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protobuf-go/internal/impl/legacy_extension.go
Joe Tsai e14d6b3cdc reflect/protoreflect: add FieldDescriptor.TextName 
Add a new TextName accessor that returns the field name that should
be used for the text format. It is usually just the field name, except:
1) it uses the inlined message name for groups,
2) uses the full name surrounded by brackets for extensions, and
3) strips the "message_set_extension" for well-formed extensions
to the proto1 MessageSet.

We make similar adjustments to the JSONName accessor so that it applies
similar semantics for extensions.

The two changes simplifies all logic that wants the humanly readable
name for a field.

Change-Id: I524b6e017fb955146db81819270fe197f8f97980
Reviewed-on: https://go-review.googlesource.com/c/protobuf/+/239838
Reviewed-by: Herbie Ong <herbie@google.com>
2020-07-08 23:23:57 +00:00

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// Copyright 2018 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 impl
import (
"reflect"
"google.golang.org/protobuf/internal/descopts"
"google.golang.org/protobuf/internal/encoding/messageset"
ptag "google.golang.org/protobuf/internal/encoding/tag"
"google.golang.org/protobuf/internal/filedesc"
"google.golang.org/protobuf/internal/pragma"
pref "google.golang.org/protobuf/reflect/protoreflect"
preg "google.golang.org/protobuf/reflect/protoregistry"
piface "google.golang.org/protobuf/runtime/protoiface"
)
func (xi *ExtensionInfo) initToLegacy() {
xd := xi.desc
var parent piface.MessageV1
messageName := xd.ContainingMessage().FullName()
if mt, _ := preg.GlobalTypes.FindMessageByName(messageName); mt != nil {
// Create a new parent message and unwrap it if possible.
mv := mt.New().Interface()
t := reflect.TypeOf(mv)
if mv, ok := mv.(unwrapper); ok {
t = reflect.TypeOf(mv.protoUnwrap())
}
// Check whether the message implements the legacy v1 Message interface.
mz := reflect.Zero(t).Interface()
if mz, ok := mz.(piface.MessageV1); ok {
parent = mz
}
}
// Determine the v1 extension type, which is unfortunately not the same as
// the v2 ExtensionType.GoType.
extType := xi.goType
switch extType.Kind() {
case reflect.Bool, reflect.Int32, reflect.Int64, reflect.Uint32, reflect.Uint64, reflect.Float32, reflect.Float64, reflect.String:
extType = reflect.PtrTo(extType) // T -> *T for singular scalar fields
}
// Reconstruct the legacy enum full name.
var enumName string
if xd.Kind() == pref.EnumKind {
enumName = legacyEnumName(xd.Enum())
}
// Derive the proto file that the extension was declared within.
var filename string
if fd := xd.ParentFile(); fd != nil {
filename = fd.Path()
}
// For MessageSet extensions, the name used is the parent message.
name := xd.FullName()
if messageset.IsMessageSetExtension(xd) {
name = name.Parent()
}
xi.ExtendedType = parent
xi.ExtensionType = reflect.Zero(extType).Interface()
xi.Field = int32(xd.Number())
xi.Name = string(name)
xi.Tag = ptag.Marshal(xd, enumName)
xi.Filename = filename
}
// initFromLegacy initializes an ExtensionInfo from
// the contents of the deprecated exported fields of the type.
func (xi *ExtensionInfo) initFromLegacy() {
// The v1 API returns "type incomplete" descriptors where only the
// field number is specified. In such a case, use a placeholder.
if xi.ExtendedType == nil || xi.ExtensionType == nil {
xd := placeholderExtension{
name: pref.FullName(xi.Name),
number: pref.FieldNumber(xi.Field),
}
xi.desc = extensionTypeDescriptor{xd, xi}
return
}
// Resolve enum or message dependencies.
var ed pref.EnumDescriptor
var md pref.MessageDescriptor
t := reflect.TypeOf(xi.ExtensionType)
isOptional := t.Kind() == reflect.Ptr && t.Elem().Kind() != reflect.Struct
isRepeated := t.Kind() == reflect.Slice && t.Elem().Kind() != reflect.Uint8
if isOptional || isRepeated {
t = t.Elem()
}
switch v := reflect.Zero(t).Interface().(type) {
case pref.Enum:
ed = v.Descriptor()
case enumV1:
ed = LegacyLoadEnumDesc(t)
case pref.ProtoMessage:
md = v.ProtoReflect().Descriptor()
case messageV1:
md = LegacyLoadMessageDesc(t)
}
// Derive basic field information from the struct tag.
var evs pref.EnumValueDescriptors
if ed != nil {
evs = ed.Values()
}
fd := ptag.Unmarshal(xi.Tag, t, evs).(*filedesc.Field)
// Construct a v2 ExtensionType.
xd := &filedesc.Extension{L2: new(filedesc.ExtensionL2)}
xd.L0.ParentFile = filedesc.SurrogateProto2
xd.L0.FullName = pref.FullName(xi.Name)
xd.L1.Number = pref.FieldNumber(xi.Field)
xd.L1.Cardinality = fd.L1.Cardinality
xd.L1.Kind = fd.L1.Kind
xd.L2.IsPacked = fd.L1.IsPacked
xd.L2.Default = fd.L1.Default
xd.L1.Extendee = Export{}.MessageDescriptorOf(xi.ExtendedType)
xd.L2.Enum = ed
xd.L2.Message = md
// Derive real extension field name for MessageSets.
if messageset.IsMessageSet(xd.L1.Extendee) && md.FullName() == xd.L0.FullName {
xd.L0.FullName = xd.L0.FullName.Append(messageset.ExtensionName)
}
tt := reflect.TypeOf(xi.ExtensionType)
if isOptional {
tt = tt.Elem()
}
xi.goType = tt
xi.desc = extensionTypeDescriptor{xd, xi}
}
type placeholderExtension struct {
name pref.FullName
number pref.FieldNumber
}
func (x placeholderExtension) ParentFile() pref.FileDescriptor { return nil }
func (x placeholderExtension) Parent() pref.Descriptor { return nil }
func (x placeholderExtension) Index() int { return 0 }
func (x placeholderExtension) Syntax() pref.Syntax { return 0 }
func (x placeholderExtension) Name() pref.Name { return x.name.Name() }
func (x placeholderExtension) FullName() pref.FullName { return x.name }
func (x placeholderExtension) IsPlaceholder() bool { return true }
func (x placeholderExtension) Options() pref.ProtoMessage { return descopts.Field }
func (x placeholderExtension) Number() pref.FieldNumber { return x.number }
func (x placeholderExtension) Cardinality() pref.Cardinality { return 0 }
func (x placeholderExtension) Kind() pref.Kind { return 0 }
func (x placeholderExtension) HasJSONName() bool { return false }
func (x placeholderExtension) JSONName() string { return "[" + string(x.name) + "]" }
func (x placeholderExtension) TextName() string { return "[" + string(x.name) + "]" }
func (x placeholderExtension) HasPresence() bool { return false }
func (x placeholderExtension) HasOptionalKeyword() bool { return false }
func (x placeholderExtension) IsExtension() bool { return true }
func (x placeholderExtension) IsWeak() bool { return false }
func (x placeholderExtension) IsPacked() bool { return false }
func (x placeholderExtension) IsList() bool { return false }
func (x placeholderExtension) IsMap() bool { return false }
func (x placeholderExtension) MapKey() pref.FieldDescriptor { return nil }
func (x placeholderExtension) MapValue() pref.FieldDescriptor { return nil }
func (x placeholderExtension) HasDefault() bool { return false }
func (x placeholderExtension) Default() pref.Value { return pref.Value{} }
func (x placeholderExtension) DefaultEnumValue() pref.EnumValueDescriptor { return nil }
func (x placeholderExtension) ContainingOneof() pref.OneofDescriptor { return nil }
func (x placeholderExtension) ContainingMessage() pref.MessageDescriptor { return nil }
func (x placeholderExtension) Enum() pref.EnumDescriptor { return nil }
func (x placeholderExtension) Message() pref.MessageDescriptor { return nil }
func (x placeholderExtension) ProtoType(pref.FieldDescriptor) { return }
func (x placeholderExtension) ProtoInternal(pragma.DoNotImplement) { return }
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