vendor/google.golang.org/genproto/protobuf/descriptor.pb.go

// Code generated by protoc-gen-go.
// source: google.golang.org/genproto/protobuf/descriptor.proto
// DO NOT EDIT!

package descriptor

import proto "github.com/golang/protobuf/proto"
import fmt "fmt"
import math "math"

// Reference imports to suppress errors if they are not otherwise used.
var _ = proto.Marshal
var _ = fmt.Errorf
var _ = math.Inf

type FieldDescriptorProto_Type int32

const (
	// 0 is reserved for errors.
	// Order is weird for historical reasons.
	FieldDescriptorProto_TYPE_DOUBLE FieldDescriptorProto_Type = 1
	FieldDescriptorProto_TYPE_FLOAT  FieldDescriptorProto_Type = 2
	// Not ZigZag encoded.  Negative numbers take 10 bytes.  Use TYPE_SINT64 if
	// negative values are likely.
	FieldDescriptorProto_TYPE_INT64  FieldDescriptorProto_Type = 3
	FieldDescriptorProto_TYPE_UINT64 FieldDescriptorProto_Type = 4
	// Not ZigZag encoded.  Negative numbers take 10 bytes.  Use TYPE_SINT32 if
	// negative values are likely.
	FieldDescriptorProto_TYPE_INT32   FieldDescriptorProto_Type = 5
	FieldDescriptorProto_TYPE_FIXED64 FieldDescriptorProto_Type = 6
	FieldDescriptorProto_TYPE_FIXED32 FieldDescriptorProto_Type = 7
	FieldDescriptorProto_TYPE_BOOL    FieldDescriptorProto_Type = 8
	FieldDescriptorProto_TYPE_STRING  FieldDescriptorProto_Type = 9
	FieldDescriptorProto_TYPE_GROUP   FieldDescriptorProto_Type = 10
	FieldDescriptorProto_TYPE_MESSAGE FieldDescriptorProto_Type = 11
	// New in version 2.
	FieldDescriptorProto_TYPE_BYTES    FieldDescriptorProto_Type = 12
	FieldDescriptorProto_TYPE_UINT32   FieldDescriptorProto_Type = 13
	FieldDescriptorProto_TYPE_ENUM     FieldDescriptorProto_Type = 14
	FieldDescriptorProto_TYPE_SFIXED32 FieldDescriptorProto_Type = 15
	FieldDescriptorProto_TYPE_SFIXED64 FieldDescriptorProto_Type = 16
	FieldDescriptorProto_TYPE_SINT32   FieldDescriptorProto_Type = 17
	FieldDescriptorProto_TYPE_SINT64   FieldDescriptorProto_Type = 18
)

var FieldDescriptorProto_Type_name = map[int32]string{
	1:  "TYPE_DOUBLE",
	2:  "TYPE_FLOAT",
	3:  "TYPE_INT64",
	4:  "TYPE_UINT64",
	5:  "TYPE_INT32",
	6:  "TYPE_FIXED64",
	7:  "TYPE_FIXED32",
	8:  "TYPE_BOOL",
	9:  "TYPE_STRING",
	10: "TYPE_GROUP",
	11: "TYPE_MESSAGE",
	12: "TYPE_BYTES",
	13: "TYPE_UINT32",
	14: "TYPE_ENUM",
	15: "TYPE_SFIXED32",
	16: "TYPE_SFIXED64",
	17: "TYPE_SINT32",
	18: "TYPE_SINT64",
}
var FieldDescriptorProto_Type_value = map[string]int32{
	"TYPE_DOUBLE":   1,
	"TYPE_FLOAT":    2,
	"TYPE_INT64":    3,
	"TYPE_UINT64":   4,
	"TYPE_INT32":    5,
	"TYPE_FIXED64":  6,
	"TYPE_FIXED32":  7,
	"TYPE_BOOL":     8,
	"TYPE_STRING":   9,
	"TYPE_GROUP":    10,
	"TYPE_MESSAGE":  11,
	"TYPE_BYTES":    12,
	"TYPE_UINT32":   13,
	"TYPE_ENUM":     14,
	"TYPE_SFIXED32": 15,
	"TYPE_SFIXED64": 16,
	"TYPE_SINT32":   17,
	"TYPE_SINT64":   18,
}

func (x FieldDescriptorProto_Type) Enum() *FieldDescriptorProto_Type {
	p := new(FieldDescriptorProto_Type)
	*p = x
	return p
}
func (x FieldDescriptorProto_Type) String() string {
	return proto.EnumName(FieldDescriptorProto_Type_name, int32(x))
}
func (x *FieldDescriptorProto_Type) UnmarshalJSON(data []byte) error {
	value, err := proto.UnmarshalJSONEnum(FieldDescriptorProto_Type_value, data, "FieldDescriptorProto_Type")
	if err != nil {
		return err
	}
	*x = FieldDescriptorProto_Type(value)
	return nil
}
func (FieldDescriptorProto_Type) EnumDescriptor() ([]byte, []int) { return fileDescriptor1, []int{3, 0} }

type FieldDescriptorProto_Label int32

const (
	// 0 is reserved for errors
	FieldDescriptorProto_LABEL_OPTIONAL FieldDescriptorProto_Label = 1
	FieldDescriptorProto_LABEL_REQUIRED FieldDescriptorProto_Label = 2
	FieldDescriptorProto_LABEL_REPEATED FieldDescriptorProto_Label = 3
)

var FieldDescriptorProto_Label_name = map[int32]string{
	1: "LABEL_OPTIONAL",
	2: "LABEL_REQUIRED",
	3: "LABEL_REPEATED",
}
var FieldDescriptorProto_Label_value = map[string]int32{
	"LABEL_OPTIONAL": 1,
	"LABEL_REQUIRED": 2,
	"LABEL_REPEATED": 3,
}

func (x FieldDescriptorProto_Label) Enum() *FieldDescriptorProto_Label {
	p := new(FieldDescriptorProto_Label)
	*p = x
	return p
}
func (x FieldDescriptorProto_Label) String() string {
	return proto.EnumName(FieldDescriptorProto_Label_name, int32(x))
}
func (x *FieldDescriptorProto_Label) UnmarshalJSON(data []byte) error {
	value, err := proto.UnmarshalJSONEnum(FieldDescriptorProto_Label_value, data, "FieldDescriptorProto_Label")
	if err != nil {
		return err
	}
	*x = FieldDescriptorProto_Label(value)
	return nil
}
func (FieldDescriptorProto_Label) EnumDescriptor() ([]byte, []int) {
	return fileDescriptor1, []int{3, 1}
}

// Generated classes can be optimized for speed or code size.
type FileOptions_OptimizeMode int32

const (
	FileOptions_SPEED FileOptions_OptimizeMode = 1
	// etc.
	FileOptions_CODE_SIZE    FileOptions_OptimizeMode = 2
	FileOptions_LITE_RUNTIME FileOptions_OptimizeMode = 3
)

var FileOptions_OptimizeMode_name = map[int32]string{
	1: "SPEED",
	2: "CODE_SIZE",
	3: "LITE_RUNTIME",
}
var FileOptions_OptimizeMode_value = map[string]int32{
	"SPEED":        1,
	"CODE_SIZE":    2,
	"LITE_RUNTIME": 3,
}

func (x FileOptions_OptimizeMode) Enum() *FileOptions_OptimizeMode {
	p := new(FileOptions_OptimizeMode)
	*p = x
	return p
}
func (x FileOptions_OptimizeMode) String() string {
	return proto.EnumName(FileOptions_OptimizeMode_name, int32(x))
}
func (x *FileOptions_OptimizeMode) UnmarshalJSON(data []byte) error {
	value, err := proto.UnmarshalJSONEnum(FileOptions_OptimizeMode_value, data, "FileOptions_OptimizeMode")
	if err != nil {
		return err
	}
	*x = FileOptions_OptimizeMode(value)
	return nil
}
func (FileOptions_OptimizeMode) EnumDescriptor() ([]byte, []int) { return fileDescriptor1, []int{9, 0} }

type FieldOptions_CType int32

const (
	// Default mode.
	FieldOptions_STRING       FieldOptions_CType = 0
	FieldOptions_CORD         FieldOptions_CType = 1
	FieldOptions_STRING_PIECE FieldOptions_CType = 2
)

var FieldOptions_CType_name = map[int32]string{
	0: "STRING",
	1: "CORD",
	2: "STRING_PIECE",
}
var FieldOptions_CType_value = map[string]int32{
	"STRING":       0,
	"CORD":         1,
	"STRING_PIECE": 2,
}

func (x FieldOptions_CType) Enum() *FieldOptions_CType {
	p := new(FieldOptions_CType)
	*p = x
	return p
}
func (x FieldOptions_CType) String() string {
	return proto.EnumName(FieldOptions_CType_name, int32(x))
}
func (x *FieldOptions_CType) UnmarshalJSON(data []byte) error {
	value, err := proto.UnmarshalJSONEnum(FieldOptions_CType_value, data, "FieldOptions_CType")
	if err != nil {
		return err
	}
	*x = FieldOptions_CType(value)
	return nil
}
func (FieldOptions_CType) EnumDescriptor() ([]byte, []int) { return fileDescriptor1, []int{11, 0} }

type FieldOptions_JSType int32

const (
	// Use the default type.
	FieldOptions_JS_NORMAL FieldOptions_JSType = 0
	// Use JavaScript strings.
	FieldOptions_JS_STRING FieldOptions_JSType = 1
	// Use JavaScript numbers.
	FieldOptions_JS_NUMBER FieldOptions_JSType = 2
)

var FieldOptions_JSType_name = map[int32]string{
	0: "JS_NORMAL",
	1: "JS_STRING",
	2: "JS_NUMBER",
}
var FieldOptions_JSType_value = map[string]int32{
	"JS_NORMAL": 0,
	"JS_STRING": 1,
	"JS_NUMBER": 2,
}

func (x FieldOptions_JSType) Enum() *FieldOptions_JSType {
	p := new(FieldOptions_JSType)
	*p = x
	return p
}
func (x FieldOptions_JSType) String() string {
	return proto.EnumName(FieldOptions_JSType_name, int32(x))
}
func (x *FieldOptions_JSType) UnmarshalJSON(data []byte) error {
	value, err := proto.UnmarshalJSONEnum(FieldOptions_JSType_value, data, "FieldOptions_JSType")
	if err != nil {
		return err
	}
	*x = FieldOptions_JSType(value)
	return nil
}
func (FieldOptions_JSType) EnumDescriptor() ([]byte, []int) { return fileDescriptor1, []int{11, 1} }

// The protocol compiler can output a FileDescriptorSet containing the .proto
// files it parses.
type FileDescriptorSet struct {
	File             []*FileDescriptorProto `protobuf:"bytes,1,rep,name=file" json:"file,omitempty"`
	XXX_unrecognized []byte                 `json:"-"`
}

func (m *FileDescriptorSet) Reset()                    { *m = FileDescriptorSet{} }
func (m *FileDescriptorSet) String() string            { return proto.CompactTextString(m) }
func (*FileDescriptorSet) ProtoMessage()               {}
func (*FileDescriptorSet) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{0} }

func (m *FileDescriptorSet) GetFile() []*FileDescriptorProto {
	if m != nil {
		return m.File
	}
	return nil
}

// Describes a complete .proto file.
type FileDescriptorProto struct {
	Name    *string `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	Package *string `protobuf:"bytes,2,opt,name=package" json:"package,omitempty"`
	// Names of files imported by this file.
	Dependency []string `protobuf:"bytes,3,rep,name=dependency" json:"dependency,omitempty"`
	// Indexes of the public imported files in the dependency list above.
	PublicDependency []int32 `protobuf:"varint,10,rep,name=public_dependency,json=publicDependency" json:"public_dependency,omitempty"`
	// Indexes of the weak imported files in the dependency list.
	// For Google-internal migration only. Do not use.
	WeakDependency []int32 `protobuf:"varint,11,rep,name=weak_dependency,json=weakDependency" json:"weak_dependency,omitempty"`
	// All top-level definitions in this file.
	MessageType []*DescriptorProto        `protobuf:"bytes,4,rep,name=message_type,json=messageType" json:"message_type,omitempty"`
	EnumType    []*EnumDescriptorProto    `protobuf:"bytes,5,rep,name=enum_type,json=enumType" json:"enum_type,omitempty"`
	Service     []*ServiceDescriptorProto `protobuf:"bytes,6,rep,name=service" json:"service,omitempty"`
	Extension   []*FieldDescriptorProto   `protobuf:"bytes,7,rep,name=extension" json:"extension,omitempty"`
	Options     *FileOptions              `protobuf:"bytes,8,opt,name=options" json:"options,omitempty"`
	// This field contains optional information about the original source code.
	// You may safely remove this entire field without harming runtime
	// functionality of the descriptors -- the information is needed only by
	// development tools.
	SourceCodeInfo *SourceCodeInfo `protobuf:"bytes,9,opt,name=source_code_info,json=sourceCodeInfo" json:"source_code_info,omitempty"`
	// The syntax of the proto file.
	// The supported values are "proto2" and "proto3".
	Syntax           *string `protobuf:"bytes,12,opt,name=syntax" json:"syntax,omitempty"`
	XXX_unrecognized []byte  `json:"-"`
}

func (m *FileDescriptorProto) Reset()                    { *m = FileDescriptorProto{} }
func (m *FileDescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*FileDescriptorProto) ProtoMessage()               {}
func (*FileDescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{1} }

func (m *FileDescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *FileDescriptorProto) GetPackage() string {
	if m != nil && m.Package != nil {
		return *m.Package
	}
	return ""
}

func (m *FileDescriptorProto) GetDependency() []string {
	if m != nil {
		return m.Dependency
	}
	return nil
}

func (m *FileDescriptorProto) GetPublicDependency() []int32 {
	if m != nil {
		return m.PublicDependency
	}
	return nil
}

func (m *FileDescriptorProto) GetWeakDependency() []int32 {
	if m != nil {
		return m.WeakDependency
	}
	return nil
}

func (m *FileDescriptorProto) GetMessageType() []*DescriptorProto {
	if m != nil {
		return m.MessageType
	}
	return nil
}

func (m *FileDescriptorProto) GetEnumType() []*EnumDescriptorProto {
	if m != nil {
		return m.EnumType
	}
	return nil
}

func (m *FileDescriptorProto) GetService() []*ServiceDescriptorProto {
	if m != nil {
		return m.Service
	}
	return nil
}

func (m *FileDescriptorProto) GetExtension() []*FieldDescriptorProto {
	if m != nil {
		return m.Extension
	}
	return nil
}

func (m *FileDescriptorProto) GetOptions() *FileOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

func (m *FileDescriptorProto) GetSourceCodeInfo() *SourceCodeInfo {
	if m != nil {
		return m.SourceCodeInfo
	}
	return nil
}

func (m *FileDescriptorProto) GetSyntax() string {
	if m != nil && m.Syntax != nil {
		return *m.Syntax
	}
	return ""
}

// Describes a message type.
type DescriptorProto struct {
	Name           *string                           `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	Field          []*FieldDescriptorProto           `protobuf:"bytes,2,rep,name=field" json:"field,omitempty"`
	Extension      []*FieldDescriptorProto           `protobuf:"bytes,6,rep,name=extension" json:"extension,omitempty"`
	NestedType     []*DescriptorProto                `protobuf:"bytes,3,rep,name=nested_type,json=nestedType" json:"nested_type,omitempty"`
	EnumType       []*EnumDescriptorProto            `protobuf:"bytes,4,rep,name=enum_type,json=enumType" json:"enum_type,omitempty"`
	ExtensionRange []*DescriptorProto_ExtensionRange `protobuf:"bytes,5,rep,name=extension_range,json=extensionRange" json:"extension_range,omitempty"`
	OneofDecl      []*OneofDescriptorProto           `protobuf:"bytes,8,rep,name=oneof_decl,json=oneofDecl" json:"oneof_decl,omitempty"`
	Options        *MessageOptions                   `protobuf:"bytes,7,opt,name=options" json:"options,omitempty"`
	ReservedRange  []*DescriptorProto_ReservedRange  `protobuf:"bytes,9,rep,name=reserved_range,json=reservedRange" json:"reserved_range,omitempty"`
	// Reserved field names, which may not be used by fields in the same message.
	// A given name may only be reserved once.
	ReservedName     []string `protobuf:"bytes,10,rep,name=reserved_name,json=reservedName" json:"reserved_name,omitempty"`
	XXX_unrecognized []byte   `json:"-"`
}

func (m *DescriptorProto) Reset()                    { *m = DescriptorProto{} }
func (m *DescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*DescriptorProto) ProtoMessage()               {}
func (*DescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{2} }

func (m *DescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *DescriptorProto) GetField() []*FieldDescriptorProto {
	if m != nil {
		return m.Field
	}
	return nil
}

func (m *DescriptorProto) GetExtension() []*FieldDescriptorProto {
	if m != nil {
		return m.Extension
	}
	return nil
}

func (m *DescriptorProto) GetNestedType() []*DescriptorProto {
	if m != nil {
		return m.NestedType
	}
	return nil
}

func (m *DescriptorProto) GetEnumType() []*EnumDescriptorProto {
	if m != nil {
		return m.EnumType
	}
	return nil
}

func (m *DescriptorProto) GetExtensionRange() []*DescriptorProto_ExtensionRange {
	if m != nil {
		return m.ExtensionRange
	}
	return nil
}

func (m *DescriptorProto) GetOneofDecl() []*OneofDescriptorProto {
	if m != nil {
		return m.OneofDecl
	}
	return nil
}

func (m *DescriptorProto) GetOptions() *MessageOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

func (m *DescriptorProto) GetReservedRange() []*DescriptorProto_ReservedRange {
	if m != nil {
		return m.ReservedRange
	}
	return nil
}

func (m *DescriptorProto) GetReservedName() []string {
	if m != nil {
		return m.ReservedName
	}
	return nil
}

type DescriptorProto_ExtensionRange struct {
	Start            *int32 `protobuf:"varint,1,opt,name=start" json:"start,omitempty"`
	End              *int32 `protobuf:"varint,2,opt,name=end" json:"end,omitempty"`
	XXX_unrecognized []byte `json:"-"`
}

func (m *DescriptorProto_ExtensionRange) Reset()         { *m = DescriptorProto_ExtensionRange{} }
func (m *DescriptorProto_ExtensionRange) String() string { return proto.CompactTextString(m) }
func (*DescriptorProto_ExtensionRange) ProtoMessage()    {}
func (*DescriptorProto_ExtensionRange) Descriptor() ([]byte, []int) {
	return fileDescriptor1, []int{2, 0}
}

func (m *DescriptorProto_ExtensionRange) GetStart() int32 {
	if m != nil && m.Start != nil {
		return *m.Start
	}
	return 0
}

func (m *DescriptorProto_ExtensionRange) GetEnd() int32 {
	if m != nil && m.End != nil {
		return *m.End
	}
	return 0
}

// Range of reserved tag numbers. Reserved tag numbers may not be used by
// fields or extension ranges in the same message. Reserved ranges may
// not overlap.
type DescriptorProto_ReservedRange struct {
	Start            *int32 `protobuf:"varint,1,opt,name=start" json:"start,omitempty"`
	End              *int32 `protobuf:"varint,2,opt,name=end" json:"end,omitempty"`
	XXX_unrecognized []byte `json:"-"`
}

func (m *DescriptorProto_ReservedRange) Reset()         { *m = DescriptorProto_ReservedRange{} }
func (m *DescriptorProto_ReservedRange) String() string { return proto.CompactTextString(m) }
func (*DescriptorProto_ReservedRange) ProtoMessage()    {}
func (*DescriptorProto_ReservedRange) Descriptor() ([]byte, []int) {
	return fileDescriptor1, []int{2, 1}
}

func (m *DescriptorProto_ReservedRange) GetStart() int32 {
	if m != nil && m.Start != nil {
		return *m.Start
	}
	return 0
}

func (m *DescriptorProto_ReservedRange) GetEnd() int32 {
	if m != nil && m.End != nil {
		return *m.End
	}
	return 0
}

// Describes a field within a message.
type FieldDescriptorProto struct {
	Name   *string                     `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	Number *int32                      `protobuf:"varint,3,opt,name=number" json:"number,omitempty"`
	Label  *FieldDescriptorProto_Label `protobuf:"varint,4,opt,name=label,enum=google.protobuf.FieldDescriptorProto_Label" json:"label,omitempty"`
	// If type_name is set, this need not be set.  If both this and type_name
	// are set, this must be one of TYPE_ENUM, TYPE_MESSAGE or TYPE_GROUP.
	Type *FieldDescriptorProto_Type `protobuf:"varint,5,opt,name=type,enum=google.protobuf.FieldDescriptorProto_Type" json:"type,omitempty"`
	// For message and enum types, this is the name of the type.  If the name
	// starts with a '.', it is fully-qualified.  Otherwise, C++-like scoping
	// rules are used to find the type (i.e. first the nested types within this
	// message are searched, then within the parent, on up to the root
	// namespace).
	TypeName *string `protobuf:"bytes,6,opt,name=type_name,json=typeName" json:"type_name,omitempty"`
	// For extensions, this is the name of the type being extended.  It is
	// resolved in the same manner as type_name.
	Extendee *string `protobuf:"bytes,2,opt,name=extendee" json:"extendee,omitempty"`
	// For numeric types, contains the original text representation of the value.
	// For booleans, "true" or "false".
	// For strings, contains the default text contents (not escaped in any way).
	// For bytes, contains the C escaped value.  All bytes >= 128 are escaped.
	// TODO(kenton):  Base-64 encode?
	DefaultValue *string `protobuf:"bytes,7,opt,name=default_value,json=defaultValue" json:"default_value,omitempty"`
	// If set, gives the index of a oneof in the containing type's oneof_decl
	// list.  This field is a member of that oneof.
	OneofIndex *int32 `protobuf:"varint,9,opt,name=oneof_index,json=oneofIndex" json:"oneof_index,omitempty"`
	// JSON name of this field. The value is set by protocol compiler. If the
	// user has set a "json_name" option on this field, that option's value
	// will be used. Otherwise, it's deduced from the field's name by converting
	// it to camelCase.
	JsonName         *string       `protobuf:"bytes,10,opt,name=json_name,json=jsonName" json:"json_name,omitempty"`
	Options          *FieldOptions `protobuf:"bytes,8,opt,name=options" json:"options,omitempty"`
	XXX_unrecognized []byte        `json:"-"`
}

func (m *FieldDescriptorProto) Reset()                    { *m = FieldDescriptorProto{} }
func (m *FieldDescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*FieldDescriptorProto) ProtoMessage()               {}
func (*FieldDescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{3} }

func (m *FieldDescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *FieldDescriptorProto) GetNumber() int32 {
	if m != nil && m.Number != nil {
		return *m.Number
	}
	return 0
}

func (m *FieldDescriptorProto) GetLabel() FieldDescriptorProto_Label {
	if m != nil && m.Label != nil {
		return *m.Label
	}
	return FieldDescriptorProto_LABEL_OPTIONAL
}

func (m *FieldDescriptorProto) GetType() FieldDescriptorProto_Type {
	if m != nil && m.Type != nil {
		return *m.Type
	}
	return FieldDescriptorProto_TYPE_DOUBLE
}

func (m *FieldDescriptorProto) GetTypeName() string {
	if m != nil && m.TypeName != nil {
		return *m.TypeName
	}
	return ""
}

func (m *FieldDescriptorProto) GetExtendee() string {
	if m != nil && m.Extendee != nil {
		return *m.Extendee
	}
	return ""
}

func (m *FieldDescriptorProto) GetDefaultValue() string {
	if m != nil && m.DefaultValue != nil {
		return *m.DefaultValue
	}
	return ""
}

func (m *FieldDescriptorProto) GetOneofIndex() int32 {
	if m != nil && m.OneofIndex != nil {
		return *m.OneofIndex
	}
	return 0
}

func (m *FieldDescriptorProto) GetJsonName() string {
	if m != nil && m.JsonName != nil {
		return *m.JsonName
	}
	return ""
}

func (m *FieldDescriptorProto) GetOptions() *FieldOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

// Describes a oneof.
type OneofDescriptorProto struct {
	Name             *string       `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	Options          *OneofOptions `protobuf:"bytes,2,opt,name=options" json:"options,omitempty"`
	XXX_unrecognized []byte        `json:"-"`
}

func (m *OneofDescriptorProto) Reset()                    { *m = OneofDescriptorProto{} }
func (m *OneofDescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*OneofDescriptorProto) ProtoMessage()               {}
func (*OneofDescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{4} }

func (m *OneofDescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *OneofDescriptorProto) GetOptions() *OneofOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

// Describes an enum type.
type EnumDescriptorProto struct {
	Name             *string                     `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	Value            []*EnumValueDescriptorProto `protobuf:"bytes,2,rep,name=value" json:"value,omitempty"`
	Options          *EnumOptions                `protobuf:"bytes,3,opt,name=options" json:"options,omitempty"`
	XXX_unrecognized []byte                      `json:"-"`
}

func (m *EnumDescriptorProto) Reset()                    { *m = EnumDescriptorProto{} }
func (m *EnumDescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*EnumDescriptorProto) ProtoMessage()               {}
func (*EnumDescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{5} }

func (m *EnumDescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *EnumDescriptorProto) GetValue() []*EnumValueDescriptorProto {
	if m != nil {
		return m.Value
	}
	return nil
}

func (m *EnumDescriptorProto) GetOptions() *EnumOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

// Describes a value within an enum.
type EnumValueDescriptorProto struct {
	Name             *string           `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	Number           *int32            `protobuf:"varint,2,opt,name=number" json:"number,omitempty"`
	Options          *EnumValueOptions `protobuf:"bytes,3,opt,name=options" json:"options,omitempty"`
	XXX_unrecognized []byte            `json:"-"`
}

func (m *EnumValueDescriptorProto) Reset()                    { *m = EnumValueDescriptorProto{} }
func (m *EnumValueDescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*EnumValueDescriptorProto) ProtoMessage()               {}
func (*EnumValueDescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{6} }

func (m *EnumValueDescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *EnumValueDescriptorProto) GetNumber() int32 {
	if m != nil && m.Number != nil {
		return *m.Number
	}
	return 0
}

func (m *EnumValueDescriptorProto) GetOptions() *EnumValueOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

// Describes a service.
type ServiceDescriptorProto struct {
	Name             *string                  `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	Method           []*MethodDescriptorProto `protobuf:"bytes,2,rep,name=method" json:"method,omitempty"`
	Options          *ServiceOptions          `protobuf:"bytes,3,opt,name=options" json:"options,omitempty"`
	XXX_unrecognized []byte                   `json:"-"`
}

func (m *ServiceDescriptorProto) Reset()                    { *m = ServiceDescriptorProto{} }
func (m *ServiceDescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*ServiceDescriptorProto) ProtoMessage()               {}
func (*ServiceDescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{7} }

func (m *ServiceDescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *ServiceDescriptorProto) GetMethod() []*MethodDescriptorProto {
	if m != nil {
		return m.Method
	}
	return nil
}

func (m *ServiceDescriptorProto) GetOptions() *ServiceOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

// Describes a method of a service.
type MethodDescriptorProto struct {
	Name *string `protobuf:"bytes,1,opt,name=name" json:"name,omitempty"`
	// Input and output type names.  These are resolved in the same way as
	// FieldDescriptorProto.type_name, but must refer to a message type.
	InputType  *string        `protobuf:"bytes,2,opt,name=input_type,json=inputType" json:"input_type,omitempty"`
	OutputType *string        `protobuf:"bytes,3,opt,name=output_type,json=outputType" json:"output_type,omitempty"`
	Options    *MethodOptions `protobuf:"bytes,4,opt,name=options" json:"options,omitempty"`
	// Identifies if client streams multiple client messages
	ClientStreaming *bool `protobuf:"varint,5,opt,name=client_streaming,json=clientStreaming,def=0" json:"client_streaming,omitempty"`
	// Identifies if server streams multiple server messages
	ServerStreaming  *bool  `protobuf:"varint,6,opt,name=server_streaming,json=serverStreaming,def=0" json:"server_streaming,omitempty"`
	XXX_unrecognized []byte `json:"-"`
}

func (m *MethodDescriptorProto) Reset()                    { *m = MethodDescriptorProto{} }
func (m *MethodDescriptorProto) String() string            { return proto.CompactTextString(m) }
func (*MethodDescriptorProto) ProtoMessage()               {}
func (*MethodDescriptorProto) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{8} }

const Default_MethodDescriptorProto_ClientStreaming bool = false
const Default_MethodDescriptorProto_ServerStreaming bool = false

func (m *MethodDescriptorProto) GetName() string {
	if m != nil && m.Name != nil {
		return *m.Name
	}
	return ""
}

func (m *MethodDescriptorProto) GetInputType() string {
	if m != nil && m.InputType != nil {
		return *m.InputType
	}
	return ""
}

func (m *MethodDescriptorProto) GetOutputType() string {
	if m != nil && m.OutputType != nil {
		return *m.OutputType
	}
	return ""
}

func (m *MethodDescriptorProto) GetOptions() *MethodOptions {
	if m != nil {
		return m.Options
	}
	return nil
}

func (m *MethodDescriptorProto) GetClientStreaming() bool {
	if m != nil && m.ClientStreaming != nil {
		return *m.ClientStreaming
	}
	return Default_MethodDescriptorProto_ClientStreaming
}

func (m *MethodDescriptorProto) GetServerStreaming() bool {
	if m != nil && m.ServerStreaming != nil {
		return *m.ServerStreaming
	}
	return Default_MethodDescriptorProto_ServerStreaming
}

type FileOptions struct {
	// Sets the Java package where classes generated from this .proto will be
	// placed.  By default, the proto package is used, but this is often
	// inappropriate because proto packages do not normally start with backwards
	// domain names.
	JavaPackage *string `protobuf:"bytes,1,opt,name=java_package,json=javaPackage" json:"java_package,omitempty"`
	// If set, all the classes from the .proto file are wrapped in a single
	// outer class with the given name.  This applies to both Proto1
	// (equivalent to the old "--one_java_file" option) and Proto2 (where
	// a .proto always translates to a single class, but you may want to
	// explicitly choose the class name).
	JavaOuterClassname *string `protobuf:"bytes,8,opt,name=java_outer_classname,json=javaOuterClassname" json:"java_outer_classname,omitempty"`
	// If set true, then the Java code generator will generate a separate .java
	// file for each top-level message, enum, and service defined in the .proto
	// file.  Thus, these types will *not* be nested inside the outer class
	// named by java_outer_classname.  However, the outer class will still be
	// generated to contain the file's getDescriptor() method as well as any
	// top-level extensions defined in the file.
	JavaMultipleFiles *bool `protobuf:"varint,10,opt,name=java_multiple_files,json=javaMultipleFiles,def=0" json:"java_multiple_files,omitempty"`
	// If set true, then the Java code generator will generate equals() and
	// hashCode() methods for all messages defined in the .proto file.
	// This increases generated code size, potentially substantially for large
	// protos, which may harm a memory-constrained application.
	// - In the full runtime this is a speed optimization, as the
	// AbstractMessage base class includes reflection-based implementations of
	// these methods.
	// - In the lite runtime, setting this option changes the semantics of
	// equals() and hashCode() to more closely match those of the full runtime;
	// the generated methods compute their results based on field values rather
	// than object identity. (Implementations should not assume that hashcodes
	// will be consistent across runtimes or versions of the protocol compiler.)
	JavaGenerateEqualsAndHash *bool `protobuf:"varint,20,opt,name=java_generate_equals_and_hash,json=javaGenerateEqualsAndHash,def=0" json:"java_generate_equals_and_hash,omitempty"`
	// If set true, then the Java2 code generator will generate code that
	// throws an exception whenever an attempt is made to assign a non-UTF-8
	// byte sequence to a string field.
	// Message reflection will do the same.
	// However, an extension field still accepts non-UTF-8 byte sequences.
	// This option has no effect on when used with the lite runtime.
	JavaStringCheckUtf8 *bool                     `protobuf:"varint,27,opt,name=java_string_check_utf8,json=javaStringCheckUtf8,def=0" json:"java_string_check_utf8,omitempty"`
	OptimizeFor         *FileOptions_OptimizeMode `protobuf:"varint,9,opt,name=optimize_for,json=optimizeFor,enum=google.protobuf.FileOptions_OptimizeMode,def=1" json:"optimize_for,omitempty"`
	// Sets the Go package where structs generated from this .proto will be
	// placed. If omitted, the Go package will be derived from the following:
	//   - The basename of the package import path, if provided.
	//   - Otherwise, the package statement in the .proto file, if present.
	//   - Otherwise, the basename of the .proto file, without extension.
	GoPackage *string `protobuf:"bytes,11,opt,name=go_package,json=goPackage" json:"go_package,omitempty"`
	// Should generic services be generated in each language?  "Generic" services
	// are not specific to any particular RPC system.  They are generated by the
	// main code generators in each language (without additional plugins).
	// Generic services were the only kind of service generation supported by
	// early versions of google.protobuf.
	//
	// Generic services are now considered deprecated in favor of using plugins
	// that generate code specific to your particular RPC system.  Therefore,
	// these default to false.  Old code which depends on generic services should
	// explicitly set them to true.
	CcGenericServices   *bool `protobuf:"varint,16,opt,name=cc_generic_services,json=ccGenericServices,def=0" json:"cc_generic_services,omitempty"`
	JavaGenericServices *bool `protobuf:"varint,17,opt,name=java_generic_services,json=javaGenericServices,def=0" json:"java_generic_services,omitempty"`
	PyGenericServices   *bool `protobuf:"varint,18,opt,name=py_generic_services,json=pyGenericServices,def=0" json:"py_generic_services,omitempty"`
	// Is this file deprecated?
	// Depending on the target platform, this can emit Deprecated annotations
	// for everything in the file, or it will be completely ignored; in the very
	// least, this is a formalization for deprecating files.
	Deprecated *bool `protobuf:"varint,23,opt,name=deprecated,def=0" json:"deprecated,omitempty"`
	// Enables the use of arenas for the proto messages in this file. This applies
	// only to generated classes for C++.
	CcEnableArenas *bool `protobuf:"varint,31,opt,name=cc_enable_arenas,json=ccEnableArenas,def=0" json:"cc_enable_arenas,omitempty"`
	// Sets the objective c class prefix which is prepended to all objective c
	// generated classes from this .proto. There is no default.
	ObjcClassPrefix *string `protobuf:"bytes,36,opt,name=objc_class_prefix,json=objcClassPrefix" json:"objc_class_prefix,omitempty"`
	// Namespace for generated classes; defaults to the package.
	CsharpNamespace *string `protobuf:"bytes,37,opt,name=csharp_namespace,json=csharpNamespace" json:"csharp_namespace,omitempty"`
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *FileOptions) Reset()                    { *m = FileOptions{} }
func (m *FileOptions) String() string            { return proto.CompactTextString(m) }
func (*FileOptions) ProtoMessage()               {}
func (*FileOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{9} }

var extRange_FileOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*FileOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_FileOptions
}

const Default_FileOptions_JavaMultipleFiles bool = false
const Default_FileOptions_JavaGenerateEqualsAndHash bool = false
const Default_FileOptions_JavaStringCheckUtf8 bool = false
const Default_FileOptions_OptimizeFor FileOptions_OptimizeMode = FileOptions_SPEED
const Default_FileOptions_CcGenericServices bool = false
const Default_FileOptions_JavaGenericServices bool = false
const Default_FileOptions_PyGenericServices bool = false
const Default_FileOptions_Deprecated bool = false
const Default_FileOptions_CcEnableArenas bool = false

func (m *FileOptions) GetJavaPackage() string {
	if m != nil && m.JavaPackage != nil {
		return *m.JavaPackage
	}
	return ""
}

func (m *FileOptions) GetJavaOuterClassname() string {
	if m != nil && m.JavaOuterClassname != nil {
		return *m.JavaOuterClassname
	}
	return ""
}

func (m *FileOptions) GetJavaMultipleFiles() bool {
	if m != nil && m.JavaMultipleFiles != nil {
		return *m.JavaMultipleFiles
	}
	return Default_FileOptions_JavaMultipleFiles
}

func (m *FileOptions) GetJavaGenerateEqualsAndHash() bool {
	if m != nil && m.JavaGenerateEqualsAndHash != nil {
		return *m.JavaGenerateEqualsAndHash
	}
	return Default_FileOptions_JavaGenerateEqualsAndHash
}

func (m *FileOptions) GetJavaStringCheckUtf8() bool {
	if m != nil && m.JavaStringCheckUtf8 != nil {
		return *m.JavaStringCheckUtf8
	}
	return Default_FileOptions_JavaStringCheckUtf8
}

func (m *FileOptions) GetOptimizeFor() FileOptions_OptimizeMode {
	if m != nil && m.OptimizeFor != nil {
		return *m.OptimizeFor
	}
	return Default_FileOptions_OptimizeFor
}

func (m *FileOptions) GetGoPackage() string {
	if m != nil && m.GoPackage != nil {
		return *m.GoPackage
	}
	return ""
}

func (m *FileOptions) GetCcGenericServices() bool {
	if m != nil && m.CcGenericServices != nil {
		return *m.CcGenericServices
	}
	return Default_FileOptions_CcGenericServices
}

func (m *FileOptions) GetJavaGenericServices() bool {
	if m != nil && m.JavaGenericServices != nil {
		return *m.JavaGenericServices
	}
	return Default_FileOptions_JavaGenericServices
}

func (m *FileOptions) GetPyGenericServices() bool {
	if m != nil && m.PyGenericServices != nil {
		return *m.PyGenericServices
	}
	return Default_FileOptions_PyGenericServices
}

func (m *FileOptions) GetDeprecated() bool {
	if m != nil && m.Deprecated != nil {
		return *m.Deprecated
	}
	return Default_FileOptions_Deprecated
}

func (m *FileOptions) GetCcEnableArenas() bool {
	if m != nil && m.CcEnableArenas != nil {
		return *m.CcEnableArenas
	}
	return Default_FileOptions_CcEnableArenas
}

func (m *FileOptions) GetObjcClassPrefix() string {
	if m != nil && m.ObjcClassPrefix != nil {
		return *m.ObjcClassPrefix
	}
	return ""
}

func (m *FileOptions) GetCsharpNamespace() string {
	if m != nil && m.CsharpNamespace != nil {
		return *m.CsharpNamespace
	}
	return ""
}

func (m *FileOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

type MessageOptions struct {
	// Set true to use the old proto1 MessageSet wire format for extensions.
	// This is provided for backwards-compatibility with the MessageSet wire
	// format.  You should not use this for any other reason:  It's less
	// efficient, has fewer features, and is more complicated.
	//
	// The message must be defined exactly as follows:
	//   message Foo {
	//     option message_set_wire_format = true;
	//     extensions 4 to max;
	//   }
	// Note that the message cannot have any defined fields; MessageSets only
	// have extensions.
	//
	// All extensions of your type must be singular messages; e.g. they cannot
	// be int32s, enums, or repeated messages.
	//
	// Because this is an option, the above two restrictions are not enforced by
	// the protocol compiler.
	MessageSetWireFormat *bool `protobuf:"varint,1,opt,name=message_set_wire_format,json=messageSetWireFormat,def=0" json:"message_set_wire_format,omitempty"`
	// Disables the generation of the standard "descriptor()" accessor, which can
	// conflict with a field of the same name.  This is meant to make migration
	// from proto1 easier; new code should avoid fields named "descriptor".
	NoStandardDescriptorAccessor *bool `protobuf:"varint,2,opt,name=no_standard_descriptor_accessor,json=noStandardDescriptorAccessor,def=0" json:"no_standard_descriptor_accessor,omitempty"`
	// Is this message deprecated?
	// Depending on the target platform, this can emit Deprecated annotations
	// for the message, or it will be completely ignored; in the very least,
	// this is a formalization for deprecating messages.
	Deprecated *bool `protobuf:"varint,3,opt,name=deprecated,def=0" json:"deprecated,omitempty"`
	// Whether the message is an automatically generated map entry type for the
	// maps field.
	//
	// For maps fields:
	//     map<KeyType, ValueType> map_field = 1;
	// The parsed descriptor looks like:
	//     message MapFieldEntry {
	//         option map_entry = true;
	//         optional KeyType key = 1;
	//         optional ValueType value = 2;
	//     }
	//     repeated MapFieldEntry map_field = 1;
	//
	// Implementations may choose not to generate the map_entry=true message, but
	// use a native map in the target language to hold the keys and values.
	// The reflection APIs in such implementions still need to work as
	// if the field is a repeated message field.
	//
	// NOTE: Do not set the option in .proto files. Always use the maps syntax
	// instead. The option should only be implicitly set by the proto compiler
	// parser.
	MapEntry *bool `protobuf:"varint,7,opt,name=map_entry,json=mapEntry" json:"map_entry,omitempty"`
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *MessageOptions) Reset()                    { *m = MessageOptions{} }
func (m *MessageOptions) String() string            { return proto.CompactTextString(m) }
func (*MessageOptions) ProtoMessage()               {}
func (*MessageOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{10} }

var extRange_MessageOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*MessageOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_MessageOptions
}

const Default_MessageOptions_MessageSetWireFormat bool = false
const Default_MessageOptions_NoStandardDescriptorAccessor bool = false
const Default_MessageOptions_Deprecated bool = false

func (m *MessageOptions) GetMessageSetWireFormat() bool {
	if m != nil && m.MessageSetWireFormat != nil {
		return *m.MessageSetWireFormat
	}
	return Default_MessageOptions_MessageSetWireFormat
}

func (m *MessageOptions) GetNoStandardDescriptorAccessor() bool {
	if m != nil && m.NoStandardDescriptorAccessor != nil {
		return *m.NoStandardDescriptorAccessor
	}
	return Default_MessageOptions_NoStandardDescriptorAccessor
}

func (m *MessageOptions) GetDeprecated() bool {
	if m != nil && m.Deprecated != nil {
		return *m.Deprecated
	}
	return Default_MessageOptions_Deprecated
}

func (m *MessageOptions) GetMapEntry() bool {
	if m != nil && m.MapEntry != nil {
		return *m.MapEntry
	}
	return false
}

func (m *MessageOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

type FieldOptions struct {
	// The ctype option instructs the C++ code generator to use a different
	// representation of the field than it normally would.  See the specific
	// options below.  This option is not yet implemented in the open source
	// release -- sorry, we'll try to include it in a future version!
	Ctype *FieldOptions_CType `protobuf:"varint,1,opt,name=ctype,enum=google.protobuf.FieldOptions_CType,def=0" json:"ctype,omitempty"`
	// The packed option can be enabled for repeated primitive fields to enable
	// a more efficient representation on the wire. Rather than repeatedly
	// writing the tag and type for each element, the entire array is encoded as
	// a single length-delimited blob. In proto3, only explicit setting it to
	// false will avoid using packed encoding.
	Packed *bool `protobuf:"varint,2,opt,name=packed" json:"packed,omitempty"`
	// The jstype option determines the JavaScript type used for values of the
	// field.  The option is permitted only for 64 bit integral and fixed types
	// (int64, uint64, sint64, fixed64, sfixed64).  By default these types are
	// represented as JavaScript strings.  This avoids loss of precision that can
	// happen when a large value is converted to a floating point JavaScript
	// numbers.  Specifying JS_NUMBER for the jstype causes the generated
	// JavaScript code to use the JavaScript "number" type instead of strings.
	// This option is an enum to permit additional types to be added,
	// e.g. goog.math.Integer.
	Jstype *FieldOptions_JSType `protobuf:"varint,6,opt,name=jstype,enum=google.protobuf.FieldOptions_JSType,def=0" json:"jstype,omitempty"`
	// Should this field be parsed lazily?  Lazy applies only to message-type
	// fields.  It means that when the outer message is initially parsed, the
	// inner message's contents will not be parsed but instead stored in encoded
	// form.  The inner message will actually be parsed when it is first accessed.
	//
	// This is only a hint.  Implementations are free to choose whether to use
	// eager or lazy parsing regardless of the value of this option.  However,
	// setting this option true suggests that the protocol author believes that
	// using lazy parsing on this field is worth the additional bookkeeping
	// overhead typically needed to implement it.
	//
	// This option does not affect the public interface of any generated code;
	// all method signatures remain the same.  Furthermore, thread-safety of the
	// interface is not affected by this option; const methods remain safe to
	// call from multiple threads concurrently, while non-const methods continue
	// to require exclusive access.
	//
	//
	// Note that implementations may choose not to check required fields within
	// a lazy sub-message.  That is, calling IsInitialized() on the outher message
	// may return true even if the inner message has missing required fields.
	// This is necessary because otherwise the inner message would have to be
	// parsed in order to perform the check, defeating the purpose of lazy
	// parsing.  An implementation which chooses not to check required fields
	// must be consistent about it.  That is, for any particular sub-message, the
	// implementation must either *always* check its required fields, or *never*
	// check its required fields, regardless of whether or not the message has
	// been parsed.
	Lazy *bool `protobuf:"varint,5,opt,name=lazy,def=0" json:"lazy,omitempty"`
	// Is this field deprecated?
	// Depending on the target platform, this can emit Deprecated annotations
	// for accessors, or it will be completely ignored; in the very least, this
	// is a formalization for deprecating fields.
	Deprecated *bool `protobuf:"varint,3,opt,name=deprecated,def=0" json:"deprecated,omitempty"`
	// For Google-internal migration only. Do not use.
	Weak *bool `protobuf:"varint,10,opt,name=weak,def=0" json:"weak,omitempty"`
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *FieldOptions) Reset()                    { *m = FieldOptions{} }
func (m *FieldOptions) String() string            { return proto.CompactTextString(m) }
func (*FieldOptions) ProtoMessage()               {}
func (*FieldOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{11} }

var extRange_FieldOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*FieldOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_FieldOptions
}

const Default_FieldOptions_Ctype FieldOptions_CType = FieldOptions_STRING
const Default_FieldOptions_Jstype FieldOptions_JSType = FieldOptions_JS_NORMAL
const Default_FieldOptions_Lazy bool = false
const Default_FieldOptions_Deprecated bool = false
const Default_FieldOptions_Weak bool = false

func (m *FieldOptions) GetCtype() FieldOptions_CType {
	if m != nil && m.Ctype != nil {
		return *m.Ctype
	}
	return Default_FieldOptions_Ctype
}

func (m *FieldOptions) GetPacked() bool {
	if m != nil && m.Packed != nil {
		return *m.Packed
	}
	return false
}

func (m *FieldOptions) GetJstype() FieldOptions_JSType {
	if m != nil && m.Jstype != nil {
		return *m.Jstype
	}
	return Default_FieldOptions_Jstype
}

func (m *FieldOptions) GetLazy() bool {
	if m != nil && m.Lazy != nil {
		return *m.Lazy
	}
	return Default_FieldOptions_Lazy
}

func (m *FieldOptions) GetDeprecated() bool {
	if m != nil && m.Deprecated != nil {
		return *m.Deprecated
	}
	return Default_FieldOptions_Deprecated
}

func (m *FieldOptions) GetWeak() bool {
	if m != nil && m.Weak != nil {
		return *m.Weak
	}
	return Default_FieldOptions_Weak
}

func (m *FieldOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

type OneofOptions struct {
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *OneofOptions) Reset()                    { *m = OneofOptions{} }
func (m *OneofOptions) String() string            { return proto.CompactTextString(m) }
func (*OneofOptions) ProtoMessage()               {}
func (*OneofOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{12} }

var extRange_OneofOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*OneofOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_OneofOptions
}

func (m *OneofOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

type EnumOptions struct {
	// Set this option to true to allow mapping different tag names to the same
	// value.
	AllowAlias *bool `protobuf:"varint,2,opt,name=allow_alias,json=allowAlias" json:"allow_alias,omitempty"`
	// Is this enum deprecated?
	// Depending on the target platform, this can emit Deprecated annotations
	// for the enum, or it will be completely ignored; in the very least, this
	// is a formalization for deprecating enums.
	Deprecated *bool `protobuf:"varint,3,opt,name=deprecated,def=0" json:"deprecated,omitempty"`
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *EnumOptions) Reset()                    { *m = EnumOptions{} }
func (m *EnumOptions) String() string            { return proto.CompactTextString(m) }
func (*EnumOptions) ProtoMessage()               {}
func (*EnumOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{13} }

var extRange_EnumOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*EnumOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_EnumOptions
}

const Default_EnumOptions_Deprecated bool = false

func (m *EnumOptions) GetAllowAlias() bool {
	if m != nil && m.AllowAlias != nil {
		return *m.AllowAlias
	}
	return false
}

func (m *EnumOptions) GetDeprecated() bool {
	if m != nil && m.Deprecated != nil {
		return *m.Deprecated
	}
	return Default_EnumOptions_Deprecated
}

func (m *EnumOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

type EnumValueOptions struct {
	// Is this enum value deprecated?
	// Depending on the target platform, this can emit Deprecated annotations
	// for the enum value, or it will be completely ignored; in the very least,
	// this is a formalization for deprecating enum values.
	Deprecated *bool `protobuf:"varint,1,opt,name=deprecated,def=0" json:"deprecated,omitempty"`
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *EnumValueOptions) Reset()                    { *m = EnumValueOptions{} }
func (m *EnumValueOptions) String() string            { return proto.CompactTextString(m) }
func (*EnumValueOptions) ProtoMessage()               {}
func (*EnumValueOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{14} }

var extRange_EnumValueOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*EnumValueOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_EnumValueOptions
}

const Default_EnumValueOptions_Deprecated bool = false

func (m *EnumValueOptions) GetDeprecated() bool {
	if m != nil && m.Deprecated != nil {
		return *m.Deprecated
	}
	return Default_EnumValueOptions_Deprecated
}

func (m *EnumValueOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

type ServiceOptions struct {
	// Is this service deprecated?
	// Depending on the target platform, this can emit Deprecated annotations
	// for the service, or it will be completely ignored; in the very least,
	// this is a formalization for deprecating services.
	Deprecated *bool `protobuf:"varint,33,opt,name=deprecated,def=0" json:"deprecated,omitempty"`
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *ServiceOptions) Reset()                    { *m = ServiceOptions{} }
func (m *ServiceOptions) String() string            { return proto.CompactTextString(m) }
func (*ServiceOptions) ProtoMessage()               {}
func (*ServiceOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{15} }

var extRange_ServiceOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*ServiceOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_ServiceOptions
}

const Default_ServiceOptions_Deprecated bool = false

func (m *ServiceOptions) GetDeprecated() bool {
	if m != nil && m.Deprecated != nil {
		return *m.Deprecated
	}
	return Default_ServiceOptions_Deprecated
}

func (m *ServiceOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

type MethodOptions struct {
	// Is this method deprecated?
	// Depending on the target platform, this can emit Deprecated annotations
	// for the method, or it will be completely ignored; in the very least,
	// this is a formalization for deprecating methods.
	Deprecated *bool `protobuf:"varint,33,opt,name=deprecated,def=0" json:"deprecated,omitempty"`
	// The parser stores options it doesn't recognize here. See above.
	UninterpretedOption          []*UninterpretedOption `protobuf:"bytes,999,rep,name=uninterpreted_option,json=uninterpretedOption" json:"uninterpreted_option,omitempty"`
	proto.XXX_InternalExtensions `json:"-"`
	XXX_unrecognized             []byte `json:"-"`
}

func (m *MethodOptions) Reset()                    { *m = MethodOptions{} }
func (m *MethodOptions) String() string            { return proto.CompactTextString(m) }
func (*MethodOptions) ProtoMessage()               {}
func (*MethodOptions) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{16} }

var extRange_MethodOptions = []proto.ExtensionRange{
	{1000, 536870911},
}

func (*MethodOptions) ExtensionRangeArray() []proto.ExtensionRange {
	return extRange_MethodOptions
}

const Default_MethodOptions_Deprecated bool = false

func (m *MethodOptions) GetDeprecated() bool {
	if m != nil && m.Deprecated != nil {
		return *m.Deprecated
	}
	return Default_MethodOptions_Deprecated
}

func (m *MethodOptions) GetUninterpretedOption() []*UninterpretedOption {
	if m != nil {
		return m.UninterpretedOption
	}
	return nil
}

// A message representing a option the parser does not recognize. This only
// appears in options protos created by the compiler::Parser class.
// DescriptorPool resolves these when building Descriptor objects. Therefore,
// options protos in descriptor objects (e.g. returned by Descriptor::options(),
// or produced by Descriptor::CopyTo()) will never have UninterpretedOptions
// in them.
type UninterpretedOption struct {
	Name []*UninterpretedOption_NamePart `protobuf:"bytes,2,rep,name=name" json:"name,omitempty"`
	// The value of the uninterpreted option, in whatever type the tokenizer
	// identified it as during parsing. Exactly one of these should be set.
	IdentifierValue  *string  `protobuf:"bytes,3,opt,name=identifier_value,json=identifierValue" json:"identifier_value,omitempty"`
	PositiveIntValue *uint64  `protobuf:"varint,4,opt,name=positive_int_value,json=positiveIntValue" json:"positive_int_value,omitempty"`
	NegativeIntValue *int64   `protobuf:"varint,5,opt,name=negative_int_value,json=negativeIntValue" json:"negative_int_value,omitempty"`
	DoubleValue      *float64 `protobuf:"fixed64,6,opt,name=double_value,json=doubleValue" json:"double_value,omitempty"`
	StringValue      []byte   `protobuf:"bytes,7,opt,name=string_value,json=stringValue" json:"string_value,omitempty"`
	AggregateValue   *string  `protobuf:"bytes,8,opt,name=aggregate_value,json=aggregateValue" json:"aggregate_value,omitempty"`
	XXX_unrecognized []byte   `json:"-"`
}

func (m *UninterpretedOption) Reset()                    { *m = UninterpretedOption{} }
func (m *UninterpretedOption) String() string            { return proto.CompactTextString(m) }
func (*UninterpretedOption) ProtoMessage()               {}
func (*UninterpretedOption) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{17} }

func (m *UninterpretedOption) GetName() []*UninterpretedOption_NamePart {
	if m != nil {
		return m.Name
	}
	return nil
}

func (m *UninterpretedOption) GetIdentifierValue() string {
	if m != nil && m.IdentifierValue != nil {
		return *m.IdentifierValue
	}
	return ""
}

func (m *UninterpretedOption) GetPositiveIntValue() uint64 {
	if m != nil && m.PositiveIntValue != nil {
		return *m.PositiveIntValue
	}
	return 0
}

func (m *UninterpretedOption) GetNegativeIntValue() int64 {
	if m != nil && m.NegativeIntValue != nil {
		return *m.NegativeIntValue
	}
	return 0
}

func (m *UninterpretedOption) GetDoubleValue() float64 {
	if m != nil && m.DoubleValue != nil {
		return *m.DoubleValue
	}
	return 0
}

func (m *UninterpretedOption) GetStringValue() []byte {
	if m != nil {
		return m.StringValue
	}
	return nil
}

func (m *UninterpretedOption) GetAggregateValue() string {
	if m != nil && m.AggregateValue != nil {
		return *m.AggregateValue
	}
	return ""
}

// The name of the uninterpreted option.  Each string represents a segment in
// a dot-separated name.  is_extension is true iff a segment represents an
// extension (denoted with parentheses in options specs in .proto files).
// E.g.,{ ["foo", false], ["bar.baz", true], ["qux", false] } represents
// "foo.(bar.baz).qux".
type UninterpretedOption_NamePart struct {
	NamePart         *string `protobuf:"bytes,1,req,name=name_part,json=namePart" json:"name_part,omitempty"`
	IsExtension      *bool   `protobuf:"varint,2,req,name=is_extension,json=isExtension" json:"is_extension,omitempty"`
	XXX_unrecognized []byte  `json:"-"`
}

func (m *UninterpretedOption_NamePart) Reset()         { *m = UninterpretedOption_NamePart{} }
func (m *UninterpretedOption_NamePart) String() string { return proto.CompactTextString(m) }
func (*UninterpretedOption_NamePart) ProtoMessage()    {}
func (*UninterpretedOption_NamePart) Descriptor() ([]byte, []int) {
	return fileDescriptor1, []int{17, 0}
}

func (m *UninterpretedOption_NamePart) GetNamePart() string {
	if m != nil && m.NamePart != nil {
		return *m.NamePart
	}
	return ""
}

func (m *UninterpretedOption_NamePart) GetIsExtension() bool {
	if m != nil && m.IsExtension != nil {
		return *m.IsExtension
	}
	return false
}

// Encapsulates information about the original source file from which a
// FileDescriptorProto was generated.
type SourceCodeInfo struct {
	// A Location identifies a piece of source code in a .proto file which
	// corresponds to a particular definition.  This information is intended
	// to be useful to IDEs, code indexers, documentation generators, and similar
	// tools.
	//
	// For example, say we have a file like:
	//   message Foo {
	//     optional string foo = 1;
	//   }
	// Let's look at just the field definition:
	//   optional string foo = 1;
	//   ^       ^^     ^^  ^  ^^^
	//   a       bc     de  f  ghi
	// We have the following locations:
	//   span   path               represents
	//   [a,i)  [ 4, 0, 2, 0 ]     The whole field definition.
	//   [a,b)  [ 4, 0, 2, 0, 4 ]  The label (optional).
	//   [c,d)  [ 4, 0, 2, 0, 5 ]  The type (string).
	//   [e,f)  [ 4, 0, 2, 0, 1 ]  The name (foo).
	//   [g,h)  [ 4, 0, 2, 0, 3 ]  The number (1).
	//
	// Notes:
	// - A location may refer to a repeated field itself (i.e. not to any
	//   particular index within it).  This is used whenever a set of elements are
	//   logically enclosed in a single code segment.  For example, an entire
	//   extend block (possibly containing multiple extension definitions) will
	//   have an outer location whose path refers to the "extensions" repeated
	//   field without an index.
	// - Multiple locations may have the same path.  This happens when a single
	//   logical declaration is spread out across multiple places.  The most
	//   obvious example is the "extend" block again -- there may be multiple
	//   extend blocks in the same scope, each of which will have the same path.
	// - A location's span is not always a subset of its parent's span.  For
	//   example, the "extendee" of an extension declaration appears at the
	//   beginning of the "extend" block and is shared by all extensions within
	//   the block.
	// - Just because a location's span is a subset of some other location's span
	//   does not mean that it is a descendent.  For example, a "group" defines
	//   both a type and a field in a single declaration.  Thus, the locations
	//   corresponding to the type and field and their components will overlap.
	// - Code which tries to interpret locations should probably be designed to
	//   ignore those that it doesn't understand, as more types of locations could
	//   be recorded in the future.
	Location         []*SourceCodeInfo_Location `protobuf:"bytes,1,rep,name=location" json:"location,omitempty"`
	XXX_unrecognized []byte                     `json:"-"`
}

func (m *SourceCodeInfo) Reset()                    { *m = SourceCodeInfo{} }
func (m *SourceCodeInfo) String() string            { return proto.CompactTextString(m) }
func (*SourceCodeInfo) ProtoMessage()               {}
func (*SourceCodeInfo) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{18} }

func (m *SourceCodeInfo) GetLocation() []*SourceCodeInfo_Location {
	if m != nil {
		return m.Location
	}
	return nil
}

type SourceCodeInfo_Location struct {
	// Identifies which part of the FileDescriptorProto was defined at this
	// location.
	//
	// Each element is a field number or an index.  They form a path from
	// the root FileDescriptorProto to the place where the definition.  For
	// example, this path:
	//   [ 4, 3, 2, 7, 1 ]
	// refers to:
	//   file.message_type(3)  // 4, 3
	//       .field(7)         // 2, 7
	//       .name()           // 1
	// This is because FileDescriptorProto.message_type has field number 4:
	//   repeated DescriptorProto message_type = 4;
	// and DescriptorProto.field has field number 2:
	//   repeated FieldDescriptorProto field = 2;
	// and FieldDescriptorProto.name has field number 1:
	//   optional string name = 1;
	//
	// Thus, the above path gives the location of a field name.  If we removed
	// the last element:
	//   [ 4, 3, 2, 7 ]
	// this path refers to the whole field declaration (from the beginning
	// of the label to the terminating semicolon).
	Path []int32 `protobuf:"varint,1,rep,packed,name=path" json:"path,omitempty"`
	// Always has exactly three or four elements: start line, start column,
	// end line (optional, otherwise assumed same as start line), end column.
	// These are packed into a single field for efficiency.  Note that line
	// and column numbers are zero-based -- typically you will want to add
	// 1 to each before displaying to a user.
	Span []int32 `protobuf:"varint,2,rep,packed,name=span" json:"span,omitempty"`
	// If this SourceCodeInfo represents a complete declaration, these are any
	// comments appearing before and after the declaration which appear to be
	// attached to the declaration.
	//
	// A series of line comments appearing on consecutive lines, with no other
	// tokens appearing on those lines, will be treated as a single comment.
	//
	// leading_detached_comments will keep paragraphs of comments that appear
	// before (but not connected to) the current element. Each paragraph,
	// separated by empty lines, will be one comment element in the repeated
	// field.
	//
	// Only the comment content is provided; comment markers (e.g. //) are
	// stripped out.  For block comments, leading whitespace and an asterisk
	// will be stripped from the beginning of each line other than the first.
	// Newlines are included in the output.
	//
	// Examples:
	//
	//   optional int32 foo = 1;  // Comment attached to foo.
	//   // Comment attached to bar.
	//   optional int32 bar = 2;
	//
	//   optional string baz = 3;
	//   // Comment attached to baz.
	//   // Another line attached to baz.
	//
	//   // Comment attached to qux.
	//   //
	//   // Another line attached to qux.
	//   optional double qux = 4;
	//
	//   // Detached comment for corge. This is not leading or trailing comments
	//   // to qux or corge because there are blank lines separating it from
	//   // both.
	//
	//   // Detached comment for corge paragraph 2.
	//
	//   optional string corge = 5;
	//   /* Block comment attached
	//    * to corge.  Leading asterisks
	//    * will be removed. */
	//   /* Block comment attached to
	//    * grault. */
	//   optional int32 grault = 6;
	//
	//   // ignored detached comments.
	LeadingComments         *string  `protobuf:"bytes,3,opt,name=leading_comments,json=leadingComments" json:"leading_comments,omitempty"`
	TrailingComments        *string  `protobuf:"bytes,4,opt,name=trailing_comments,json=trailingComments" json:"trailing_comments,omitempty"`
	LeadingDetachedComments []string `protobuf:"bytes,6,rep,name=leading_detached_comments,json=leadingDetachedComments" json:"leading_detached_comments,omitempty"`
	XXX_unrecognized        []byte   `json:"-"`
}

func (m *SourceCodeInfo_Location) Reset()                    { *m = SourceCodeInfo_Location{} }
func (m *SourceCodeInfo_Location) String() string            { return proto.CompactTextString(m) }
func (*SourceCodeInfo_Location) ProtoMessage()               {}
func (*SourceCodeInfo_Location) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{18, 0} }

func (m *SourceCodeInfo_Location) GetPath() []int32 {
	if m != nil {
		return m.Path
	}
	return nil
}

func (m *SourceCodeInfo_Location) GetSpan() []int32 {
	if m != nil {
		return m.Span
	}
	return nil
}

func (m *SourceCodeInfo_Location) GetLeadingComments() string {
	if m != nil && m.LeadingComments != nil {
		return *m.LeadingComments
	}
	return ""
}

func (m *SourceCodeInfo_Location) GetTrailingComments() string {
	if m != nil && m.TrailingComments != nil {
		return *m.TrailingComments
	}
	return ""
}

func (m *SourceCodeInfo_Location) GetLeadingDetachedComments() []string {
	if m != nil {
		return m.LeadingDetachedComments
	}
	return nil
}

// Describes the relationship between generated code and its original source
// file. A GeneratedCodeInfo message is associated with only one generated
// source file, but may contain references to different source .proto files.
type GeneratedCodeInfo struct {
	// An Annotation connects some span of text in generated code to an element
	// of its generating .proto file.
	Annotation       []*GeneratedCodeInfo_Annotation `protobuf:"bytes,1,rep,name=annotation" json:"annotation,omitempty"`
	XXX_unrecognized []byte                          `json:"-"`
}

func (m *GeneratedCodeInfo) Reset()                    { *m = GeneratedCodeInfo{} }
func (m *GeneratedCodeInfo) String() string            { return proto.CompactTextString(m) }
func (*GeneratedCodeInfo) ProtoMessage()               {}
func (*GeneratedCodeInfo) Descriptor() ([]byte, []int) { return fileDescriptor1, []int{19} }

func (m *GeneratedCodeInfo) GetAnnotation() []*GeneratedCodeInfo_Annotation {
	if m != nil {
		return m.Annotation
	}
	return nil
}

type GeneratedCodeInfo_Annotation struct {
	// Identifies the element in the original source .proto file. This field
	// is formatted the same as SourceCodeInfo.Location.path.
	Path []int32 `protobuf:"varint,1,rep,packed,name=path" json:"path,omitempty"`
	// Identifies the filesystem path to the original source .proto.
	SourceFile *string `protobuf:"bytes,2,opt,name=source_file,json=sourceFile" json:"source_file,omitempty"`
	// Identifies the starting offset in bytes in the generated code
	// that relates to the identified object.
	Begin *int32 `protobuf:"varint,3,opt,name=begin" json:"begin,omitempty"`
	// Identifies the ending offset in bytes in the generated code that
	// relates to the identified offset. The end offset should be one past
	// the last relevant byte (so the length of the text = end - begin).
	End              *int32 `protobuf:"varint,4,opt,name=end" json:"end,omitempty"`
	XXX_unrecognized []byte `json:"-"`
}

func (m *GeneratedCodeInfo_Annotation) Reset()         { *m = GeneratedCodeInfo_Annotation{} }
func (m *GeneratedCodeInfo_Annotation) String() string { return proto.CompactTextString(m) }
func (*GeneratedCodeInfo_Annotation) ProtoMessage()    {}
func (*GeneratedCodeInfo_Annotation) Descriptor() ([]byte, []int) {
	return fileDescriptor1, []int{19, 0}
}

func (m *GeneratedCodeInfo_Annotation) GetPath() []int32 {
	if m != nil {
		return m.Path
	}
	return nil
}

func (m *GeneratedCodeInfo_Annotation) GetSourceFile() string {
	if m != nil && m.SourceFile != nil {
		return *m.SourceFile
	}
	return ""
}

func (m *GeneratedCodeInfo_Annotation) GetBegin() int32 {
	if m != nil && m.Begin != nil {
		return *m.Begin
	}
	return 0
}

func (m *GeneratedCodeInfo_Annotation) GetEnd() int32 {
	if m != nil && m.End != nil {
		return *m.End
	}
	return 0
}

func init() {
	proto.RegisterType((*FileDescriptorSet)(nil), "google.protobuf.FileDescriptorSet")
	proto.RegisterType((*FileDescriptorProto)(nil), "google.protobuf.FileDescriptorProto")
	proto.RegisterType((*DescriptorProto)(nil), "google.protobuf.DescriptorProto")
	proto.RegisterType((*DescriptorProto_ExtensionRange)(nil), "google.protobuf.DescriptorProto.ExtensionRange")
	proto.RegisterType((*DescriptorProto_ReservedRange)(nil), "google.protobuf.DescriptorProto.ReservedRange")
	proto.RegisterType((*FieldDescriptorProto)(nil), "google.protobuf.FieldDescriptorProto")
	proto.RegisterType((*OneofDescriptorProto)(nil), "google.protobuf.OneofDescriptorProto")
	proto.RegisterType((*EnumDescriptorProto)(nil), "google.protobuf.EnumDescriptorProto")
	proto.RegisterType((*EnumValueDescriptorProto)(nil), "google.protobuf.EnumValueDescriptorProto")
	proto.RegisterType((*ServiceDescriptorProto)(nil), "google.protobuf.ServiceDescriptorProto")
	proto.RegisterType((*MethodDescriptorProto)(nil), "google.protobuf.MethodDescriptorProto")
	proto.RegisterType((*FileOptions)(nil), "google.protobuf.FileOptions")
	proto.RegisterType((*MessageOptions)(nil), "google.protobuf.MessageOptions")
	proto.RegisterType((*FieldOptions)(nil), "google.protobuf.FieldOptions")
	proto.RegisterType((*OneofOptions)(nil), "google.protobuf.OneofOptions")
	proto.RegisterType((*EnumOptions)(nil), "google.protobuf.EnumOptions")
	proto.RegisterType((*EnumValueOptions)(nil), "google.protobuf.EnumValueOptions")
	proto.RegisterType((*ServiceOptions)(nil), "google.protobuf.ServiceOptions")
	proto.RegisterType((*MethodOptions)(nil), "google.protobuf.MethodOptions")
	proto.RegisterType((*UninterpretedOption)(nil), "google.protobuf.UninterpretedOption")
	proto.RegisterType((*UninterpretedOption_NamePart)(nil), "google.protobuf.UninterpretedOption.NamePart")
	proto.RegisterType((*SourceCodeInfo)(nil), "google.protobuf.SourceCodeInfo")
	proto.RegisterType((*SourceCodeInfo_Location)(nil), "google.protobuf.SourceCodeInfo.Location")
	proto.RegisterType((*GeneratedCodeInfo)(nil), "google.protobuf.GeneratedCodeInfo")
	proto.RegisterType((*GeneratedCodeInfo_Annotation)(nil), "google.protobuf.GeneratedCodeInfo.Annotation")
	proto.RegisterEnum("google.protobuf.FieldDescriptorProto_Type", FieldDescriptorProto_Type_name, FieldDescriptorProto_Type_value)
	proto.RegisterEnum("google.protobuf.FieldDescriptorProto_Label", FieldDescriptorProto_Label_name, FieldDescriptorProto_Label_value)
	proto.RegisterEnum("google.protobuf.FileOptions_OptimizeMode", FileOptions_OptimizeMode_name, FileOptions_OptimizeMode_value)
	proto.RegisterEnum("google.protobuf.FieldOptions_CType", FieldOptions_CType_name, FieldOptions_CType_value)
	proto.RegisterEnum("google.protobuf.FieldOptions_JSType", FieldOptions_JSType_name, FieldOptions_JSType_value)
}

func init() {
	proto.RegisterFile("google.golang.org/genproto/protobuf/descriptor.proto", fileDescriptor1)
}

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}