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onnxruntime/csharp/test/Microsoft.ML.OnnxRuntime.Tests.Common/OnnxData.cs
Dmitri Smirnov ce3b4eabd3
Implement Optional Metadata support and C# test support (#15314) 
### Description
Implement Optional Type metadata support in the library.
Implement optional support in C# API along with metadata.
Implement Sequence, Map, Optional test data support
and test execution.

Prune tests and provide more details for failing tests in C# code.

Note, this PR does not enable running onnx test models in C++.

### Motivation and Context
Opset18 optional type support.
2023-04-11 09:41:59 -07:00

1335 lines
50 KiB
C#
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// <auto-generated>
// Generated by the protocol buffer compiler. DO NOT EDIT!
// source: onnx/onnx-data.proto3
// </auto-generated>
#pragma warning disable 1591, 0612, 3021
#region Designer generated code
using pb = global::Google.Protobuf;
using pbc = global::Google.Protobuf.Collections;
using pbr = global::Google.Protobuf.Reflection;
using scg = global::System.Collections.Generic;
namespace Onnx {
/// <summary>Holder for reflection information generated from onnx/onnx-data.proto3</summary>
public static partial class OnnxDataReflection {
#region Descriptor
/// <summary>File descriptor for onnx/onnx-data.proto3</summary>
public static pbr::FileDescriptor Descriptor {
get { return descriptor; }
}
private static pbr::FileDescriptor descriptor;
static OnnxDataReflection() {
byte[] descriptorData = global::System.Convert.FromBase64String(
string.Concat(
"ChVvbm54L29ubngtZGF0YS5wcm90bzMSBG9ubngaE29ubngvb25ueC1tbC5w",
"cm90bzMi8AIKDVNlcXVlbmNlUHJvdG8SDAoEbmFtZRgBIAEoCRIRCgllbGVt",
"X3R5cGUYAiABKAUSKAoNdGVuc29yX3ZhbHVlcxgDIAMoCzIRLm9ubnguVGVu",
"c29yUHJvdG8SNQoUc3BhcnNlX3RlbnNvcl92YWx1ZXMYBCADKAsyFy5vbm54",
"LlNwYXJzZVRlbnNvclByb3RvEiwKD3NlcXVlbmNlX3ZhbHVlcxgFIAMoCzIT",
"Lm9ubnguU2VxdWVuY2VQcm90bxIiCgptYXBfdmFsdWVzGAYgAygLMg4ub25u",
"eC5NYXBQcm90bxIsCg9vcHRpb25hbF92YWx1ZXMYByADKAsyEy5vbm54Lk9w",
"dGlvbmFsUHJvdG8iXQoIRGF0YVR5cGUSDQoJVU5ERUZJTkVEEAASCgoGVEVO",
"U09SEAESEQoNU1BBUlNFX1RFTlNPUhACEgwKCFNFUVVFTkNFEAMSBwoDTUFQ",
"EAQSDAoIT1BUSU9OQUwQBSJyCghNYXBQcm90bxIMCgRuYW1lGAEgASgJEhAK",
"CGtleV90eXBlGAIgASgFEgwKBGtleXMYAyADKAMSEwoLc3RyaW5nX2tleXMY",
"BCADKAwSIwoGdmFsdWVzGAUgASgLMhMub25ueC5TZXF1ZW5jZVByb3RvIusC",
"Cg1PcHRpb25hbFByb3RvEgwKBG5hbWUYASABKAkSEQoJZWxlbV90eXBlGAIg",
"ASgFEicKDHRlbnNvcl92YWx1ZRgDIAEoCzIRLm9ubnguVGVuc29yUHJvdG8S",
"NAoTc3BhcnNlX3RlbnNvcl92YWx1ZRgEIAEoCzIXLm9ubnguU3BhcnNlVGVu",
"c29yUHJvdG8SKwoOc2VxdWVuY2VfdmFsdWUYBSABKAsyEy5vbm54LlNlcXVl",
"bmNlUHJvdG8SIQoJbWFwX3ZhbHVlGAYgASgLMg4ub25ueC5NYXBQcm90bxIr",
"Cg5vcHRpb25hbF92YWx1ZRgHIAEoCzITLm9ubnguT3B0aW9uYWxQcm90byJd",
"CghEYXRhVHlwZRINCglVTkRFRklORUQQABIKCgZURU5TT1IQARIRCg1TUEFS",
"U0VfVEVOU09SEAISDAoIU0VRVUVOQ0UQAxIHCgNNQVAQBBIMCghPUFRJT05B",
"TBAFQgJIA2IGcHJvdG8z"));
descriptor = pbr::FileDescriptor.FromGeneratedCode(descriptorData,
new pbr::FileDescriptor[] { global::Onnx.OnnxMlReflection.Descriptor, },
new pbr::GeneratedClrTypeInfo(null, null, new pbr::GeneratedClrTypeInfo[] {
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.SequenceProto), global::Onnx.SequenceProto.Parser, new[]{ "Name", "ElemType", "TensorValues", "SparseTensorValues", "SequenceValues", "MapValues", "OptionalValues" }, null, new[]{ typeof(global::Onnx.SequenceProto.Types.DataType) }, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.MapProto), global::Onnx.MapProto.Parser, new[]{ "Name", "KeyType", "Keys", "StringKeys", "Values" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.OptionalProto), global::Onnx.OptionalProto.Parser, new[]{ "Name", "ElemType", "TensorValue", "SparseTensorValue", "SequenceValue", "MapValue", "OptionalValue" }, null, new[]{ typeof(global::Onnx.OptionalProto.Types.DataType) }, null, null)
}));
}
#endregion
}
#region Messages
/// <summary>
/// Sequences
///
/// Defines a dense, ordered, collection of elements that are of homogeneous types.
/// Sequences can be made out of tensors, maps, or sequences.
///
/// If a sequence is made out of tensors, the tensors must have the same element
/// type (i.e. int32). In some cases, the tensors in a sequence can have different
/// shapes. Whether the tensors can have different shapes or not depends on the
/// type/shape associated with the corresponding "ValueInfo". For example,
/// "Sequence&lt;Tensor&lt;float, [M,N]>" means that all tensors have same shape. However,
/// "Sequence&lt;Tensor&lt;float, [omitted,omitted]>" means they can have different
/// shapes (all of rank 2), where "omitted" means the corresponding dimension has
/// no symbolic/constant value. Finally, "Sequence&lt;Tensor&lt;float, omitted>>" means
/// that the different tensors can have different ranks, when the "shape" itself
/// is omitted from the tensor-type. For a more complete description, refer to
/// https://github.com/onnx/onnx/blob/main/docs/IR.md#static-tensor-shapes.
/// </summary>
public sealed partial class SequenceProto : pb::IMessage<SequenceProto>
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser<SequenceProto> _parser = new pb::MessageParser<SequenceProto>(() => new SequenceProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser<SequenceProto> Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxDataReflection.Descriptor.MessageTypes[0]; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
pbr::MessageDescriptor pb::IMessage.Descriptor {
get { return Descriptor; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public SequenceProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public SequenceProto(SequenceProto other) : this() {
name_ = other.name_;
elemType_ = other.elemType_;
tensorValues_ = other.tensorValues_.Clone();
sparseTensorValues_ = other.sparseTensorValues_.Clone();
sequenceValues_ = other.sequenceValues_.Clone();
mapValues_ = other.mapValues_.Clone();
optionalValues_ = other.optionalValues_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public SequenceProto Clone() {
return new SequenceProto(this);
}
/// <summary>Field number for the "name" field.</summary>
public const int NameFieldNumber = 1;
private string name_ = "";
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// <summary>Field number for the "elem_type" field.</summary>
public const int ElemTypeFieldNumber = 2;
private int elemType_;
/// <summary>
/// The data type of the element.
/// This field MUST have a valid SequenceProto.DataType value
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int ElemType {
get { return elemType_; }
set {
elemType_ = value;
}
}
/// <summary>Field number for the "tensor_values" field.</summary>
public const int TensorValuesFieldNumber = 3;
private static readonly pb::FieldCodec<global::Onnx.TensorProto> _repeated_tensorValues_codec
= pb::FieldCodec.ForMessage(26, global::Onnx.TensorProto.Parser);
private readonly pbc::RepeatedField<global::Onnx.TensorProto> tensorValues_ = new pbc::RepeatedField<global::Onnx.TensorProto>();
/// <summary>
/// For TensorProto values.
/// When this field is present, the elem_type field MUST be TENSOR.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField<global::Onnx.TensorProto> TensorValues {
get { return tensorValues_; }
}
/// <summary>Field number for the "sparse_tensor_values" field.</summary>
public const int SparseTensorValuesFieldNumber = 4;
private static readonly pb::FieldCodec<global::Onnx.SparseTensorProto> _repeated_sparseTensorValues_codec
= pb::FieldCodec.ForMessage(34, global::Onnx.SparseTensorProto.Parser);
private readonly pbc::RepeatedField<global::Onnx.SparseTensorProto> sparseTensorValues_ = new pbc::RepeatedField<global::Onnx.SparseTensorProto>();
/// <summary>
/// For SparseTensorProto values.
/// When this field is present, the elem_type field MUST be SPARSE_TENSOR.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField<global::Onnx.SparseTensorProto> SparseTensorValues {
get { return sparseTensorValues_; }
}
/// <summary>Field number for the "sequence_values" field.</summary>
public const int SequenceValuesFieldNumber = 5;
private static readonly pb::FieldCodec<global::Onnx.SequenceProto> _repeated_sequenceValues_codec
= pb::FieldCodec.ForMessage(42, global::Onnx.SequenceProto.Parser);
private readonly pbc::RepeatedField<global::Onnx.SequenceProto> sequenceValues_ = new pbc::RepeatedField<global::Onnx.SequenceProto>();
/// <summary>
/// For SequenceProto values, allowing sequences to be of themselves.
/// When this field is present, the elem_type field MUST be SEQUENCE.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField<global::Onnx.SequenceProto> SequenceValues {
get { return sequenceValues_; }
}
/// <summary>Field number for the "map_values" field.</summary>
public const int MapValuesFieldNumber = 6;
private static readonly pb::FieldCodec<global::Onnx.MapProto> _repeated_mapValues_codec
= pb::FieldCodec.ForMessage(50, global::Onnx.MapProto.Parser);
private readonly pbc::RepeatedField<global::Onnx.MapProto> mapValues_ = new pbc::RepeatedField<global::Onnx.MapProto>();
/// <summary>
/// For MapProto values.
/// When this field is present, the elem_type field MUST be MAP.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField<global::Onnx.MapProto> MapValues {
get { return mapValues_; }
}
/// <summary>Field number for the "optional_values" field.</summary>
public const int OptionalValuesFieldNumber = 7;
private static readonly pb::FieldCodec<global::Onnx.OptionalProto> _repeated_optionalValues_codec
= pb::FieldCodec.ForMessage(58, global::Onnx.OptionalProto.Parser);
private readonly pbc::RepeatedField<global::Onnx.OptionalProto> optionalValues_ = new pbc::RepeatedField<global::Onnx.OptionalProto>();
/// <summary>
/// For OptionalProto values.
/// When this field is present, the elem_type field MUST be Optional.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField<global::Onnx.OptionalProto> OptionalValues {
get { return optionalValues_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as SequenceProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(SequenceProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (Name != other.Name) return false;
if (ElemType != other.ElemType) return false;
if(!tensorValues_.Equals(other.tensorValues_)) return false;
if(!sparseTensorValues_.Equals(other.sparseTensorValues_)) return false;
if(!sequenceValues_.Equals(other.sequenceValues_)) return false;
if(!mapValues_.Equals(other.mapValues_)) return false;
if(!optionalValues_.Equals(other.optionalValues_)) return false;
return Equals(_unknownFields, other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override int GetHashCode() {
int hash = 1;
if (Name.Length != 0) hash ^= Name.GetHashCode();
if (ElemType != 0) hash ^= ElemType.GetHashCode();
hash ^= tensorValues_.GetHashCode();
hash ^= sparseTensorValues_.GetHashCode();
hash ^= sequenceValues_.GetHashCode();
hash ^= mapValues_.GetHashCode();
hash ^= optionalValues_.GetHashCode();
if (_unknownFields != null) {
hash ^= _unknownFields.GetHashCode();
}
return hash;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override string ToString() {
return pb::JsonFormatter.ToDiagnosticString(this);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void WriteTo(pb::CodedOutputStream output) {
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
output.WriteRawMessage(this);
#else
if (Name.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Name);
}
if (ElemType != 0) {
output.WriteRawTag(16);
output.WriteInt32(ElemType);
}
tensorValues_.WriteTo(output, _repeated_tensorValues_codec);
sparseTensorValues_.WriteTo(output, _repeated_sparseTensorValues_codec);
sequenceValues_.WriteTo(output, _repeated_sequenceValues_codec);
mapValues_.WriteTo(output, _repeated_mapValues_codec);
optionalValues_.WriteTo(output, _repeated_optionalValues_codec);
if (_unknownFields != null) {
_unknownFields.WriteTo(output);
}
#endif
}
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
void pb::IBufferMessage.InternalWriteTo(ref pb::WriteContext output) {
if (Name.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Name);
}
if (ElemType != 0) {
output.WriteRawTag(16);
output.WriteInt32(ElemType);
}
tensorValues_.WriteTo(ref output, _repeated_tensorValues_codec);
sparseTensorValues_.WriteTo(ref output, _repeated_sparseTensorValues_codec);
sequenceValues_.WriteTo(ref output, _repeated_sequenceValues_codec);
mapValues_.WriteTo(ref output, _repeated_mapValues_codec);
optionalValues_.WriteTo(ref output, _repeated_optionalValues_codec);
if (_unknownFields != null) {
_unknownFields.WriteTo(ref output);
}
}
#endif
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int CalculateSize() {
int size = 0;
if (Name.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Name);
}
if (ElemType != 0) {
size += 1 + pb::CodedOutputStream.ComputeInt32Size(ElemType);
}
size += tensorValues_.CalculateSize(_repeated_tensorValues_codec);
size += sparseTensorValues_.CalculateSize(_repeated_sparseTensorValues_codec);
size += sequenceValues_.CalculateSize(_repeated_sequenceValues_codec);
size += mapValues_.CalculateSize(_repeated_mapValues_codec);
size += optionalValues_.CalculateSize(_repeated_optionalValues_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(SequenceProto other) {
if (other == null) {
return;
}
if (other.Name.Length != 0) {
Name = other.Name;
}
if (other.ElemType != 0) {
ElemType = other.ElemType;
}
tensorValues_.Add(other.tensorValues_);
sparseTensorValues_.Add(other.sparseTensorValues_);
sequenceValues_.Add(other.sequenceValues_);
mapValues_.Add(other.mapValues_);
optionalValues_.Add(other.optionalValues_);
_unknownFields = pb::UnknownFieldSet.MergeFrom(_unknownFields, other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(pb::CodedInputStream input) {
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
input.ReadRawMessage(this);
#else
uint tag;
while ((tag = input.ReadTag()) != 0) {
switch(tag) {
default:
_unknownFields = pb::UnknownFieldSet.MergeFieldFrom(_unknownFields, input);
break;
case 10: {
Name = input.ReadString();
break;
}
case 16: {
ElemType = input.ReadInt32();
break;
}
case 26: {
tensorValues_.AddEntriesFrom(input, _repeated_tensorValues_codec);
break;
}
case 34: {
sparseTensorValues_.AddEntriesFrom(input, _repeated_sparseTensorValues_codec);
break;
}
case 42: {
sequenceValues_.AddEntriesFrom(input, _repeated_sequenceValues_codec);
break;
}
case 50: {
mapValues_.AddEntriesFrom(input, _repeated_mapValues_codec);
break;
}
case 58: {
optionalValues_.AddEntriesFrom(input, _repeated_optionalValues_codec);
break;
}
}
}
#endif
}
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
void pb::IBufferMessage.InternalMergeFrom(ref pb::ParseContext input) {
uint tag;
while ((tag = input.ReadTag()) != 0) {
switch(tag) {
default:
_unknownFields = pb::UnknownFieldSet.MergeFieldFrom(_unknownFields, ref input);
break;
case 10: {
Name = input.ReadString();
break;
}
case 16: {
ElemType = input.ReadInt32();
break;
}
case 26: {
tensorValues_.AddEntriesFrom(ref input, _repeated_tensorValues_codec);
break;
}
case 34: {
sparseTensorValues_.AddEntriesFrom(ref input, _repeated_sparseTensorValues_codec);
break;
}
case 42: {
sequenceValues_.AddEntriesFrom(ref input, _repeated_sequenceValues_codec);
break;
}
case 50: {
mapValues_.AddEntriesFrom(ref input, _repeated_mapValues_codec);
break;
}
case 58: {
optionalValues_.AddEntriesFrom(ref input, _repeated_optionalValues_codec);
break;
}
}
}
}
#endif
#region Nested types
/// <summary>Container for nested types declared in the SequenceProto message type.</summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static partial class Types {
public enum DataType {
[pbr::OriginalName("UNDEFINED")] Undefined = 0,
[pbr::OriginalName("TENSOR")] Tensor = 1,
[pbr::OriginalName("SPARSE_TENSOR")] SparseTensor = 2,
[pbr::OriginalName("SEQUENCE")] Sequence = 3,
[pbr::OriginalName("MAP")] Map = 4,
[pbr::OriginalName("OPTIONAL")] Optional = 5,
}
}
#endregion
}
/// <summary>
/// Maps
///
/// Specifies an associative table, defined by keys and values.
/// MapProto is formed with a repeated field of keys (of type INT8, INT16, INT32,
/// INT64, UINT8, UINT16, UINT32, UINT64, or STRING) and values (of type TENSOR,
/// SPARSE_TENSOR, SEQUENCE, or MAP). Key types and value types have to remain
/// the same throughout the instantiation of the MapProto.
/// </summary>
public sealed partial class MapProto : pb::IMessage<MapProto>
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser<MapProto> _parser = new pb::MessageParser<MapProto>(() => new MapProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser<MapProto> Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxDataReflection.Descriptor.MessageTypes[1]; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
pbr::MessageDescriptor pb::IMessage.Descriptor {
get { return Descriptor; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public MapProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public MapProto(MapProto other) : this() {
name_ = other.name_;
keyType_ = other.keyType_;
keys_ = other.keys_.Clone();
stringKeys_ = other.stringKeys_.Clone();
values_ = other.values_ != null ? other.values_.Clone() : null;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public MapProto Clone() {
return new MapProto(this);
}
/// <summary>Field number for the "name" field.</summary>
public const int NameFieldNumber = 1;
private string name_ = "";
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// <summary>Field number for the "key_type" field.</summary>
public const int KeyTypeFieldNumber = 2;
private int keyType_;
/// <summary>
/// The data type of the key.
/// This field MUST have a valid TensorProto.DataType value of
/// INT8, INT16, INT32, INT64, UINT8, UINT16, UINT32, UINT64, or STRING
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int KeyType {
get { return keyType_; }
set {
keyType_ = value;
}
}
/// <summary>Field number for the "keys" field.</summary>
public const int KeysFieldNumber = 3;
private static readonly pb::FieldCodec<long> _repeated_keys_codec
= pb::FieldCodec.ForInt64(26);
private readonly pbc::RepeatedField<long> keys_ = new pbc::RepeatedField<long>();
/// <summary>
/// Every element of keys has to be one of the following data types
/// INT8, INT16, INT32, INT64, UINT8, UINT16, UINT32, UINT64, or STRING.
/// The integer cases are represented by the repeated int64 field keys below.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField<long> Keys {
get { return keys_; }
}
/// <summary>Field number for the "string_keys" field.</summary>
public const int StringKeysFieldNumber = 4;
private static readonly pb::FieldCodec<pb::ByteString> _repeated_stringKeys_codec
= pb::FieldCodec.ForBytes(34);
private readonly pbc::RepeatedField<pb::ByteString> stringKeys_ = new pbc::RepeatedField<pb::ByteString>();
/// <summary>
/// If keys are strings, they are represented by the repeated bytes field
/// string_keys below.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField<pb::ByteString> StringKeys {
get { return stringKeys_; }
}
/// <summary>Field number for the "values" field.</summary>
public const int ValuesFieldNumber = 5;
private global::Onnx.SequenceProto values_;
/// <summary>
/// MapProto values are represented in a SequenceProto of the same length as the
/// repeated keys field and have to be one of the following data types
/// TENSOR, SPARSE_TENSOR, MAP, SEQUENCE.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.SequenceProto Values {
get { return values_; }
set {
values_ = value;
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as MapProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(MapProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (Name != other.Name) return false;
if (KeyType != other.KeyType) return false;
if(!keys_.Equals(other.keys_)) return false;
if(!stringKeys_.Equals(other.stringKeys_)) return false;
if (!object.Equals(Values, other.Values)) return false;
return Equals(_unknownFields, other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override int GetHashCode() {
int hash = 1;
if (Name.Length != 0) hash ^= Name.GetHashCode();
if (KeyType != 0) hash ^= KeyType.GetHashCode();
hash ^= keys_.GetHashCode();
hash ^= stringKeys_.GetHashCode();
if (values_ != null) hash ^= Values.GetHashCode();
if (_unknownFields != null) {
hash ^= _unknownFields.GetHashCode();
}
return hash;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override string ToString() {
return pb::JsonFormatter.ToDiagnosticString(this);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void WriteTo(pb::CodedOutputStream output) {
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
output.WriteRawMessage(this);
#else
if (Name.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Name);
}
if (KeyType != 0) {
output.WriteRawTag(16);
output.WriteInt32(KeyType);
}
keys_.WriteTo(output, _repeated_keys_codec);
stringKeys_.WriteTo(output, _repeated_stringKeys_codec);
if (values_ != null) {
output.WriteRawTag(42);
output.WriteMessage(Values);
}
if (_unknownFields != null) {
_unknownFields.WriteTo(output);
}
#endif
}
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
void pb::IBufferMessage.InternalWriteTo(ref pb::WriteContext output) {
if (Name.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Name);
}
if (KeyType != 0) {
output.WriteRawTag(16);
output.WriteInt32(KeyType);
}
keys_.WriteTo(ref output, _repeated_keys_codec);
stringKeys_.WriteTo(ref output, _repeated_stringKeys_codec);
if (values_ != null) {
output.WriteRawTag(42);
output.WriteMessage(Values);
}
if (_unknownFields != null) {
_unknownFields.WriteTo(ref output);
}
}
#endif
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int CalculateSize() {
int size = 0;
if (Name.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Name);
}
if (KeyType != 0) {
size += 1 + pb::CodedOutputStream.ComputeInt32Size(KeyType);
}
size += keys_.CalculateSize(_repeated_keys_codec);
size += stringKeys_.CalculateSize(_repeated_stringKeys_codec);
if (values_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Values);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(MapProto other) {
if (other == null) {
return;
}
if (other.Name.Length != 0) {
Name = other.Name;
}
if (other.KeyType != 0) {
KeyType = other.KeyType;
}
keys_.Add(other.keys_);
stringKeys_.Add(other.stringKeys_);
if (other.values_ != null) {
if (values_ == null) {
Values = new global::Onnx.SequenceProto();
}
Values.MergeFrom(other.Values);
}
_unknownFields = pb::UnknownFieldSet.MergeFrom(_unknownFields, other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(pb::CodedInputStream input) {
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
input.ReadRawMessage(this);
#else
uint tag;
while ((tag = input.ReadTag()) != 0) {
switch(tag) {
default:
_unknownFields = pb::UnknownFieldSet.MergeFieldFrom(_unknownFields, input);
break;
case 10: {
Name = input.ReadString();
break;
}
case 16: {
KeyType = input.ReadInt32();
break;
}
case 26:
case 24: {
keys_.AddEntriesFrom(input, _repeated_keys_codec);
break;
}
case 34: {
stringKeys_.AddEntriesFrom(input, _repeated_stringKeys_codec);
break;
}
case 42: {
if (values_ == null) {
Values = new global::Onnx.SequenceProto();
}
input.ReadMessage(Values);
break;
}
}
}
#endif
}
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
void pb::IBufferMessage.InternalMergeFrom(ref pb::ParseContext input) {
uint tag;
while ((tag = input.ReadTag()) != 0) {
switch(tag) {
default:
_unknownFields = pb::UnknownFieldSet.MergeFieldFrom(_unknownFields, ref input);
break;
case 10: {
Name = input.ReadString();
break;
}
case 16: {
KeyType = input.ReadInt32();
break;
}
case 26:
case 24: {
keys_.AddEntriesFrom(ref input, _repeated_keys_codec);
break;
}
case 34: {
stringKeys_.AddEntriesFrom(ref input, _repeated_stringKeys_codec);
break;
}
case 42: {
if (values_ == null) {
Values = new global::Onnx.SequenceProto();
}
input.ReadMessage(Values);
break;
}
}
}
}
#endif
}
/// <summary>
/// Optional
/// </summary>
public sealed partial class OptionalProto : pb::IMessage<OptionalProto>
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser<OptionalProto> _parser = new pb::MessageParser<OptionalProto>(() => new OptionalProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser<OptionalProto> Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxDataReflection.Descriptor.MessageTypes[2]; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
pbr::MessageDescriptor pb::IMessage.Descriptor {
get { return Descriptor; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public OptionalProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public OptionalProto(OptionalProto other) : this() {
name_ = other.name_;
elemType_ = other.elemType_;
tensorValue_ = other.tensorValue_ != null ? other.tensorValue_.Clone() : null;
sparseTensorValue_ = other.sparseTensorValue_ != null ? other.sparseTensorValue_.Clone() : null;
sequenceValue_ = other.sequenceValue_ != null ? other.sequenceValue_.Clone() : null;
mapValue_ = other.mapValue_ != null ? other.mapValue_.Clone() : null;
optionalValue_ = other.optionalValue_ != null ? other.optionalValue_.Clone() : null;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public OptionalProto Clone() {
return new OptionalProto(this);
}
/// <summary>Field number for the "name" field.</summary>
public const int NameFieldNumber = 1;
private string name_ = "";
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// <summary>Field number for the "elem_type" field.</summary>
public const int ElemTypeFieldNumber = 2;
private int elemType_;
/// <summary>
/// The data type of the element, identifies if the OptionalProto value
/// is Tensor, Sparse Tensor, Sequence, Map, or Optional.
/// The type of the optional value MUST match the elem_type specified.
/// This field MUST have a valid OptionalProto.DataType value.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int ElemType {
get { return elemType_; }
set {
elemType_ = value;
}
}
/// <summary>Field number for the "tensor_value" field.</summary>
public const int TensorValueFieldNumber = 3;
private global::Onnx.TensorProto tensorValue_;
/// <summary>
/// For TensorProto value.
/// When this field is present, the elem_type field MUST be TENSOR.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TensorProto TensorValue {
get { return tensorValue_; }
set {
tensorValue_ = value;
}
}
/// <summary>Field number for the "sparse_tensor_value" field.</summary>
public const int SparseTensorValueFieldNumber = 4;
private global::Onnx.SparseTensorProto sparseTensorValue_;
/// <summary>
/// For SparseTensorProto value.
/// When this field is present, the elem_type field MUST be SPARSE_TENSOR.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.SparseTensorProto SparseTensorValue {
get { return sparseTensorValue_; }
set {
sparseTensorValue_ = value;
}
}
/// <summary>Field number for the "sequence_value" field.</summary>
public const int SequenceValueFieldNumber = 5;
private global::Onnx.SequenceProto sequenceValue_;
/// <summary>
/// For SequenceProto value.
/// When this field is present, the elem_type field MUST be SEQUENCE.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.SequenceProto SequenceValue {
get { return sequenceValue_; }
set {
sequenceValue_ = value;
}
}
/// <summary>Field number for the "map_value" field.</summary>
public const int MapValueFieldNumber = 6;
private global::Onnx.MapProto mapValue_;
/// <summary>
/// For MapProto value.
/// When this field is present, the elem_type field MUST be MAP.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.MapProto MapValue {
get { return mapValue_; }
set {
mapValue_ = value;
}
}
/// <summary>Field number for the "optional_value" field.</summary>
public const int OptionalValueFieldNumber = 7;
private global::Onnx.OptionalProto optionalValue_;
/// <summary>
/// For OptionalProto value, allowing optional to be of itself (completeness)
/// When this field is present, the elem_type field MUST be OPTIONAL.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.OptionalProto OptionalValue {
get { return optionalValue_; }
set {
optionalValue_ = value;
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as OptionalProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(OptionalProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (Name != other.Name) return false;
if (ElemType != other.ElemType) return false;
if (!object.Equals(TensorValue, other.TensorValue)) return false;
if (!object.Equals(SparseTensorValue, other.SparseTensorValue)) return false;
if (!object.Equals(SequenceValue, other.SequenceValue)) return false;
if (!object.Equals(MapValue, other.MapValue)) return false;
if (!object.Equals(OptionalValue, other.OptionalValue)) return false;
return Equals(_unknownFields, other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override int GetHashCode() {
int hash = 1;
if (Name.Length != 0) hash ^= Name.GetHashCode();
if (ElemType != 0) hash ^= ElemType.GetHashCode();
if (tensorValue_ != null) hash ^= TensorValue.GetHashCode();
if (sparseTensorValue_ != null) hash ^= SparseTensorValue.GetHashCode();
if (sequenceValue_ != null) hash ^= SequenceValue.GetHashCode();
if (mapValue_ != null) hash ^= MapValue.GetHashCode();
if (optionalValue_ != null) hash ^= OptionalValue.GetHashCode();
if (_unknownFields != null) {
hash ^= _unknownFields.GetHashCode();
}
return hash;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override string ToString() {
return pb::JsonFormatter.ToDiagnosticString(this);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void WriteTo(pb::CodedOutputStream output) {
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
output.WriteRawMessage(this);
#else
if (Name.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Name);
}
if (ElemType != 0) {
output.WriteRawTag(16);
output.WriteInt32(ElemType);
}
if (tensorValue_ != null) {
output.WriteRawTag(26);
output.WriteMessage(TensorValue);
}
if (sparseTensorValue_ != null) {
output.WriteRawTag(34);
output.WriteMessage(SparseTensorValue);
}
if (sequenceValue_ != null) {
output.WriteRawTag(42);
output.WriteMessage(SequenceValue);
}
if (mapValue_ != null) {
output.WriteRawTag(50);
output.WriteMessage(MapValue);
}
if (optionalValue_ != null) {
output.WriteRawTag(58);
output.WriteMessage(OptionalValue);
}
if (_unknownFields != null) {
_unknownFields.WriteTo(output);
}
#endif
}
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
void pb::IBufferMessage.InternalWriteTo(ref pb::WriteContext output) {
if (Name.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Name);
}
if (ElemType != 0) {
output.WriteRawTag(16);
output.WriteInt32(ElemType);
}
if (tensorValue_ != null) {
output.WriteRawTag(26);
output.WriteMessage(TensorValue);
}
if (sparseTensorValue_ != null) {
output.WriteRawTag(34);
output.WriteMessage(SparseTensorValue);
}
if (sequenceValue_ != null) {
output.WriteRawTag(42);
output.WriteMessage(SequenceValue);
}
if (mapValue_ != null) {
output.WriteRawTag(50);
output.WriteMessage(MapValue);
}
if (optionalValue_ != null) {
output.WriteRawTag(58);
output.WriteMessage(OptionalValue);
}
if (_unknownFields != null) {
_unknownFields.WriteTo(ref output);
}
}
#endif
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int CalculateSize() {
int size = 0;
if (Name.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Name);
}
if (ElemType != 0) {
size += 1 + pb::CodedOutputStream.ComputeInt32Size(ElemType);
}
if (tensorValue_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(TensorValue);
}
if (sparseTensorValue_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(SparseTensorValue);
}
if (sequenceValue_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(SequenceValue);
}
if (mapValue_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(MapValue);
}
if (optionalValue_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(OptionalValue);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(OptionalProto other) {
if (other == null) {
return;
}
if (other.Name.Length != 0) {
Name = other.Name;
}
if (other.ElemType != 0) {
ElemType = other.ElemType;
}
if (other.tensorValue_ != null) {
if (tensorValue_ == null) {
TensorValue = new global::Onnx.TensorProto();
}
TensorValue.MergeFrom(other.TensorValue);
}
if (other.sparseTensorValue_ != null) {
if (sparseTensorValue_ == null) {
SparseTensorValue = new global::Onnx.SparseTensorProto();
}
SparseTensorValue.MergeFrom(other.SparseTensorValue);
}
if (other.sequenceValue_ != null) {
if (sequenceValue_ == null) {
SequenceValue = new global::Onnx.SequenceProto();
}
SequenceValue.MergeFrom(other.SequenceValue);
}
if (other.mapValue_ != null) {
if (mapValue_ == null) {
MapValue = new global::Onnx.MapProto();
}
MapValue.MergeFrom(other.MapValue);
}
if (other.optionalValue_ != null) {
if (optionalValue_ == null) {
OptionalValue = new global::Onnx.OptionalProto();
}
OptionalValue.MergeFrom(other.OptionalValue);
}
_unknownFields = pb::UnknownFieldSet.MergeFrom(_unknownFields, other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(pb::CodedInputStream input) {
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
input.ReadRawMessage(this);
#else
uint tag;
while ((tag = input.ReadTag()) != 0) {
switch(tag) {
default:
_unknownFields = pb::UnknownFieldSet.MergeFieldFrom(_unknownFields, input);
break;
case 10: {
Name = input.ReadString();
break;
}
case 16: {
ElemType = input.ReadInt32();
break;
}
case 26: {
if (tensorValue_ == null) {
TensorValue = new global::Onnx.TensorProto();
}
input.ReadMessage(TensorValue);
break;
}
case 34: {
if (sparseTensorValue_ == null) {
SparseTensorValue = new global::Onnx.SparseTensorProto();
}
input.ReadMessage(SparseTensorValue);
break;
}
case 42: {
if (sequenceValue_ == null) {
SequenceValue = new global::Onnx.SequenceProto();
}
input.ReadMessage(SequenceValue);
break;
}
case 50: {
if (mapValue_ == null) {
MapValue = new global::Onnx.MapProto();
}
input.ReadMessage(MapValue);
break;
}
case 58: {
if (optionalValue_ == null) {
OptionalValue = new global::Onnx.OptionalProto();
}
input.ReadMessage(OptionalValue);
break;
}
}
}
#endif
}
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
void pb::IBufferMessage.InternalMergeFrom(ref pb::ParseContext input) {
uint tag;
while ((tag = input.ReadTag()) != 0) {
switch(tag) {
default:
_unknownFields = pb::UnknownFieldSet.MergeFieldFrom(_unknownFields, ref input);
break;
case 10: {
Name = input.ReadString();
break;
}
case 16: {
ElemType = input.ReadInt32();
break;
}
case 26: {
if (tensorValue_ == null) {
TensorValue = new global::Onnx.TensorProto();
}
input.ReadMessage(TensorValue);
break;
}
case 34: {
if (sparseTensorValue_ == null) {
SparseTensorValue = new global::Onnx.SparseTensorProto();
}
input.ReadMessage(SparseTensorValue);
break;
}
case 42: {
if (sequenceValue_ == null) {
SequenceValue = new global::Onnx.SequenceProto();
}
input.ReadMessage(SequenceValue);
break;
}
case 50: {
if (mapValue_ == null) {
MapValue = new global::Onnx.MapProto();
}
input.ReadMessage(MapValue);
break;
}
case 58: {
if (optionalValue_ == null) {
OptionalValue = new global::Onnx.OptionalProto();
}
input.ReadMessage(OptionalValue);
break;
}
}
}
}
#endif
#region Nested types
/// <summary>Container for nested types declared in the OptionalProto message type.</summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static partial class Types {
public enum DataType {
[pbr::OriginalName("UNDEFINED")] Undefined = 0,
[pbr::OriginalName("TENSOR")] Tensor = 1,
[pbr::OriginalName("SPARSE_TENSOR")] SparseTensor = 2,
[pbr::OriginalName("SEQUENCE")] Sequence = 3,
[pbr::OriginalName("MAP")] Map = 4,
[pbr::OriginalName("OPTIONAL")] Optional = 5,
}
}
#endregion
}
#endregion
}
#endregion Designer generated code
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