b6a95a8cb3
* Dropped unused codekit config * Integrated dynamic and static bindata for public * Ignore public bindata * Add a general generate make task * Integrated flexible public assets into web command * Updated vendoring, added all missiong govendor deps * Made the linter happy with the bindata and dynamic code * Moved public bindata definition to modules directory * Ignoring the new bindata path now * Updated to the new public modules import path * Updated public bindata command and drop the new prefix
894 lines
24 KiB
Go
894 lines
24 KiB
Go
// Go support for Protocol Buffers - Google's data interchange format
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//
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// Copyright 2010 The Go Authors. All rights reserved.
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// https://github.com/golang/protobuf
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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/*
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Package proto converts data structures to and from the wire format of
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protocol buffers. It works in concert with the Go source code generated
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for .proto files by the protocol compiler.
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A summary of the properties of the protocol buffer interface
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for a protocol buffer variable v:
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- Names are turned from camel_case to CamelCase for export.
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- There are no methods on v to set fields; just treat
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them as structure fields.
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- There are getters that return a field's value if set,
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and return the field's default value if unset.
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The getters work even if the receiver is a nil message.
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- The zero value for a struct is its correct initialization state.
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All desired fields must be set before marshaling.
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- A Reset() method will restore a protobuf struct to its zero state.
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- Non-repeated fields are pointers to the values; nil means unset.
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That is, optional or required field int32 f becomes F *int32.
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- Repeated fields are slices.
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- Helper functions are available to aid the setting of fields.
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msg.Foo = proto.String("hello") // set field
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- Constants are defined to hold the default values of all fields that
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have them. They have the form Default_StructName_FieldName.
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Because the getter methods handle defaulted values,
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direct use of these constants should be rare.
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- Enums are given type names and maps from names to values.
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Enum values are prefixed by the enclosing message's name, or by the
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enum's type name if it is a top-level enum. Enum types have a String
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method, and a Enum method to assist in message construction.
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- Nested messages, groups and enums have type names prefixed with the name of
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the surrounding message type.
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- Extensions are given descriptor names that start with E_,
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followed by an underscore-delimited list of the nested messages
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that contain it (if any) followed by the CamelCased name of the
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extension field itself. HasExtension, ClearExtension, GetExtension
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and SetExtension are functions for manipulating extensions.
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- Oneof field sets are given a single field in their message,
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with distinguished wrapper types for each possible field value.
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- Marshal and Unmarshal are functions to encode and decode the wire format.
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When the .proto file specifies `syntax="proto3"`, there are some differences:
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- Non-repeated fields of non-message type are values instead of pointers.
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- Getters are only generated for message and oneof fields.
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- Enum types do not get an Enum method.
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The simplest way to describe this is to see an example.
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Given file test.proto, containing
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package example;
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enum FOO { X = 17; }
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message Test {
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required string label = 1;
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optional int32 type = 2 [default=77];
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repeated int64 reps = 3;
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optional group OptionalGroup = 4 {
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required string RequiredField = 5;
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}
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oneof union {
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int32 number = 6;
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string name = 7;
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}
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}
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The resulting file, test.pb.go, is:
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package example
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import proto "github.com/golang/protobuf/proto"
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import math "math"
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type FOO int32
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const (
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FOO_X FOO = 17
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)
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var FOO_name = map[int32]string{
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17: "X",
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}
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var FOO_value = map[string]int32{
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"X": 17,
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}
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func (x FOO) Enum() *FOO {
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p := new(FOO)
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*p = x
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return p
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}
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func (x FOO) String() string {
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return proto.EnumName(FOO_name, int32(x))
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}
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func (x *FOO) UnmarshalJSON(data []byte) error {
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value, err := proto.UnmarshalJSONEnum(FOO_value, data)
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if err != nil {
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return err
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}
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*x = FOO(value)
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return nil
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}
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type Test struct {
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Label *string `protobuf:"bytes,1,req,name=label" json:"label,omitempty"`
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Type *int32 `protobuf:"varint,2,opt,name=type,def=77" json:"type,omitempty"`
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Reps []int64 `protobuf:"varint,3,rep,name=reps" json:"reps,omitempty"`
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Optionalgroup *Test_OptionalGroup `protobuf:"group,4,opt,name=OptionalGroup" json:"optionalgroup,omitempty"`
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// Types that are valid to be assigned to Union:
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// *Test_Number
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// *Test_Name
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Union isTest_Union `protobuf_oneof:"union"`
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XXX_unrecognized []byte `json:"-"`
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}
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func (m *Test) Reset() { *m = Test{} }
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func (m *Test) String() string { return proto.CompactTextString(m) }
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func (*Test) ProtoMessage() {}
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type isTest_Union interface {
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isTest_Union()
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}
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type Test_Number struct {
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Number int32 `protobuf:"varint,6,opt,name=number"`
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}
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type Test_Name struct {
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Name string `protobuf:"bytes,7,opt,name=name"`
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}
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func (*Test_Number) isTest_Union() {}
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func (*Test_Name) isTest_Union() {}
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func (m *Test) GetUnion() isTest_Union {
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if m != nil {
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return m.Union
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}
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return nil
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}
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const Default_Test_Type int32 = 77
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func (m *Test) GetLabel() string {
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if m != nil && m.Label != nil {
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return *m.Label
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}
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return ""
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}
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func (m *Test) GetType() int32 {
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if m != nil && m.Type != nil {
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return *m.Type
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}
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return Default_Test_Type
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}
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func (m *Test) GetOptionalgroup() *Test_OptionalGroup {
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if m != nil {
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return m.Optionalgroup
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}
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return nil
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}
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type Test_OptionalGroup struct {
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RequiredField *string `protobuf:"bytes,5,req" json:"RequiredField,omitempty"`
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}
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func (m *Test_OptionalGroup) Reset() { *m = Test_OptionalGroup{} }
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func (m *Test_OptionalGroup) String() string { return proto.CompactTextString(m) }
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func (m *Test_OptionalGroup) GetRequiredField() string {
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if m != nil && m.RequiredField != nil {
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return *m.RequiredField
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}
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return ""
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}
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func (m *Test) GetNumber() int32 {
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if x, ok := m.GetUnion().(*Test_Number); ok {
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return x.Number
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}
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return 0
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}
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func (m *Test) GetName() string {
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if x, ok := m.GetUnion().(*Test_Name); ok {
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return x.Name
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}
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return ""
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}
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func init() {
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proto.RegisterEnum("example.FOO", FOO_name, FOO_value)
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}
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To create and play with a Test object:
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package main
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import (
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"log"
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"github.com/golang/protobuf/proto"
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pb "./example.pb"
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)
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func main() {
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test := &pb.Test{
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Label: proto.String("hello"),
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Type: proto.Int32(17),
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Reps: []int64{1, 2, 3},
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Optionalgroup: &pb.Test_OptionalGroup{
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RequiredField: proto.String("good bye"),
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},
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Union: &pb.Test_Name{"fred"},
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}
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data, err := proto.Marshal(test)
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if err != nil {
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log.Fatal("marshaling error: ", err)
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}
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newTest := &pb.Test{}
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err = proto.Unmarshal(data, newTest)
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if err != nil {
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log.Fatal("unmarshaling error: ", err)
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}
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// Now test and newTest contain the same data.
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if test.GetLabel() != newTest.GetLabel() {
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log.Fatalf("data mismatch %q != %q", test.GetLabel(), newTest.GetLabel())
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}
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// Use a type switch to determine which oneof was set.
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switch u := test.Union.(type) {
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case *pb.Test_Number: // u.Number contains the number.
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case *pb.Test_Name: // u.Name contains the string.
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}
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// etc.
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}
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*/
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package proto
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import (
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"encoding/json"
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"fmt"
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"log"
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"reflect"
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"sort"
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"strconv"
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"sync"
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)
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// Message is implemented by generated protocol buffer messages.
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type Message interface {
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Reset()
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String() string
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ProtoMessage()
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}
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// Stats records allocation details about the protocol buffer encoders
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// and decoders. Useful for tuning the library itself.
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type Stats struct {
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Emalloc uint64 // mallocs in encode
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Dmalloc uint64 // mallocs in decode
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Encode uint64 // number of encodes
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Decode uint64 // number of decodes
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Chit uint64 // number of cache hits
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Cmiss uint64 // number of cache misses
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Size uint64 // number of sizes
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}
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// Set to true to enable stats collection.
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const collectStats = false
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var stats Stats
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// GetStats returns a copy of the global Stats structure.
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func GetStats() Stats { return stats }
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// A Buffer is a buffer manager for marshaling and unmarshaling
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// protocol buffers. It may be reused between invocations to
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// reduce memory usage. It is not necessary to use a Buffer;
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// the global functions Marshal and Unmarshal create a
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// temporary Buffer and are fine for most applications.
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type Buffer struct {
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buf []byte // encode/decode byte stream
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index int // write point
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// pools of basic types to amortize allocation.
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bools []bool
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uint32s []uint32
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uint64s []uint64
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// extra pools, only used with pointer_reflect.go
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int32s []int32
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int64s []int64
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float32s []float32
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float64s []float64
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}
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// NewBuffer allocates a new Buffer and initializes its internal data to
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// the contents of the argument slice.
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func NewBuffer(e []byte) *Buffer {
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return &Buffer{buf: e}
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}
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// Reset resets the Buffer, ready for marshaling a new protocol buffer.
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func (p *Buffer) Reset() {
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p.buf = p.buf[0:0] // for reading/writing
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p.index = 0 // for reading
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}
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// SetBuf replaces the internal buffer with the slice,
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// ready for unmarshaling the contents of the slice.
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func (p *Buffer) SetBuf(s []byte) {
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p.buf = s
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p.index = 0
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}
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// Bytes returns the contents of the Buffer.
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func (p *Buffer) Bytes() []byte { return p.buf }
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/*
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* Helper routines for simplifying the creation of optional fields of basic type.
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*/
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// Bool is a helper routine that allocates a new bool value
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// to store v and returns a pointer to it.
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func Bool(v bool) *bool {
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return &v
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}
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// Int32 is a helper routine that allocates a new int32 value
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// to store v and returns a pointer to it.
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func Int32(v int32) *int32 {
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return &v
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}
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// Int is a helper routine that allocates a new int32 value
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// to store v and returns a pointer to it, but unlike Int32
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// its argument value is an int.
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func Int(v int) *int32 {
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p := new(int32)
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*p = int32(v)
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return p
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}
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// Int64 is a helper routine that allocates a new int64 value
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// to store v and returns a pointer to it.
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func Int64(v int64) *int64 {
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return &v
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}
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// Float32 is a helper routine that allocates a new float32 value
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// to store v and returns a pointer to it.
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func Float32(v float32) *float32 {
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return &v
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}
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// Float64 is a helper routine that allocates a new float64 value
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// to store v and returns a pointer to it.
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func Float64(v float64) *float64 {
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return &v
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}
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// Uint32 is a helper routine that allocates a new uint32 value
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// to store v and returns a pointer to it.
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func Uint32(v uint32) *uint32 {
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return &v
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}
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// Uint64 is a helper routine that allocates a new uint64 value
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// to store v and returns a pointer to it.
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func Uint64(v uint64) *uint64 {
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return &v
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}
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// String is a helper routine that allocates a new string value
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// to store v and returns a pointer to it.
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func String(v string) *string {
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return &v
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}
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// EnumName is a helper function to simplify printing protocol buffer enums
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// by name. Given an enum map and a value, it returns a useful string.
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func EnumName(m map[int32]string, v int32) string {
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s, ok := m[v]
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if ok {
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return s
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}
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return strconv.Itoa(int(v))
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}
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// UnmarshalJSONEnum is a helper function to simplify recovering enum int values
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// from their JSON-encoded representation. Given a map from the enum's symbolic
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// names to its int values, and a byte buffer containing the JSON-encoded
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// value, it returns an int32 that can be cast to the enum type by the caller.
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//
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// The function can deal with both JSON representations, numeric and symbolic.
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func UnmarshalJSONEnum(m map[string]int32, data []byte, enumName string) (int32, error) {
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if data[0] == '"' {
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// New style: enums are strings.
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var repr string
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if err := json.Unmarshal(data, &repr); err != nil {
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return -1, err
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}
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val, ok := m[repr]
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if !ok {
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return 0, fmt.Errorf("unrecognized enum %s value %q", enumName, repr)
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}
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return val, nil
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}
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// Old style: enums are ints.
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var val int32
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if err := json.Unmarshal(data, &val); err != nil {
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return 0, fmt.Errorf("cannot unmarshal %#q into enum %s", data, enumName)
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}
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return val, nil
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}
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// DebugPrint dumps the encoded data in b in a debugging format with a header
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// including the string s. Used in testing but made available for general debugging.
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func (p *Buffer) DebugPrint(s string, b []byte) {
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var u uint64
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obuf := p.buf
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index := p.index
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p.buf = b
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p.index = 0
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depth := 0
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fmt.Printf("\n--- %s ---\n", s)
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out:
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for {
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for i := 0; i < depth; i++ {
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fmt.Print(" ")
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}
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index := p.index
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if index == len(p.buf) {
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break
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}
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op, err := p.DecodeVarint()
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if err != nil {
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fmt.Printf("%3d: fetching op err %v\n", index, err)
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break out
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}
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tag := op >> 3
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wire := op & 7
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switch wire {
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default:
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fmt.Printf("%3d: t=%3d unknown wire=%d\n",
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index, tag, wire)
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break out
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case WireBytes:
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var r []byte
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r, err = p.DecodeRawBytes(false)
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if err != nil {
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break out
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}
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fmt.Printf("%3d: t=%3d bytes [%d]", index, tag, len(r))
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if len(r) <= 6 {
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for i := 0; i < len(r); i++ {
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fmt.Printf(" %.2x", r[i])
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}
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} else {
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for i := 0; i < 3; i++ {
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fmt.Printf(" %.2x", r[i])
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}
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fmt.Printf(" ..")
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for i := len(r) - 3; i < len(r); i++ {
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fmt.Printf(" %.2x", r[i])
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}
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}
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fmt.Printf("\n")
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case WireFixed32:
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u, err = p.DecodeFixed32()
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if err != nil {
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fmt.Printf("%3d: t=%3d fix32 err %v\n", index, tag, err)
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break out
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}
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fmt.Printf("%3d: t=%3d fix32 %d\n", index, tag, u)
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case WireFixed64:
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u, err = p.DecodeFixed64()
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if err != nil {
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fmt.Printf("%3d: t=%3d fix64 err %v\n", index, tag, err)
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break out
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}
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fmt.Printf("%3d: t=%3d fix64 %d\n", index, tag, u)
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case WireVarint:
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u, err = p.DecodeVarint()
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if err != nil {
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fmt.Printf("%3d: t=%3d varint err %v\n", index, tag, err)
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break out
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}
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fmt.Printf("%3d: t=%3d varint %d\n", index, tag, u)
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case WireStartGroup:
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fmt.Printf("%3d: t=%3d start\n", index, tag)
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depth++
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case WireEndGroup:
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depth--
|
|
fmt.Printf("%3d: t=%3d end\n", index, tag)
|
|
}
|
|
}
|
|
|
|
if depth != 0 {
|
|
fmt.Printf("%3d: start-end not balanced %d\n", p.index, depth)
|
|
}
|
|
fmt.Printf("\n")
|
|
|
|
p.buf = obuf
|
|
p.index = index
|
|
}
|
|
|
|
// SetDefaults sets unset protocol buffer fields to their default values.
|
|
// It only modifies fields that are both unset and have defined defaults.
|
|
// It recursively sets default values in any non-nil sub-messages.
|
|
func SetDefaults(pb Message) {
|
|
setDefaults(reflect.ValueOf(pb), true, false)
|
|
}
|
|
|
|
// v is a pointer to a struct.
|
|
func setDefaults(v reflect.Value, recur, zeros bool) {
|
|
v = v.Elem()
|
|
|
|
defaultMu.RLock()
|
|
dm, ok := defaults[v.Type()]
|
|
defaultMu.RUnlock()
|
|
if !ok {
|
|
dm = buildDefaultMessage(v.Type())
|
|
defaultMu.Lock()
|
|
defaults[v.Type()] = dm
|
|
defaultMu.Unlock()
|
|
}
|
|
|
|
for _, sf := range dm.scalars {
|
|
f := v.Field(sf.index)
|
|
if !f.IsNil() {
|
|
// field already set
|
|
continue
|
|
}
|
|
dv := sf.value
|
|
if dv == nil && !zeros {
|
|
// no explicit default, and don't want to set zeros
|
|
continue
|
|
}
|
|
fptr := f.Addr().Interface() // **T
|
|
// TODO: Consider batching the allocations we do here.
|
|
switch sf.kind {
|
|
case reflect.Bool:
|
|
b := new(bool)
|
|
if dv != nil {
|
|
*b = dv.(bool)
|
|
}
|
|
*(fptr.(**bool)) = b
|
|
case reflect.Float32:
|
|
f := new(float32)
|
|
if dv != nil {
|
|
*f = dv.(float32)
|
|
}
|
|
*(fptr.(**float32)) = f
|
|
case reflect.Float64:
|
|
f := new(float64)
|
|
if dv != nil {
|
|
*f = dv.(float64)
|
|
}
|
|
*(fptr.(**float64)) = f
|
|
case reflect.Int32:
|
|
// might be an enum
|
|
if ft := f.Type(); ft != int32PtrType {
|
|
// enum
|
|
f.Set(reflect.New(ft.Elem()))
|
|
if dv != nil {
|
|
f.Elem().SetInt(int64(dv.(int32)))
|
|
}
|
|
} else {
|
|
// int32 field
|
|
i := new(int32)
|
|
if dv != nil {
|
|
*i = dv.(int32)
|
|
}
|
|
*(fptr.(**int32)) = i
|
|
}
|
|
case reflect.Int64:
|
|
i := new(int64)
|
|
if dv != nil {
|
|
*i = dv.(int64)
|
|
}
|
|
*(fptr.(**int64)) = i
|
|
case reflect.String:
|
|
s := new(string)
|
|
if dv != nil {
|
|
*s = dv.(string)
|
|
}
|
|
*(fptr.(**string)) = s
|
|
case reflect.Uint8:
|
|
// exceptional case: []byte
|
|
var b []byte
|
|
if dv != nil {
|
|
db := dv.([]byte)
|
|
b = make([]byte, len(db))
|
|
copy(b, db)
|
|
} else {
|
|
b = []byte{}
|
|
}
|
|
*(fptr.(*[]byte)) = b
|
|
case reflect.Uint32:
|
|
u := new(uint32)
|
|
if dv != nil {
|
|
*u = dv.(uint32)
|
|
}
|
|
*(fptr.(**uint32)) = u
|
|
case reflect.Uint64:
|
|
u := new(uint64)
|
|
if dv != nil {
|
|
*u = dv.(uint64)
|
|
}
|
|
*(fptr.(**uint64)) = u
|
|
default:
|
|
log.Printf("proto: can't set default for field %v (sf.kind=%v)", f, sf.kind)
|
|
}
|
|
}
|
|
|
|
for _, ni := range dm.nested {
|
|
f := v.Field(ni)
|
|
// f is *T or []*T or map[T]*T
|
|
switch f.Kind() {
|
|
case reflect.Ptr:
|
|
if f.IsNil() {
|
|
continue
|
|
}
|
|
setDefaults(f, recur, zeros)
|
|
|
|
case reflect.Slice:
|
|
for i := 0; i < f.Len(); i++ {
|
|
e := f.Index(i)
|
|
if e.IsNil() {
|
|
continue
|
|
}
|
|
setDefaults(e, recur, zeros)
|
|
}
|
|
|
|
case reflect.Map:
|
|
for _, k := range f.MapKeys() {
|
|
e := f.MapIndex(k)
|
|
if e.IsNil() {
|
|
continue
|
|
}
|
|
setDefaults(e, recur, zeros)
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
var (
|
|
// defaults maps a protocol buffer struct type to a slice of the fields,
|
|
// with its scalar fields set to their proto-declared non-zero default values.
|
|
defaultMu sync.RWMutex
|
|
defaults = make(map[reflect.Type]defaultMessage)
|
|
|
|
int32PtrType = reflect.TypeOf((*int32)(nil))
|
|
)
|
|
|
|
// defaultMessage represents information about the default values of a message.
|
|
type defaultMessage struct {
|
|
scalars []scalarField
|
|
nested []int // struct field index of nested messages
|
|
}
|
|
|
|
type scalarField struct {
|
|
index int // struct field index
|
|
kind reflect.Kind // element type (the T in *T or []T)
|
|
value interface{} // the proto-declared default value, or nil
|
|
}
|
|
|
|
// t is a struct type.
|
|
func buildDefaultMessage(t reflect.Type) (dm defaultMessage) {
|
|
sprop := GetProperties(t)
|
|
for _, prop := range sprop.Prop {
|
|
fi, ok := sprop.decoderTags.get(prop.Tag)
|
|
if !ok {
|
|
// XXX_unrecognized
|
|
continue
|
|
}
|
|
ft := t.Field(fi).Type
|
|
|
|
sf, nested, err := fieldDefault(ft, prop)
|
|
switch {
|
|
case err != nil:
|
|
log.Print(err)
|
|
case nested:
|
|
dm.nested = append(dm.nested, fi)
|
|
case sf != nil:
|
|
sf.index = fi
|
|
dm.scalars = append(dm.scalars, *sf)
|
|
}
|
|
}
|
|
|
|
return dm
|
|
}
|
|
|
|
// fieldDefault returns the scalarField for field type ft.
|
|
// sf will be nil if the field can not have a default.
|
|
// nestedMessage will be true if this is a nested message.
|
|
// Note that sf.index is not set on return.
|
|
func fieldDefault(ft reflect.Type, prop *Properties) (sf *scalarField, nestedMessage bool, err error) {
|
|
var canHaveDefault bool
|
|
switch ft.Kind() {
|
|
case reflect.Ptr:
|
|
if ft.Elem().Kind() == reflect.Struct {
|
|
nestedMessage = true
|
|
} else {
|
|
canHaveDefault = true // proto2 scalar field
|
|
}
|
|
|
|
case reflect.Slice:
|
|
switch ft.Elem().Kind() {
|
|
case reflect.Ptr:
|
|
nestedMessage = true // repeated message
|
|
case reflect.Uint8:
|
|
canHaveDefault = true // bytes field
|
|
}
|
|
|
|
case reflect.Map:
|
|
if ft.Elem().Kind() == reflect.Ptr {
|
|
nestedMessage = true // map with message values
|
|
}
|
|
}
|
|
|
|
if !canHaveDefault {
|
|
if nestedMessage {
|
|
return nil, true, nil
|
|
}
|
|
return nil, false, nil
|
|
}
|
|
|
|
// We now know that ft is a pointer or slice.
|
|
sf = &scalarField{kind: ft.Elem().Kind()}
|
|
|
|
// scalar fields without defaults
|
|
if !prop.HasDefault {
|
|
return sf, false, nil
|
|
}
|
|
|
|
// a scalar field: either *T or []byte
|
|
switch ft.Elem().Kind() {
|
|
case reflect.Bool:
|
|
x, err := strconv.ParseBool(prop.Default)
|
|
if err != nil {
|
|
return nil, false, fmt.Errorf("proto: bad default bool %q: %v", prop.Default, err)
|
|
}
|
|
sf.value = x
|
|
case reflect.Float32:
|
|
x, err := strconv.ParseFloat(prop.Default, 32)
|
|
if err != nil {
|
|
return nil, false, fmt.Errorf("proto: bad default float32 %q: %v", prop.Default, err)
|
|
}
|
|
sf.value = float32(x)
|
|
case reflect.Float64:
|
|
x, err := strconv.ParseFloat(prop.Default, 64)
|
|
if err != nil {
|
|
return nil, false, fmt.Errorf("proto: bad default float64 %q: %v", prop.Default, err)
|
|
}
|
|
sf.value = x
|
|
case reflect.Int32:
|
|
x, err := strconv.ParseInt(prop.Default, 10, 32)
|
|
if err != nil {
|
|
return nil, false, fmt.Errorf("proto: bad default int32 %q: %v", prop.Default, err)
|
|
}
|
|
sf.value = int32(x)
|
|
case reflect.Int64:
|
|
x, err := strconv.ParseInt(prop.Default, 10, 64)
|
|
if err != nil {
|
|
return nil, false, fmt.Errorf("proto: bad default int64 %q: %v", prop.Default, err)
|
|
}
|
|
sf.value = x
|
|
case reflect.String:
|
|
sf.value = prop.Default
|
|
case reflect.Uint8:
|
|
// []byte (not *uint8)
|
|
sf.value = []byte(prop.Default)
|
|
case reflect.Uint32:
|
|
x, err := strconv.ParseUint(prop.Default, 10, 32)
|
|
if err != nil {
|
|
return nil, false, fmt.Errorf("proto: bad default uint32 %q: %v", prop.Default, err)
|
|
}
|
|
sf.value = uint32(x)
|
|
case reflect.Uint64:
|
|
x, err := strconv.ParseUint(prop.Default, 10, 64)
|
|
if err != nil {
|
|
return nil, false, fmt.Errorf("proto: bad default uint64 %q: %v", prop.Default, err)
|
|
}
|
|
sf.value = x
|
|
default:
|
|
return nil, false, fmt.Errorf("proto: unhandled def kind %v", ft.Elem().Kind())
|
|
}
|
|
|
|
return sf, false, nil
|
|
}
|
|
|
|
// Map fields may have key types of non-float scalars, strings and enums.
|
|
// The easiest way to sort them in some deterministic order is to use fmt.
|
|
// If this turns out to be inefficient we can always consider other options,
|
|
// such as doing a Schwartzian transform.
|
|
|
|
func mapKeys(vs []reflect.Value) sort.Interface {
|
|
s := mapKeySorter{
|
|
vs: vs,
|
|
// default Less function: textual comparison
|
|
less: func(a, b reflect.Value) bool {
|
|
return fmt.Sprint(a.Interface()) < fmt.Sprint(b.Interface())
|
|
},
|
|
}
|
|
|
|
// Type specialization per https://developers.google.com/protocol-buffers/docs/proto#maps;
|
|
// numeric keys are sorted numerically.
|
|
if len(vs) == 0 {
|
|
return s
|
|
}
|
|
switch vs[0].Kind() {
|
|
case reflect.Int32, reflect.Int64:
|
|
s.less = func(a, b reflect.Value) bool { return a.Int() < b.Int() }
|
|
case reflect.Uint32, reflect.Uint64:
|
|
s.less = func(a, b reflect.Value) bool { return a.Uint() < b.Uint() }
|
|
}
|
|
|
|
return s
|
|
}
|
|
|
|
type mapKeySorter struct {
|
|
vs []reflect.Value
|
|
less func(a, b reflect.Value) bool
|
|
}
|
|
|
|
func (s mapKeySorter) Len() int { return len(s.vs) }
|
|
func (s mapKeySorter) Swap(i, j int) { s.vs[i], s.vs[j] = s.vs[j], s.vs[i] }
|
|
func (s mapKeySorter) Less(i, j int) bool {
|
|
return s.less(s.vs[i], s.vs[j])
|
|
}
|
|
|
|
// isProto3Zero reports whether v is a zero proto3 value.
|
|
func isProto3Zero(v reflect.Value) bool {
|
|
switch v.Kind() {
|
|
case reflect.Bool:
|
|
return !v.Bool()
|
|
case reflect.Int32, reflect.Int64:
|
|
return v.Int() == 0
|
|
case reflect.Uint32, reflect.Uint64:
|
|
return v.Uint() == 0
|
|
case reflect.Float32, reflect.Float64:
|
|
return v.Float() == 0
|
|
case reflect.String:
|
|
return v.String() == ""
|
|
}
|
|
return false
|
|
}
|
|
|
|
// ProtoPackageIsVersion1 is referenced from generated protocol buffer files
|
|
// to assert that that code is compatible with this version of the proto package.
|
|
const ProtoPackageIsVersion1 = true
|