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[dev.typealias] cmd/compile, go/types, go/importer: various alias related fixes

cmd/compile:
- remove crud from prior alias implementation
- better comments in places

go/types:
- fix TypeName.IsAlias predicate
- more tests

go/importer (go/internal/gcimporter15):
- handle "@" format for anonymous fields using aliases
  (currently tested indirectly via x/tools/gcimporter15 tests)

For #18130.

Change-Id: I23a6d4e3a4c2a5c1ae589513da73fde7cad5f386
Reviewed-on: https://go-review.googlesource.com/35101
Reviewed-by: Alan Donovan <adonovan@google.com>
This commit is contained in:
Robert Griesemer 2016-12-27 16:53:33 -08:00
parent 49de5f0351
commit f011e0c6c3
5 changed files with 53 additions and 72 deletions

View File

@ -447,30 +447,6 @@ func unidealType(typ *Type, val Val) *Type {
}
func (p *exporter) obj(sym *Sym) {
if sym.Flags&SymAlias != 0 {
p.tag(aliasTag)
p.pos(nil) // TODO(gri) fix position information
// Aliases can only be exported from the package that
// declares them (aliases to aliases are resolved to the
// original object, and so are uses of aliases in inlined
// exported function bodies). Thus, we only need the alias
// name without package qualification.
if sym.Pkg != localpkg {
Fatalf("exporter: export of non-local alias: %v", sym)
}
p.string(sym.Name)
orig := sym.Def.Sym
if orig.Flags&SymAlias != 0 {
Fatalf("exporter: original object %v marked as alias", sym)
}
p.qualifiedName(orig)
return
}
if sym != sym.Def.Sym {
Fatalf("exporter: exported object %v is not original %v", sym, sym.Def.Sym)
}
// Exported objects may be from different packages because they
// may be re-exported via an exported alias or as dependencies in
// exported inlined function bodies. Thus, exported object names
@ -885,15 +861,15 @@ func (p *exporter) fieldName(t *Field) {
name := t.Sym.Name
if t.Embedded != 0 {
// anonymous field - we distinguish between 3 cases:
// 1) field name matches base type name and name is exported
// 2) field name matches base type name and name is not exported
// 3) field name doesn't match base type name (type name is alias)
// 1) field name matches base type name and is exported
// 2) field name matches base type name and is not exported
// 3) field name doesn't match base type name (alias name)
bname := basetypeName(t.Type)
if name == bname {
if exportname(name) {
name = "" // 1) we don't need to know the name
name = "" // 1) we don't need to know the field name or package
} else {
name = "?" // 2) use unexported name to force package export
name = "?" // 2) use unexported name "?" to force package export
}
} else {
// 3) indicate alias and export name as is
@ -920,11 +896,10 @@ func basetypeName(t *Type) string {
if s == nil && t.IsPtr() {
s = t.Elem().Sym // deref
}
// s should exist, but be conservative
if s != nil {
return s.Name
}
return ""
return "" // unnamed type
}
func (p *exporter) paramList(params *Type, numbered bool) {

View File

@ -582,7 +582,7 @@ func (p *importer) field() *Field {
f := newField()
if sym.Name == "" {
// anonymous field - typ must be T or *T and T must be a type name
// anonymous field: typ must be T or *T and T must be a type name
s := typ.Sym
if s == nil && typ.IsPtr() {
s = typ.Elem().Sym // deref
@ -590,6 +590,7 @@ func (p *importer) field() *Field {
sym = sym.Pkg.Lookup(s.Name)
f.Embedded = 1
} else if sym.Flags&SymAlias != 0 {
// anonymous field: we have an explicit name because it's an alias
f.Embedded = 1
}
@ -635,13 +636,13 @@ func (p *importer) fieldName() *Sym {
var flag SymFlags
switch name {
case "":
// field name is exported - nothing to do
// 1) field name matches base type name and is exported: nothing to do
case "?":
// field name is not exported - need package
// 2) field name matches base type name and is not exported: need package
name = ""
pkg = p.pkg()
case "@":
// field name doesn't match type name (alias)
// 3) field name doesn't match base type name (alias name): need name and possibly package
name = p.string()
flag = SymAlias
fallthrough

View File

@ -341,9 +341,7 @@ var (
func (p *importer) qualifiedName() (pkg *types.Package, name string) {
name = p.string()
if name != "" {
pkg = p.pkg()
}
pkg = p.pkg()
return
}
@ -556,7 +554,7 @@ func (p *importer) fieldList(parent *types.Package) (fields []*types.Var, tags [
func (p *importer) field(parent *types.Package) (*types.Var, string) {
pos := p.pos()
pkg, name := p.fieldName(parent)
pkg, name, alias := p.fieldName(parent)
typ := p.typ(parent)
tag := p.string()
@ -570,9 +568,12 @@ func (p *importer) field(parent *types.Package) (*types.Var, string) {
case *types.Named:
name = typ.Obj().Name()
default:
errorf("anonymous field expected")
errorf("named base type expected")
}
anonymous = true
} else if alias {
// anonymous field: we have an explicit name because it's an alias
anonymous = true
}
return types.NewField(pos, pkg, name, typ, anonymous), tag
@ -590,41 +591,42 @@ func (p *importer) methodList(parent *types.Package) (methods []*types.Func) {
func (p *importer) method(parent *types.Package) *types.Func {
pos := p.pos()
pkg, name := p.fieldName(parent)
pkg, name, _ := p.fieldName(parent)
params, isddd := p.paramList()
result, _ := p.paramList()
sig := types.NewSignature(nil, params, result, isddd)
return types.NewFunc(pos, pkg, name, sig)
}
func (p *importer) fieldName(parent *types.Package) (*types.Package, string) {
name := p.string()
pkg := parent
func (p *importer) fieldName(parent *types.Package) (pkg *types.Package, name string, alias bool) {
name = p.string()
pkg = parent
if pkg == nil {
// use the imported package instead
pkg = p.pkgList[0]
}
if p.version == 0 && name == "_" {
// version 0 didn't export a package for _ fields
return pkg, name
return
}
switch name {
case "":
// field name is exported - nothing to do
// 1) field name matches base type name and is exported: nothing to do
case "?":
// field name is not exported - need package
// 2) field name matches base type name and is not exported: need package
name = ""
pkg = p.pkg()
case "@":
// field name doesn't match type name (alias)
// 3) field name doesn't match type name (alias)
name = p.string()
alias = true
fallthrough
default:
if !exported(name) {
pkg = p.pkg()
}
}
return pkg, name
return
}
func (p *importer) paramList() (*types.Tuple, bool) {

View File

@ -163,23 +163,19 @@ func NewTypeName(pos token.Pos, pkg *Package, name string, typ Type) *TypeName {
return &TypeName{object{nil, pos, pkg, name, typ, 0, token.NoPos}}
}
// IsAlias reports whether obj is an alias name for a type.
func (obj *TypeName) IsAlias() bool {
switch t := obj.typ.(type) {
case nil:
return false
case *Basic:
// It would seem that we should be able to look for different names here;
// but the names of universeByte/Rune are "byte" and "rune", respectively.
// We do this so that we get better error messages. However, general alias
// types don't have that name information and thus behave differently when
// reporting errors (we won't see the alias name, only the original name).
// Maybe we should remove the special handling for the predeclared types
// as well to be consistent (at the cost of slightly less clear error
// messages when byte/rune are involved).
// This also plays out in the implementation of the Identical(Type, Type)
// predicate.
// TODO(gri) consider possible clean up
return t == universeByte || t == universeRune
// Any user-defined type name for a basic type is an alias for a
// basic type (because basic types are pre-declared in the Universe
// scope, outside any package scope), and so is any type name with
// a different name than the name of the basic type it refers to.
// Additionaly, we need to look for "byte" and "rune" because they
// are aliases but have the same names (for better error messages).
return obj.pkg != nil || t.name != obj.name || t == universeByte || t == universeRune
case *Named:
return obj != t.obj
default:

View File

@ -21,16 +21,23 @@ func TestIsAlias(t *testing.T) {
}
// various other types
t0 := NewTypeName(0, nil, "t0", nil)
check(t0, false) // no type yet
t1 := NewTypeName(0, nil, "t1", nil)
pkg := NewPackage("p", "p")
t1 := NewTypeName(0, pkg, "t1", nil)
n1 := NewNamed(t1, new(Struct), nil)
check(t1, false) // type name refers to named type and vice versa
t2 := NewTypeName(0, nil, "t2", new(Interface))
check(t2, true) // type name refers to unnamed type
t3 := NewTypeName(0, nil, "t3", n1)
check(t3, true) // type name refers to named type with different type name (true alias)
for _, test := range []struct {
name *TypeName
alias bool
}{
{NewTypeName(0, nil, "t0", nil), false}, // no type yet
{NewTypeName(0, pkg, "t0", nil), false}, // no type yet
{t1, false}, // type name refers to named type and vice versa
{NewTypeName(0, nil, "t2", new(Interface)), true}, // type name refers to unnamed type
{NewTypeName(0, pkg, "t3", n1), true}, // type name refers to named type with different type name
{NewTypeName(0, nil, "t4", Typ[Int32]), true}, // type name refers to basic type with different name
{NewTypeName(0, nil, "int32", Typ[Int32]), false}, // type name refers to basic type with same name
{NewTypeName(0, pkg, "int32", Typ[Int32]), true}, // type name is declared in user-defined package (outside Universe)
{NewTypeName(0, nil, "rune", Typ[Rune]), true}, // type name refers to basic type rune which is an alias already
} {
check(test.name, test.alias)
}
}