//
// Generated by the protocol buffer compiler. DO NOT EDIT!
// source: onnx-ml.proto3
//
#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 {
/// Holder for reflection information generated from onnx-ml.proto3
public static partial class OnnxMlReflection {
#region Descriptor
/// File descriptor for onnx-ml.proto3
public static pbr::FileDescriptor Descriptor {
get { return descriptor; }
}
private static pbr::FileDescriptor descriptor;
static OnnxMlReflection() {
byte[] descriptorData = global::System.Convert.FromBase64String(
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descriptor = pbr::FileDescriptor.FromGeneratedCode(descriptorData,
new pbr::FileDescriptor[] { },
new pbr::GeneratedClrTypeInfo(new[] {typeof(global::Onnx.Version), typeof(global::Onnx.OperatorStatus), }, null, new pbr::GeneratedClrTypeInfo[] {
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.AttributeProto), global::Onnx.AttributeProto.Parser, new[]{ "Name", "RefAttrName", "DocString", "Type", "F", "I", "S", "T", "G", "SparseTensor", "Tp", "Floats", "Ints", "Strings", "Tensors", "Graphs", "SparseTensors", "TypeProtos" }, null, new[]{ typeof(global::Onnx.AttributeProto.Types.AttributeType) }, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.ValueInfoProto), global::Onnx.ValueInfoProto.Parser, new[]{ "Name", "Type", "DocString" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.NodeProto), global::Onnx.NodeProto.Parser, new[]{ "Input", "Output", "Name", "OpType", "Domain", "Attribute", "DocString" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TrainingInfoProto), global::Onnx.TrainingInfoProto.Parser, new[]{ "Initialization", "Algorithm", "InitializationBinding", "UpdateBinding" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.ModelProto), global::Onnx.ModelProto.Parser, new[]{ "IrVersion", "OpsetImport", "ProducerName", "ProducerVersion", "Domain", "ModelVersion", "DocString", "Graph", "MetadataProps", "TrainingInfo", "Functions" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.StringStringEntryProto), global::Onnx.StringStringEntryProto.Parser, new[]{ "Key", "Value" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TensorAnnotation), global::Onnx.TensorAnnotation.Parser, new[]{ "TensorName", "QuantParameterTensorNames" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.GraphProto), global::Onnx.GraphProto.Parser, new[]{ "Node", "Name", "Initializer", "SparseInitializer", "DocString", "Input", "Output", "ValueInfo", "QuantizationAnnotation" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TensorProto), global::Onnx.TensorProto.Parser, new[]{ "Dims", "DataType", "Segment", "FloatData", "Int32Data", "StringData", "Int64Data", "Name", "DocString", "RawData", "ExternalData", "DataLocation", "DoubleData", "Uint64Data" }, null, new[]{ typeof(global::Onnx.TensorProto.Types.DataType), typeof(global::Onnx.TensorProto.Types.DataLocation) }, null, new pbr::GeneratedClrTypeInfo[] { new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TensorProto.Types.Segment), global::Onnx.TensorProto.Types.Segment.Parser, new[]{ "Begin", "End" }, null, null, null, null)}),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.SparseTensorProto), global::Onnx.SparseTensorProto.Parser, new[]{ "Values", "Indices", "Dims" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TensorShapeProto), global::Onnx.TensorShapeProto.Parser, new[]{ "Dim" }, null, null, null, new pbr::GeneratedClrTypeInfo[] { new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TensorShapeProto.Types.Dimension), global::Onnx.TensorShapeProto.Types.Dimension.Parser, new[]{ "DimValue", "DimParam", "Denotation" }, new[]{ "Value" }, null, null, null)}),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TypeProto), global::Onnx.TypeProto.Parser, new[]{ "TensorType", "SequenceType", "MapType", "OptionalType", "SparseTensorType", "OpaqueType", "Denotation" }, new[]{ "Value" }, null, null, new pbr::GeneratedClrTypeInfo[] { new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TypeProto.Types.Tensor), global::Onnx.TypeProto.Types.Tensor.Parser, new[]{ "ElemType", "Shape" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TypeProto.Types.Sequence), global::Onnx.TypeProto.Types.Sequence.Parser, new[]{ "ElemType" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TypeProto.Types.Map), global::Onnx.TypeProto.Types.Map.Parser, new[]{ "KeyType", "ValueType" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TypeProto.Types.Optional), global::Onnx.TypeProto.Types.Optional.Parser, new[]{ "ElemType" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TypeProto.Types.SparseTensor), global::Onnx.TypeProto.Types.SparseTensor.Parser, new[]{ "ElemType", "Shape" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.TypeProto.Types.Opaque), global::Onnx.TypeProto.Types.Opaque.Parser, new[]{ "Domain", "Name" }, null, null, null, null)}),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.OperatorSetIdProto), global::Onnx.OperatorSetIdProto.Parser, new[]{ "Domain", "Version" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::Onnx.FunctionProto), global::Onnx.FunctionProto.Parser, new[]{ "Name", "Input", "Output", "Attribute", "Node", "DocString", "OpsetImport", "Domain" }, null, null, null, null)
}));
}
#endregion
}
#region Enums
///
/// Versioning
///
/// ONNX versioning is specified in docs/IR.md and elaborated on in docs/Versioning.md
///
/// To be compatible with both proto2 and proto3, we will use a version number
/// that is not defined by the default value but an explicit enum number.
///
public enum Version {
///
/// proto3 requires the first enum value to be zero.
/// We add this just to appease the compiler.
///
[pbr::OriginalName("_START_VERSION")] StartVersion = 0,
///
/// The version field is always serialized and we will use it to store the
/// version that the graph is generated from. This helps us set up version
/// control.
/// For the IR, we are using simple numbers starting with 0x00000001,
/// which was the version we published on Oct 10, 2017.
///
[pbr::OriginalName("IR_VERSION_2017_10_10")] IrVersion20171010 = 1,
///
/// IR_VERSION 2 published on Oct 30, 2017
/// - Added type discriminator to AttributeProto to support proto3 users
///
[pbr::OriginalName("IR_VERSION_2017_10_30")] IrVersion20171030 = 2,
///
/// IR VERSION 3 published on Nov 3, 2017
/// - For operator versioning:
/// - Added new message OperatorSetIdProto
/// - Added opset_import in ModelProto
/// - For vendor extensions, added domain in NodeProto
///
[pbr::OriginalName("IR_VERSION_2017_11_3")] IrVersion2017113 = 3,
///
/// IR VERSION 4 published on Jan 22, 2019
/// - Relax constraint that initializers should be a subset of graph inputs
/// - Add type BFLOAT16
///
[pbr::OriginalName("IR_VERSION_2019_1_22")] IrVersion2019122 = 4,
///
/// IR VERSION 5 published on March 18, 2019
/// - Add message TensorAnnotation.
/// - Add quantization annotation in GraphProto to map tensor with its scale and zero point quantization parameters.
///
[pbr::OriginalName("IR_VERSION_2019_3_18")] IrVersion2019318 = 5,
///
/// IR VERSION 6 published on Sep 19, 2019
/// - Add support for sparse tensor constants stored in model.
/// - Add message SparseTensorProto
/// - Add sparse initializers
///
[pbr::OriginalName("IR_VERSION_2019_9_19")] IrVersion2019919 = 6,
///
/// IR VERSION 7 published on May 8, 2020
/// - Add support to allow function body graph to rely on multiple external opreator sets.
/// - Add a list to promote inference graph's initializers to global and
/// mutable variables. Global variables are visible in all graphs of the
/// stored models.
/// - Add message TrainingInfoProto to store initialization
/// method and training algorithm. The execution of TrainingInfoProto
/// can modify the values of mutable variables.
/// - Implicitly add inference graph into each TrainingInfoProto's algorithm.
///
[pbr::OriginalName("IR_VERSION_2020_5_8")] IrVersion202058 = 7,
///
/// IR VERSION 8 published on <TBD>
/// Introduce TypeProto.SparseTensor
/// Introduce TypeProto.Optional
/// Added a list of FunctionProtos local to the model
/// Deprecated since_version and operator status from FunctionProto
///
[pbr::OriginalName("IR_VERSION")] IrVersion = 8,
}
///
/// Operator/function status.
///
public enum OperatorStatus {
[pbr::OriginalName("EXPERIMENTAL")] Experimental = 0,
[pbr::OriginalName("STABLE")] Stable = 1,
}
#endregion
#region Messages
///
/// Attributes
///
/// A named attribute containing either singular float, integer, string, graph,
/// and tensor values, or repeated float, integer, string, graph, and tensor values.
/// An AttributeProto MUST contain the name field, and *only one* of the
/// following content fields, effectively enforcing a C/C++ union equivalent.
///
public sealed partial class AttributeProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new AttributeProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.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 AttributeProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public AttributeProto(AttributeProto other) : this() {
name_ = other.name_;
refAttrName_ = other.refAttrName_;
docString_ = other.docString_;
type_ = other.type_;
f_ = other.f_;
i_ = other.i_;
s_ = other.s_;
t_ = other.t_ != null ? other.t_.Clone() : null;
g_ = other.g_ != null ? other.g_.Clone() : null;
sparseTensor_ = other.sparseTensor_ != null ? other.sparseTensor_.Clone() : null;
tp_ = other.tp_ != null ? other.tp_.Clone() : null;
floats_ = other.floats_.Clone();
ints_ = other.ints_.Clone();
strings_ = other.strings_.Clone();
tensors_ = other.tensors_.Clone();
graphs_ = other.graphs_.Clone();
sparseTensors_ = other.sparseTensors_.Clone();
typeProtos_ = other.typeProtos_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public AttributeProto Clone() {
return new AttributeProto(this);
}
/// Field number for the "name" field.
public const int NameFieldNumber = 1;
private string name_ = "";
///
/// The name field MUST be present for this version of the IR.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "ref_attr_name" field.
public const int RefAttrNameFieldNumber = 21;
private string refAttrName_ = "";
///
/// if ref_attr_name is not empty, ref_attr_name is the attribute name in parent function.
/// In this case, this AttributeProto does not contain data, and it's a reference of attribute
/// in parent scope.
/// NOTE: This should ONLY be used in function (sub-graph). It's invalid to be used in main graph.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string RefAttrName {
get { return refAttrName_; }
set {
refAttrName_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "doc_string" field.
public const int DocStringFieldNumber = 13;
private string docString_ = "";
///
/// A human-readable documentation for this attribute. Markdown is allowed.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string DocString {
get { return docString_; }
set {
docString_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "type" field.
public const int TypeFieldNumber = 20;
private global::Onnx.AttributeProto.Types.AttributeType type_ = global::Onnx.AttributeProto.Types.AttributeType.Undefined;
///
/// The type field MUST be present for this version of the IR.
/// For 0.0.1 versions of the IR, this field was not defined, and
/// implementations needed to use has_field heuristics to determine
/// which value field was in use. For IR_VERSION 0.0.2 or later, this
/// field MUST be set and match the f|i|s|t|... field in use. This
/// change was made to accommodate proto3 implementations.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.AttributeProto.Types.AttributeType Type {
get { return type_; }
set {
type_ = value;
}
}
/// Field number for the "f" field.
public const int FFieldNumber = 2;
private float f_;
///
/// Exactly ONE of the following fields must be present for this version of the IR
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public float F {
get { return f_; }
set {
f_ = value;
}
}
/// Field number for the "i" field.
public const int IFieldNumber = 3;
private long i_;
///
/// int
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public long I {
get { return i_; }
set {
i_ = value;
}
}
/// Field number for the "s" field.
public const int SFieldNumber = 4;
private pb::ByteString s_ = pb::ByteString.Empty;
///
/// UTF-8 string
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pb::ByteString S {
get { return s_; }
set {
s_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "t" field.
public const int TFieldNumber = 5;
private global::Onnx.TensorProto t_;
///
/// tensor value
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TensorProto T {
get { return t_; }
set {
t_ = value;
}
}
/// Field number for the "g" field.
public const int GFieldNumber = 6;
private global::Onnx.GraphProto g_;
///
/// graph
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.GraphProto G {
get { return g_; }
set {
g_ = value;
}
}
/// Field number for the "sparse_tensor" field.
public const int SparseTensorFieldNumber = 22;
private global::Onnx.SparseTensorProto sparseTensor_;
///
/// sparse tensor value
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.SparseTensorProto SparseTensor {
get { return sparseTensor_; }
set {
sparseTensor_ = value;
}
}
/// Field number for the "tp" field.
public const int TpFieldNumber = 14;
private global::Onnx.TypeProto tp_;
///
/// Do not use field below, it's deprecated.
/// optional ValueProto v = 12; // value - subsumes everything but graph
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto Tp {
get { return tp_; }
set {
tp_ = value;
}
}
/// Field number for the "floats" field.
public const int FloatsFieldNumber = 7;
private static readonly pb::FieldCodec _repeated_floats_codec
= pb::FieldCodec.ForFloat(58);
private readonly pbc::RepeatedField floats_ = new pbc::RepeatedField();
///
/// list of floats
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Floats {
get { return floats_; }
}
/// Field number for the "ints" field.
public const int IntsFieldNumber = 8;
private static readonly pb::FieldCodec _repeated_ints_codec
= pb::FieldCodec.ForInt64(66);
private readonly pbc::RepeatedField ints_ = new pbc::RepeatedField();
///
/// list of ints
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Ints {
get { return ints_; }
}
/// Field number for the "strings" field.
public const int StringsFieldNumber = 9;
private static readonly pb::FieldCodec _repeated_strings_codec
= pb::FieldCodec.ForBytes(74);
private readonly pbc::RepeatedField strings_ = new pbc::RepeatedField();
///
/// list of UTF-8 strings
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Strings {
get { return strings_; }
}
/// Field number for the "tensors" field.
public const int TensorsFieldNumber = 10;
private static readonly pb::FieldCodec _repeated_tensors_codec
= pb::FieldCodec.ForMessage(82, global::Onnx.TensorProto.Parser);
private readonly pbc::RepeatedField tensors_ = new pbc::RepeatedField();
///
/// list of tensors
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Tensors {
get { return tensors_; }
}
/// Field number for the "graphs" field.
public const int GraphsFieldNumber = 11;
private static readonly pb::FieldCodec _repeated_graphs_codec
= pb::FieldCodec.ForMessage(90, global::Onnx.GraphProto.Parser);
private readonly pbc::RepeatedField graphs_ = new pbc::RepeatedField();
///
/// list of graph
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Graphs {
get { return graphs_; }
}
/// Field number for the "sparse_tensors" field.
public const int SparseTensorsFieldNumber = 23;
private static readonly pb::FieldCodec _repeated_sparseTensors_codec
= pb::FieldCodec.ForMessage(186, global::Onnx.SparseTensorProto.Parser);
private readonly pbc::RepeatedField sparseTensors_ = new pbc::RepeatedField();
///
/// list of sparse tensors
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField SparseTensors {
get { return sparseTensors_; }
}
/// Field number for the "type_protos" field.
public const int TypeProtosFieldNumber = 15;
private static readonly pb::FieldCodec _repeated_typeProtos_codec
= pb::FieldCodec.ForMessage(122, global::Onnx.TypeProto.Parser);
private readonly pbc::RepeatedField typeProtos_ = new pbc::RepeatedField();
///
/// list of type protos
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField TypeProtos {
get { return typeProtos_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as AttributeProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(AttributeProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (Name != other.Name) return false;
if (RefAttrName != other.RefAttrName) return false;
if (DocString != other.DocString) return false;
if (Type != other.Type) return false;
if (!pbc::ProtobufEqualityComparers.BitwiseSingleEqualityComparer.Equals(F, other.F)) return false;
if (I != other.I) return false;
if (S != other.S) return false;
if (!object.Equals(T, other.T)) return false;
if (!object.Equals(G, other.G)) return false;
if (!object.Equals(SparseTensor, other.SparseTensor)) return false;
if (!object.Equals(Tp, other.Tp)) return false;
if(!floats_.Equals(other.floats_)) return false;
if(!ints_.Equals(other.ints_)) return false;
if(!strings_.Equals(other.strings_)) return false;
if(!tensors_.Equals(other.tensors_)) return false;
if(!graphs_.Equals(other.graphs_)) return false;
if(!sparseTensors_.Equals(other.sparseTensors_)) return false;
if(!typeProtos_.Equals(other.typeProtos_)) 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 (RefAttrName.Length != 0) hash ^= RefAttrName.GetHashCode();
if (DocString.Length != 0) hash ^= DocString.GetHashCode();
if (Type != global::Onnx.AttributeProto.Types.AttributeType.Undefined) hash ^= Type.GetHashCode();
if (F != 0F) hash ^= pbc::ProtobufEqualityComparers.BitwiseSingleEqualityComparer.GetHashCode(F);
if (I != 0L) hash ^= I.GetHashCode();
if (S.Length != 0) hash ^= S.GetHashCode();
if (t_ != null) hash ^= T.GetHashCode();
if (g_ != null) hash ^= G.GetHashCode();
if (sparseTensor_ != null) hash ^= SparseTensor.GetHashCode();
if (tp_ != null) hash ^= Tp.GetHashCode();
hash ^= floats_.GetHashCode();
hash ^= ints_.GetHashCode();
hash ^= strings_.GetHashCode();
hash ^= tensors_.GetHashCode();
hash ^= graphs_.GetHashCode();
hash ^= sparseTensors_.GetHashCode();
hash ^= typeProtos_.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 (F != 0F) {
output.WriteRawTag(21);
output.WriteFloat(F);
}
if (I != 0L) {
output.WriteRawTag(24);
output.WriteInt64(I);
}
if (S.Length != 0) {
output.WriteRawTag(34);
output.WriteBytes(S);
}
if (t_ != null) {
output.WriteRawTag(42);
output.WriteMessage(T);
}
if (g_ != null) {
output.WriteRawTag(50);
output.WriteMessage(G);
}
floats_.WriteTo(output, _repeated_floats_codec);
ints_.WriteTo(output, _repeated_ints_codec);
strings_.WriteTo(output, _repeated_strings_codec);
tensors_.WriteTo(output, _repeated_tensors_codec);
graphs_.WriteTo(output, _repeated_graphs_codec);
if (DocString.Length != 0) {
output.WriteRawTag(106);
output.WriteString(DocString);
}
if (tp_ != null) {
output.WriteRawTag(114);
output.WriteMessage(Tp);
}
typeProtos_.WriteTo(output, _repeated_typeProtos_codec);
if (Type != global::Onnx.AttributeProto.Types.AttributeType.Undefined) {
output.WriteRawTag(160, 1);
output.WriteEnum((int) Type);
}
if (RefAttrName.Length != 0) {
output.WriteRawTag(170, 1);
output.WriteString(RefAttrName);
}
if (sparseTensor_ != null) {
output.WriteRawTag(178, 1);
output.WriteMessage(SparseTensor);
}
sparseTensors_.WriteTo(output, _repeated_sparseTensors_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 (F != 0F) {
output.WriteRawTag(21);
output.WriteFloat(F);
}
if (I != 0L) {
output.WriteRawTag(24);
output.WriteInt64(I);
}
if (S.Length != 0) {
output.WriteRawTag(34);
output.WriteBytes(S);
}
if (t_ != null) {
output.WriteRawTag(42);
output.WriteMessage(T);
}
if (g_ != null) {
output.WriteRawTag(50);
output.WriteMessage(G);
}
floats_.WriteTo(ref output, _repeated_floats_codec);
ints_.WriteTo(ref output, _repeated_ints_codec);
strings_.WriteTo(ref output, _repeated_strings_codec);
tensors_.WriteTo(ref output, _repeated_tensors_codec);
graphs_.WriteTo(ref output, _repeated_graphs_codec);
if (DocString.Length != 0) {
output.WriteRawTag(106);
output.WriteString(DocString);
}
if (tp_ != null) {
output.WriteRawTag(114);
output.WriteMessage(Tp);
}
typeProtos_.WriteTo(ref output, _repeated_typeProtos_codec);
if (Type != global::Onnx.AttributeProto.Types.AttributeType.Undefined) {
output.WriteRawTag(160, 1);
output.WriteEnum((int) Type);
}
if (RefAttrName.Length != 0) {
output.WriteRawTag(170, 1);
output.WriteString(RefAttrName);
}
if (sparseTensor_ != null) {
output.WriteRawTag(178, 1);
output.WriteMessage(SparseTensor);
}
sparseTensors_.WriteTo(ref output, _repeated_sparseTensors_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 (RefAttrName.Length != 0) {
size += 2 + pb::CodedOutputStream.ComputeStringSize(RefAttrName);
}
if (DocString.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(DocString);
}
if (Type != global::Onnx.AttributeProto.Types.AttributeType.Undefined) {
size += 2 + pb::CodedOutputStream.ComputeEnumSize((int) Type);
}
if (F != 0F) {
size += 1 + 4;
}
if (I != 0L) {
size += 1 + pb::CodedOutputStream.ComputeInt64Size(I);
}
if (S.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeBytesSize(S);
}
if (t_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(T);
}
if (g_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(G);
}
if (sparseTensor_ != null) {
size += 2 + pb::CodedOutputStream.ComputeMessageSize(SparseTensor);
}
if (tp_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Tp);
}
size += floats_.CalculateSize(_repeated_floats_codec);
size += ints_.CalculateSize(_repeated_ints_codec);
size += strings_.CalculateSize(_repeated_strings_codec);
size += tensors_.CalculateSize(_repeated_tensors_codec);
size += graphs_.CalculateSize(_repeated_graphs_codec);
size += sparseTensors_.CalculateSize(_repeated_sparseTensors_codec);
size += typeProtos_.CalculateSize(_repeated_typeProtos_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(AttributeProto other) {
if (other == null) {
return;
}
if (other.Name.Length != 0) {
Name = other.Name;
}
if (other.RefAttrName.Length != 0) {
RefAttrName = other.RefAttrName;
}
if (other.DocString.Length != 0) {
DocString = other.DocString;
}
if (other.Type != global::Onnx.AttributeProto.Types.AttributeType.Undefined) {
Type = other.Type;
}
if (other.F != 0F) {
F = other.F;
}
if (other.I != 0L) {
I = other.I;
}
if (other.S.Length != 0) {
S = other.S;
}
if (other.t_ != null) {
if (t_ == null) {
T = new global::Onnx.TensorProto();
}
T.MergeFrom(other.T);
}
if (other.g_ != null) {
if (g_ == null) {
G = new global::Onnx.GraphProto();
}
G.MergeFrom(other.G);
}
if (other.sparseTensor_ != null) {
if (sparseTensor_ == null) {
SparseTensor = new global::Onnx.SparseTensorProto();
}
SparseTensor.MergeFrom(other.SparseTensor);
}
if (other.tp_ != null) {
if (tp_ == null) {
Tp = new global::Onnx.TypeProto();
}
Tp.MergeFrom(other.Tp);
}
floats_.Add(other.floats_);
ints_.Add(other.ints_);
strings_.Add(other.strings_);
tensors_.Add(other.tensors_);
graphs_.Add(other.graphs_);
sparseTensors_.Add(other.sparseTensors_);
typeProtos_.Add(other.typeProtos_);
_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 21: {
F = input.ReadFloat();
break;
}
case 24: {
I = input.ReadInt64();
break;
}
case 34: {
S = input.ReadBytes();
break;
}
case 42: {
if (t_ == null) {
T = new global::Onnx.TensorProto();
}
input.ReadMessage(T);
break;
}
case 50: {
if (g_ == null) {
G = new global::Onnx.GraphProto();
}
input.ReadMessage(G);
break;
}
case 58:
case 61: {
floats_.AddEntriesFrom(input, _repeated_floats_codec);
break;
}
case 66:
case 64: {
ints_.AddEntriesFrom(input, _repeated_ints_codec);
break;
}
case 74: {
strings_.AddEntriesFrom(input, _repeated_strings_codec);
break;
}
case 82: {
tensors_.AddEntriesFrom(input, _repeated_tensors_codec);
break;
}
case 90: {
graphs_.AddEntriesFrom(input, _repeated_graphs_codec);
break;
}
case 106: {
DocString = input.ReadString();
break;
}
case 114: {
if (tp_ == null) {
Tp = new global::Onnx.TypeProto();
}
input.ReadMessage(Tp);
break;
}
case 122: {
typeProtos_.AddEntriesFrom(input, _repeated_typeProtos_codec);
break;
}
case 160: {
Type = (global::Onnx.AttributeProto.Types.AttributeType) input.ReadEnum();
break;
}
case 170: {
RefAttrName = input.ReadString();
break;
}
case 178: {
if (sparseTensor_ == null) {
SparseTensor = new global::Onnx.SparseTensorProto();
}
input.ReadMessage(SparseTensor);
break;
}
case 186: {
sparseTensors_.AddEntriesFrom(input, _repeated_sparseTensors_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 21: {
F = input.ReadFloat();
break;
}
case 24: {
I = input.ReadInt64();
break;
}
case 34: {
S = input.ReadBytes();
break;
}
case 42: {
if (t_ == null) {
T = new global::Onnx.TensorProto();
}
input.ReadMessage(T);
break;
}
case 50: {
if (g_ == null) {
G = new global::Onnx.GraphProto();
}
input.ReadMessage(G);
break;
}
case 58:
case 61: {
floats_.AddEntriesFrom(ref input, _repeated_floats_codec);
break;
}
case 66:
case 64: {
ints_.AddEntriesFrom(ref input, _repeated_ints_codec);
break;
}
case 74: {
strings_.AddEntriesFrom(ref input, _repeated_strings_codec);
break;
}
case 82: {
tensors_.AddEntriesFrom(ref input, _repeated_tensors_codec);
break;
}
case 90: {
graphs_.AddEntriesFrom(ref input, _repeated_graphs_codec);
break;
}
case 106: {
DocString = input.ReadString();
break;
}
case 114: {
if (tp_ == null) {
Tp = new global::Onnx.TypeProto();
}
input.ReadMessage(Tp);
break;
}
case 122: {
typeProtos_.AddEntriesFrom(ref input, _repeated_typeProtos_codec);
break;
}
case 160: {
Type = (global::Onnx.AttributeProto.Types.AttributeType) input.ReadEnum();
break;
}
case 170: {
RefAttrName = input.ReadString();
break;
}
case 178: {
if (sparseTensor_ == null) {
SparseTensor = new global::Onnx.SparseTensorProto();
}
input.ReadMessage(SparseTensor);
break;
}
case 186: {
sparseTensors_.AddEntriesFrom(ref input, _repeated_sparseTensors_codec);
break;
}
}
}
}
#endif
#region Nested types
/// Container for nested types declared in the AttributeProto message type.
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static partial class Types {
///
/// Note: this enum is structurally identical to the OpSchema::AttrType
/// enum defined in schema.h. If you rev one, you likely need to rev the other.
///
public enum AttributeType {
[pbr::OriginalName("UNDEFINED")] Undefined = 0,
[pbr::OriginalName("FLOAT")] Float = 1,
[pbr::OriginalName("INT")] Int = 2,
[pbr::OriginalName("STRING")] String = 3,
[pbr::OriginalName("TENSOR")] Tensor = 4,
[pbr::OriginalName("GRAPH")] Graph = 5,
[pbr::OriginalName("SPARSE_TENSOR")] SparseTensor = 11,
[pbr::OriginalName("TYPE_PROTO")] TypeProto = 13,
[pbr::OriginalName("FLOATS")] Floats = 6,
[pbr::OriginalName("INTS")] Ints = 7,
[pbr::OriginalName("STRINGS")] Strings = 8,
[pbr::OriginalName("TENSORS")] Tensors = 9,
[pbr::OriginalName("GRAPHS")] Graphs = 10,
[pbr::OriginalName("SPARSE_TENSORS")] SparseTensors = 12,
[pbr::OriginalName("TYPE_PROTOS")] TypeProtos = 14,
}
}
#endregion
}
///
/// Defines information on value, including the name, the type, and
/// the shape of the value.
///
public sealed partial class ValueInfoProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new ValueInfoProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.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 ValueInfoProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public ValueInfoProto(ValueInfoProto other) : this() {
name_ = other.name_;
type_ = other.type_ != null ? other.type_.Clone() : null;
docString_ = other.docString_;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public ValueInfoProto Clone() {
return new ValueInfoProto(this);
}
/// Field number for the "name" field.
public const int NameFieldNumber = 1;
private string name_ = "";
///
/// This field MUST be present in this version of the IR.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "type" field.
public const int TypeFieldNumber = 2;
private global::Onnx.TypeProto type_;
///
/// This field MUST be present in this version of the IR for
/// inputs and outputs of the top-level graph.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto Type {
get { return type_; }
set {
type_ = value;
}
}
/// Field number for the "doc_string" field.
public const int DocStringFieldNumber = 3;
private string docString_ = "";
///
/// A human-readable documentation for this value. Markdown is allowed.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string DocString {
get { return docString_; }
set {
docString_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as ValueInfoProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(ValueInfoProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (Name != other.Name) return false;
if (!object.Equals(Type, other.Type)) return false;
if (DocString != other.DocString) 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 (type_ != null) hash ^= Type.GetHashCode();
if (DocString.Length != 0) hash ^= DocString.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 (type_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Type);
}
if (DocString.Length != 0) {
output.WriteRawTag(26);
output.WriteString(DocString);
}
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 (type_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Type);
}
if (DocString.Length != 0) {
output.WriteRawTag(26);
output.WriteString(DocString);
}
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 (type_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Type);
}
if (DocString.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(DocString);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(ValueInfoProto other) {
if (other == null) {
return;
}
if (other.Name.Length != 0) {
Name = other.Name;
}
if (other.type_ != null) {
if (type_ == null) {
Type = new global::Onnx.TypeProto();
}
Type.MergeFrom(other.Type);
}
if (other.DocString.Length != 0) {
DocString = other.DocString;
}
_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 18: {
if (type_ == null) {
Type = new global::Onnx.TypeProto();
}
input.ReadMessage(Type);
break;
}
case 26: {
DocString = input.ReadString();
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 18: {
if (type_ == null) {
Type = new global::Onnx.TypeProto();
}
input.ReadMessage(Type);
break;
}
case 26: {
DocString = input.ReadString();
break;
}
}
}
}
#endif
}
///
/// Nodes
///
/// Computation graphs are made up of a DAG of nodes, which represent what is
/// commonly called a "layer" or "pipeline stage" in machine learning frameworks.
///
/// For example, it can be a node of type "Conv" that takes in an image, a filter
/// tensor and a bias tensor, and produces the convolved output.
///
public sealed partial class NodeProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new NodeProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.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 NodeProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public NodeProto(NodeProto other) : this() {
input_ = other.input_.Clone();
output_ = other.output_.Clone();
name_ = other.name_;
opType_ = other.opType_;
domain_ = other.domain_;
attribute_ = other.attribute_.Clone();
docString_ = other.docString_;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public NodeProto Clone() {
return new NodeProto(this);
}
/// Field number for the "input" field.
public const int InputFieldNumber = 1;
private static readonly pb::FieldCodec _repeated_input_codec
= pb::FieldCodec.ForString(10);
private readonly pbc::RepeatedField input_ = new pbc::RepeatedField();
///
/// namespace Value
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Input {
get { return input_; }
}
/// Field number for the "output" field.
public const int OutputFieldNumber = 2;
private static readonly pb::FieldCodec _repeated_output_codec
= pb::FieldCodec.ForString(18);
private readonly pbc::RepeatedField output_ = new pbc::RepeatedField();
///
/// namespace Value
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Output {
get { return output_; }
}
/// Field number for the "name" field.
public const int NameFieldNumber = 3;
private string name_ = "";
///
/// An optional identifier for this node in a graph.
/// This field MAY be absent in ths version of the IR.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "op_type" field.
public const int OpTypeFieldNumber = 4;
private string opType_ = "";
///
/// The symbolic identifier of the Operator to execute.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string OpType {
get { return opType_; }
set {
opType_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "domain" field.
public const int DomainFieldNumber = 7;
private string domain_ = "";
///
/// The domain of the OperatorSet that specifies the operator named by op_type.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Domain {
get { return domain_; }
set {
domain_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "attribute" field.
public const int AttributeFieldNumber = 5;
private static readonly pb::FieldCodec _repeated_attribute_codec
= pb::FieldCodec.ForMessage(42, global::Onnx.AttributeProto.Parser);
private readonly pbc::RepeatedField attribute_ = new pbc::RepeatedField();
///
/// Additional named attributes.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Attribute {
get { return attribute_; }
}
/// Field number for the "doc_string" field.
public const int DocStringFieldNumber = 6;
private string docString_ = "";
///
/// A human-readable documentation for this node. Markdown is allowed.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string DocString {
get { return docString_; }
set {
docString_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as NodeProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(NodeProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if(!input_.Equals(other.input_)) return false;
if(!output_.Equals(other.output_)) return false;
if (Name != other.Name) return false;
if (OpType != other.OpType) return false;
if (Domain != other.Domain) return false;
if(!attribute_.Equals(other.attribute_)) return false;
if (DocString != other.DocString) 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;
hash ^= input_.GetHashCode();
hash ^= output_.GetHashCode();
if (Name.Length != 0) hash ^= Name.GetHashCode();
if (OpType.Length != 0) hash ^= OpType.GetHashCode();
if (Domain.Length != 0) hash ^= Domain.GetHashCode();
hash ^= attribute_.GetHashCode();
if (DocString.Length != 0) hash ^= DocString.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
input_.WriteTo(output, _repeated_input_codec);
output_.WriteTo(output, _repeated_output_codec);
if (Name.Length != 0) {
output.WriteRawTag(26);
output.WriteString(Name);
}
if (OpType.Length != 0) {
output.WriteRawTag(34);
output.WriteString(OpType);
}
attribute_.WriteTo(output, _repeated_attribute_codec);
if (DocString.Length != 0) {
output.WriteRawTag(50);
output.WriteString(DocString);
}
if (Domain.Length != 0) {
output.WriteRawTag(58);
output.WriteString(Domain);
}
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) {
input_.WriteTo(ref output, _repeated_input_codec);
output_.WriteTo(ref output, _repeated_output_codec);
if (Name.Length != 0) {
output.WriteRawTag(26);
output.WriteString(Name);
}
if (OpType.Length != 0) {
output.WriteRawTag(34);
output.WriteString(OpType);
}
attribute_.WriteTo(ref output, _repeated_attribute_codec);
if (DocString.Length != 0) {
output.WriteRawTag(50);
output.WriteString(DocString);
}
if (Domain.Length != 0) {
output.WriteRawTag(58);
output.WriteString(Domain);
}
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;
size += input_.CalculateSize(_repeated_input_codec);
size += output_.CalculateSize(_repeated_output_codec);
if (Name.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Name);
}
if (OpType.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(OpType);
}
if (Domain.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Domain);
}
size += attribute_.CalculateSize(_repeated_attribute_codec);
if (DocString.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(DocString);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(NodeProto other) {
if (other == null) {
return;
}
input_.Add(other.input_);
output_.Add(other.output_);
if (other.Name.Length != 0) {
Name = other.Name;
}
if (other.OpType.Length != 0) {
OpType = other.OpType;
}
if (other.Domain.Length != 0) {
Domain = other.Domain;
}
attribute_.Add(other.attribute_);
if (other.DocString.Length != 0) {
DocString = other.DocString;
}
_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: {
input_.AddEntriesFrom(input, _repeated_input_codec);
break;
}
case 18: {
output_.AddEntriesFrom(input, _repeated_output_codec);
break;
}
case 26: {
Name = input.ReadString();
break;
}
case 34: {
OpType = input.ReadString();
break;
}
case 42: {
attribute_.AddEntriesFrom(input, _repeated_attribute_codec);
break;
}
case 50: {
DocString = input.ReadString();
break;
}
case 58: {
Domain = input.ReadString();
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: {
input_.AddEntriesFrom(ref input, _repeated_input_codec);
break;
}
case 18: {
output_.AddEntriesFrom(ref input, _repeated_output_codec);
break;
}
case 26: {
Name = input.ReadString();
break;
}
case 34: {
OpType = input.ReadString();
break;
}
case 42: {
attribute_.AddEntriesFrom(ref input, _repeated_attribute_codec);
break;
}
case 50: {
DocString = input.ReadString();
break;
}
case 58: {
Domain = input.ReadString();
break;
}
}
}
}
#endif
}
///
/// Training information
/// TrainingInfoProto stores information for training a model.
/// In particular, this defines two functionalities: an initialization-step
/// and a training-algorithm-step. Initialization resets the model
/// back to its original state as if no training has been performed.
/// Training algorithm improves the model based on input data.
///
/// The semantics of the initialization-step is that the initializers
/// in ModelProto.graph and in TrainingInfoProto.algorithm are first
/// initialized as specified by the initializers in the graph, and then
/// updated by the "initialization_binding" in every instance in
/// ModelProto.training_info.
///
/// The field "algorithm" defines a computation graph which represents a
/// training algorithm's step. After the execution of a
/// TrainingInfoProto.algorithm, the initializers specified by "update_binding"
/// may be immediately updated. If the targeted training algorithm contains
/// consecutive update steps (such as block coordinate descent methods),
/// the user needs to create a TrainingInfoProto for each step.
///
public sealed partial class TrainingInfoProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new TrainingInfoProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[3]; }
}
[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 TrainingInfoProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TrainingInfoProto(TrainingInfoProto other) : this() {
initialization_ = other.initialization_ != null ? other.initialization_.Clone() : null;
algorithm_ = other.algorithm_ != null ? other.algorithm_.Clone() : null;
initializationBinding_ = other.initializationBinding_.Clone();
updateBinding_ = other.updateBinding_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TrainingInfoProto Clone() {
return new TrainingInfoProto(this);
}
/// Field number for the "initialization" field.
public const int InitializationFieldNumber = 1;
private global::Onnx.GraphProto initialization_;
///
/// This field describes a graph to compute the initial tensors
/// upon starting the training process. Initialization graph has no input
/// and can have multiple outputs. Usually, trainable tensors in neural
/// networks are randomly initialized. To achieve that, for each tensor,
/// the user can put a random number operator such as RandomNormal or
/// RandomUniform in TrainingInfoProto.initialization.node and assign its
/// random output to the specific tensor using "initialization_binding".
/// This graph can also set the initializers in "algorithm" in the same
/// TrainingInfoProto; a use case is resetting the number of training
/// iteration to zero.
///
/// By default, this field is an empty graph and its evaluation does not
/// produce any output. Thus, no initializer would be changed by default.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.GraphProto Initialization {
get { return initialization_; }
set {
initialization_ = value;
}
}
/// Field number for the "algorithm" field.
public const int AlgorithmFieldNumber = 2;
private global::Onnx.GraphProto algorithm_;
///
/// This field represents a training algorithm step. Given required inputs,
/// it computes outputs to update initializers in its own or inference graph's
/// initializer lists. In general, this field contains loss node, gradient node,
/// optimizer node, increment of iteration count.
///
/// An execution of the training algorithm step is performed by executing the
/// graph obtained by combining the inference graph (namely "ModelProto.graph")
/// and the "algorithm" graph. That is, the actual the actual
/// input/initializer/output/node/value_info/sparse_initializer list of
/// the training graph is the concatenation of
/// "ModelProto.graph.input/initializer/output/node/value_info/sparse_initializer"
/// and "algorithm.input/initializer/output/node/value_info/sparse_initializer"
/// in that order. This combined graph must satisfy the normal ONNX conditions.
/// Now, let's provide a visualization of graph combination for clarity.
/// Let the inference graph (i.e., "ModelProto.graph") be
/// tensor_a, tensor_b -> MatMul -> tensor_c -> Sigmoid -> tensor_d
/// and the "algorithm" graph be
/// tensor_d -> Add -> tensor_e
/// The combination process results
/// tensor_a, tensor_b -> MatMul -> tensor_c -> Sigmoid -> tensor_d -> Add -> tensor_e
///
/// Notice that an input of a node in the "algorithm" graph may reference the
/// output of a node in the inference graph (but not the other way round). Also, inference
/// node cannot reference inputs of "algorithm". With these restrictions, inference graph
/// can always be run independently without training information.
///
/// By default, this field is an empty graph and its evaluation does not
/// produce any output. Evaluating the default training step never
/// update any initializers.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.GraphProto Algorithm {
get { return algorithm_; }
set {
algorithm_ = value;
}
}
/// Field number for the "initialization_binding" field.
public const int InitializationBindingFieldNumber = 3;
private static readonly pb::FieldCodec _repeated_initializationBinding_codec
= pb::FieldCodec.ForMessage(26, global::Onnx.StringStringEntryProto.Parser);
private readonly pbc::RepeatedField initializationBinding_ = new pbc::RepeatedField();
///
/// This field specifies the bindings from the outputs of "initialization" to
/// some initializers in "ModelProto.graph.initializer" and
/// the "algorithm.initializer" in the same TrainingInfoProto.
/// See "update_binding" below for details.
///
/// By default, this field is empty and no initializer would be changed
/// by the execution of "initialization".
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField InitializationBinding {
get { return initializationBinding_; }
}
/// Field number for the "update_binding" field.
public const int UpdateBindingFieldNumber = 4;
private static readonly pb::FieldCodec _repeated_updateBinding_codec
= pb::FieldCodec.ForMessage(34, global::Onnx.StringStringEntryProto.Parser);
private readonly pbc::RepeatedField updateBinding_ = new pbc::RepeatedField();
///
/// Gradient-based training is usually an iterative procedure. In one gradient
/// descent iteration, we apply
///
/// x = x - r * g
///
/// where "x" is the optimized tensor, "r" stands for learning rate, and "g" is
/// gradient of "x" with respect to a chosen loss. To avoid adding assignments
/// into the training graph, we split the update equation into
///
/// y = x - r * g
/// x = y
///
/// The user needs to save "y = x - r * g" into TrainingInfoProto.algorithm. To
/// tell that "y" should be assigned to "x", the field "update_binding" may
/// contain a key-value pair of strings, "x" (key of StringStringEntryProto)
/// and "y" (value of StringStringEntryProto).
/// For a neural network with multiple trainable (mutable) tensors, there can
/// be multiple key-value pairs in "update_binding".
///
/// The initializers appears as keys in "update_binding" are considered
/// mutable variables. This implies some behaviors
/// as described below.
///
/// 1. We have only unique keys in all "update_binding"s so that two
/// variables may not have the same name. This ensures that one
/// variable is assigned up to once.
/// 2. The keys must appear in names of "ModelProto.graph.initializer" or
/// "TrainingInfoProto.algorithm.initializer".
/// 3. The values must be output names of "algorithm" or "ModelProto.graph.output".
/// 4. Mutable variables are initialized to the value specified by the
/// corresponding initializer, and then potentially updated by
/// "initializer_binding"s and "update_binding"s in "TrainingInfoProto"s.
///
/// This field usually contains names of trainable tensors
/// (in ModelProto.graph), optimizer states such as momentums in advanced
/// stochastic gradient methods (in TrainingInfoProto.graph),
/// and number of training iterations (in TrainingInfoProto.graph).
///
/// By default, this field is empty and no initializer would be changed
/// by the execution of "algorithm".
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField UpdateBinding {
get { return updateBinding_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as TrainingInfoProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(TrainingInfoProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (!object.Equals(Initialization, other.Initialization)) return false;
if (!object.Equals(Algorithm, other.Algorithm)) return false;
if(!initializationBinding_.Equals(other.initializationBinding_)) return false;
if(!updateBinding_.Equals(other.updateBinding_)) 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 (initialization_ != null) hash ^= Initialization.GetHashCode();
if (algorithm_ != null) hash ^= Algorithm.GetHashCode();
hash ^= initializationBinding_.GetHashCode();
hash ^= updateBinding_.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 (initialization_ != null) {
output.WriteRawTag(10);
output.WriteMessage(Initialization);
}
if (algorithm_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Algorithm);
}
initializationBinding_.WriteTo(output, _repeated_initializationBinding_codec);
updateBinding_.WriteTo(output, _repeated_updateBinding_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 (initialization_ != null) {
output.WriteRawTag(10);
output.WriteMessage(Initialization);
}
if (algorithm_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Algorithm);
}
initializationBinding_.WriteTo(ref output, _repeated_initializationBinding_codec);
updateBinding_.WriteTo(ref output, _repeated_updateBinding_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 (initialization_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Initialization);
}
if (algorithm_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Algorithm);
}
size += initializationBinding_.CalculateSize(_repeated_initializationBinding_codec);
size += updateBinding_.CalculateSize(_repeated_updateBinding_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(TrainingInfoProto other) {
if (other == null) {
return;
}
if (other.initialization_ != null) {
if (initialization_ == null) {
Initialization = new global::Onnx.GraphProto();
}
Initialization.MergeFrom(other.Initialization);
}
if (other.algorithm_ != null) {
if (algorithm_ == null) {
Algorithm = new global::Onnx.GraphProto();
}
Algorithm.MergeFrom(other.Algorithm);
}
initializationBinding_.Add(other.initializationBinding_);
updateBinding_.Add(other.updateBinding_);
_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: {
if (initialization_ == null) {
Initialization = new global::Onnx.GraphProto();
}
input.ReadMessage(Initialization);
break;
}
case 18: {
if (algorithm_ == null) {
Algorithm = new global::Onnx.GraphProto();
}
input.ReadMessage(Algorithm);
break;
}
case 26: {
initializationBinding_.AddEntriesFrom(input, _repeated_initializationBinding_codec);
break;
}
case 34: {
updateBinding_.AddEntriesFrom(input, _repeated_updateBinding_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: {
if (initialization_ == null) {
Initialization = new global::Onnx.GraphProto();
}
input.ReadMessage(Initialization);
break;
}
case 18: {
if (algorithm_ == null) {
Algorithm = new global::Onnx.GraphProto();
}
input.ReadMessage(Algorithm);
break;
}
case 26: {
initializationBinding_.AddEntriesFrom(ref input, _repeated_initializationBinding_codec);
break;
}
case 34: {
updateBinding_.AddEntriesFrom(ref input, _repeated_updateBinding_codec);
break;
}
}
}
}
#endif
}
///
/// Models
///
/// ModelProto is a top-level file/container format for bundling a ML model and
/// associating its computation graph with metadata.
///
/// The semantics of the model are described by the associated GraphProto's.
///
public sealed partial class ModelProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new ModelProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[4]; }
}
[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 ModelProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public ModelProto(ModelProto other) : this() {
irVersion_ = other.irVersion_;
opsetImport_ = other.opsetImport_.Clone();
producerName_ = other.producerName_;
producerVersion_ = other.producerVersion_;
domain_ = other.domain_;
modelVersion_ = other.modelVersion_;
docString_ = other.docString_;
graph_ = other.graph_ != null ? other.graph_.Clone() : null;
metadataProps_ = other.metadataProps_.Clone();
trainingInfo_ = other.trainingInfo_.Clone();
functions_ = other.functions_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public ModelProto Clone() {
return new ModelProto(this);
}
/// Field number for the "ir_version" field.
public const int IrVersionFieldNumber = 1;
private long irVersion_;
///
/// The version of the IR this model targets. See Version enum above.
/// This field MUST be present.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public long IrVersion {
get { return irVersion_; }
set {
irVersion_ = value;
}
}
/// Field number for the "opset_import" field.
public const int OpsetImportFieldNumber = 8;
private static readonly pb::FieldCodec _repeated_opsetImport_codec
= pb::FieldCodec.ForMessage(66, global::Onnx.OperatorSetIdProto.Parser);
private readonly pbc::RepeatedField opsetImport_ = new pbc::RepeatedField();
///
/// The OperatorSets this model relies on.
/// All ModelProtos MUST have at least one entry that
/// specifies which version of the ONNX OperatorSet is
/// being imported.
///
/// All nodes in the ModelProto's graph will bind against the operator
/// with the same-domain/same-op_type operator with the HIGHEST version
/// in the referenced operator sets.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField OpsetImport {
get { return opsetImport_; }
}
/// Field number for the "producer_name" field.
public const int ProducerNameFieldNumber = 2;
private string producerName_ = "";
///
/// The name of the framework or tool used to generate this model.
/// This field SHOULD be present to indicate which implementation/tool/framework
/// emitted the model.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string ProducerName {
get { return producerName_; }
set {
producerName_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "producer_version" field.
public const int ProducerVersionFieldNumber = 3;
private string producerVersion_ = "";
///
/// The version of the framework or tool used to generate this model.
/// This field SHOULD be present to indicate which implementation/tool/framework
/// emitted the model.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string ProducerVersion {
get { return producerVersion_; }
set {
producerVersion_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "domain" field.
public const int DomainFieldNumber = 4;
private string domain_ = "";
///
/// Domain name of the model.
/// We use reverse domain names as name space indicators. For example:
/// `com.facebook.fair` or `com.microsoft.cognitiveservices`
///
/// Together with `model_version` and GraphProto.name, this forms the unique identity of
/// the graph.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Domain {
get { return domain_; }
set {
domain_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "model_version" field.
public const int ModelVersionFieldNumber = 5;
private long modelVersion_;
///
/// The version of the graph encoded. See Version enum below.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public long ModelVersion {
get { return modelVersion_; }
set {
modelVersion_ = value;
}
}
/// Field number for the "doc_string" field.
public const int DocStringFieldNumber = 6;
private string docString_ = "";
///
/// A human-readable documentation for this model. Markdown is allowed.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string DocString {
get { return docString_; }
set {
docString_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "graph" field.
public const int GraphFieldNumber = 7;
private global::Onnx.GraphProto graph_;
///
/// The parameterized graph that is evaluated to execute the model.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.GraphProto Graph {
get { return graph_; }
set {
graph_ = value;
}
}
/// Field number for the "metadata_props" field.
public const int MetadataPropsFieldNumber = 14;
private static readonly pb::FieldCodec _repeated_metadataProps_codec
= pb::FieldCodec.ForMessage(114, global::Onnx.StringStringEntryProto.Parser);
private readonly pbc::RepeatedField metadataProps_ = new pbc::RepeatedField();
///
/// Named metadata values; keys should be distinct.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField MetadataProps {
get { return metadataProps_; }
}
/// Field number for the "training_info" field.
public const int TrainingInfoFieldNumber = 20;
private static readonly pb::FieldCodec _repeated_trainingInfo_codec
= pb::FieldCodec.ForMessage(162, global::Onnx.TrainingInfoProto.Parser);
private readonly pbc::RepeatedField trainingInfo_ = new pbc::RepeatedField();
///
/// Training-specific information. Sequentially executing all stored
/// `TrainingInfoProto.algorithm`s and assigning their outputs following
/// the corresponding `TrainingInfoProto.update_binding`s is one training
/// iteration. Similarly, to initialize the model
/// (as if training hasn't happened), the user should sequentially execute
/// all stored `TrainingInfoProto.initialization`s and assigns their outputs
/// using `TrainingInfoProto.initialization_binding`s.
///
/// If this field is empty, the training behavior of the model is undefined.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField TrainingInfo {
get { return trainingInfo_; }
}
/// Field number for the "functions" field.
public const int FunctionsFieldNumber = 25;
private static readonly pb::FieldCodec _repeated_functions_codec
= pb::FieldCodec.ForMessage(202, global::Onnx.FunctionProto.Parser);
private readonly pbc::RepeatedField functions_ = new pbc::RepeatedField();
///
/// A list of function protos local to the model.
///
/// Name of the function "FunctionProto.name" should be unique within the domain "FunctionProto.domain".
/// In case of any conflicts the behavior (whether the model local functions are given higher priority,
/// or standard opserator sets are given higher priotity or this is treated as error) is defined by
/// the runtimes.
///
/// The operator sets imported by FunctionProto should be compatible with the ones
/// imported by ModelProto and other model local FunctionProtos.
/// Example, if same operator set say 'A' is imported by a FunctionProto and ModelProto
/// or by 2 FunctionProtos then versions for the operator set may be different but,
/// the operator schema returned for op_type, domain, version combination
/// for both the versions should be same for every node in the function body.
///
/// One FunctionProto can reference other FunctionProto in the model, however, recursive reference
/// is not allowed.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Functions {
get { return functions_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as ModelProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(ModelProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (IrVersion != other.IrVersion) return false;
if(!opsetImport_.Equals(other.opsetImport_)) return false;
if (ProducerName != other.ProducerName) return false;
if (ProducerVersion != other.ProducerVersion) return false;
if (Domain != other.Domain) return false;
if (ModelVersion != other.ModelVersion) return false;
if (DocString != other.DocString) return false;
if (!object.Equals(Graph, other.Graph)) return false;
if(!metadataProps_.Equals(other.metadataProps_)) return false;
if(!trainingInfo_.Equals(other.trainingInfo_)) return false;
if(!functions_.Equals(other.functions_)) 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 (IrVersion != 0L) hash ^= IrVersion.GetHashCode();
hash ^= opsetImport_.GetHashCode();
if (ProducerName.Length != 0) hash ^= ProducerName.GetHashCode();
if (ProducerVersion.Length != 0) hash ^= ProducerVersion.GetHashCode();
if (Domain.Length != 0) hash ^= Domain.GetHashCode();
if (ModelVersion != 0L) hash ^= ModelVersion.GetHashCode();
if (DocString.Length != 0) hash ^= DocString.GetHashCode();
if (graph_ != null) hash ^= Graph.GetHashCode();
hash ^= metadataProps_.GetHashCode();
hash ^= trainingInfo_.GetHashCode();
hash ^= functions_.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 (IrVersion != 0L) {
output.WriteRawTag(8);
output.WriteInt64(IrVersion);
}
if (ProducerName.Length != 0) {
output.WriteRawTag(18);
output.WriteString(ProducerName);
}
if (ProducerVersion.Length != 0) {
output.WriteRawTag(26);
output.WriteString(ProducerVersion);
}
if (Domain.Length != 0) {
output.WriteRawTag(34);
output.WriteString(Domain);
}
if (ModelVersion != 0L) {
output.WriteRawTag(40);
output.WriteInt64(ModelVersion);
}
if (DocString.Length != 0) {
output.WriteRawTag(50);
output.WriteString(DocString);
}
if (graph_ != null) {
output.WriteRawTag(58);
output.WriteMessage(Graph);
}
opsetImport_.WriteTo(output, _repeated_opsetImport_codec);
metadataProps_.WriteTo(output, _repeated_metadataProps_codec);
trainingInfo_.WriteTo(output, _repeated_trainingInfo_codec);
functions_.WriteTo(output, _repeated_functions_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 (IrVersion != 0L) {
output.WriteRawTag(8);
output.WriteInt64(IrVersion);
}
if (ProducerName.Length != 0) {
output.WriteRawTag(18);
output.WriteString(ProducerName);
}
if (ProducerVersion.Length != 0) {
output.WriteRawTag(26);
output.WriteString(ProducerVersion);
}
if (Domain.Length != 0) {
output.WriteRawTag(34);
output.WriteString(Domain);
}
if (ModelVersion != 0L) {
output.WriteRawTag(40);
output.WriteInt64(ModelVersion);
}
if (DocString.Length != 0) {
output.WriteRawTag(50);
output.WriteString(DocString);
}
if (graph_ != null) {
output.WriteRawTag(58);
output.WriteMessage(Graph);
}
opsetImport_.WriteTo(ref output, _repeated_opsetImport_codec);
metadataProps_.WriteTo(ref output, _repeated_metadataProps_codec);
trainingInfo_.WriteTo(ref output, _repeated_trainingInfo_codec);
functions_.WriteTo(ref output, _repeated_functions_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 (IrVersion != 0L) {
size += 1 + pb::CodedOutputStream.ComputeInt64Size(IrVersion);
}
size += opsetImport_.CalculateSize(_repeated_opsetImport_codec);
if (ProducerName.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(ProducerName);
}
if (ProducerVersion.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(ProducerVersion);
}
if (Domain.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Domain);
}
if (ModelVersion != 0L) {
size += 1 + pb::CodedOutputStream.ComputeInt64Size(ModelVersion);
}
if (DocString.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(DocString);
}
if (graph_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Graph);
}
size += metadataProps_.CalculateSize(_repeated_metadataProps_codec);
size += trainingInfo_.CalculateSize(_repeated_trainingInfo_codec);
size += functions_.CalculateSize(_repeated_functions_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(ModelProto other) {
if (other == null) {
return;
}
if (other.IrVersion != 0L) {
IrVersion = other.IrVersion;
}
opsetImport_.Add(other.opsetImport_);
if (other.ProducerName.Length != 0) {
ProducerName = other.ProducerName;
}
if (other.ProducerVersion.Length != 0) {
ProducerVersion = other.ProducerVersion;
}
if (other.Domain.Length != 0) {
Domain = other.Domain;
}
if (other.ModelVersion != 0L) {
ModelVersion = other.ModelVersion;
}
if (other.DocString.Length != 0) {
DocString = other.DocString;
}
if (other.graph_ != null) {
if (graph_ == null) {
Graph = new global::Onnx.GraphProto();
}
Graph.MergeFrom(other.Graph);
}
metadataProps_.Add(other.metadataProps_);
trainingInfo_.Add(other.trainingInfo_);
functions_.Add(other.functions_);
_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 8: {
IrVersion = input.ReadInt64();
break;
}
case 18: {
ProducerName = input.ReadString();
break;
}
case 26: {
ProducerVersion = input.ReadString();
break;
}
case 34: {
Domain = input.ReadString();
break;
}
case 40: {
ModelVersion = input.ReadInt64();
break;
}
case 50: {
DocString = input.ReadString();
break;
}
case 58: {
if (graph_ == null) {
Graph = new global::Onnx.GraphProto();
}
input.ReadMessage(Graph);
break;
}
case 66: {
opsetImport_.AddEntriesFrom(input, _repeated_opsetImport_codec);
break;
}
case 114: {
metadataProps_.AddEntriesFrom(input, _repeated_metadataProps_codec);
break;
}
case 162: {
trainingInfo_.AddEntriesFrom(input, _repeated_trainingInfo_codec);
break;
}
case 202: {
functions_.AddEntriesFrom(input, _repeated_functions_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 8: {
IrVersion = input.ReadInt64();
break;
}
case 18: {
ProducerName = input.ReadString();
break;
}
case 26: {
ProducerVersion = input.ReadString();
break;
}
case 34: {
Domain = input.ReadString();
break;
}
case 40: {
ModelVersion = input.ReadInt64();
break;
}
case 50: {
DocString = input.ReadString();
break;
}
case 58: {
if (graph_ == null) {
Graph = new global::Onnx.GraphProto();
}
input.ReadMessage(Graph);
break;
}
case 66: {
opsetImport_.AddEntriesFrom(ref input, _repeated_opsetImport_codec);
break;
}
case 114: {
metadataProps_.AddEntriesFrom(ref input, _repeated_metadataProps_codec);
break;
}
case 162: {
trainingInfo_.AddEntriesFrom(ref input, _repeated_trainingInfo_codec);
break;
}
case 202: {
functions_.AddEntriesFrom(ref input, _repeated_functions_codec);
break;
}
}
}
}
#endif
}
///
/// StringStringEntryProto follows the pattern for cross-proto-version maps.
/// See https://developers.google.com/protocol-buffers/docs/proto3#maps
///
public sealed partial class StringStringEntryProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new StringStringEntryProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[5]; }
}
[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 StringStringEntryProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public StringStringEntryProto(StringStringEntryProto other) : this() {
key_ = other.key_;
value_ = other.value_;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public StringStringEntryProto Clone() {
return new StringStringEntryProto(this);
}
/// Field number for the "key" field.
public const int KeyFieldNumber = 1;
private string key_ = "";
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Key {
get { return key_; }
set {
key_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "value" field.
public const int ValueFieldNumber = 2;
private string value_ = "";
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Value {
get { return value_; }
set {
value_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as StringStringEntryProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(StringStringEntryProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (Key != other.Key) return false;
if (Value != other.Value) 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 (Key.Length != 0) hash ^= Key.GetHashCode();
if (Value.Length != 0) hash ^= Value.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 (Key.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Key);
}
if (Value.Length != 0) {
output.WriteRawTag(18);
output.WriteString(Value);
}
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 (Key.Length != 0) {
output.WriteRawTag(10);
output.WriteString(Key);
}
if (Value.Length != 0) {
output.WriteRawTag(18);
output.WriteString(Value);
}
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 (Key.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Key);
}
if (Value.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Value);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(StringStringEntryProto other) {
if (other == null) {
return;
}
if (other.Key.Length != 0) {
Key = other.Key;
}
if (other.Value.Length != 0) {
Value = other.Value;
}
_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: {
Key = input.ReadString();
break;
}
case 18: {
Value = input.ReadString();
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: {
Key = input.ReadString();
break;
}
case 18: {
Value = input.ReadString();
break;
}
}
}
}
#endif
}
public sealed partial class TensorAnnotation : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new TensorAnnotation());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[6]; }
}
[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 TensorAnnotation() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TensorAnnotation(TensorAnnotation other) : this() {
tensorName_ = other.tensorName_;
quantParameterTensorNames_ = other.quantParameterTensorNames_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TensorAnnotation Clone() {
return new TensorAnnotation(this);
}
/// Field number for the "tensor_name" field.
public const int TensorNameFieldNumber = 1;
private string tensorName_ = "";
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string TensorName {
get { return tensorName_; }
set {
tensorName_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "quant_parameter_tensor_names" field.
public const int QuantParameterTensorNamesFieldNumber = 2;
private static readonly pb::FieldCodec _repeated_quantParameterTensorNames_codec
= pb::FieldCodec.ForMessage(18, global::Onnx.StringStringEntryProto.Parser);
private readonly pbc::RepeatedField quantParameterTensorNames_ = new pbc::RepeatedField();
///
/// <key, value> pairs to annotate tensor specified by <tensor_name> above.
/// The keys used in the mapping below must be pre-defined in ONNX spec.
/// For example, for 8-bit linear quantization case, 'SCALE_TENSOR', 'ZERO_POINT_TENSOR' will be pre-defined as
/// quantization parameter keys.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField QuantParameterTensorNames {
get { return quantParameterTensorNames_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as TensorAnnotation);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(TensorAnnotation other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (TensorName != other.TensorName) return false;
if(!quantParameterTensorNames_.Equals(other.quantParameterTensorNames_)) 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 (TensorName.Length != 0) hash ^= TensorName.GetHashCode();
hash ^= quantParameterTensorNames_.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 (TensorName.Length != 0) {
output.WriteRawTag(10);
output.WriteString(TensorName);
}
quantParameterTensorNames_.WriteTo(output, _repeated_quantParameterTensorNames_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 (TensorName.Length != 0) {
output.WriteRawTag(10);
output.WriteString(TensorName);
}
quantParameterTensorNames_.WriteTo(ref output, _repeated_quantParameterTensorNames_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 (TensorName.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(TensorName);
}
size += quantParameterTensorNames_.CalculateSize(_repeated_quantParameterTensorNames_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(TensorAnnotation other) {
if (other == null) {
return;
}
if (other.TensorName.Length != 0) {
TensorName = other.TensorName;
}
quantParameterTensorNames_.Add(other.quantParameterTensorNames_);
_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: {
TensorName = input.ReadString();
break;
}
case 18: {
quantParameterTensorNames_.AddEntriesFrom(input, _repeated_quantParameterTensorNames_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: {
TensorName = input.ReadString();
break;
}
case 18: {
quantParameterTensorNames_.AddEntriesFrom(ref input, _repeated_quantParameterTensorNames_codec);
break;
}
}
}
}
#endif
}
///
/// Graphs
///
/// A graph defines the computational logic of a model and is comprised of a parameterized
/// list of nodes that form a directed acyclic graph based on their inputs and outputs.
/// This is the equivalent of the "network" or "graph" in many deep learning
/// frameworks.
///
public sealed partial class GraphProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new GraphProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[7]; }
}
[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 GraphProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public GraphProto(GraphProto other) : this() {
node_ = other.node_.Clone();
name_ = other.name_;
initializer_ = other.initializer_.Clone();
sparseInitializer_ = other.sparseInitializer_.Clone();
docString_ = other.docString_;
input_ = other.input_.Clone();
output_ = other.output_.Clone();
valueInfo_ = other.valueInfo_.Clone();
quantizationAnnotation_ = other.quantizationAnnotation_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public GraphProto Clone() {
return new GraphProto(this);
}
/// Field number for the "node" field.
public const int NodeFieldNumber = 1;
private static readonly pb::FieldCodec _repeated_node_codec
= pb::FieldCodec.ForMessage(10, global::Onnx.NodeProto.Parser);
private readonly pbc::RepeatedField node_ = new pbc::RepeatedField();
///
/// The nodes in the graph, sorted topologically.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Node {
get { return node_; }
}
/// Field number for the "name" field.
public const int NameFieldNumber = 2;
private string name_ = "";
///
/// The name of the graph.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "initializer" field.
public const int InitializerFieldNumber = 5;
private static readonly pb::FieldCodec _repeated_initializer_codec
= pb::FieldCodec.ForMessage(42, global::Onnx.TensorProto.Parser);
private readonly pbc::RepeatedField initializer_ = new pbc::RepeatedField();
///
/// A list of named tensor values, used to specify constant inputs of the graph.
/// Each initializer (both TensorProto as well SparseTensorProto) MUST have a name.
/// The name MUST be unique across both initializer and sparse_initializer,
/// but the name MAY also appear in the input list.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Initializer {
get { return initializer_; }
}
/// Field number for the "sparse_initializer" field.
public const int SparseInitializerFieldNumber = 15;
private static readonly pb::FieldCodec _repeated_sparseInitializer_codec
= pb::FieldCodec.ForMessage(122, global::Onnx.SparseTensorProto.Parser);
private readonly pbc::RepeatedField sparseInitializer_ = new pbc::RepeatedField();
///
/// Initializers (see above) stored in sparse format.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField SparseInitializer {
get { return sparseInitializer_; }
}
/// Field number for the "doc_string" field.
public const int DocStringFieldNumber = 10;
private string docString_ = "";
///
/// A human-readable documentation for this graph. Markdown is allowed.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string DocString {
get { return docString_; }
set {
docString_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "input" field.
public const int InputFieldNumber = 11;
private static readonly pb::FieldCodec _repeated_input_codec
= pb::FieldCodec.ForMessage(90, global::Onnx.ValueInfoProto.Parser);
private readonly pbc::RepeatedField input_ = new pbc::RepeatedField();
///
/// The inputs and outputs of the graph.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Input {
get { return input_; }
}
/// Field number for the "output" field.
public const int OutputFieldNumber = 12;
private static readonly pb::FieldCodec _repeated_output_codec
= pb::FieldCodec.ForMessage(98, global::Onnx.ValueInfoProto.Parser);
private readonly pbc::RepeatedField output_ = new pbc::RepeatedField();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Output {
get { return output_; }
}
/// Field number for the "value_info" field.
public const int ValueInfoFieldNumber = 13;
private static readonly pb::FieldCodec _repeated_valueInfo_codec
= pb::FieldCodec.ForMessage(106, global::Onnx.ValueInfoProto.Parser);
private readonly pbc::RepeatedField valueInfo_ = new pbc::RepeatedField();
///
/// Information for the values in the graph. The ValueInfoProto.name's
/// must be distinct. It is optional for a value to appear in value_info list.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField ValueInfo {
get { return valueInfo_; }
}
/// Field number for the "quantization_annotation" field.
public const int QuantizationAnnotationFieldNumber = 14;
private static readonly pb::FieldCodec _repeated_quantizationAnnotation_codec
= pb::FieldCodec.ForMessage(114, global::Onnx.TensorAnnotation.Parser);
private readonly pbc::RepeatedField quantizationAnnotation_ = new pbc::RepeatedField();
///
/// This field carries information to indicate the mapping among a tensor and its
/// quantization parameter tensors. For example:
/// For tensor 'a', it may have {'SCALE_TENSOR', 'a_scale'} and {'ZERO_POINT_TENSOR', 'a_zero_point'} annotated,
/// which means, tensor 'a_scale' and tensor 'a_zero_point' are scale and zero point of tensor 'a' in the model.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField QuantizationAnnotation {
get { return quantizationAnnotation_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as GraphProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(GraphProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if(!node_.Equals(other.node_)) return false;
if (Name != other.Name) return false;
if(!initializer_.Equals(other.initializer_)) return false;
if(!sparseInitializer_.Equals(other.sparseInitializer_)) return false;
if (DocString != other.DocString) return false;
if(!input_.Equals(other.input_)) return false;
if(!output_.Equals(other.output_)) return false;
if(!valueInfo_.Equals(other.valueInfo_)) return false;
if(!quantizationAnnotation_.Equals(other.quantizationAnnotation_)) 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;
hash ^= node_.GetHashCode();
if (Name.Length != 0) hash ^= Name.GetHashCode();
hash ^= initializer_.GetHashCode();
hash ^= sparseInitializer_.GetHashCode();
if (DocString.Length != 0) hash ^= DocString.GetHashCode();
hash ^= input_.GetHashCode();
hash ^= output_.GetHashCode();
hash ^= valueInfo_.GetHashCode();
hash ^= quantizationAnnotation_.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
node_.WriteTo(output, _repeated_node_codec);
if (Name.Length != 0) {
output.WriteRawTag(18);
output.WriteString(Name);
}
initializer_.WriteTo(output, _repeated_initializer_codec);
if (DocString.Length != 0) {
output.WriteRawTag(82);
output.WriteString(DocString);
}
input_.WriteTo(output, _repeated_input_codec);
output_.WriteTo(output, _repeated_output_codec);
valueInfo_.WriteTo(output, _repeated_valueInfo_codec);
quantizationAnnotation_.WriteTo(output, _repeated_quantizationAnnotation_codec);
sparseInitializer_.WriteTo(output, _repeated_sparseInitializer_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) {
node_.WriteTo(ref output, _repeated_node_codec);
if (Name.Length != 0) {
output.WriteRawTag(18);
output.WriteString(Name);
}
initializer_.WriteTo(ref output, _repeated_initializer_codec);
if (DocString.Length != 0) {
output.WriteRawTag(82);
output.WriteString(DocString);
}
input_.WriteTo(ref output, _repeated_input_codec);
output_.WriteTo(ref output, _repeated_output_codec);
valueInfo_.WriteTo(ref output, _repeated_valueInfo_codec);
quantizationAnnotation_.WriteTo(ref output, _repeated_quantizationAnnotation_codec);
sparseInitializer_.WriteTo(ref output, _repeated_sparseInitializer_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;
size += node_.CalculateSize(_repeated_node_codec);
if (Name.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Name);
}
size += initializer_.CalculateSize(_repeated_initializer_codec);
size += sparseInitializer_.CalculateSize(_repeated_sparseInitializer_codec);
if (DocString.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(DocString);
}
size += input_.CalculateSize(_repeated_input_codec);
size += output_.CalculateSize(_repeated_output_codec);
size += valueInfo_.CalculateSize(_repeated_valueInfo_codec);
size += quantizationAnnotation_.CalculateSize(_repeated_quantizationAnnotation_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(GraphProto other) {
if (other == null) {
return;
}
node_.Add(other.node_);
if (other.Name.Length != 0) {
Name = other.Name;
}
initializer_.Add(other.initializer_);
sparseInitializer_.Add(other.sparseInitializer_);
if (other.DocString.Length != 0) {
DocString = other.DocString;
}
input_.Add(other.input_);
output_.Add(other.output_);
valueInfo_.Add(other.valueInfo_);
quantizationAnnotation_.Add(other.quantizationAnnotation_);
_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: {
node_.AddEntriesFrom(input, _repeated_node_codec);
break;
}
case 18: {
Name = input.ReadString();
break;
}
case 42: {
initializer_.AddEntriesFrom(input, _repeated_initializer_codec);
break;
}
case 82: {
DocString = input.ReadString();
break;
}
case 90: {
input_.AddEntriesFrom(input, _repeated_input_codec);
break;
}
case 98: {
output_.AddEntriesFrom(input, _repeated_output_codec);
break;
}
case 106: {
valueInfo_.AddEntriesFrom(input, _repeated_valueInfo_codec);
break;
}
case 114: {
quantizationAnnotation_.AddEntriesFrom(input, _repeated_quantizationAnnotation_codec);
break;
}
case 122: {
sparseInitializer_.AddEntriesFrom(input, _repeated_sparseInitializer_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: {
node_.AddEntriesFrom(ref input, _repeated_node_codec);
break;
}
case 18: {
Name = input.ReadString();
break;
}
case 42: {
initializer_.AddEntriesFrom(ref input, _repeated_initializer_codec);
break;
}
case 82: {
DocString = input.ReadString();
break;
}
case 90: {
input_.AddEntriesFrom(ref input, _repeated_input_codec);
break;
}
case 98: {
output_.AddEntriesFrom(ref input, _repeated_output_codec);
break;
}
case 106: {
valueInfo_.AddEntriesFrom(ref input, _repeated_valueInfo_codec);
break;
}
case 114: {
quantizationAnnotation_.AddEntriesFrom(ref input, _repeated_quantizationAnnotation_codec);
break;
}
case 122: {
sparseInitializer_.AddEntriesFrom(ref input, _repeated_sparseInitializer_codec);
break;
}
}
}
}
#endif
}
///
/// Tensors
///
/// A serialized tensor value.
///
public sealed partial class TensorProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new TensorProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[8]; }
}
[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 TensorProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TensorProto(TensorProto other) : this() {
dims_ = other.dims_.Clone();
dataType_ = other.dataType_;
segment_ = other.segment_ != null ? other.segment_.Clone() : null;
floatData_ = other.floatData_.Clone();
int32Data_ = other.int32Data_.Clone();
stringData_ = other.stringData_.Clone();
int64Data_ = other.int64Data_.Clone();
name_ = other.name_;
docString_ = other.docString_;
rawData_ = other.rawData_;
externalData_ = other.externalData_.Clone();
dataLocation_ = other.dataLocation_;
doubleData_ = other.doubleData_.Clone();
uint64Data_ = other.uint64Data_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TensorProto Clone() {
return new TensorProto(this);
}
/// Field number for the "dims" field.
public const int DimsFieldNumber = 1;
private static readonly pb::FieldCodec _repeated_dims_codec
= pb::FieldCodec.ForInt64(10);
private readonly pbc::RepeatedField dims_ = new pbc::RepeatedField();
///
/// The shape of the tensor.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Dims {
get { return dims_; }
}
/// Field number for the "data_type" field.
public const int DataTypeFieldNumber = 2;
private int dataType_;
///
/// The data type of the tensor.
/// This field MUST have a valid TensorProto.DataType value
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int DataType {
get { return dataType_; }
set {
dataType_ = value;
}
}
/// Field number for the "segment" field.
public const int SegmentFieldNumber = 3;
private global::Onnx.TensorProto.Types.Segment segment_;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TensorProto.Types.Segment Segment {
get { return segment_; }
set {
segment_ = value;
}
}
/// Field number for the "float_data" field.
public const int FloatDataFieldNumber = 4;
private static readonly pb::FieldCodec _repeated_floatData_codec
= pb::FieldCodec.ForFloat(34);
private readonly pbc::RepeatedField floatData_ = new pbc::RepeatedField();
///
/// For float and complex64 values
/// Complex64 tensors are encoded as a single array of floats,
/// with the real components appearing in odd numbered positions,
/// and the corresponding imaginary component appearing in the
/// subsequent even numbered position. (e.g., [1.0 + 2.0i, 3.0 + 4.0i]
/// is encoded as [1.0, 2.0 ,3.0 ,4.0]
/// When this field is present, the data_type field MUST be FLOAT or COMPLEX64.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField FloatData {
get { return floatData_; }
}
/// Field number for the "int32_data" field.
public const int Int32DataFieldNumber = 5;
private static readonly pb::FieldCodec _repeated_int32Data_codec
= pb::FieldCodec.ForInt32(42);
private readonly pbc::RepeatedField int32Data_ = new pbc::RepeatedField();
///
/// For int32, uint8, int8, uint16, int16, bool, and float16 values
/// float16 values must be bit-wise converted to an uint16_t prior
/// to writing to the buffer.
/// When this field is present, the data_type field MUST be
/// INT32, INT16, INT8, UINT16, UINT8, BOOL, or FLOAT16
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Int32Data {
get { return int32Data_; }
}
/// Field number for the "string_data" field.
public const int StringDataFieldNumber = 6;
private static readonly pb::FieldCodec _repeated_stringData_codec
= pb::FieldCodec.ForBytes(50);
private readonly pbc::RepeatedField stringData_ = new pbc::RepeatedField();
///
/// For strings.
/// Each element of string_data is a UTF-8 encoded Unicode
/// string. No trailing null, no leading BOM. The protobuf "string"
/// scalar type is not used to match ML community conventions.
/// When this field is present, the data_type field MUST be STRING
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField StringData {
get { return stringData_; }
}
/// Field number for the "int64_data" field.
public const int Int64DataFieldNumber = 7;
private static readonly pb::FieldCodec _repeated_int64Data_codec
= pb::FieldCodec.ForInt64(58);
private readonly pbc::RepeatedField int64Data_ = new pbc::RepeatedField();
///
/// For int64.
/// When this field is present, the data_type field MUST be INT64
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Int64Data {
get { return int64Data_; }
}
/// Field number for the "name" field.
public const int NameFieldNumber = 8;
private string name_ = "";
///
/// Optionally, a name for the tensor.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Name {
get { return name_; }
set {
name_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "doc_string" field.
public const int DocStringFieldNumber = 12;
private string docString_ = "";
///
/// A human-readable documentation for this tensor. Markdown is allowed.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string DocString {
get { return docString_; }
set {
docString_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "raw_data" field.
public const int RawDataFieldNumber = 9;
private pb::ByteString rawData_ = pb::ByteString.Empty;
///
/// Serializations can either use one of the fields above, or use this
/// raw bytes field. The only exception is the string case, where one is
/// required to store the content in the repeated bytes string_data field.
///
/// When this raw_data field is used to store tensor value, elements MUST
/// be stored in as fixed-width, little-endian order.
/// Floating-point data types MUST be stored in IEEE 754 format.
/// Complex64 elements must be written as two consecutive FLOAT values, real component first.
/// Complex128 elements must be written as two consecutive DOUBLE values, real component first.
/// Boolean type MUST be written one byte per tensor element (00000001 for true, 00000000 for false).
///
/// Note: the advantage of specific field rather than the raw_data field is
/// that in some cases (e.g. int data), protobuf does a better packing via
/// variable length storage, and may lead to smaller binary footprint.
/// When this field is present, the data_type field MUST NOT be STRING or UNDEFINED
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pb::ByteString RawData {
get { return rawData_; }
set {
rawData_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
/// Field number for the "external_data" field.
public const int ExternalDataFieldNumber = 13;
private static readonly pb::FieldCodec _repeated_externalData_codec
= pb::FieldCodec.ForMessage(106, global::Onnx.StringStringEntryProto.Parser);
private readonly pbc::RepeatedField externalData_ = new pbc::RepeatedField();
///
/// Data can be stored inside the protobuf file using type-specific fields or raw_data.
/// Alternatively, raw bytes data can be stored in an external file, using the external_data field.
/// external_data stores key-value pairs describing data location. Recognized keys are:
/// - "location" (required) - POSIX filesystem path relative to the directory where the ONNX
/// protobuf model was stored
/// - "offset" (optional) - position of byte at which stored data begins. Integer stored as string.
/// Offset values SHOULD be multiples 4096 (page size) to enable mmap support.
/// - "length" (optional) - number of bytes containing data. Integer stored as string.
/// - "checksum" (optional) - SHA1 digest of file specified in under 'location' key.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField ExternalData {
get { return externalData_; }
}
/// Field number for the "data_location" field.
public const int DataLocationFieldNumber = 14;
private global::Onnx.TensorProto.Types.DataLocation dataLocation_ = global::Onnx.TensorProto.Types.DataLocation.Default;
///
/// If value not set, data is stored in raw_data (if set) otherwise in type-specified field.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TensorProto.Types.DataLocation DataLocation {
get { return dataLocation_; }
set {
dataLocation_ = value;
}
}
/// Field number for the "double_data" field.
public const int DoubleDataFieldNumber = 10;
private static readonly pb::FieldCodec _repeated_doubleData_codec
= pb::FieldCodec.ForDouble(82);
private readonly pbc::RepeatedField doubleData_ = new pbc::RepeatedField();
///
/// For double
/// Complex128 tensors are encoded as a single array of doubles,
/// with the real components appearing in odd numbered positions,
/// and the corresponding imaginary component appearing in the
/// subsequent even numbered position. (e.g., [1.0 + 2.0i, 3.0 + 4.0i]
/// is encoded as [1.0, 2.0 ,3.0 ,4.0]
/// When this field is present, the data_type field MUST be DOUBLE or COMPLEX128
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField DoubleData {
get { return doubleData_; }
}
/// Field number for the "uint64_data" field.
public const int Uint64DataFieldNumber = 11;
private static readonly pb::FieldCodec _repeated_uint64Data_codec
= pb::FieldCodec.ForUInt64(90);
private readonly pbc::RepeatedField uint64Data_ = new pbc::RepeatedField();
///
/// For uint64 and uint32 values
/// When this field is present, the data_type field MUST be
/// UINT32 or UINT64
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Uint64Data {
get { return uint64Data_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as TensorProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(TensorProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if(!dims_.Equals(other.dims_)) return false;
if (DataType != other.DataType) return false;
if (!object.Equals(Segment, other.Segment)) return false;
if(!floatData_.Equals(other.floatData_)) return false;
if(!int32Data_.Equals(other.int32Data_)) return false;
if(!stringData_.Equals(other.stringData_)) return false;
if(!int64Data_.Equals(other.int64Data_)) return false;
if (Name != other.Name) return false;
if (DocString != other.DocString) return false;
if (RawData != other.RawData) return false;
if(!externalData_.Equals(other.externalData_)) return false;
if (DataLocation != other.DataLocation) return false;
if(!doubleData_.Equals(other.doubleData_)) return false;
if(!uint64Data_.Equals(other.uint64Data_)) 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;
hash ^= dims_.GetHashCode();
if (DataType != 0) hash ^= DataType.GetHashCode();
if (segment_ != null) hash ^= Segment.GetHashCode();
hash ^= floatData_.GetHashCode();
hash ^= int32Data_.GetHashCode();
hash ^= stringData_.GetHashCode();
hash ^= int64Data_.GetHashCode();
if (Name.Length != 0) hash ^= Name.GetHashCode();
if (DocString.Length != 0) hash ^= DocString.GetHashCode();
if (RawData.Length != 0) hash ^= RawData.GetHashCode();
hash ^= externalData_.GetHashCode();
if (DataLocation != global::Onnx.TensorProto.Types.DataLocation.Default) hash ^= DataLocation.GetHashCode();
hash ^= doubleData_.GetHashCode();
hash ^= uint64Data_.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
dims_.WriteTo(output, _repeated_dims_codec);
if (DataType != 0) {
output.WriteRawTag(16);
output.WriteInt32(DataType);
}
if (segment_ != null) {
output.WriteRawTag(26);
output.WriteMessage(Segment);
}
floatData_.WriteTo(output, _repeated_floatData_codec);
int32Data_.WriteTo(output, _repeated_int32Data_codec);
stringData_.WriteTo(output, _repeated_stringData_codec);
int64Data_.WriteTo(output, _repeated_int64Data_codec);
if (Name.Length != 0) {
output.WriteRawTag(66);
output.WriteString(Name);
}
if (RawData.Length != 0) {
output.WriteRawTag(74);
output.WriteBytes(RawData);
}
doubleData_.WriteTo(output, _repeated_doubleData_codec);
uint64Data_.WriteTo(output, _repeated_uint64Data_codec);
if (DocString.Length != 0) {
output.WriteRawTag(98);
output.WriteString(DocString);
}
externalData_.WriteTo(output, _repeated_externalData_codec);
if (DataLocation != global::Onnx.TensorProto.Types.DataLocation.Default) {
output.WriteRawTag(112);
output.WriteEnum((int) DataLocation);
}
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) {
dims_.WriteTo(ref output, _repeated_dims_codec);
if (DataType != 0) {
output.WriteRawTag(16);
output.WriteInt32(DataType);
}
if (segment_ != null) {
output.WriteRawTag(26);
output.WriteMessage(Segment);
}
floatData_.WriteTo(ref output, _repeated_floatData_codec);
int32Data_.WriteTo(ref output, _repeated_int32Data_codec);
stringData_.WriteTo(ref output, _repeated_stringData_codec);
int64Data_.WriteTo(ref output, _repeated_int64Data_codec);
if (Name.Length != 0) {
output.WriteRawTag(66);
output.WriteString(Name);
}
if (RawData.Length != 0) {
output.WriteRawTag(74);
output.WriteBytes(RawData);
}
doubleData_.WriteTo(ref output, _repeated_doubleData_codec);
uint64Data_.WriteTo(ref output, _repeated_uint64Data_codec);
if (DocString.Length != 0) {
output.WriteRawTag(98);
output.WriteString(DocString);
}
externalData_.WriteTo(ref output, _repeated_externalData_codec);
if (DataLocation != global::Onnx.TensorProto.Types.DataLocation.Default) {
output.WriteRawTag(112);
output.WriteEnum((int) DataLocation);
}
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;
size += dims_.CalculateSize(_repeated_dims_codec);
if (DataType != 0) {
size += 1 + pb::CodedOutputStream.ComputeInt32Size(DataType);
}
if (segment_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Segment);
}
size += floatData_.CalculateSize(_repeated_floatData_codec);
size += int32Data_.CalculateSize(_repeated_int32Data_codec);
size += stringData_.CalculateSize(_repeated_stringData_codec);
size += int64Data_.CalculateSize(_repeated_int64Data_codec);
if (Name.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Name);
}
if (DocString.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(DocString);
}
if (RawData.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeBytesSize(RawData);
}
size += externalData_.CalculateSize(_repeated_externalData_codec);
if (DataLocation != global::Onnx.TensorProto.Types.DataLocation.Default) {
size += 1 + pb::CodedOutputStream.ComputeEnumSize((int) DataLocation);
}
size += doubleData_.CalculateSize(_repeated_doubleData_codec);
size += uint64Data_.CalculateSize(_repeated_uint64Data_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(TensorProto other) {
if (other == null) {
return;
}
dims_.Add(other.dims_);
if (other.DataType != 0) {
DataType = other.DataType;
}
if (other.segment_ != null) {
if (segment_ == null) {
Segment = new global::Onnx.TensorProto.Types.Segment();
}
Segment.MergeFrom(other.Segment);
}
floatData_.Add(other.floatData_);
int32Data_.Add(other.int32Data_);
stringData_.Add(other.stringData_);
int64Data_.Add(other.int64Data_);
if (other.Name.Length != 0) {
Name = other.Name;
}
if (other.DocString.Length != 0) {
DocString = other.DocString;
}
if (other.RawData.Length != 0) {
RawData = other.RawData;
}
externalData_.Add(other.externalData_);
if (other.DataLocation != global::Onnx.TensorProto.Types.DataLocation.Default) {
DataLocation = other.DataLocation;
}
doubleData_.Add(other.doubleData_);
uint64Data_.Add(other.uint64Data_);
_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:
case 8: {
dims_.AddEntriesFrom(input, _repeated_dims_codec);
break;
}
case 16: {
DataType = input.ReadInt32();
break;
}
case 26: {
if (segment_ == null) {
Segment = new global::Onnx.TensorProto.Types.Segment();
}
input.ReadMessage(Segment);
break;
}
case 34:
case 37: {
floatData_.AddEntriesFrom(input, _repeated_floatData_codec);
break;
}
case 42:
case 40: {
int32Data_.AddEntriesFrom(input, _repeated_int32Data_codec);
break;
}
case 50: {
stringData_.AddEntriesFrom(input, _repeated_stringData_codec);
break;
}
case 58:
case 56: {
int64Data_.AddEntriesFrom(input, _repeated_int64Data_codec);
break;
}
case 66: {
Name = input.ReadString();
break;
}
case 74: {
RawData = input.ReadBytes();
break;
}
case 82:
case 81: {
doubleData_.AddEntriesFrom(input, _repeated_doubleData_codec);
break;
}
case 90:
case 88: {
uint64Data_.AddEntriesFrom(input, _repeated_uint64Data_codec);
break;
}
case 98: {
DocString = input.ReadString();
break;
}
case 106: {
externalData_.AddEntriesFrom(input, _repeated_externalData_codec);
break;
}
case 112: {
DataLocation = (global::Onnx.TensorProto.Types.DataLocation) input.ReadEnum();
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:
case 8: {
dims_.AddEntriesFrom(ref input, _repeated_dims_codec);
break;
}
case 16: {
DataType = input.ReadInt32();
break;
}
case 26: {
if (segment_ == null) {
Segment = new global::Onnx.TensorProto.Types.Segment();
}
input.ReadMessage(Segment);
break;
}
case 34:
case 37: {
floatData_.AddEntriesFrom(ref input, _repeated_floatData_codec);
break;
}
case 42:
case 40: {
int32Data_.AddEntriesFrom(ref input, _repeated_int32Data_codec);
break;
}
case 50: {
stringData_.AddEntriesFrom(ref input, _repeated_stringData_codec);
break;
}
case 58:
case 56: {
int64Data_.AddEntriesFrom(ref input, _repeated_int64Data_codec);
break;
}
case 66: {
Name = input.ReadString();
break;
}
case 74: {
RawData = input.ReadBytes();
break;
}
case 82:
case 81: {
doubleData_.AddEntriesFrom(ref input, _repeated_doubleData_codec);
break;
}
case 90:
case 88: {
uint64Data_.AddEntriesFrom(ref input, _repeated_uint64Data_codec);
break;
}
case 98: {
DocString = input.ReadString();
break;
}
case 106: {
externalData_.AddEntriesFrom(ref input, _repeated_externalData_codec);
break;
}
case 112: {
DataLocation = (global::Onnx.TensorProto.Types.DataLocation) input.ReadEnum();
break;
}
}
}
}
#endif
#region Nested types
/// Container for nested types declared in the TensorProto message type.
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static partial class Types {
public enum DataType {
[pbr::OriginalName("UNDEFINED")] Undefined = 0,
///
/// Basic types.
///
[pbr::OriginalName("FLOAT")] Float = 1,
///
/// uint8_t
///
[pbr::OriginalName("UINT8")] Uint8 = 2,
///
/// int8_t
///
[pbr::OriginalName("INT8")] Int8 = 3,
///
/// uint16_t
///
[pbr::OriginalName("UINT16")] Uint16 = 4,
///
/// int16_t
///
[pbr::OriginalName("INT16")] Int16 = 5,
///
/// int32_t
///
[pbr::OriginalName("INT32")] Int32 = 6,
///
/// int64_t
///
[pbr::OriginalName("INT64")] Int64 = 7,
///
/// string
///
[pbr::OriginalName("STRING")] String = 8,
///
/// bool
///
[pbr::OriginalName("BOOL")] Bool = 9,
///
/// IEEE754 half-precision floating-point format (16 bits wide).
/// This format has 1 sign bit, 5 exponent bits, and 10 mantissa bits.
///
[pbr::OriginalName("FLOAT16")] Float16 = 10,
[pbr::OriginalName("DOUBLE")] Double = 11,
[pbr::OriginalName("UINT32")] Uint32 = 12,
[pbr::OriginalName("UINT64")] Uint64 = 13,
///
/// complex with float32 real and imaginary components
///
[pbr::OriginalName("COMPLEX64")] Complex64 = 14,
///
/// complex with float64 real and imaginary components
///
[pbr::OriginalName("COMPLEX128")] Complex128 = 15,
///
/// Non-IEEE floating-point format based on IEEE754 single-precision
/// floating-point number truncated to 16 bits.
/// This format has 1 sign bit, 8 exponent bits, and 7 mantissa bits.
///
[pbr::OriginalName("BFLOAT16")] Bfloat16 = 16,
}
///
/// Location of the data for this tensor. MUST be one of:
/// - DEFAULT - data stored inside the protobuf message. Data is stored in raw_data (if set) otherwise in type-specified field.
/// - EXTERNAL - data stored in an external location as described by external_data field.
///
public enum DataLocation {
[pbr::OriginalName("DEFAULT")] Default = 0,
[pbr::OriginalName("EXTERNAL")] External = 1,
}
///
/// For very large tensors, we may want to store them in chunks, in which
/// case the following fields will specify the segment that is stored in
/// the current TensorProto.
///
public sealed partial class Segment : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new Segment());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.TensorProto.Descriptor.NestedTypes[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 Segment() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Segment(Segment other) : this() {
begin_ = other.begin_;
end_ = other.end_;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Segment Clone() {
return new Segment(this);
}
/// Field number for the "begin" field.
public const int BeginFieldNumber = 1;
private long begin_;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public long Begin {
get { return begin_; }
set {
begin_ = value;
}
}
/// Field number for the "end" field.
public const int EndFieldNumber = 2;
private long end_;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public long End {
get { return end_; }
set {
end_ = value;
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as Segment);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(Segment other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (Begin != other.Begin) return false;
if (End != other.End) 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 (Begin != 0L) hash ^= Begin.GetHashCode();
if (End != 0L) hash ^= End.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 (Begin != 0L) {
output.WriteRawTag(8);
output.WriteInt64(Begin);
}
if (End != 0L) {
output.WriteRawTag(16);
output.WriteInt64(End);
}
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 (Begin != 0L) {
output.WriteRawTag(8);
output.WriteInt64(Begin);
}
if (End != 0L) {
output.WriteRawTag(16);
output.WriteInt64(End);
}
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 (Begin != 0L) {
size += 1 + pb::CodedOutputStream.ComputeInt64Size(Begin);
}
if (End != 0L) {
size += 1 + pb::CodedOutputStream.ComputeInt64Size(End);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(Segment other) {
if (other == null) {
return;
}
if (other.Begin != 0L) {
Begin = other.Begin;
}
if (other.End != 0L) {
End = other.End;
}
_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 8: {
Begin = input.ReadInt64();
break;
}
case 16: {
End = input.ReadInt64();
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 8: {
Begin = input.ReadInt64();
break;
}
case 16: {
End = input.ReadInt64();
break;
}
}
}
}
#endif
}
}
#endregion
}
///
/// A serialized sparse-tensor value
///
public sealed partial class SparseTensorProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new SparseTensorProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[9]; }
}
[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 SparseTensorProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public SparseTensorProto(SparseTensorProto other) : this() {
values_ = other.values_ != null ? other.values_.Clone() : null;
indices_ = other.indices_ != null ? other.indices_.Clone() : null;
dims_ = other.dims_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public SparseTensorProto Clone() {
return new SparseTensorProto(this);
}
/// Field number for the "values" field.
public const int ValuesFieldNumber = 1;
private global::Onnx.TensorProto values_;
///
/// The sequence of non-default values are encoded as a tensor of shape [NNZ].
/// The default-value is zero for numeric tensors, and empty-string for string tensors.
/// values must have a non-empty name present which serves as a name for SparseTensorProto
/// when used in sparse_initializer list.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TensorProto Values {
get { return values_; }
set {
values_ = value;
}
}
/// Field number for the "indices" field.
public const int IndicesFieldNumber = 2;
private global::Onnx.TensorProto indices_;
///
/// The indices of the non-default values, which may be stored in one of two formats.
/// (a) Indices can be a tensor of shape [NNZ, rank] with the [i,j]-th value
/// corresponding to the j-th index of the i-th value (in the values tensor).
/// (b) Indices can be a tensor of shape [NNZ], in which case the i-th value
/// must be the linearized-index of the i-th value (in the values tensor).
/// The linearized-index can be converted into an index tuple (k_1,...,k_rank)
/// using the shape provided below.
/// The indices must appear in ascending order without duplication.
/// In the first format, the ordering is lexicographic-ordering:
/// e.g., index-value [1,4] must appear before [2,1]
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TensorProto Indices {
get { return indices_; }
set {
indices_ = value;
}
}
/// Field number for the "dims" field.
public const int DimsFieldNumber = 3;
private static readonly pb::FieldCodec _repeated_dims_codec
= pb::FieldCodec.ForInt64(26);
private readonly pbc::RepeatedField dims_ = new pbc::RepeatedField();
///
/// The shape of the underlying dense-tensor: [dim_1, dim_2, ... dim_rank]
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Dims {
get { return dims_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as SparseTensorProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(SparseTensorProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (!object.Equals(Values, other.Values)) return false;
if (!object.Equals(Indices, other.Indices)) return false;
if(!dims_.Equals(other.dims_)) 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 (values_ != null) hash ^= Values.GetHashCode();
if (indices_ != null) hash ^= Indices.GetHashCode();
hash ^= dims_.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 (values_ != null) {
output.WriteRawTag(10);
output.WriteMessage(Values);
}
if (indices_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Indices);
}
dims_.WriteTo(output, _repeated_dims_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 (values_ != null) {
output.WriteRawTag(10);
output.WriteMessage(Values);
}
if (indices_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Indices);
}
dims_.WriteTo(ref output, _repeated_dims_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 (values_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Values);
}
if (indices_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Indices);
}
size += dims_.CalculateSize(_repeated_dims_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(SparseTensorProto other) {
if (other == null) {
return;
}
if (other.values_ != null) {
if (values_ == null) {
Values = new global::Onnx.TensorProto();
}
Values.MergeFrom(other.Values);
}
if (other.indices_ != null) {
if (indices_ == null) {
Indices = new global::Onnx.TensorProto();
}
Indices.MergeFrom(other.Indices);
}
dims_.Add(other.dims_);
_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: {
if (values_ == null) {
Values = new global::Onnx.TensorProto();
}
input.ReadMessage(Values);
break;
}
case 18: {
if (indices_ == null) {
Indices = new global::Onnx.TensorProto();
}
input.ReadMessage(Indices);
break;
}
case 26:
case 24: {
dims_.AddEntriesFrom(input, _repeated_dims_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: {
if (values_ == null) {
Values = new global::Onnx.TensorProto();
}
input.ReadMessage(Values);
break;
}
case 18: {
if (indices_ == null) {
Indices = new global::Onnx.TensorProto();
}
input.ReadMessage(Indices);
break;
}
case 26:
case 24: {
dims_.AddEntriesFrom(ref input, _repeated_dims_codec);
break;
}
}
}
}
#endif
}
///
/// Defines a tensor shape. A dimension can be either an integer value
/// or a symbolic variable. A symbolic variable represents an unknown
/// dimension.
///
public sealed partial class TensorShapeProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new TensorShapeProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[10]; }
}
[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 TensorShapeProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TensorShapeProto(TensorShapeProto other) : this() {
dim_ = other.dim_.Clone();
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TensorShapeProto Clone() {
return new TensorShapeProto(this);
}
/// Field number for the "dim" field.
public const int DimFieldNumber = 1;
private static readonly pb::FieldCodec _repeated_dim_codec
= pb::FieldCodec.ForMessage(10, global::Onnx.TensorShapeProto.Types.Dimension.Parser);
private readonly pbc::RepeatedField dim_ = new pbc::RepeatedField();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public pbc::RepeatedField Dim {
get { return dim_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as TensorShapeProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(TensorShapeProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if(!dim_.Equals(other.dim_)) 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;
hash ^= dim_.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
dim_.WriteTo(output, _repeated_dim_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) {
dim_.WriteTo(ref output, _repeated_dim_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;
size += dim_.CalculateSize(_repeated_dim_codec);
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(TensorShapeProto other) {
if (other == null) {
return;
}
dim_.Add(other.dim_);
_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: {
dim_.AddEntriesFrom(input, _repeated_dim_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: {
dim_.AddEntriesFrom(ref input, _repeated_dim_codec);
break;
}
}
}
}
#endif
#region Nested types
/// Container for nested types declared in the TensorShapeProto message type.
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static partial class Types {
public sealed partial class Dimension : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new Dimension());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.TensorShapeProto.Descriptor.NestedTypes[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 Dimension() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Dimension(Dimension other) : this() {
denotation_ = other.denotation_;
switch (other.ValueCase) {
case ValueOneofCase.DimValue:
DimValue = other.DimValue;
break;
case ValueOneofCase.DimParam:
DimParam = other.DimParam;
break;
}
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Dimension Clone() {
return new Dimension(this);
}
/// Field number for the "dim_value" field.
public const int DimValueFieldNumber = 1;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public long DimValue {
get { return valueCase_ == ValueOneofCase.DimValue ? (long) value_ : 0L; }
set {
value_ = value;
valueCase_ = ValueOneofCase.DimValue;
}
}
/// Field number for the "dim_param" field.
public const int DimParamFieldNumber = 2;
///
/// namespace Shape
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string DimParam {
get { return valueCase_ == ValueOneofCase.DimParam ? (string) value_ : ""; }
set {
value_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
valueCase_ = ValueOneofCase.DimParam;
}
}
/// Field number for the "denotation" field.
public const int DenotationFieldNumber = 3;
private string denotation_ = "";
///
/// Standard denotation can optionally be used to denote tensor
/// dimensions with standard semantic descriptions to ensure
/// that operations are applied to the correct axis of a tensor.
/// Refer to https://github.com/onnx/onnx/blob/main/docs/DimensionDenotation.md#denotation-definition
/// for pre-defined dimension denotations.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Denotation {
get { return denotation_; }
set {
denotation_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
private object value_;
/// Enum of possible cases for the "value" oneof.
public enum ValueOneofCase {
None = 0,
DimValue = 1,
DimParam = 2,
}
private ValueOneofCase valueCase_ = ValueOneofCase.None;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public ValueOneofCase ValueCase {
get { return valueCase_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void ClearValue() {
valueCase_ = ValueOneofCase.None;
value_ = null;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as Dimension);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(Dimension other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (DimValue != other.DimValue) return false;
if (DimParam != other.DimParam) return false;
if (Denotation != other.Denotation) return false;
if (ValueCase != other.ValueCase) 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 (valueCase_ == ValueOneofCase.DimValue) hash ^= DimValue.GetHashCode();
if (valueCase_ == ValueOneofCase.DimParam) hash ^= DimParam.GetHashCode();
if (Denotation.Length != 0) hash ^= Denotation.GetHashCode();
hash ^= (int) valueCase_;
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 (valueCase_ == ValueOneofCase.DimValue) {
output.WriteRawTag(8);
output.WriteInt64(DimValue);
}
if (valueCase_ == ValueOneofCase.DimParam) {
output.WriteRawTag(18);
output.WriteString(DimParam);
}
if (Denotation.Length != 0) {
output.WriteRawTag(26);
output.WriteString(Denotation);
}
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 (valueCase_ == ValueOneofCase.DimValue) {
output.WriteRawTag(8);
output.WriteInt64(DimValue);
}
if (valueCase_ == ValueOneofCase.DimParam) {
output.WriteRawTag(18);
output.WriteString(DimParam);
}
if (Denotation.Length != 0) {
output.WriteRawTag(26);
output.WriteString(Denotation);
}
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 (valueCase_ == ValueOneofCase.DimValue) {
size += 1 + pb::CodedOutputStream.ComputeInt64Size(DimValue);
}
if (valueCase_ == ValueOneofCase.DimParam) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(DimParam);
}
if (Denotation.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Denotation);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(Dimension other) {
if (other == null) {
return;
}
if (other.Denotation.Length != 0) {
Denotation = other.Denotation;
}
switch (other.ValueCase) {
case ValueOneofCase.DimValue:
DimValue = other.DimValue;
break;
case ValueOneofCase.DimParam:
DimParam = other.DimParam;
break;
}
_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 8: {
DimValue = input.ReadInt64();
break;
}
case 18: {
DimParam = input.ReadString();
break;
}
case 26: {
Denotation = input.ReadString();
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 8: {
DimValue = input.ReadInt64();
break;
}
case 18: {
DimParam = input.ReadString();
break;
}
case 26: {
Denotation = input.ReadString();
break;
}
}
}
}
#endif
}
}
#endregion
}
///
/// Types
///
/// The standard ONNX data types.
///
public sealed partial class TypeProto : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new TypeProto());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.OnnxMlReflection.Descriptor.MessageTypes[11]; }
}
[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 TypeProto() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TypeProto(TypeProto other) : this() {
denotation_ = other.denotation_;
switch (other.ValueCase) {
case ValueOneofCase.TensorType:
TensorType = other.TensorType.Clone();
break;
case ValueOneofCase.SequenceType:
SequenceType = other.SequenceType.Clone();
break;
case ValueOneofCase.MapType:
MapType = other.MapType.Clone();
break;
case ValueOneofCase.OptionalType:
OptionalType = other.OptionalType.Clone();
break;
case ValueOneofCase.SparseTensorType:
SparseTensorType = other.SparseTensorType.Clone();
break;
case ValueOneofCase.OpaqueType:
OpaqueType = other.OpaqueType.Clone();
break;
}
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public TypeProto Clone() {
return new TypeProto(this);
}
/// Field number for the "tensor_type" field.
public const int TensorTypeFieldNumber = 1;
///
/// The type of a tensor.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto.Types.Tensor TensorType {
get { return valueCase_ == ValueOneofCase.TensorType ? (global::Onnx.TypeProto.Types.Tensor) value_ : null; }
set {
value_ = value;
valueCase_ = value == null ? ValueOneofCase.None : ValueOneofCase.TensorType;
}
}
/// Field number for the "sequence_type" field.
public const int SequenceTypeFieldNumber = 4;
///
/// The type of a sequence.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto.Types.Sequence SequenceType {
get { return valueCase_ == ValueOneofCase.SequenceType ? (global::Onnx.TypeProto.Types.Sequence) value_ : null; }
set {
value_ = value;
valueCase_ = value == null ? ValueOneofCase.None : ValueOneofCase.SequenceType;
}
}
/// Field number for the "map_type" field.
public const int MapTypeFieldNumber = 5;
///
/// The type of a map.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto.Types.Map MapType {
get { return valueCase_ == ValueOneofCase.MapType ? (global::Onnx.TypeProto.Types.Map) value_ : null; }
set {
value_ = value;
valueCase_ = value == null ? ValueOneofCase.None : ValueOneofCase.MapType;
}
}
/// Field number for the "optional_type" field.
public const int OptionalTypeFieldNumber = 9;
///
/// The type of an optional.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto.Types.Optional OptionalType {
get { return valueCase_ == ValueOneofCase.OptionalType ? (global::Onnx.TypeProto.Types.Optional) value_ : null; }
set {
value_ = value;
valueCase_ = value == null ? ValueOneofCase.None : ValueOneofCase.OptionalType;
}
}
/// Field number for the "sparse_tensor_type" field.
public const int SparseTensorTypeFieldNumber = 8;
///
/// Type of the sparse tensor
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto.Types.SparseTensor SparseTensorType {
get { return valueCase_ == ValueOneofCase.SparseTensorType ? (global::Onnx.TypeProto.Types.SparseTensor) value_ : null; }
set {
value_ = value;
valueCase_ = value == null ? ValueOneofCase.None : ValueOneofCase.SparseTensorType;
}
}
/// Field number for the "opaque_type" field.
public const int OpaqueTypeFieldNumber = 7;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto.Types.Opaque OpaqueType {
get { return valueCase_ == ValueOneofCase.OpaqueType ? (global::Onnx.TypeProto.Types.Opaque) value_ : null; }
set {
value_ = value;
valueCase_ = value == null ? ValueOneofCase.None : ValueOneofCase.OpaqueType;
}
}
/// Field number for the "denotation" field.
public const int DenotationFieldNumber = 6;
private string denotation_ = "";
///
/// An optional denotation can be used to denote the whole
/// type with a standard semantic description as to what is
/// stored inside. Refer to https://github.com/onnx/onnx/blob/main/docs/TypeDenotation.md#type-denotation-definition
/// for pre-defined type denotations.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public string Denotation {
get { return denotation_; }
set {
denotation_ = pb::ProtoPreconditions.CheckNotNull(value, "value");
}
}
private object value_;
/// Enum of possible cases for the "value" oneof.
public enum ValueOneofCase {
None = 0,
TensorType = 1,
SequenceType = 4,
MapType = 5,
OptionalType = 9,
SparseTensorType = 8,
OpaqueType = 7,
}
private ValueOneofCase valueCase_ = ValueOneofCase.None;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public ValueOneofCase ValueCase {
get { return valueCase_; }
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void ClearValue() {
valueCase_ = ValueOneofCase.None;
value_ = null;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as TypeProto);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(TypeProto other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (!object.Equals(TensorType, other.TensorType)) return false;
if (!object.Equals(SequenceType, other.SequenceType)) return false;
if (!object.Equals(MapType, other.MapType)) return false;
if (!object.Equals(OptionalType, other.OptionalType)) return false;
if (!object.Equals(SparseTensorType, other.SparseTensorType)) return false;
if (!object.Equals(OpaqueType, other.OpaqueType)) return false;
if (Denotation != other.Denotation) return false;
if (ValueCase != other.ValueCase) 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 (valueCase_ == ValueOneofCase.TensorType) hash ^= TensorType.GetHashCode();
if (valueCase_ == ValueOneofCase.SequenceType) hash ^= SequenceType.GetHashCode();
if (valueCase_ == ValueOneofCase.MapType) hash ^= MapType.GetHashCode();
if (valueCase_ == ValueOneofCase.OptionalType) hash ^= OptionalType.GetHashCode();
if (valueCase_ == ValueOneofCase.SparseTensorType) hash ^= SparseTensorType.GetHashCode();
if (valueCase_ == ValueOneofCase.OpaqueType) hash ^= OpaqueType.GetHashCode();
if (Denotation.Length != 0) hash ^= Denotation.GetHashCode();
hash ^= (int) valueCase_;
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 (valueCase_ == ValueOneofCase.TensorType) {
output.WriteRawTag(10);
output.WriteMessage(TensorType);
}
if (valueCase_ == ValueOneofCase.SequenceType) {
output.WriteRawTag(34);
output.WriteMessage(SequenceType);
}
if (valueCase_ == ValueOneofCase.MapType) {
output.WriteRawTag(42);
output.WriteMessage(MapType);
}
if (Denotation.Length != 0) {
output.WriteRawTag(50);
output.WriteString(Denotation);
}
if (valueCase_ == ValueOneofCase.OpaqueType) {
output.WriteRawTag(58);
output.WriteMessage(OpaqueType);
}
if (valueCase_ == ValueOneofCase.SparseTensorType) {
output.WriteRawTag(66);
output.WriteMessage(SparseTensorType);
}
if (valueCase_ == ValueOneofCase.OptionalType) {
output.WriteRawTag(74);
output.WriteMessage(OptionalType);
}
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 (valueCase_ == ValueOneofCase.TensorType) {
output.WriteRawTag(10);
output.WriteMessage(TensorType);
}
if (valueCase_ == ValueOneofCase.SequenceType) {
output.WriteRawTag(34);
output.WriteMessage(SequenceType);
}
if (valueCase_ == ValueOneofCase.MapType) {
output.WriteRawTag(42);
output.WriteMessage(MapType);
}
if (Denotation.Length != 0) {
output.WriteRawTag(50);
output.WriteString(Denotation);
}
if (valueCase_ == ValueOneofCase.OpaqueType) {
output.WriteRawTag(58);
output.WriteMessage(OpaqueType);
}
if (valueCase_ == ValueOneofCase.SparseTensorType) {
output.WriteRawTag(66);
output.WriteMessage(SparseTensorType);
}
if (valueCase_ == ValueOneofCase.OptionalType) {
output.WriteRawTag(74);
output.WriteMessage(OptionalType);
}
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 (valueCase_ == ValueOneofCase.TensorType) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(TensorType);
}
if (valueCase_ == ValueOneofCase.SequenceType) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(SequenceType);
}
if (valueCase_ == ValueOneofCase.MapType) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(MapType);
}
if (valueCase_ == ValueOneofCase.OptionalType) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(OptionalType);
}
if (valueCase_ == ValueOneofCase.SparseTensorType) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(SparseTensorType);
}
if (valueCase_ == ValueOneofCase.OpaqueType) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(OpaqueType);
}
if (Denotation.Length != 0) {
size += 1 + pb::CodedOutputStream.ComputeStringSize(Denotation);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(TypeProto other) {
if (other == null) {
return;
}
if (other.Denotation.Length != 0) {
Denotation = other.Denotation;
}
switch (other.ValueCase) {
case ValueOneofCase.TensorType:
if (TensorType == null) {
TensorType = new global::Onnx.TypeProto.Types.Tensor();
}
TensorType.MergeFrom(other.TensorType);
break;
case ValueOneofCase.SequenceType:
if (SequenceType == null) {
SequenceType = new global::Onnx.TypeProto.Types.Sequence();
}
SequenceType.MergeFrom(other.SequenceType);
break;
case ValueOneofCase.MapType:
if (MapType == null) {
MapType = new global::Onnx.TypeProto.Types.Map();
}
MapType.MergeFrom(other.MapType);
break;
case ValueOneofCase.OptionalType:
if (OptionalType == null) {
OptionalType = new global::Onnx.TypeProto.Types.Optional();
}
OptionalType.MergeFrom(other.OptionalType);
break;
case ValueOneofCase.SparseTensorType:
if (SparseTensorType == null) {
SparseTensorType = new global::Onnx.TypeProto.Types.SparseTensor();
}
SparseTensorType.MergeFrom(other.SparseTensorType);
break;
case ValueOneofCase.OpaqueType:
if (OpaqueType == null) {
OpaqueType = new global::Onnx.TypeProto.Types.Opaque();
}
OpaqueType.MergeFrom(other.OpaqueType);
break;
}
_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: {
global::Onnx.TypeProto.Types.Tensor subBuilder = new global::Onnx.TypeProto.Types.Tensor();
if (valueCase_ == ValueOneofCase.TensorType) {
subBuilder.MergeFrom(TensorType);
}
input.ReadMessage(subBuilder);
TensorType = subBuilder;
break;
}
case 34: {
global::Onnx.TypeProto.Types.Sequence subBuilder = new global::Onnx.TypeProto.Types.Sequence();
if (valueCase_ == ValueOneofCase.SequenceType) {
subBuilder.MergeFrom(SequenceType);
}
input.ReadMessage(subBuilder);
SequenceType = subBuilder;
break;
}
case 42: {
global::Onnx.TypeProto.Types.Map subBuilder = new global::Onnx.TypeProto.Types.Map();
if (valueCase_ == ValueOneofCase.MapType) {
subBuilder.MergeFrom(MapType);
}
input.ReadMessage(subBuilder);
MapType = subBuilder;
break;
}
case 50: {
Denotation = input.ReadString();
break;
}
case 58: {
global::Onnx.TypeProto.Types.Opaque subBuilder = new global::Onnx.TypeProto.Types.Opaque();
if (valueCase_ == ValueOneofCase.OpaqueType) {
subBuilder.MergeFrom(OpaqueType);
}
input.ReadMessage(subBuilder);
OpaqueType = subBuilder;
break;
}
case 66: {
global::Onnx.TypeProto.Types.SparseTensor subBuilder = new global::Onnx.TypeProto.Types.SparseTensor();
if (valueCase_ == ValueOneofCase.SparseTensorType) {
subBuilder.MergeFrom(SparseTensorType);
}
input.ReadMessage(subBuilder);
SparseTensorType = subBuilder;
break;
}
case 74: {
global::Onnx.TypeProto.Types.Optional subBuilder = new global::Onnx.TypeProto.Types.Optional();
if (valueCase_ == ValueOneofCase.OptionalType) {
subBuilder.MergeFrom(OptionalType);
}
input.ReadMessage(subBuilder);
OptionalType = subBuilder;
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: {
global::Onnx.TypeProto.Types.Tensor subBuilder = new global::Onnx.TypeProto.Types.Tensor();
if (valueCase_ == ValueOneofCase.TensorType) {
subBuilder.MergeFrom(TensorType);
}
input.ReadMessage(subBuilder);
TensorType = subBuilder;
break;
}
case 34: {
global::Onnx.TypeProto.Types.Sequence subBuilder = new global::Onnx.TypeProto.Types.Sequence();
if (valueCase_ == ValueOneofCase.SequenceType) {
subBuilder.MergeFrom(SequenceType);
}
input.ReadMessage(subBuilder);
SequenceType = subBuilder;
break;
}
case 42: {
global::Onnx.TypeProto.Types.Map subBuilder = new global::Onnx.TypeProto.Types.Map();
if (valueCase_ == ValueOneofCase.MapType) {
subBuilder.MergeFrom(MapType);
}
input.ReadMessage(subBuilder);
MapType = subBuilder;
break;
}
case 50: {
Denotation = input.ReadString();
break;
}
case 58: {
global::Onnx.TypeProto.Types.Opaque subBuilder = new global::Onnx.TypeProto.Types.Opaque();
if (valueCase_ == ValueOneofCase.OpaqueType) {
subBuilder.MergeFrom(OpaqueType);
}
input.ReadMessage(subBuilder);
OpaqueType = subBuilder;
break;
}
case 66: {
global::Onnx.TypeProto.Types.SparseTensor subBuilder = new global::Onnx.TypeProto.Types.SparseTensor();
if (valueCase_ == ValueOneofCase.SparseTensorType) {
subBuilder.MergeFrom(SparseTensorType);
}
input.ReadMessage(subBuilder);
SparseTensorType = subBuilder;
break;
}
case 74: {
global::Onnx.TypeProto.Types.Optional subBuilder = new global::Onnx.TypeProto.Types.Optional();
if (valueCase_ == ValueOneofCase.OptionalType) {
subBuilder.MergeFrom(OptionalType);
}
input.ReadMessage(subBuilder);
OptionalType = subBuilder;
break;
}
}
}
}
#endif
#region Nested types
/// Container for nested types declared in the TypeProto message type.
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static partial class Types {
public sealed partial class Tensor : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new Tensor());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.TypeProto.Descriptor.NestedTypes[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 Tensor() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Tensor(Tensor other) : this() {
elemType_ = other.elemType_;
shape_ = other.shape_ != null ? other.shape_.Clone() : null;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Tensor Clone() {
return new Tensor(this);
}
/// Field number for the "elem_type" field.
public const int ElemTypeFieldNumber = 1;
private int elemType_;
///
/// This field MUST NOT have the value of UNDEFINED
/// This field MUST have a valid TensorProto.DataType value
/// This field MUST be present for this version of the IR.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public int ElemType {
get { return elemType_; }
set {
elemType_ = value;
}
}
/// Field number for the "shape" field.
public const int ShapeFieldNumber = 2;
private global::Onnx.TensorShapeProto shape_;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TensorShapeProto Shape {
get { return shape_; }
set {
shape_ = value;
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as Tensor);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(Tensor other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (ElemType != other.ElemType) return false;
if (!object.Equals(Shape, other.Shape)) 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 (ElemType != 0) hash ^= ElemType.GetHashCode();
if (shape_ != null) hash ^= Shape.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 (ElemType != 0) {
output.WriteRawTag(8);
output.WriteInt32(ElemType);
}
if (shape_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Shape);
}
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 (ElemType != 0) {
output.WriteRawTag(8);
output.WriteInt32(ElemType);
}
if (shape_ != null) {
output.WriteRawTag(18);
output.WriteMessage(Shape);
}
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 (ElemType != 0) {
size += 1 + pb::CodedOutputStream.ComputeInt32Size(ElemType);
}
if (shape_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(Shape);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(Tensor other) {
if (other == null) {
return;
}
if (other.ElemType != 0) {
ElemType = other.ElemType;
}
if (other.shape_ != null) {
if (shape_ == null) {
Shape = new global::Onnx.TensorShapeProto();
}
Shape.MergeFrom(other.Shape);
}
_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 8: {
ElemType = input.ReadInt32();
break;
}
case 18: {
if (shape_ == null) {
Shape = new global::Onnx.TensorShapeProto();
}
input.ReadMessage(Shape);
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 8: {
ElemType = input.ReadInt32();
break;
}
case 18: {
if (shape_ == null) {
Shape = new global::Onnx.TensorShapeProto();
}
input.ReadMessage(Shape);
break;
}
}
}
}
#endif
}
///
/// repeated T
///
public sealed partial class Sequence : pb::IMessage
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
, pb::IBufferMessage
#endif
{
private static readonly pb::MessageParser _parser = new pb::MessageParser(() => new Sequence());
private pb::UnknownFieldSet _unknownFields;
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pb::MessageParser Parser { get { return _parser; } }
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public static pbr::MessageDescriptor Descriptor {
get { return global::Onnx.TypeProto.Descriptor.NestedTypes[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 Sequence() {
OnConstruction();
}
partial void OnConstruction();
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Sequence(Sequence other) : this() {
elemType_ = other.elemType_ != null ? other.elemType_.Clone() : null;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public Sequence Clone() {
return new Sequence(this);
}
/// Field number for the "elem_type" field.
public const int ElemTypeFieldNumber = 1;
private global::Onnx.TypeProto elemType_;
///
/// The type and optional shape of each element of the sequence.
/// This field MUST be present for this version of the IR.
///
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public global::Onnx.TypeProto ElemType {
get { return elemType_; }
set {
elemType_ = value;
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
return Equals(other as Sequence);
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public bool Equals(Sequence other) {
if (ReferenceEquals(other, null)) {
return false;
}
if (ReferenceEquals(other, this)) {
return true;
}
if (!object.Equals(ElemType, other.ElemType)) 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 (elemType_ != null) hash ^= ElemType.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 (elemType_ != null) {
output.WriteRawTag(10);
output.WriteMessage(ElemType);
}
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 (elemType_ != null) {
output.WriteRawTag(10);
output.WriteMessage(ElemType);
}
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 (elemType_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(ElemType);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
return size;
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public void MergeFrom(Sequence other) {
if (other == null) {
return;
}
if (other.elemType_ != null) {
if (elemType_ == null) {
ElemType = new global::Onnx.TypeProto();
}
ElemType.MergeFrom(other.ElemType);
}
_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: {
if (elemType_ == null) {
ElemType = new global::Onnx.TypeProto();
}
input.ReadMessage(ElemType);
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: {
if (elemType_ == null) {
ElemType = new global::Onnx.TypeProto();
}
input.ReadMessage(ElemType);
break;
}
}
}
}
#endif
}
///
/// map<K,V>
///
public sealed partial class Map : pb::IMessage