// Code generated by protoc-gen-go-pulsar. DO NOT EDIT. package mintv1beta1 import ( fmt "fmt" _ "github.com/cosmos/cosmos-proto" runtime "github.com/cosmos/cosmos-proto/runtime" _ "github.com/gogo/protobuf/gogoproto" protoreflect "google.golang.org/protobuf/reflect/protoreflect" protoiface "google.golang.org/protobuf/runtime/protoiface" protoimpl "google.golang.org/protobuf/runtime/protoimpl" io "io" reflect "reflect" sync "sync" ) var ( md_Minter protoreflect.MessageDescriptor fd_Minter_inflation protoreflect.FieldDescriptor fd_Minter_annual_provisions protoreflect.FieldDescriptor ) func init() { file_cosmos_mint_v1beta1_mint_proto_init() md_Minter = File_cosmos_mint_v1beta1_mint_proto.Messages().ByName("Minter") fd_Minter_inflation = md_Minter.Fields().ByName("inflation") fd_Minter_annual_provisions = md_Minter.Fields().ByName("annual_provisions") } var _ protoreflect.Message = (*fastReflection_Minter)(nil) type fastReflection_Minter Minter func (x *Minter) ProtoReflect() protoreflect.Message { return (*fastReflection_Minter)(x) } func (x *Minter) slowProtoReflect() protoreflect.Message { mi := &file_cosmos_mint_v1beta1_mint_proto_msgTypes[0] if protoimpl.UnsafeEnabled && x != nil { ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) if ms.LoadMessageInfo() == nil { ms.StoreMessageInfo(mi) } return ms } return mi.MessageOf(x) } var _fastReflection_Minter_messageType fastReflection_Minter_messageType var _ protoreflect.MessageType = fastReflection_Minter_messageType{} type fastReflection_Minter_messageType struct{} func (x fastReflection_Minter_messageType) Zero() protoreflect.Message { return (*fastReflection_Minter)(nil) } func (x fastReflection_Minter_messageType) New() protoreflect.Message { return new(fastReflection_Minter) } func (x fastReflection_Minter_messageType) Descriptor() protoreflect.MessageDescriptor { return md_Minter } // Descriptor returns message descriptor, which contains only the protobuf // type information for the message. func (x *fastReflection_Minter) Descriptor() protoreflect.MessageDescriptor { return md_Minter } // Type returns the message type, which encapsulates both Go and protobuf // type information. If the Go type information is not needed, // it is recommended that the message descriptor be used instead. func (x *fastReflection_Minter) Type() protoreflect.MessageType { return _fastReflection_Minter_messageType } // New returns a newly allocated and mutable empty message. func (x *fastReflection_Minter) New() protoreflect.Message { return new(fastReflection_Minter) } // Interface unwraps the message reflection interface and // returns the underlying ProtoMessage interface. func (x *fastReflection_Minter) Interface() protoreflect.ProtoMessage { return (*Minter)(x) } // Range iterates over every populated field in an undefined order, // calling f for each field descriptor and value encountered. // Range returns immediately if f returns false. // While iterating, mutating operations may only be performed // on the current field descriptor. func (x *fastReflection_Minter) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) { if x.Inflation != "" { value := protoreflect.ValueOfString(x.Inflation) if !f(fd_Minter_inflation, value) { return } } if x.AnnualProvisions != "" { value := protoreflect.ValueOfString(x.AnnualProvisions) if !f(fd_Minter_annual_provisions, value) { return } } } // Has reports whether a field is populated. // // Some fields have the property of nullability where it is possible to // distinguish between the default value of a field and whether the field // was explicitly populated with the default value. Singular message fields, // member fields of a oneof, and proto2 scalar fields are nullable. Such // fields are populated only if explicitly set. // // In other cases (aside from the nullable cases above), // a proto3 scalar field is populated if it contains a non-zero value, and // a repeated field is populated if it is non-empty. func (x *fastReflection_Minter) Has(fd protoreflect.FieldDescriptor) bool { switch fd.FullName() { case "cosmos.mint.v1beta1.Minter.inflation": return x.Inflation != "" case "cosmos.mint.v1beta1.Minter.annual_provisions": return x.AnnualProvisions != "" default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Minter")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Minter does not contain field %s", fd.FullName())) } } // Clear clears the field such that a subsequent Has call reports false. // // Clearing an extension field clears both the extension type and value // associated with the given field number. // // Clear is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Minter) Clear(fd protoreflect.FieldDescriptor) { switch fd.FullName() { case "cosmos.mint.v1beta1.Minter.inflation": x.Inflation = "" case "cosmos.mint.v1beta1.Minter.annual_provisions": x.AnnualProvisions = "" default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Minter")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Minter does not contain field %s", fd.FullName())) } } // Get retrieves the value for a field. // // For unpopulated scalars, it returns the default value, where // the default value of a bytes scalar is guaranteed to be a copy. // For unpopulated composite types, it returns an empty, read-only view // of the value; to obtain a mutable reference, use Mutable. func (x *fastReflection_Minter) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value { switch descriptor.FullName() { case "cosmos.mint.v1beta1.Minter.inflation": value := x.Inflation return protoreflect.ValueOfString(value) case "cosmos.mint.v1beta1.Minter.annual_provisions": value := x.AnnualProvisions return protoreflect.ValueOfString(value) default: if descriptor.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Minter")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Minter does not contain field %s", descriptor.FullName())) } } // Set stores the value for a field. // // For a field belonging to a oneof, it implicitly clears any other field // that may be currently set within the same oneof. // For extension fields, it implicitly stores the provided ExtensionType. // When setting a composite type, it is unspecified whether the stored value // aliases the source's memory in any way. If the composite value is an // empty, read-only value, then it panics. // // Set is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Minter) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) { switch fd.FullName() { case "cosmos.mint.v1beta1.Minter.inflation": x.Inflation = value.Interface().(string) case "cosmos.mint.v1beta1.Minter.annual_provisions": x.AnnualProvisions = value.Interface().(string) default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Minter")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Minter does not contain field %s", fd.FullName())) } } // Mutable returns a mutable reference to a composite type. // // If the field is unpopulated, it may allocate a composite value. // For a field belonging to a oneof, it implicitly clears any other field // that may be currently set within the same oneof. // For extension fields, it implicitly stores the provided ExtensionType // if not already stored. // It panics if the field does not contain a composite type. // // Mutable is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Minter) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value { switch fd.FullName() { case "cosmos.mint.v1beta1.Minter.inflation": panic(fmt.Errorf("field inflation of message cosmos.mint.v1beta1.Minter is not mutable")) case "cosmos.mint.v1beta1.Minter.annual_provisions": panic(fmt.Errorf("field annual_provisions of message cosmos.mint.v1beta1.Minter is not mutable")) default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Minter")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Minter does not contain field %s", fd.FullName())) } } // NewField returns a new value that is assignable to the field // for the given descriptor. For scalars, this returns the default value. // For lists, maps, and messages, this returns a new, empty, mutable value. func (x *fastReflection_Minter) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value { switch fd.FullName() { case "cosmos.mint.v1beta1.Minter.inflation": return protoreflect.ValueOfString("") case "cosmos.mint.v1beta1.Minter.annual_provisions": return protoreflect.ValueOfString("") default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Minter")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Minter does not contain field %s", fd.FullName())) } } // WhichOneof reports which field within the oneof is populated, // returning nil if none are populated. // It panics if the oneof descriptor does not belong to this message. func (x *fastReflection_Minter) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor { switch d.FullName() { default: panic(fmt.Errorf("%s is not a oneof field in cosmos.mint.v1beta1.Minter", d.FullName())) } panic("unreachable") } // GetUnknown retrieves the entire list of unknown fields. // The caller may only mutate the contents of the RawFields // if the mutated bytes are stored back into the message with SetUnknown. func (x *fastReflection_Minter) GetUnknown() protoreflect.RawFields { return x.unknownFields } // SetUnknown stores an entire list of unknown fields. // The raw fields must be syntactically valid according to the wire format. // An implementation may panic if this is not the case. // Once stored, the caller must not mutate the content of the RawFields. // An empty RawFields may be passed to clear the fields. // // SetUnknown is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Minter) SetUnknown(fields protoreflect.RawFields) { x.unknownFields = fields } // IsValid reports whether the message is valid. // // An invalid message is an empty, read-only value. // // An invalid message often corresponds to a nil pointer of the concrete // message type, but the details are implementation dependent. // Validity is not part of the protobuf data model, and may not // be preserved in marshaling or other operations. func (x *fastReflection_Minter) IsValid() bool { return x != nil } // ProtoMethods returns optional fastReflectionFeature-path implementations of various operations. // This method may return nil. // // The returned methods type is identical to // "google.golang.org/protobuf/runtime/protoiface".Methods. // Consult the protoiface package documentation for details. func (x *fastReflection_Minter) ProtoMethods() *protoiface.Methods { size := func(input protoiface.SizeInput) protoiface.SizeOutput { x := input.Message.Interface().(*Minter) if x == nil { return protoiface.SizeOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Size: 0, } } options := runtime.SizeInputToOptions(input) _ = options var n int var l int _ = l l = len(x.Inflation) if l > 0 { n += 1 + l + runtime.Sov(uint64(l)) } l = len(x.AnnualProvisions) if l > 0 { n += 1 + l + runtime.Sov(uint64(l)) } if x.unknownFields != nil { n += len(x.unknownFields) } return protoiface.SizeOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Size: n, } } marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) { x := input.Message.Interface().(*Minter) if x == nil { return protoiface.MarshalOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Buf: input.Buf, }, nil } options := runtime.MarshalInputToOptions(input) _ = options size := options.Size(x) dAtA := make([]byte, size) i := len(dAtA) _ = i var l int _ = l if x.unknownFields != nil { i -= len(x.unknownFields) copy(dAtA[i:], x.unknownFields) } if len(x.AnnualProvisions) > 0 { i -= len(x.AnnualProvisions) copy(dAtA[i:], x.AnnualProvisions) i = runtime.EncodeVarint(dAtA, i, uint64(len(x.AnnualProvisions))) i-- dAtA[i] = 0x12 } if len(x.Inflation) > 0 { i -= len(x.Inflation) copy(dAtA[i:], x.Inflation) i = runtime.EncodeVarint(dAtA, i, uint64(len(x.Inflation))) i-- dAtA[i] = 0xa } if input.Buf != nil { input.Buf = append(input.Buf, dAtA...) } else { input.Buf = dAtA } return protoiface.MarshalOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Buf: input.Buf, }, nil } unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) { x := input.Message.Interface().(*Minter) if x == nil { return protoiface.UnmarshalOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags, }, nil } options := runtime.UnmarshalInputToOptions(input) _ = options dAtA := input.Buf l := len(dAtA) iNdEx := 0 for iNdEx < l { preIndex := iNdEx var wire uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ wire |= uint64(b&0x7F) << shift if b < 0x80 { break } } fieldNum := int32(wire >> 3) wireType := int(wire & 0x7) if wireType == 4 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Minter: wiretype end group for non-group") } if fieldNum <= 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Minter: illegal tag %d (wire type %d)", fieldNum, wire) } switch fieldNum { case 1: if wireType != 2 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field Inflation", wireType) } var stringLen uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ stringLen |= uint64(b&0x7F) << shift if b < 0x80 { break } } intStringLen := int(stringLen) if intStringLen < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } postIndex := iNdEx + intStringLen if postIndex < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if postIndex > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } x.Inflation = string(dAtA[iNdEx:postIndex]) iNdEx = postIndex case 2: if wireType != 2 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field AnnualProvisions", wireType) } var stringLen uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ stringLen |= uint64(b&0x7F) << shift if b < 0x80 { break } } intStringLen := int(stringLen) if intStringLen < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } postIndex := iNdEx + intStringLen if postIndex < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if postIndex > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } x.AnnualProvisions = string(dAtA[iNdEx:postIndex]) iNdEx = postIndex default: iNdEx = preIndex skippy, err := runtime.Skip(dAtA[iNdEx:]) if err != nil { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err } if (skippy < 0) || (iNdEx+skippy) < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if (iNdEx + skippy) > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } if !options.DiscardUnknown { x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...) } iNdEx += skippy } } if iNdEx > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil } return &protoiface.Methods{ NoUnkeyedLiterals: struct{}{}, Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown, Size: size, Marshal: marshal, Unmarshal: unmarshal, Merge: nil, CheckInitialized: nil, } } var ( md_Params protoreflect.MessageDescriptor fd_Params_mint_denom protoreflect.FieldDescriptor fd_Params_inflation_rate_change protoreflect.FieldDescriptor fd_Params_inflation_max protoreflect.FieldDescriptor fd_Params_inflation_min protoreflect.FieldDescriptor fd_Params_goal_bonded protoreflect.FieldDescriptor fd_Params_blocks_per_year protoreflect.FieldDescriptor ) func init() { file_cosmos_mint_v1beta1_mint_proto_init() md_Params = File_cosmos_mint_v1beta1_mint_proto.Messages().ByName("Params") fd_Params_mint_denom = md_Params.Fields().ByName("mint_denom") fd_Params_inflation_rate_change = md_Params.Fields().ByName("inflation_rate_change") fd_Params_inflation_max = md_Params.Fields().ByName("inflation_max") fd_Params_inflation_min = md_Params.Fields().ByName("inflation_min") fd_Params_goal_bonded = md_Params.Fields().ByName("goal_bonded") fd_Params_blocks_per_year = md_Params.Fields().ByName("blocks_per_year") } var _ protoreflect.Message = (*fastReflection_Params)(nil) type fastReflection_Params Params func (x *Params) ProtoReflect() protoreflect.Message { return (*fastReflection_Params)(x) } func (x *Params) slowProtoReflect() protoreflect.Message { mi := &file_cosmos_mint_v1beta1_mint_proto_msgTypes[1] if protoimpl.UnsafeEnabled && x != nil { ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) if ms.LoadMessageInfo() == nil { ms.StoreMessageInfo(mi) } return ms } return mi.MessageOf(x) } var _fastReflection_Params_messageType fastReflection_Params_messageType var _ protoreflect.MessageType = fastReflection_Params_messageType{} type fastReflection_Params_messageType struct{} func (x fastReflection_Params_messageType) Zero() protoreflect.Message { return (*fastReflection_Params)(nil) } func (x fastReflection_Params_messageType) New() protoreflect.Message { return new(fastReflection_Params) } func (x fastReflection_Params_messageType) Descriptor() protoreflect.MessageDescriptor { return md_Params } // Descriptor returns message descriptor, which contains only the protobuf // type information for the message. func (x *fastReflection_Params) Descriptor() protoreflect.MessageDescriptor { return md_Params } // Type returns the message type, which encapsulates both Go and protobuf // type information. If the Go type information is not needed, // it is recommended that the message descriptor be used instead. func (x *fastReflection_Params) Type() protoreflect.MessageType { return _fastReflection_Params_messageType } // New returns a newly allocated and mutable empty message. func (x *fastReflection_Params) New() protoreflect.Message { return new(fastReflection_Params) } // Interface unwraps the message reflection interface and // returns the underlying ProtoMessage interface. func (x *fastReflection_Params) Interface() protoreflect.ProtoMessage { return (*Params)(x) } // Range iterates over every populated field in an undefined order, // calling f for each field descriptor and value encountered. // Range returns immediately if f returns false. // While iterating, mutating operations may only be performed // on the current field descriptor. func (x *fastReflection_Params) Range(f func(protoreflect.FieldDescriptor, protoreflect.Value) bool) { if x.MintDenom != "" { value := protoreflect.ValueOfString(x.MintDenom) if !f(fd_Params_mint_denom, value) { return } } if x.InflationRateChange != "" { value := protoreflect.ValueOfString(x.InflationRateChange) if !f(fd_Params_inflation_rate_change, value) { return } } if x.InflationMax != "" { value := protoreflect.ValueOfString(x.InflationMax) if !f(fd_Params_inflation_max, value) { return } } if x.InflationMin != "" { value := protoreflect.ValueOfString(x.InflationMin) if !f(fd_Params_inflation_min, value) { return } } if x.GoalBonded != "" { value := protoreflect.ValueOfString(x.GoalBonded) if !f(fd_Params_goal_bonded, value) { return } } if x.BlocksPerYear != uint64(0) { value := protoreflect.ValueOfUint64(x.BlocksPerYear) if !f(fd_Params_blocks_per_year, value) { return } } } // Has reports whether a field is populated. // // Some fields have the property of nullability where it is possible to // distinguish between the default value of a field and whether the field // was explicitly populated with the default value. Singular message fields, // member fields of a oneof, and proto2 scalar fields are nullable. Such // fields are populated only if explicitly set. // // In other cases (aside from the nullable cases above), // a proto3 scalar field is populated if it contains a non-zero value, and // a repeated field is populated if it is non-empty. func (x *fastReflection_Params) Has(fd protoreflect.FieldDescriptor) bool { switch fd.FullName() { case "cosmos.mint.v1beta1.Params.mint_denom": return x.MintDenom != "" case "cosmos.mint.v1beta1.Params.inflation_rate_change": return x.InflationRateChange != "" case "cosmos.mint.v1beta1.Params.inflation_max": return x.InflationMax != "" case "cosmos.mint.v1beta1.Params.inflation_min": return x.InflationMin != "" case "cosmos.mint.v1beta1.Params.goal_bonded": return x.GoalBonded != "" case "cosmos.mint.v1beta1.Params.blocks_per_year": return x.BlocksPerYear != uint64(0) default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Params")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Params does not contain field %s", fd.FullName())) } } // Clear clears the field such that a subsequent Has call reports false. // // Clearing an extension field clears both the extension type and value // associated with the given field number. // // Clear is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Params) Clear(fd protoreflect.FieldDescriptor) { switch fd.FullName() { case "cosmos.mint.v1beta1.Params.mint_denom": x.MintDenom = "" case "cosmos.mint.v1beta1.Params.inflation_rate_change": x.InflationRateChange = "" case "cosmos.mint.v1beta1.Params.inflation_max": x.InflationMax = "" case "cosmos.mint.v1beta1.Params.inflation_min": x.InflationMin = "" case "cosmos.mint.v1beta1.Params.goal_bonded": x.GoalBonded = "" case "cosmos.mint.v1beta1.Params.blocks_per_year": x.BlocksPerYear = uint64(0) default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Params")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Params does not contain field %s", fd.FullName())) } } // Get retrieves the value for a field. // // For unpopulated scalars, it returns the default value, where // the default value of a bytes scalar is guaranteed to be a copy. // For unpopulated composite types, it returns an empty, read-only view // of the value; to obtain a mutable reference, use Mutable. func (x *fastReflection_Params) Get(descriptor protoreflect.FieldDescriptor) protoreflect.Value { switch descriptor.FullName() { case "cosmos.mint.v1beta1.Params.mint_denom": value := x.MintDenom return protoreflect.ValueOfString(value) case "cosmos.mint.v1beta1.Params.inflation_rate_change": value := x.InflationRateChange return protoreflect.ValueOfString(value) case "cosmos.mint.v1beta1.Params.inflation_max": value := x.InflationMax return protoreflect.ValueOfString(value) case "cosmos.mint.v1beta1.Params.inflation_min": value := x.InflationMin return protoreflect.ValueOfString(value) case "cosmos.mint.v1beta1.Params.goal_bonded": value := x.GoalBonded return protoreflect.ValueOfString(value) case "cosmos.mint.v1beta1.Params.blocks_per_year": value := x.BlocksPerYear return protoreflect.ValueOfUint64(value) default: if descriptor.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Params")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Params does not contain field %s", descriptor.FullName())) } } // Set stores the value for a field. // // For a field belonging to a oneof, it implicitly clears any other field // that may be currently set within the same oneof. // For extension fields, it implicitly stores the provided ExtensionType. // When setting a composite type, it is unspecified whether the stored value // aliases the source's memory in any way. If the composite value is an // empty, read-only value, then it panics. // // Set is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Params) Set(fd protoreflect.FieldDescriptor, value protoreflect.Value) { switch fd.FullName() { case "cosmos.mint.v1beta1.Params.mint_denom": x.MintDenom = value.Interface().(string) case "cosmos.mint.v1beta1.Params.inflation_rate_change": x.InflationRateChange = value.Interface().(string) case "cosmos.mint.v1beta1.Params.inflation_max": x.InflationMax = value.Interface().(string) case "cosmos.mint.v1beta1.Params.inflation_min": x.InflationMin = value.Interface().(string) case "cosmos.mint.v1beta1.Params.goal_bonded": x.GoalBonded = value.Interface().(string) case "cosmos.mint.v1beta1.Params.blocks_per_year": x.BlocksPerYear = value.Uint() default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Params")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Params does not contain field %s", fd.FullName())) } } // Mutable returns a mutable reference to a composite type. // // If the field is unpopulated, it may allocate a composite value. // For a field belonging to a oneof, it implicitly clears any other field // that may be currently set within the same oneof. // For extension fields, it implicitly stores the provided ExtensionType // if not already stored. // It panics if the field does not contain a composite type. // // Mutable is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Params) Mutable(fd protoreflect.FieldDescriptor) protoreflect.Value { switch fd.FullName() { case "cosmos.mint.v1beta1.Params.mint_denom": panic(fmt.Errorf("field mint_denom of message cosmos.mint.v1beta1.Params is not mutable")) case "cosmos.mint.v1beta1.Params.inflation_rate_change": panic(fmt.Errorf("field inflation_rate_change of message cosmos.mint.v1beta1.Params is not mutable")) case "cosmos.mint.v1beta1.Params.inflation_max": panic(fmt.Errorf("field inflation_max of message cosmos.mint.v1beta1.Params is not mutable")) case "cosmos.mint.v1beta1.Params.inflation_min": panic(fmt.Errorf("field inflation_min of message cosmos.mint.v1beta1.Params is not mutable")) case "cosmos.mint.v1beta1.Params.goal_bonded": panic(fmt.Errorf("field goal_bonded of message cosmos.mint.v1beta1.Params is not mutable")) case "cosmos.mint.v1beta1.Params.blocks_per_year": panic(fmt.Errorf("field blocks_per_year of message cosmos.mint.v1beta1.Params is not mutable")) default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Params")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Params does not contain field %s", fd.FullName())) } } // NewField returns a new value that is assignable to the field // for the given descriptor. For scalars, this returns the default value. // For lists, maps, and messages, this returns a new, empty, mutable value. func (x *fastReflection_Params) NewField(fd protoreflect.FieldDescriptor) protoreflect.Value { switch fd.FullName() { case "cosmos.mint.v1beta1.Params.mint_denom": return protoreflect.ValueOfString("") case "cosmos.mint.v1beta1.Params.inflation_rate_change": return protoreflect.ValueOfString("") case "cosmos.mint.v1beta1.Params.inflation_max": return protoreflect.ValueOfString("") case "cosmos.mint.v1beta1.Params.inflation_min": return protoreflect.ValueOfString("") case "cosmos.mint.v1beta1.Params.goal_bonded": return protoreflect.ValueOfString("") case "cosmos.mint.v1beta1.Params.blocks_per_year": return protoreflect.ValueOfUint64(uint64(0)) default: if fd.IsExtension() { panic(fmt.Errorf("proto3 declared messages do not support extensions: cosmos.mint.v1beta1.Params")) } panic(fmt.Errorf("message cosmos.mint.v1beta1.Params does not contain field %s", fd.FullName())) } } // WhichOneof reports which field within the oneof is populated, // returning nil if none are populated. // It panics if the oneof descriptor does not belong to this message. func (x *fastReflection_Params) WhichOneof(d protoreflect.OneofDescriptor) protoreflect.FieldDescriptor { switch d.FullName() { default: panic(fmt.Errorf("%s is not a oneof field in cosmos.mint.v1beta1.Params", d.FullName())) } panic("unreachable") } // GetUnknown retrieves the entire list of unknown fields. // The caller may only mutate the contents of the RawFields // if the mutated bytes are stored back into the message with SetUnknown. func (x *fastReflection_Params) GetUnknown() protoreflect.RawFields { return x.unknownFields } // SetUnknown stores an entire list of unknown fields. // The raw fields must be syntactically valid according to the wire format. // An implementation may panic if this is not the case. // Once stored, the caller must not mutate the content of the RawFields. // An empty RawFields may be passed to clear the fields. // // SetUnknown is a mutating operation and unsafe for concurrent use. func (x *fastReflection_Params) SetUnknown(fields protoreflect.RawFields) { x.unknownFields = fields } // IsValid reports whether the message is valid. // // An invalid message is an empty, read-only value. // // An invalid message often corresponds to a nil pointer of the concrete // message type, but the details are implementation dependent. // Validity is not part of the protobuf data model, and may not // be preserved in marshaling or other operations. func (x *fastReflection_Params) IsValid() bool { return x != nil } // ProtoMethods returns optional fastReflectionFeature-path implementations of various operations. // This method may return nil. // // The returned methods type is identical to // "google.golang.org/protobuf/runtime/protoiface".Methods. // Consult the protoiface package documentation for details. func (x *fastReflection_Params) ProtoMethods() *protoiface.Methods { size := func(input protoiface.SizeInput) protoiface.SizeOutput { x := input.Message.Interface().(*Params) if x == nil { return protoiface.SizeOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Size: 0, } } options := runtime.SizeInputToOptions(input) _ = options var n int var l int _ = l l = len(x.MintDenom) if l > 0 { n += 1 + l + runtime.Sov(uint64(l)) } l = len(x.InflationRateChange) if l > 0 { n += 1 + l + runtime.Sov(uint64(l)) } l = len(x.InflationMax) if l > 0 { n += 1 + l + runtime.Sov(uint64(l)) } l = len(x.InflationMin) if l > 0 { n += 1 + l + runtime.Sov(uint64(l)) } l = len(x.GoalBonded) if l > 0 { n += 1 + l + runtime.Sov(uint64(l)) } if x.BlocksPerYear != 0 { n += 1 + runtime.Sov(uint64(x.BlocksPerYear)) } if x.unknownFields != nil { n += len(x.unknownFields) } return protoiface.SizeOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Size: n, } } marshal := func(input protoiface.MarshalInput) (protoiface.MarshalOutput, error) { x := input.Message.Interface().(*Params) if x == nil { return protoiface.MarshalOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Buf: input.Buf, }, nil } options := runtime.MarshalInputToOptions(input) _ = options size := options.Size(x) dAtA := make([]byte, size) i := len(dAtA) _ = i var l int _ = l if x.unknownFields != nil { i -= len(x.unknownFields) copy(dAtA[i:], x.unknownFields) } if x.BlocksPerYear != 0 { i = runtime.EncodeVarint(dAtA, i, uint64(x.BlocksPerYear)) i-- dAtA[i] = 0x30 } if len(x.GoalBonded) > 0 { i -= len(x.GoalBonded) copy(dAtA[i:], x.GoalBonded) i = runtime.EncodeVarint(dAtA, i, uint64(len(x.GoalBonded))) i-- dAtA[i] = 0x2a } if len(x.InflationMin) > 0 { i -= len(x.InflationMin) copy(dAtA[i:], x.InflationMin) i = runtime.EncodeVarint(dAtA, i, uint64(len(x.InflationMin))) i-- dAtA[i] = 0x22 } if len(x.InflationMax) > 0 { i -= len(x.InflationMax) copy(dAtA[i:], x.InflationMax) i = runtime.EncodeVarint(dAtA, i, uint64(len(x.InflationMax))) i-- dAtA[i] = 0x1a } if len(x.InflationRateChange) > 0 { i -= len(x.InflationRateChange) copy(dAtA[i:], x.InflationRateChange) i = runtime.EncodeVarint(dAtA, i, uint64(len(x.InflationRateChange))) i-- dAtA[i] = 0x12 } if len(x.MintDenom) > 0 { i -= len(x.MintDenom) copy(dAtA[i:], x.MintDenom) i = runtime.EncodeVarint(dAtA, i, uint64(len(x.MintDenom))) i-- dAtA[i] = 0xa } if input.Buf != nil { input.Buf = append(input.Buf, dAtA...) } else { input.Buf = dAtA } return protoiface.MarshalOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Buf: input.Buf, }, nil } unmarshal := func(input protoiface.UnmarshalInput) (protoiface.UnmarshalOutput, error) { x := input.Message.Interface().(*Params) if x == nil { return protoiface.UnmarshalOutput{ NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags, }, nil } options := runtime.UnmarshalInputToOptions(input) _ = options dAtA := input.Buf l := len(dAtA) iNdEx := 0 for iNdEx < l { preIndex := iNdEx var wire uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ wire |= uint64(b&0x7F) << shift if b < 0x80 { break } } fieldNum := int32(wire >> 3) wireType := int(wire & 0x7) if wireType == 4 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Params: wiretype end group for non-group") } if fieldNum <= 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: Params: illegal tag %d (wire type %d)", fieldNum, wire) } switch fieldNum { case 1: if wireType != 2 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field MintDenom", wireType) } var stringLen uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ stringLen |= uint64(b&0x7F) << shift if b < 0x80 { break } } intStringLen := int(stringLen) if intStringLen < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } postIndex := iNdEx + intStringLen if postIndex < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if postIndex > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } x.MintDenom = string(dAtA[iNdEx:postIndex]) iNdEx = postIndex case 2: if wireType != 2 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field InflationRateChange", wireType) } var stringLen uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ stringLen |= uint64(b&0x7F) << shift if b < 0x80 { break } } intStringLen := int(stringLen) if intStringLen < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } postIndex := iNdEx + intStringLen if postIndex < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if postIndex > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } x.InflationRateChange = string(dAtA[iNdEx:postIndex]) iNdEx = postIndex case 3: if wireType != 2 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field InflationMax", wireType) } var stringLen uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ stringLen |= uint64(b&0x7F) << shift if b < 0x80 { break } } intStringLen := int(stringLen) if intStringLen < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } postIndex := iNdEx + intStringLen if postIndex < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if postIndex > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } x.InflationMax = string(dAtA[iNdEx:postIndex]) iNdEx = postIndex case 4: if wireType != 2 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field InflationMin", wireType) } var stringLen uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ stringLen |= uint64(b&0x7F) << shift if b < 0x80 { break } } intStringLen := int(stringLen) if intStringLen < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } postIndex := iNdEx + intStringLen if postIndex < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if postIndex > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } x.InflationMin = string(dAtA[iNdEx:postIndex]) iNdEx = postIndex case 5: if wireType != 2 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field GoalBonded", wireType) } var stringLen uint64 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ stringLen |= uint64(b&0x7F) << shift if b < 0x80 { break } } intStringLen := int(stringLen) if intStringLen < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } postIndex := iNdEx + intStringLen if postIndex < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if postIndex > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } x.GoalBonded = string(dAtA[iNdEx:postIndex]) iNdEx = postIndex case 6: if wireType != 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, fmt.Errorf("proto: wrong wireType = %d for field BlocksPerYear", wireType) } x.BlocksPerYear = 0 for shift := uint(0); ; shift += 7 { if shift >= 64 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrIntOverflow } if iNdEx >= l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } b := dAtA[iNdEx] iNdEx++ x.BlocksPerYear |= uint64(b&0x7F) << shift if b < 0x80 { break } } default: iNdEx = preIndex skippy, err := runtime.Skip(dAtA[iNdEx:]) if err != nil { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, err } if (skippy < 0) || (iNdEx+skippy) < 0 { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, runtime.ErrInvalidLength } if (iNdEx + skippy) > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } if !options.DiscardUnknown { x.unknownFields = append(x.unknownFields, dAtA[iNdEx:iNdEx+skippy]...) } iNdEx += skippy } } if iNdEx > l { return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, io.ErrUnexpectedEOF } return protoiface.UnmarshalOutput{NoUnkeyedLiterals: input.NoUnkeyedLiterals, Flags: input.Flags}, nil } return &protoiface.Methods{ NoUnkeyedLiterals: struct{}{}, Flags: protoiface.SupportMarshalDeterministic | protoiface.SupportUnmarshalDiscardUnknown, Size: size, Marshal: marshal, Unmarshal: unmarshal, Merge: nil, CheckInitialized: nil, } } // Code generated by protoc-gen-go. DO NOT EDIT. // versions: // protoc-gen-go v1.27.0 // protoc (unknown) // source: cosmos/mint/v1beta1/mint.proto const ( // Verify that this generated code is sufficiently up-to-date. _ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion) // Verify that runtime/protoimpl is sufficiently up-to-date. _ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20) ) // Minter represents the minting state. type Minter struct { state protoimpl.MessageState sizeCache protoimpl.SizeCache unknownFields protoimpl.UnknownFields // current annual inflation rate Inflation string `protobuf:"bytes,1,opt,name=inflation,proto3" json:"inflation,omitempty"` // current annual expected provisions AnnualProvisions string `protobuf:"bytes,2,opt,name=annual_provisions,json=annualProvisions,proto3" json:"annual_provisions,omitempty"` } func (x *Minter) Reset() { *x = Minter{} if protoimpl.UnsafeEnabled { mi := &file_cosmos_mint_v1beta1_mint_proto_msgTypes[0] ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) ms.StoreMessageInfo(mi) } } func (x *Minter) String() string { return protoimpl.X.MessageStringOf(x) } func (*Minter) ProtoMessage() {} // Deprecated: Use Minter.ProtoReflect.Descriptor instead. func (*Minter) Descriptor() ([]byte, []int) { return file_cosmos_mint_v1beta1_mint_proto_rawDescGZIP(), []int{0} } func (x *Minter) GetInflation() string { if x != nil { return x.Inflation } return "" } func (x *Minter) GetAnnualProvisions() string { if x != nil { return x.AnnualProvisions } return "" } // Params holds parameters for the mint module. type Params struct { state protoimpl.MessageState sizeCache protoimpl.SizeCache unknownFields protoimpl.UnknownFields // type of coin to mint MintDenom string `protobuf:"bytes,1,opt,name=mint_denom,json=mintDenom,proto3" json:"mint_denom,omitempty"` // maximum annual change in inflation rate InflationRateChange string `protobuf:"bytes,2,opt,name=inflation_rate_change,json=inflationRateChange,proto3" json:"inflation_rate_change,omitempty"` // maximum inflation rate InflationMax string `protobuf:"bytes,3,opt,name=inflation_max,json=inflationMax,proto3" json:"inflation_max,omitempty"` // minimum inflation rate InflationMin string `protobuf:"bytes,4,opt,name=inflation_min,json=inflationMin,proto3" json:"inflation_min,omitempty"` // goal of percent bonded atoms GoalBonded string `protobuf:"bytes,5,opt,name=goal_bonded,json=goalBonded,proto3" json:"goal_bonded,omitempty"` // expected blocks per year BlocksPerYear uint64 `protobuf:"varint,6,opt,name=blocks_per_year,json=blocksPerYear,proto3" json:"blocks_per_year,omitempty"` } func (x *Params) Reset() { *x = Params{} if protoimpl.UnsafeEnabled { mi := &file_cosmos_mint_v1beta1_mint_proto_msgTypes[1] ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) ms.StoreMessageInfo(mi) } } func (x *Params) String() string { return protoimpl.X.MessageStringOf(x) } func (*Params) ProtoMessage() {} // Deprecated: Use Params.ProtoReflect.Descriptor instead. func (*Params) Descriptor() ([]byte, []int) { return file_cosmos_mint_v1beta1_mint_proto_rawDescGZIP(), []int{1} } func (x *Params) GetMintDenom() string { if x != nil { return x.MintDenom } return "" } func (x *Params) GetInflationRateChange() string { if x != nil { return x.InflationRateChange } return "" } func (x *Params) GetInflationMax() string { if x != nil { return x.InflationMax } return "" } func (x *Params) GetInflationMin() string { if x != nil { return x.InflationMin } return "" } func (x *Params) GetGoalBonded() string { if x != nil { return x.GoalBonded } return "" } func (x *Params) GetBlocksPerYear() uint64 { if x != nil { return x.BlocksPerYear } return 0 } var File_cosmos_mint_v1beta1_mint_proto protoreflect.FileDescriptor var file_cosmos_mint_v1beta1_mint_proto_rawDesc = []byte{ 0x0a, 0x1e, 0x63, 0x6f, 0x73, 0x6d, 0x6f, 0x73, 0x2f, 0x6d, 0x69, 0x6e, 0x74, 0x2f, 0x76, 0x31, 0x62, 0x65, 0x74, 0x61, 0x31, 0x2f, 0x6d, 0x69, 0x6e, 0x74, 0x2e, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x12, 0x13, 0x63, 0x6f, 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