Commit 3036604b authored by Rob Pike's avatar Rob Pike

gob: do not encode or decode unexported fields

Such fields are simply ignored.

R=rsc, r2
CC=golang-dev
https://golang.org/cl/3889043
parent feb8d0b2
This diff is collapsed.
......@@ -137,32 +137,32 @@ func (dec *Decoder) debugRecvType(id typeId) {
func printWireType(wire *wireType) {
fmt.Printf("type definition {\n")
switch {
case wire.arrayT != nil:
printCommonType("array", &wire.arrayT.commonType)
fmt.Printf("\tlen %d\n\telemid %d\n", wire.arrayT.Len, wire.arrayT.Elem)
case wire.mapT != nil:
printCommonType("map", &wire.mapT.commonType)
fmt.Printf("\tkeyid %d\n", wire.mapT.Key)
fmt.Printf("\telemid %d\n", wire.mapT.Elem)
case wire.sliceT != nil:
printCommonType("slice", &wire.sliceT.commonType)
fmt.Printf("\telemid %d\n", wire.sliceT.Elem)
case wire.structT != nil:
printCommonType("struct", &wire.structT.commonType)
for i, field := range wire.structT.field {
fmt.Printf("\tfield %d:\t%s\tid=%d\n", i, field.name, field.id)
case wire.ArrayT != nil:
printCommonType("array", &wire.ArrayT.CommonType)
fmt.Printf("\tlen %d\n\telemid %d\n", wire.ArrayT.Len, wire.ArrayT.Elem)
case wire.MapT != nil:
printCommonType("map", &wire.MapT.CommonType)
fmt.Printf("\tkeyid %d\n", wire.MapT.Key)
fmt.Printf("\telemid %d\n", wire.MapT.Elem)
case wire.SliceT != nil:
printCommonType("slice", &wire.SliceT.CommonType)
fmt.Printf("\telemid %d\n", wire.SliceT.Elem)
case wire.StructT != nil:
printCommonType("struct", &wire.StructT.CommonType)
for i, field := range wire.StructT.Field {
fmt.Printf("\tfield %d:\t%s\tid=%d\n", i, field.Name, field.Id)
}
}
fmt.Printf("}\n")
}
func printCommonType(kind string, common *commonType) {
fmt.Printf("\t%s %q\n\tid: %d\n", kind, common.name, common._id)
func printCommonType(kind string, common *CommonType) {
fmt.Printf("\t%s %q\n\tid: %d\n", kind, common.Name, common.Id)
}
func (dec *Decoder) debugPrint(indent int, id typeId) {
wire, ok := dec.wireType[id]
if ok && wire.structT != nil {
if ok && wire.StructT != nil {
dec.debugStruct(indent+1, id, wire)
} else {
dec.debugSingle(indent+1, id, wire)
......@@ -193,32 +193,32 @@ func (dec *Decoder) printItem(indent int, id typeId) {
errorf("type id %d not defined\n", id)
}
switch {
case wire.arrayT != nil:
case wire.ArrayT != nil:
dec.printArray(indent, wire)
case wire.mapT != nil:
case wire.MapT != nil:
dec.printMap(indent, wire)
case wire.sliceT != nil:
case wire.SliceT != nil:
dec.printSlice(indent, wire)
case wire.structT != nil:
case wire.StructT != nil:
dec.debugStruct(indent, id, wire)
}
}
func (dec *Decoder) printArray(indent int, wire *wireType) {
elemId := wire.arrayT.Elem
elemId := wire.ArrayT.Elem
n := int(decodeUint(dec.state))
for i := 0; i < n && dec.err == nil; i++ {
dec.printItem(indent, elemId)
}
if n != wire.arrayT.Len {
if n != wire.ArrayT.Len {
tab(indent)
fmt.Printf("(wrong length for array: %d should be %d)\n", n, wire.arrayT.Len)
fmt.Printf("(wrong length for array: %d should be %d)\n", n, wire.ArrayT.Len)
}
}
func (dec *Decoder) printMap(indent int, wire *wireType) {
keyId := wire.mapT.Key
elemId := wire.mapT.Elem
keyId := wire.MapT.Key
elemId := wire.MapT.Elem
n := int(decodeUint(dec.state))
for i := 0; i < n && dec.err == nil; i++ {
dec.printItem(indent, keyId)
......@@ -227,7 +227,7 @@ func (dec *Decoder) printMap(indent int, wire *wireType) {
}
func (dec *Decoder) printSlice(indent int, wire *wireType) {
elemId := wire.sliceT.Elem
elemId := wire.SliceT.Elem
n := int(decodeUint(dec.state))
for i := 0; i < n && dec.err == nil; i++ {
dec.printItem(indent, elemId)
......@@ -273,8 +273,8 @@ func (dec *Decoder) printBuiltin(indent int, id typeId) {
func (dec *Decoder) debugStruct(indent int, id typeId, wire *wireType) {
tab(indent)
fmt.Printf("%s struct {\n", id.Name())
strct := wire.structT
fmt.Printf("%s struct {\n", id.name())
strct := wire.StructT
state := newDecodeState(dec, dec.state.b)
state.fieldnum = -1
for dec.err == nil {
......@@ -286,17 +286,17 @@ func (dec *Decoder) debugStruct(indent int, id typeId, wire *wireType) {
break
}
fieldNum := state.fieldnum + delta
if fieldNum < 0 || fieldNum >= len(strct.field) {
if fieldNum < 0 || fieldNum >= len(strct.Field) {
errorf("field number out of range")
break
}
tab(indent)
fmt.Printf("%s(%d):\n", wire.structT.field[fieldNum].name, fieldNum)
dec.printItem(indent+1, strct.field[fieldNum].id)
fmt.Printf("%s(%d):\n", wire.StructT.Field[fieldNum].Name, fieldNum)
dec.printItem(indent+1, strct.Field[fieldNum].Id)
state.fieldnum = fieldNum
}
tab(indent)
fmt.Printf(" } // end %s struct\n", id.Name())
fmt.Printf(" } // end %s struct\n", id.name())
}
func tab(indent int) {
......
......@@ -13,7 +13,9 @@ import (
"math"
"os"
"reflect"
"unicode"
"unsafe"
"utf8"
)
var (
......@@ -684,7 +686,7 @@ func (dec *Decoder) decOpFor(wireId typeId, rt reflect.Type, name string) (decOp
switch t := typ.(type) {
case *reflect.ArrayType:
name = "element of " + name
elemId := dec.wireType[wireId].arrayT.Elem
elemId := dec.wireType[wireId].ArrayT.Elem
elemOp, elemIndir := dec.decOpFor(elemId, t.Elem(), name)
ovfl := overflow(name)
op = func(i *decInstr, state *decodeState, p unsafe.Pointer) {
......@@ -693,8 +695,8 @@ func (dec *Decoder) decOpFor(wireId typeId, rt reflect.Type, name string) (decOp
case *reflect.MapType:
name = "element of " + name
keyId := dec.wireType[wireId].mapT.Key
elemId := dec.wireType[wireId].mapT.Elem
keyId := dec.wireType[wireId].MapT.Key
elemId := dec.wireType[wireId].MapT.Elem
keyOp, keyIndir := dec.decOpFor(keyId, t.Key(), name)
elemOp, elemIndir := dec.decOpFor(elemId, t.Elem(), name)
ovfl := overflow(name)
......@@ -713,7 +715,7 @@ func (dec *Decoder) decOpFor(wireId typeId, rt reflect.Type, name string) (decOp
if tt, ok := builtinIdToType[wireId]; ok {
elemId = tt.(*sliceType).Elem
} else {
elemId = dec.wireType[wireId].sliceT.Elem
elemId = dec.wireType[wireId].SliceT.Elem
}
elemOp, elemIndir := dec.decOpFor(elemId, t.Elem(), name)
ovfl := overflow(name)
......@@ -763,30 +765,30 @@ func (dec *Decoder) decIgnoreOpFor(wireId typeId) decOp {
switch {
case wire == nil:
panic("internal error: can't find ignore op for type " + wireId.string())
case wire.arrayT != nil:
elemId := wire.arrayT.Elem
case wire.ArrayT != nil:
elemId := wire.ArrayT.Elem
elemOp := dec.decIgnoreOpFor(elemId)
op = func(i *decInstr, state *decodeState, p unsafe.Pointer) {
state.dec.ignoreArray(state, elemOp, wire.arrayT.Len)
state.dec.ignoreArray(state, elemOp, wire.ArrayT.Len)
}
case wire.mapT != nil:
keyId := dec.wireType[wireId].mapT.Key
elemId := dec.wireType[wireId].mapT.Elem
case wire.MapT != nil:
keyId := dec.wireType[wireId].MapT.Key
elemId := dec.wireType[wireId].MapT.Elem
keyOp := dec.decIgnoreOpFor(keyId)
elemOp := dec.decIgnoreOpFor(elemId)
op = func(i *decInstr, state *decodeState, p unsafe.Pointer) {
state.dec.ignoreMap(state, keyOp, elemOp)
}
case wire.sliceT != nil:
elemId := wire.sliceT.Elem
case wire.SliceT != nil:
elemId := wire.SliceT.Elem
elemOp := dec.decIgnoreOpFor(elemId)
op = func(i *decInstr, state *decodeState, p unsafe.Pointer) {
state.dec.ignoreSlice(state, elemOp)
}
case wire.structT != nil:
case wire.StructT != nil:
// Generate a closure that calls out to the engine for the nested type.
enginePtr, err := dec.getIgnoreEnginePtr(wireId)
if err != nil {
......@@ -829,18 +831,18 @@ func (dec *Decoder) compatibleType(fr reflect.Type, fw typeId) bool {
return fw == tInterface
case *reflect.ArrayType:
wire, ok := dec.wireType[fw]
if !ok || wire.arrayT == nil {
if !ok || wire.ArrayT == nil {
return false
}
array := wire.arrayT
array := wire.ArrayT
return t.Len() == array.Len && dec.compatibleType(t.Elem(), array.Elem)
case *reflect.MapType:
wire, ok := dec.wireType[fw]
if !ok || wire.mapT == nil {
if !ok || wire.MapT == nil {
return false
}
mapType := wire.mapT
return dec.compatibleType(t.Key(), mapType.Key) && dec.compatibleType(t.Elem(), mapType.Elem)
MapType := wire.MapT
return dec.compatibleType(t.Key(), MapType.Key) && dec.compatibleType(t.Elem(), MapType.Elem)
case *reflect.SliceType:
// Is it an array of bytes?
if t.Elem().Kind() == reflect.Uint8 {
......@@ -851,7 +853,7 @@ func (dec *Decoder) compatibleType(fr reflect.Type, fw typeId) bool {
if tt, ok := builtinIdToType[fw]; ok {
sw = tt.(*sliceType)
} else {
sw = dec.wireType[fw].sliceT
sw = dec.wireType[fw].SliceT
}
elem, _ := indirect(t.Elem())
return sw != nil && dec.compatibleType(elem, sw.Elem)
......@@ -885,6 +887,12 @@ func (dec *Decoder) compileSingle(remoteId typeId, rt reflect.Type) (engine *dec
return
}
// Is this an exported - upper case - name?
func isExported(name string) bool {
rune, _ := utf8.DecodeRuneInString(name)
return unicode.IsUpper(rune)
}
func (dec *Decoder) compileDec(remoteId typeId, rt reflect.Type) (engine *decEngine, err os.Error) {
defer catchError(&err)
srt, ok := rt.(*reflect.StructType)
......@@ -897,29 +905,32 @@ func (dec *Decoder) compileDec(remoteId typeId, rt reflect.Type) (engine *decEng
if t, ok := builtinIdToType[remoteId]; ok {
wireStruct, _ = t.(*structType)
} else {
wireStruct = dec.wireType[remoteId].structT
wireStruct = dec.wireType[remoteId].StructT
}
if wireStruct == nil {
errorf("gob: type mismatch in decoder: want struct type %s; got non-struct", rt.String())
}
engine = new(decEngine)
engine.instr = make([]decInstr, len(wireStruct.field))
engine.instr = make([]decInstr, len(wireStruct.Field))
// Loop over the fields of the wire type.
for fieldnum := 0; fieldnum < len(wireStruct.field); fieldnum++ {
wireField := wireStruct.field[fieldnum]
for fieldnum := 0; fieldnum < len(wireStruct.Field); fieldnum++ {
wireField := wireStruct.Field[fieldnum]
if wireField.Name == "" {
errorf("gob: empty name for remote field of type %s", wireStruct.Name)
}
ovfl := overflow(wireField.Name)
// Find the field of the local type with the same name.
localField, present := srt.FieldByName(wireField.name)
ovfl := overflow(wireField.name)
localField, present := srt.FieldByName(wireField.Name)
// TODO(r): anonymous names
if !present {
op := dec.decIgnoreOpFor(wireField.id)
if !present || !isExported(wireField.Name) {
op := dec.decIgnoreOpFor(wireField.Id)
engine.instr[fieldnum] = decInstr{op, fieldnum, 0, 0, ovfl}
continue
}
if !dec.compatibleType(localField.Type, wireField.id) {
errorf("gob: wrong type (%s) for received field %s.%s", localField.Type, wireStruct.name, wireField.name)
if !dec.compatibleType(localField.Type, wireField.Id) {
errorf("gob: wrong type (%s) for received field %s.%s", localField.Type, wireStruct.Name, wireField.Name)
}
op, indir := dec.decOpFor(wireField.id, localField.Type, localField.Name)
op, indir := dec.decOpFor(wireField.Id, localField.Type, localField.Name)
engine.instr[fieldnum] = decInstr{op, fieldnum, indir, uintptr(localField.Offset), ovfl}
engine.numInstr++
}
......@@ -972,7 +983,7 @@ func (dec *Decoder) decode(wireId typeId, val reflect.Value) os.Error {
}
engine := *enginePtr
if st, ok := rt.(*reflect.StructType); ok {
if engine.numInstr == 0 && st.NumField() > 0 && len(dec.wireType[wireId].structT.field) > 0 {
if engine.numInstr == 0 && st.NumField() > 0 && len(dec.wireType[wireId].StructT.Field) > 0 {
name := rt.Name()
return os.ErrorString("gob: type mismatch: no fields matched compiling decoder for " + name)
}
......
......@@ -149,31 +149,34 @@ pair (-type id, encoded-type) where encoded-type is the gob encoding of a wireTy
description, constructed from these types:
type wireType struct {
s structType
ArrayT *ArrayType
SliceT *SliceType
StructT *StructType
MapT *MapType
}
type arrayType struct {
commonType
type ArrayType struct {
CommonType
Elem typeId
Len int
}
type commonType {
name string // the name of the struct type
_id int // the id of the type, repeated for so it's inside the type
type CommonType {
Name string // the name of the struct type
Id int // the id of the type, repeated so it's inside the type
}
type sliceType struct {
commonType
type SliceType struct {
CommonType
Elem typeId
}
type structType struct {
commonType
field []*fieldType // the fields of the struct.
type StructType struct {
CommonType
Field []*fieldType // the fields of the struct.
}
type fieldType struct {
name string // the name of the field.
id int // the type id of the field, which must be already defined
type FieldType struct {
Name string // the name of the field.
Id int // the type id of the field, which must be already defined
}
type mapType struct {
commonType
type MapType struct {
CommonType
Key typeId
Elem typeId
}
......@@ -193,14 +196,14 @@ priori, as well as the basic gob types int, uint, etc. Their ids are:
complex 7
interface 8
// gap for reserved ids.
wireType 16
arrayType 17
commonType 18
sliceType 19
structType 20
fieldType 21
WireType 16
ArrayType 17
CommonType 18
SliceType 19
StructType 20
FieldType 21
// 22 is slice of fieldType.
mapType 23
MapType 23
Finally, each message created by a call to Encode is preceded by an encoded
unsigned integer count of the number of bytes remaining in the message. After
......
......@@ -284,6 +284,9 @@ func encComplex128(i *encInstr, state *encoderState, p unsafe.Pointer) {
}
}
func encNoOp(i *encInstr, state *encoderState, p unsafe.Pointer) {
}
// Byte arrays are encoded as an unsigned count followed by the raw bytes.
func encUint8Array(i *encInstr, state *encoderState, p unsafe.Pointer) {
b := *(*[]byte)(p)
......@@ -539,6 +542,9 @@ func (enc *Encoder) compileEnc(rt reflect.Type) *encEngine {
for fieldnum := 0; fieldnum < srt.NumField(); fieldnum++ {
f := srt.Field(fieldnum)
op, indir := enc.encOpFor(f.Type)
if !isExported(f.Name) {
op = encNoOp
}
engine.instr[fieldnum] = encInstr{op, fieldnum, indir, uintptr(f.Offset)}
}
engine.instr[srt.NumField()] = encInstr{encStructTerminator, 0, 0, 0}
......
......@@ -14,35 +14,35 @@ import (
)
type ET2 struct {
x string
X string
}
type ET1 struct {
a int
et2 *ET2
next *ET1
A int
Et2 *ET2
Next *ET1
}
// Like ET1 but with a different name for a field
type ET3 struct {
a int
et2 *ET2
differentNext *ET1
A int
Et2 *ET2
DifferentNext *ET1
}
// Like ET1 but with a different type for a field
type ET4 struct {
a int
et2 float
next int
A int
Et2 float
Next int
}
func TestEncoderDecoder(t *testing.T) {
b := new(bytes.Buffer)
enc := NewEncoder(b)
et1 := new(ET1)
et1.a = 7
et1.et2 = new(ET2)
et1.A = 7
et1.Et2 = new(ET2)
err := enc.Encode(et1)
if err != nil {
t.Error("encoder fail:", err)
......@@ -92,8 +92,8 @@ func badTypeCheck(e interface{}, shouldFail bool, msg string, t *testing.T) {
b := new(bytes.Buffer)
enc := NewEncoder(b)
et1 := new(ET1)
et1.a = 7
et1.et2 = new(ET2)
et1.A = 7
et1.Et2 = new(ET2)
err := enc.Encode(et1)
if err != nil {
t.Error("encoder fail:", err)
......@@ -166,7 +166,7 @@ func encAndDec(in, out interface{}) os.Error {
func TestTypeToPtrType(t *testing.T) {
// Encode a T, decode a *T
type Type0 struct {
a int
A int
}
t0 := Type0{7}
t0p := (*Type0)(nil)
......@@ -178,7 +178,7 @@ func TestTypeToPtrType(t *testing.T) {
func TestPtrTypeToType(t *testing.T) {
// Encode a *T, decode a T
type Type1 struct {
a uint
A uint
}
t1p := &Type1{17}
var t1 Type1
......@@ -189,26 +189,26 @@ func TestPtrTypeToType(t *testing.T) {
func TestTypeToPtrPtrPtrPtrType(t *testing.T) {
type Type2 struct {
a ****float
A ****float
}
t2 := Type2{}
t2.a = new(***float)
*t2.a = new(**float)
**t2.a = new(*float)
***t2.a = new(float)
****t2.a = 27.4
t2.A = new(***float)
*t2.A = new(**float)
**t2.A = new(*float)
***t2.A = new(float)
****t2.A = 27.4
t2pppp := new(***Type2)
if err := encAndDec(t2, t2pppp); err != nil {
t.Error(err)
t.Fatal(err)
}
if ****(****t2pppp).a != ****t2.a {
t.Errorf("wrong value after decode: %g not %g", ****(****t2pppp).a, ****t2.a)
if ****(****t2pppp).A != ****t2.A {
t.Errorf("wrong value after decode: %g not %g", ****(****t2pppp).A, ****t2.A)
}
}
func TestSlice(t *testing.T) {
type Type3 struct {
a []string
A []string
}
t3p := &Type3{[]string{"hello", "world"}}
var t3 Type3
......@@ -231,11 +231,11 @@ func TestValueError(t *testing.T) {
func TestArray(t *testing.T) {
type Type5 struct {
a [3]string
b [3]byte
A [3]string
B [3]byte
}
type Type6 struct {
a [2]string // can't hold t5.a
A [2]string // can't hold t5.a
}
t5 := Type5{[3]string{"hello", ",", "world"}, [3]byte{1, 2, 3}}
var t5p Type5
......@@ -251,10 +251,10 @@ func TestArray(t *testing.T) {
// Regression test for bug: must send zero values inside arrays
func TestDefaultsInArray(t *testing.T) {
type Type7 struct {
b []bool
i []int
s []string
f []float
B []bool
I []int
S []string
F []float
}
t7 := Type7{
[]bool{false, false, true},
......@@ -329,7 +329,7 @@ func TestSingletons(t *testing.T) {
func TestStructNonStruct(t *testing.T) {
type Struct struct {
a string
A string
}
type NonStruct string
s := Struct{"hello"}
......
......@@ -29,7 +29,7 @@ const firstUserId = 64 // lowest id number granted to user
type gobType interface {
id() typeId
setId(id typeId)
Name() string
name() string
string() string // not public; only for debugging
safeString(seen map[typeId]bool) string
}
......@@ -60,30 +60,30 @@ func (t typeId) string() string {
}
// Name returns the name of the type associated with the typeId.
func (t typeId) Name() string {
func (t typeId) name() string {
if t.gobType() == nil {
return "<nil>"
}
return t.gobType().Name()
return t.gobType().name()
}
// Common elements of all types.
type commonType struct {
name string
_id typeId
type CommonType struct {
Name string
Id typeId
}
func (t *commonType) id() typeId { return t._id }
func (t *CommonType) id() typeId { return t.Id }
func (t *commonType) setId(id typeId) { t._id = id }
func (t *CommonType) setId(id typeId) { t.Id = id }
func (t *commonType) string() string { return t.name }
func (t *CommonType) string() string { return t.Name }
func (t *commonType) safeString(seen map[typeId]bool) string {
return t.name
func (t *CommonType) safeString(seen map[typeId]bool) string {
return t.Name
}
func (t *commonType) Name() string { return t.name }
func (t *CommonType) name() string { return t.Name }
// Create and check predefined types
// The string for tBytes is "bytes" not "[]byte" to signify its specialness.
......@@ -115,7 +115,7 @@ func init() {
// Some magic numbers to make sure there are no surprises.
checkId(16, tWireType)
checkId(17, mustGetTypeInfo(reflect.Typeof(arrayType{})).id)
checkId(18, mustGetTypeInfo(reflect.Typeof(commonType{})).id)
checkId(18, mustGetTypeInfo(reflect.Typeof(CommonType{})).id)
checkId(19, mustGetTypeInfo(reflect.Typeof(sliceType{})).id)
checkId(20, mustGetTypeInfo(reflect.Typeof(structType{})).id)
checkId(21, mustGetTypeInfo(reflect.Typeof(fieldType{})).id)
......@@ -137,22 +137,22 @@ func init() {
// Array type
type arrayType struct {
commonType
CommonType
Elem typeId
Len int
}
func newArrayType(name string, elem gobType, length int) *arrayType {
a := &arrayType{commonType{name: name}, elem.id(), length}
a := &arrayType{CommonType{Name: name}, elem.id(), length}
setTypeId(a)
return a
}
func (a *arrayType) safeString(seen map[typeId]bool) string {
if seen[a._id] {
return a.name
if seen[a.Id] {
return a.Name
}
seen[a._id] = true
seen[a.Id] = true
return fmt.Sprintf("[%d]%s", a.Len, a.Elem.gobType().safeString(seen))
}
......@@ -160,22 +160,22 @@ func (a *arrayType) string() string { return a.safeString(make(map[typeId]bool))
// Map type
type mapType struct {
commonType
CommonType
Key typeId
Elem typeId
}
func newMapType(name string, key, elem gobType) *mapType {
m := &mapType{commonType{name: name}, key.id(), elem.id()}
m := &mapType{CommonType{Name: name}, key.id(), elem.id()}
setTypeId(m)
return m
}
func (m *mapType) safeString(seen map[typeId]bool) string {
if seen[m._id] {
return m.name
if seen[m.Id] {
return m.Name
}
seen[m._id] = true
seen[m.Id] = true
key := m.Key.gobType().safeString(seen)
elem := m.Elem.gobType().safeString(seen)
return fmt.Sprintf("map[%s]%s", key, elem)
......@@ -185,21 +185,21 @@ func (m *mapType) string() string { return m.safeString(make(map[typeId]bool)) }
// Slice type
type sliceType struct {
commonType
CommonType
Elem typeId
}
func newSliceType(name string, elem gobType) *sliceType {
s := &sliceType{commonType{name: name}, elem.id()}
s := &sliceType{CommonType{Name: name}, elem.id()}
setTypeId(s)
return s
}
func (s *sliceType) safeString(seen map[typeId]bool) string {
if seen[s._id] {
return s.name
if seen[s.Id] {
return s.Name
}
seen[s._id] = true
seen[s.Id] = true
return fmt.Sprintf("[]%s", s.Elem.gobType().safeString(seen))
}
......@@ -207,26 +207,26 @@ func (s *sliceType) string() string { return s.safeString(make(map[typeId]bool))
// Struct type
type fieldType struct {
name string
id typeId
Name string
Id typeId
}
type structType struct {
commonType
field []*fieldType
CommonType
Field []*fieldType
}
func (s *structType) safeString(seen map[typeId]bool) string {
if s == nil {
return "<nil>"
}
if _, ok := seen[s._id]; ok {
return s.name
if _, ok := seen[s.Id]; ok {
return s.Name
}
seen[s._id] = true
str := s.name + " = struct { "
for _, f := range s.field {
str += fmt.Sprintf("%s %s; ", f.name, f.id.gobType().safeString(seen))
seen[s.Id] = true
str := s.Name + " = struct { "
for _, f := range s.Field {
str += fmt.Sprintf("%s %s; ", f.Name, f.Id.gobType().safeString(seen))
}
str += "}"
return str
......@@ -235,7 +235,7 @@ func (s *structType) safeString(seen map[typeId]bool) string {
func (s *structType) string() string { return s.safeString(make(map[typeId]bool)) }
func newStructType(name string) *structType {
s := &structType{commonType{name: name}, nil}
s := &structType{CommonType{Name: name}, nil}
setTypeId(s)
return s
}
......@@ -329,7 +329,7 @@ func newTypeObject(name string, rt reflect.Type) (gobType, os.Error) {
}
field[i] = &fieldType{f.Name, gt.id()}
}
strType.field = field
strType.Field = field
return strType, nil
default:
......@@ -356,7 +356,7 @@ func getType(name string, rt reflect.Type) (gobType, os.Error) {
func checkId(want, got typeId) {
if want != got {
fmt.Fprintf(os.Stderr, "checkId: %d should be %d\n", int(want), int(got))
panic("bootstrap type wrong id: " + got.Name() + " " + got.string() + " not " + want.string())
panic("bootstrap type wrong id: " + got.name() + " " + got.string() + " not " + want.string())
}
}
......@@ -367,7 +367,7 @@ func bootstrapType(name string, e interface{}, expect typeId) typeId {
if present {
panic("bootstrap type already present: " + name + ", " + rt.String())
}
typ := &commonType{name: name}
typ := &CommonType{Name: name}
types[rt] = typ
setTypeId(typ)
checkId(expect, nextId)
......@@ -386,10 +386,10 @@ func bootstrapType(name string, e interface{}, expect typeId) typeId {
// To maintain binary compatibility, if you extend this type, always put
// the new fields last.
type wireType struct {
arrayT *arrayType
sliceT *sliceType
structT *structType
mapT *mapType
ArrayT *arrayType
SliceT *sliceType
StructT *structType
MapT *mapType
}
func (w *wireType) string() string {
......@@ -398,14 +398,14 @@ func (w *wireType) string() string {
return unknown
}
switch {
case w.arrayT != nil:
return w.arrayT.name
case w.sliceT != nil:
return w.sliceT.name
case w.structT != nil:
return w.structT.name
case w.mapT != nil:
return w.mapT.name
case w.ArrayT != nil:
return w.ArrayT.Name
case w.SliceT != nil:
return w.SliceT.Name
case w.StructT != nil:
return w.StructT.Name
case w.MapT != nil:
return w.MapT.Name
}
return unknown
}
......@@ -436,16 +436,16 @@ func getTypeInfo(rt reflect.Type) (*typeInfo, os.Error) {
t := info.id.gobType()
switch typ := rt.(type) {
case *reflect.ArrayType:
info.wire = &wireType{arrayT: t.(*arrayType)}
info.wire = &wireType{ArrayT: t.(*arrayType)}
case *reflect.MapType:
info.wire = &wireType{mapT: t.(*mapType)}
info.wire = &wireType{MapT: t.(*mapType)}
case *reflect.SliceType:
// []byte == []uint8 is a special case handled separately
if typ.Elem().Kind() != reflect.Uint8 {
info.wire = &wireType{sliceT: t.(*sliceType)}
info.wire = &wireType{SliceT: t.(*sliceType)}
}
case *reflect.StructType:
info.wire = &wireType{structT: t.(*structType)}
info.wire = &wireType{StructT: t.(*structType)}
}
typeInfoMap[rt] = info
}
......
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