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cmd/compile/internal/gc: use sort.Interface for reflect methods

Generate slices of method *Sig(nature)s instead of linked lists.
Remove custom lsort function in favor of sort.Interface.

Eliminates another use of stringsCompare.

Passes go build -a -toolexec 'toolstash -cmp' std cmd.

Change-Id: I9ed1664b7f55be9e967dd7196e396a76f6ea3422
Reviewed-on: https://go-review.googlesource.com/14559
Reviewed-by: Dave Cheney <dave@cheney.net>
This commit is contained in:
Håvard Haugen 2015-09-15 00:16:35 +02:00 committed by Dave Cheney
parent ebd96933c1
commit bca70a66a7
3 changed files with 117 additions and 149 deletions

View File

@ -376,7 +376,6 @@ type Sig struct {
type_ *Type
mtype *Type
offset int32
link *Sig
}
type Io struct {

View File

@ -9,6 +9,7 @@ import (
"cmd/internal/obj"
"fmt"
"os"
"sort"
)
/*
@ -16,93 +17,30 @@ import (
*/
var signatlist *NodeList
func sigcmp(a *Sig, b *Sig) int {
i := stringsCompare(a.name, b.name)
if i != 0 {
return i
}
if a.pkg == b.pkg {
return 0
}
if a.pkg == nil {
return -1
}
if b.pkg == nil {
return +1
}
return stringsCompare(a.pkg.Path, b.pkg.Path)
// byMethodNameAndPackagePath sorts method signatures by name, then package path.
type byMethodNameAndPackagePath []*Sig
func (x byMethodNameAndPackagePath) Len() int { return len(x) }
func (x byMethodNameAndPackagePath) Swap(i, j int) { x[i], x[j] = x[j], x[i] }
func (x byMethodNameAndPackagePath) Less(i, j int) bool {
return siglt(x[i], x[j])
}
func lsort(l *Sig, f func(*Sig, *Sig) int) *Sig {
if l == nil || l.link == nil {
return l
// siglt reports whether a < b
func siglt(a, b *Sig) bool {
if a.name != b.name {
return a.name < b.name
}
l1 := l
l2 := l
for {
l2 = l2.link
if l2 == nil {
break
}
l2 = l2.link
if l2 == nil {
break
}
l1 = l1.link
if a.pkg == b.pkg {
return false
}
l2 = l1.link
l1.link = nil
l1 = lsort(l, f)
l2 = lsort(l2, f)
/* set up lead element */
if f(l1, l2) < 0 {
l = l1
l1 = l1.link
} else {
l = l2
l2 = l2.link
if a.pkg == nil {
return true
}
le := l
for {
if l1 == nil {
for l2 != nil {
le.link = l2
le = l2
l2 = l2.link
}
le.link = nil
break
}
if l2 == nil {
for l1 != nil {
le.link = l1
le = l1
l1 = l1.link
}
break
}
if f(l1, l2) < 0 {
le.link = l1
le = l1
l1 = l1.link
} else {
le.link = l2
le = l2
l2 = l2.link
}
if b.pkg == nil {
return false
}
le.link = nil
return l
return a.pkg.Path < b.pkg.Path
}
// Builds a type representing a Bucket structure for
@ -335,11 +273,9 @@ func methodfunc(f *Type, receiver *Type) *Type {
return t
}
/*
* return methods of non-interface type t, sorted by name.
* generates stub functions as needed.
*/
func methods(t *Type) *Sig {
// methods returns the methods of the non-interface type t, sorted by name.
// Generates stub functions as needed.
func methods(t *Type) []*Sig {
// method type
mt := methtype(t, 0)
@ -357,11 +293,7 @@ func methods(t *Type) *Sig {
// make list of methods for t,
// generating code if necessary.
var a *Sig
var this *Type
var b *Sig
var method *Sym
var ms []*Sig
for f := mt.Xmethod; f != nil; f = f.Down {
if f.Etype != TFIELD {
Fatalf("methods: not field %v", f)
@ -376,7 +308,7 @@ func methods(t *Type) *Sig {
continue
}
method = f.Sym
method := f.Sym
if method == nil {
continue
}
@ -385,7 +317,7 @@ func methods(t *Type) *Sig {
// if pointer receiver but non-pointer t and
// this is not an embedded pointer inside a struct,
// method does not apply.
this = getthisx(f.Type).Type.Type
this := getthisx(f.Type).Type.Type
if Isptr[this.Etype] && this.Type == t {
continue
@ -394,55 +326,48 @@ func methods(t *Type) *Sig {
continue
}
b = new(Sig)
b.link = a
a = b
var sig Sig
ms = append(ms, &sig)
a.name = method.Name
sig.name = method.Name
if !exportname(method.Name) {
if method.Pkg == nil {
Fatalf("methods: missing package")
}
a.pkg = method.Pkg
sig.pkg = method.Pkg
}
a.isym = methodsym(method, it, 1)
a.tsym = methodsym(method, t, 0)
a.type_ = methodfunc(f.Type, t)
a.mtype = methodfunc(f.Type, nil)
sig.isym = methodsym(method, it, 1)
sig.tsym = methodsym(method, t, 0)
sig.type_ = methodfunc(f.Type, t)
sig.mtype = methodfunc(f.Type, nil)
if a.isym.Flags&SymSiggen == 0 {
a.isym.Flags |= SymSiggen
if sig.isym.Flags&SymSiggen == 0 {
sig.isym.Flags |= SymSiggen
if !Eqtype(this, it) || this.Width < Types[Tptr].Width {
compiling_wrappers = 1
genwrapper(it, f, a.isym, 1)
genwrapper(it, f, sig.isym, 1)
compiling_wrappers = 0
}
}
if a.tsym.Flags&SymSiggen == 0 {
a.tsym.Flags |= SymSiggen
if sig.tsym.Flags&SymSiggen == 0 {
sig.tsym.Flags |= SymSiggen
if !Eqtype(this, t) {
compiling_wrappers = 1
genwrapper(t, f, a.tsym, 0)
genwrapper(t, f, sig.tsym, 0)
compiling_wrappers = 0
}
}
}
return lsort(a, sigcmp)
sort.Sort(byMethodNameAndPackagePath(ms))
return ms
}
/*
* return methods of interface type t, sorted by name.
*/
func imethods(t *Type) *Sig {
var a *Sig
var method *Sym
var isym *Sym
var all *Sig
var last *Sig
// imethods returns the methods of the interface type t, sorted by name.
func imethods(t *Type) []*Sig {
var methods []*Sig
for f := t.Type; f != nil; f = f.Down {
if f.Etype != TFIELD {
Fatalf("imethods: not field")
@ -450,29 +375,28 @@ func imethods(t *Type) *Sig {
if f.Type.Etype != TFUNC || f.Sym == nil {
continue
}
method = f.Sym
a = new(Sig)
a.name = method.Name
method := f.Sym
var sig = Sig{
name: method.Name,
}
if !exportname(method.Name) {
if method.Pkg == nil {
Fatalf("imethods: missing package")
}
a.pkg = method.Pkg
sig.pkg = method.Pkg
}
a.mtype = f.Type
a.offset = 0
a.type_ = methodfunc(f.Type, nil)
sig.mtype = f.Type
sig.offset = 0
sig.type_ = methodfunc(f.Type, nil)
if last != nil && sigcmp(last, a) >= 0 {
Fatalf("sigcmp vs sortinter %s %s", last.name, a.name)
if n := len(methods); n > 0 {
last := methods[n-1]
if !(siglt(last, &sig)) {
Fatalf("sigcmp vs sortinter %s %s", last.name, sig.name)
}
}
if last == nil {
all = a
} else {
last.link = a
}
last = a
methods = append(methods, &sig)
// Compiler can only refer to wrappers for non-blank methods.
if isblanksym(method) {
@ -483,7 +407,7 @@ func imethods(t *Type) *Sig {
// IfaceType.Method is not in the reflect data.
// Generate the method body, so that compiled
// code can refer to it.
isym = methodsym(method, t, 0)
isym := methodsym(method, t, 0)
if isym.Flags&SymSiggen == 0 {
isym.Flags |= SymSiggen
@ -491,7 +415,7 @@ func imethods(t *Type) *Sig {
}
}
return all
return methods
}
var dimportpath_gopkg *Pkg
@ -559,7 +483,7 @@ func dgopkgpath(s *Sym, ot int, pkg *Pkg) int {
*/
func dextratype(sym *Sym, off int, t *Type, ptroff int) int {
m := methods(t)
if t.Sym == nil && m == nil {
if t.Sym == nil && len(m) == 0 {
return off
}
@ -568,10 +492,8 @@ func dextratype(sym *Sym, off int, t *Type, ptroff int) int {
dsymptr(sym, ptroff, sym, off)
n := 0
for a := m; a != nil; a = a.link {
for _, a := range m {
dtypesym(a.type_)
n++
}
ot := off
@ -591,11 +513,12 @@ func dextratype(sym *Sym, off int, t *Type, ptroff int) int {
// slice header
ot = dsymptr(s, ot, s, ot+Widthptr+2*Widthint)
n := len(m)
ot = duintxx(s, ot, uint64(n), Widthint)
ot = duintxx(s, ot, uint64(n), Widthint)
// methods
for a := m; a != nil; a = a.link {
for _, a := range m {
// method
// ../../runtime/type.go:/method
ot = dgostringptr(s, ot, a.name)
@ -1171,28 +1094,27 @@ ok:
case TINTER:
m := imethods(t)
n := 0
for a := m; a != nil; a = a.link {
n := len(m)
for _, a := range m {
dtypesym(a.type_)
n++
}
// ../../runtime/type.go:/InterfaceType
// ../../../runtime/type.go:/InterfaceType
ot = dcommontype(s, ot, t)
xt = ot - 2*Widthptr
ot = dsymptr(s, ot, s, ot+Widthptr+2*Widthint)
ot = duintxx(s, ot, uint64(n), Widthint)
ot = duintxx(s, ot, uint64(n), Widthint)
for a := m; a != nil; a = a.link {
// ../../runtime/type.go:/imethod
for _, a := range m {
// ../../../runtime/type.go:/imethod
ot = dgostringptr(s, ot, a.name)
ot = dgopkgpath(s, ot, a.pkg)
ot = dsymptr(s, ot, dtypesym(a.type_), 0)
}
// ../../runtime/type.go:/MapType
// ../../../runtime/type.go:/MapType
case TMAP:
s1 := dtypesym(t.Down)

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@ -0,0 +1,47 @@
// Copyright 2015 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 gc
import (
"reflect"
"sort"
"testing"
)
func TestSortingByMethodNameAndPackagePath(t *testing.T) {
data := []*Sig{
&Sig{name: "b", pkg: &Pkg{Path: "abc"}},
&Sig{name: "b", pkg: nil},
&Sig{name: "c", pkg: nil},
&Sig{name: "c", pkg: &Pkg{Path: "uvw"}},
&Sig{name: "c", pkg: nil},
&Sig{name: "b", pkg: &Pkg{Path: "xyz"}},
&Sig{name: "a", pkg: &Pkg{Path: "abc"}},
&Sig{name: "b", pkg: nil},
}
want := []*Sig{
&Sig{name: "a", pkg: &Pkg{Path: "abc"}},
&Sig{name: "b", pkg: nil},
&Sig{name: "b", pkg: nil},
&Sig{name: "b", pkg: &Pkg{Path: "abc"}},
&Sig{name: "b", pkg: &Pkg{Path: "xyz"}},
&Sig{name: "c", pkg: nil},
&Sig{name: "c", pkg: nil},
&Sig{name: "c", pkg: &Pkg{Path: "uvw"}},
}
if len(data) != len(want) {
t.Fatal("want and data must match")
}
if reflect.DeepEqual(data, want) {
t.Fatal("data must be shuffled")
}
sort.Sort(byMethodNameAndPackagePath(data))
if !reflect.DeepEqual(data, want) {
t.Logf("want: %#v", want)
t.Logf("data: %#v", data)
t.Errorf("sorting failed")
}
}