for
field declarations.

Add a bunch of tests for this behavior, and skip "_" in resolution tests
as it just adds noise.

For #45221

Change-Id: Id080cddce3fd76396bf86ba5aba856aedf64a458
Reviewed-on: https://go-review.googlesource.com/c/go/+/304456
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>
This commit is contained in:
Rob Findley 2021-03-24 21:55:49 -04:00 committed by Robert Findley
parent 13368ab56a
commit 9e8a312b71
6 changed files with 119 additions and 38 deletions

View File

@ -19,12 +19,12 @@ const debugResolve = false
// If declErr is non-nil, it is used to report declaration errors during
// resolution. tok is used to format position in error messages.
func resolveFile(file *ast.File, handle *token.File, declErr func(token.Pos, string)) {
topScope := ast.NewScope(nil)
pkgScope := ast.NewScope(nil)
r := &resolver{
handle: handle,
declErr: declErr,
topScope: topScope,
pkgScope: topScope,
topScope: pkgScope,
pkgScope: pkgScope,
}
for _, decl := range file.Decls {
@ -245,9 +245,10 @@ func (r *resolver) Visit(node ast.Node) ast.Visitor {
r.resolve(n, true)
case *ast.FuncLit:
functionScope := ast.NewScope(r.topScope)
r.walkFuncType(functionScope, n.Type)
r.walkBody(functionScope, n.Body)
r.openScope(n.Pos())
defer r.closeScope()
r.walkFuncType(n.Type)
r.walkBody(n.Body)
case *ast.SelectorExpr:
ast.Walk(r, n.X)
@ -255,12 +256,14 @@ func (r *resolver) Visit(node ast.Node) ast.Visitor {
// resolution.
case *ast.StructType:
scope := ast.NewScope(nil)
r.walkFieldList(scope, n.Fields, ast.Var)
r.openScope(n.Pos())
defer r.closeScope()
r.walkFieldList(n.Fields, ast.Var)
case *ast.FuncType:
scope := ast.NewScope(r.topScope)
r.walkFuncType(scope, n)
r.openScope(n.Pos())
defer r.closeScope()
r.walkFuncType(n)
case *ast.CompositeLit:
if n.Type != nil {
@ -283,8 +286,9 @@ func (r *resolver) Visit(node ast.Node) ast.Visitor {
}
case *ast.InterfaceType:
scope := ast.NewScope(nil)
r.walkFieldList(scope, n.Methods, ast.Fun)
r.openScope(n.Pos())
defer r.closeScope()
r.walkFieldList(n.Methods, ast.Fun)
// Statements
case *ast.LabeledStmt:
@ -454,17 +458,36 @@ func (r *resolver) Visit(node ast.Node) ast.Visitor {
if tparams := typeparams.Get(spec); tparams != nil {
r.openScope(spec.Pos())
defer r.closeScope()
r.walkFieldList(r.topScope, tparams, ast.Typ)
r.walkTParams(tparams)
}
ast.Walk(r, spec.Type)
}
}
case *ast.FuncDecl:
scope := ast.NewScope(r.topScope)
r.walkFieldList(scope, n.Recv, ast.Var)
r.walkFuncType(scope, n.Type)
r.walkBody(scope, n.Body)
// Open the function scope.
r.openScope(n.Pos())
defer r.closeScope()
// Resolve the receiver first, without declaring.
r.resolveList(n.Recv)
// Type parameters are walked normally: they can reference each other, and
// can be referenced by normal parameters.
if tparams := typeparams.Get(n.Type); tparams != nil {
r.walkTParams(tparams)
// TODO(rFindley): need to address receiver type parameters.
}
// Resolve and declare parameters in a specific order to get duplicate
// declaration errors in the correct location.
r.resolveList(n.Type.Params)
r.resolveList(n.Type.Results)
r.declareList(n.Recv, ast.Var)
r.declareList(n.Type.Params, ast.Var)
r.declareList(n.Type.Results, ast.Var)
r.walkBody(n.Body)
if n.Recv == nil && n.Name.Name != "init" {
r.declare(n, nil, r.pkgScope, ast.Fun, n.Name)
}
@ -476,12 +499,15 @@ func (r *resolver) Visit(node ast.Node) ast.Visitor {
return nil
}
func (r *resolver) walkFuncType(scope *ast.Scope, typ *ast.FuncType) {
r.walkFieldList(scope, typ.Params, ast.Var)
r.walkFieldList(scope, typ.Results, ast.Var)
func (r *resolver) walkFuncType(typ *ast.FuncType) {
// typ.TParams must be walked separately for FuncDecls.
r.resolveList(typ.Params)
r.resolveList(typ.Results)
r.declareList(typ.Params, ast.Var)
r.declareList(typ.Results, ast.Var)
}
func (r *resolver) walkFieldList(scope *ast.Scope, list *ast.FieldList, kind ast.ObjKind) {
func (r *resolver) resolveList(list *ast.FieldList) {
if list == nil {
return
}
@ -489,16 +515,41 @@ func (r *resolver) walkFieldList(scope *ast.Scope, list *ast.FieldList, kind ast
if f.Type != nil {
ast.Walk(r, f.Type)
}
r.declare(f, nil, scope, kind, f.Names...)
}
}
func (r *resolver) walkBody(scope *ast.Scope, body *ast.BlockStmt) {
func (r *resolver) declareList(list *ast.FieldList, kind ast.ObjKind) {
if list == nil {
return
}
for _, f := range list.List {
r.declare(f, nil, r.topScope, kind, f.Names...)
}
}
func (r *resolver) walkFieldList(list *ast.FieldList, kind ast.ObjKind) {
if list == nil {
return
}
r.resolveList(list)
r.declareList(list, kind)
}
// walkTParams is like walkFieldList, but declares type parameters eagerly so
// that they may be resolved in the constraint expressions held in the field
// Type.
func (r *resolver) walkTParams(list *ast.FieldList) {
if list == nil {
return
}
r.declareList(list, ast.Typ)
r.resolveList(list)
}
func (r *resolver) walkBody(body *ast.BlockStmt) {
if body == nil {
return
}
r.topScope = scope // open function scope
defer r.closeScope()
r.openLabelScope()
defer r.closeLabelScope()
r.walkStmts(body.List)

View File

@ -86,7 +86,8 @@ func TestResolution(t *testing.T) {
func declsFromParser(file *ast.File) map[token.Pos]token.Pos {
objmap := map[token.Pos]token.Pos{}
ast.Inspect(file, func(node ast.Node) bool {
if ident, _ := node.(*ast.Ident); ident != nil && ident.Obj != nil {
// Ignore blank identifiers to reduce noise.
if ident, _ := node.(*ast.Ident); ident != nil && ident.Obj != nil && ident.Name != "_" {
objmap[ident.Pos()] = ident.Obj.Pos()
}
return true

View File

@ -8,7 +8,7 @@ type obj /* =@obj */ struct {
name /*=@name */ string
}
func _ /* =@blank */ () {
func _() {
var foo /* =@foo */ = "foo"
obj /* @obj */ ["foo"]
obj /* @obj */ .run()
@ -19,8 +19,8 @@ func _ /* =@blank */ () {
name: "bar",
}.run()
var _ /* @=blank4 */ = File{key: obj /* @obj */ {}}
var _ /* @=blank3 */ = File{obj /* @obj */ {}}
var _ = File{key: obj /* @obj */ {}}
var _ = File{obj /* @obj */ {}}
[]obj /* @obj */ {foo /* @foo */}
x /* =@x1 */ := obj /* @obj */{}

View File

@ -6,7 +6,7 @@ package issue45160
func mklink1 /* =@mklink1func */() {}
func _ /* =@blank */ () {
func _() {
var tests /* =@tests */ = []dirLinkTest /* @dirLinkTest */ {
{
mklink1 /* @mklink1func */: func() {},

View File

@ -21,7 +21,7 @@ const (
type T /* =@T */ int
func _ /* =@blankFunc */ (count /* =@count */ T /* @T */) {
func _(count /* =@count */ T /* @T */) {
x /* =@x1 */ := c /* @cdecl */{}
switch x /* =@x2 */ := x /* @x1 */; x /* =@x3 */ := x /* @x2 */.(type) {
case c /* @cdecl */:
@ -39,8 +39,19 @@ loop /* =@loop */:
case err /* =@err2 */ := <-_:
return err /* @err2 */
}
_ = func(p1 /* =@p1 */ int, p2 /* =@p2 */ p1) {
closed /* =@closed */ := p1 // @p1
shadowed /* =@shadowed1 */ := p2 // @p2
_ = func(shadowed /* =@shadowed2 */ p2 /* @p2 */) {
closed /* @closed */ = 1
shadowed /* @shadowed2 */ = 2
}
}
}
func (r /* =@r */ c /* @cdecl */) m(_ r) c /* @cdecl */ { return r /* @r */ }
var cycle /* =@cycle */ = cycle /* @cycle */ + 1
type chain /* =@chain */ struct {

View File

@ -9,17 +9,35 @@ type List /* =@List */ [E /* =@E */ any] []E // @E
type Pair /* =@Pair */ [L /* =@L */, R /* =@R */ any] struct {
Left /* =@Left */ L // @L
Right /* =@Right */ R // @R
L /* =@Lfield */ int
}
var _ /* =@blank */ = Pair /* @Pair */ [int, string]{}
var _ = Pair /* @Pair */ [int, string]{}
type Addable /* =@Addable */ interface {
type int64, float64
}
// TODO (#45221): resolve references to T in the signature below.
// TODO(rFindley): re-enable these once type parameter resolution is fixed.
// func Add /* =@AddDecl */[T /* =@T */ Addable /* @Addable */](l /* =@l */, r /* =@r */ T) T {
// var t /* =@t */ T /* @T */
// return l /* @l */ + r /* @r */ + t /* @t */
// }
func Add /* =@AddDecl */[T /* =@T */ Addable /* @Addable */](l /* =@l */, r /* =@r */ T /* @T */) T /* @T */ {
var t /* =@t */ T /* @T */
return l /* @l */ + r /* @r */ + t /* @t */
}
type Receiver /* =@Receiver */[P /* =@P */ any] struct {}
// TODO(rFindley): make a decision on how/whether to resolve identifiers that
// refer to receiver type parameters, as is the case for the 'P' result
// parameter below.
func (r /* =@recv */ Receiver /* @Receiver */ [P]) m() P {}
func f /* =@f */[T1 /* =@T1 */ interface{type []T2 /* @T2 */}, T2 /* =@T2 */ any](
x /* =@x */ T1 /* @T1 */, T1 /* =@T1_duplicate */ y, // Note that this is a bug:
// the duplicate T1 should
// not be allowed.
){
// Note that duplicate short var declarations resolve to their alt declaration.
x /* @x */ := 0
y /* =@y */ := 0
T1 /* @T1 */ := 0
var t1var /* =@t1var */ T1 /* @T1 */
}