// Generated by the protocol buffer compiler. DO NOT EDIT! // clang-format off // source: keyapis/telemetry_control/v1/keyapis_telemetry_control_device_v1.proto // This CPP symbol can be defined to use imports that match up to the framework // imports needed when using CocoaPods. #if !defined(GPB_USE_PROTOBUF_FRAMEWORK_IMPORTS) #define GPB_USE_PROTOBUF_FRAMEWORK_IMPORTS 0 #endif #if GPB_USE_PROTOBUF_FRAMEWORK_IMPORTS #import #else #import "GPBProtocolBuffers_RuntimeSupport.h" #endif #if GOOGLE_PROTOBUF_OBJC_VERSION < 30007 #error This file was generated by a newer version of protoc which is incompatible with your Protocol Buffer library sources. #endif #if 30007 < GOOGLE_PROTOBUF_OBJC_MIN_SUPPORTED_VERSION #error This file was generated by an older version of protoc which is incompatible with your Protocol Buffer library sources. #endif #import #import "keyapis/telemetry_control/v1/KeyapisTelemetryControlDeviceV1.pbobjc.h" #import "google/api/Annotations.pbobjc.h" #import "google/api/FieldBehavior.pbobjc.h" #import "google/api/Visibility.pbobjc.h" // @@protoc_insertion_point(imports) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wdeprecated-declarations" #pragma clang diagnostic ignored "-Wdirect-ivar-access" #pragma clang diagnostic ignored "-Wdollar-in-identifier-extension" #pragma mark - Objective-C Class declarations // Forward declarations of Objective-C classes that we can use as // static values in struct initializers. // We don't use [Foo class] because it is not a static value. GPBObjCClassDeclaration(GPBFloatValue); GPBObjCClassDeclaration(GPBInt32Value); GPBObjCClassDeclaration(GPBStringValue); GPBObjCClassDeclaration(GPBTimestamp); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeleteDeviceResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1Device); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceFilter); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceGroup); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DevicePaging); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1Device_ValidationError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1GetDeviceResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1Indicator); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1IndicatorFilter); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1IndicatorPaging); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachResponse); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest); GPBObjCClassDeclaration(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachResponse); #pragma mark - KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root @implementation KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root + (GPBExtensionRegistry*)extensionRegistry { // This is called by +initialize so there is no need to worry // about thread safety and initialization of registry. static GPBExtensionRegistry* registry = nil; if (!registry) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); registry = [[GPBExtensionRegistry alloc] init]; // Merge in the imports (direct or indirect) that defined extensions. [registry addExtensions:[GAPIAnnotationsRoot extensionRegistry]]; [registry addExtensions:[GAPIFieldBehaviorRoot extensionRegistry]]; [registry addExtensions:[GAPIVisibilityRoot extensionRegistry]]; } return registry; } @end static GPBFileDescription KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription = { .package = "keyapis.telemetry_control.v1", .prefix = "KEYAPISTELEMETRYCONTROLV1", .syntax = GPBFileSyntaxProto3 }; #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "OrderByTypeUnknown\000GroupId\000DeviceId\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_OrderByTypeUnknown, KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_GroupId, KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_DeviceId, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_OrderByTypeUnknown: case KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_GroupId: case KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_DeviceId: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "DirectionTypeUnknown\000Desc\000Asc\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_DirectionTypeUnknown, KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_Desc, KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_Asc, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_DirectionTypeUnknown: case KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_Desc: case KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_Asc: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "OrderByTypeUnknown\000Id\000SignType\000DeviceId\000" "CreatedAt\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_OrderByTypeUnknown, KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_Id, KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_SignType, KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_DeviceId, KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_CreatedAt, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_OrderByTypeUnknown: case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_Id: case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_SignType: case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_DeviceId: case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_CreatedAt: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "DirectionTypeUnknown\000Desc\000Asc\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_DirectionTypeUnknown, KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_Desc, KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_Asc, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_DirectionTypeUnknown: case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_Desc: case KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_Asc: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Indicator_VendorType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "VendorTypeUnknown\000Enviro\000Lartech\000Rtk\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_VendorTypeUnknown, KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_Enviro, KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_Lartech, KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_Rtk, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Indicator_VendorType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_VendorTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_Enviro: case KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_Lartech: case KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_Rtk: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Indicator_UnitType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "UnitTypeUnknown\000Percent\000C\000Wt\000Gkal\000Value\000" "Kwh\000KgCm2\000KgfCm2\000M3\000M3H\000Mpa\000Ms\000Boolean\000T" "\000TH\000H\000NonMeasurable\000Imp\000J\000Kj\000Gj\000Wth\000Kwt\000" "Min\000S\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_UnitTypeUnknown, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Percent, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_C, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Wt, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Gkal, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Value, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Kwh, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_KgCm2, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_KgfCm2, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_M3, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_M3H, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Mpa, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Ms, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Boolean, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_T, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_TH, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_H, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_NonMeasurable, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Imp, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_J, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Kj, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Gj, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Wth, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Kwt, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Min, KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_S, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Indicator_UnitType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_UnitTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Percent: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_C: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Wt: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Gkal: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Value: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Kwh: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_KgCm2: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_KgfCm2: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_M3: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_M3H: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Mpa: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Ms: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Boolean: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_T: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_TH: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_H: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_NonMeasurable: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Imp: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_J: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Kj: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Gj: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Wth: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Kwt: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_Min: case KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_S: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Indicator_SignType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Indicator_SignType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "SignTypeUnknown\000AbsoluteDs\000AbsoluteRc\000In" "tervalDs\000IntervalRc\000CurrentDs\000CurrentRs\000" "Volume\000Parameter\000Flag\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Indicator_SignType_SignTypeUnknown, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_AbsoluteDs, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_AbsoluteRc, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_IntervalDs, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_IntervalRc, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_CurrentDs, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_CurrentRs, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_Volume, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_Parameter, KEYAPISTELEMETRYCONTROLV1Indicator_SignType_Flag, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Indicator_SignType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Indicator_SignType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Indicator_SignType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_SignTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_AbsoluteDs: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_AbsoluteRc: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_IntervalDs: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_IntervalRc: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_CurrentDs: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_CurrentRs: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_Volume: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_Parameter: case KEYAPISTELEMETRYCONTROLV1Indicator_SignType_Flag: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "ArchiveTypeUnknown\000Current\000Halfhour\000Hour" "\000Day\000Month\000Year\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_ArchiveTypeUnknown, KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Current, KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Halfhour, KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Hour, KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Day, KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Month, KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Year, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_ArchiveTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Current: case KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Halfhour: case KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Hour: case KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Day: case KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Month: case KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_Year: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "SecondaryCurrentTypeUnknown\000Tt1A\000Tt2A\000Tt" "5A\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_SecondaryCurrentTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_Tt1A, KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_Tt2A, KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_Tt5A, }; static const char *extraTextFormatInfo = "\003\001b\002\000\002b\002\000\003b\002\000"; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None extraTextFormatInfo:extraTextFormatInfo]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_SecondaryCurrentTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_Tt1A: case KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_Tt2A: case KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_Tt5A: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_Type GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_Type_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "TypeUnknown\000Hub\000PulseCounterRecorder\000Pul" "seCounterRecorderLr\000MeteringDevice\000Inter" "faceConverter\000MBusHub\000CommunicationModul" "eLr\000BaseLr\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_Type_TypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_Type_Hub, KEYAPISTELEMETRYCONTROLV1Device_Type_PulseCounterRecorder, KEYAPISTELEMETRYCONTROLV1Device_Type_PulseCounterRecorderLr, KEYAPISTELEMETRYCONTROLV1Device_Type_MeteringDevice, KEYAPISTELEMETRYCONTROLV1Device_Type_InterfaceConverter, KEYAPISTELEMETRYCONTROLV1Device_Type_MBusHub, KEYAPISTELEMETRYCONTROLV1Device_Type_CommunicationModuleLr, KEYAPISTELEMETRYCONTROLV1Device_Type_BaseLr, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_Type) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_Type_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_Type_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_Type_TypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_Type_Hub: case KEYAPISTELEMETRYCONTROLV1Device_Type_PulseCounterRecorder: case KEYAPISTELEMETRYCONTROLV1Device_Type_PulseCounterRecorderLr: case KEYAPISTELEMETRYCONTROLV1Device_Type_MeteringDevice: case KEYAPISTELEMETRYCONTROLV1Device_Type_InterfaceConverter: case KEYAPISTELEMETRYCONTROLV1Device_Type_MBusHub: case KEYAPISTELEMETRYCONTROLV1Device_Type_CommunicationModuleLr: case KEYAPISTELEMETRYCONTROLV1Device_Type_BaseLr: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_StatusType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_StatusType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "StatusTypeUnknown\000Received\000Active\000Wrong\000" "Archive\000Delete\000Unlink\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_StatusType_StatusTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_StatusType_Received, KEYAPISTELEMETRYCONTROLV1Device_StatusType_Active, KEYAPISTELEMETRYCONTROLV1Device_StatusType_Wrong, KEYAPISTELEMETRYCONTROLV1Device_StatusType_Archive, KEYAPISTELEMETRYCONTROLV1Device_StatusType_Delete, KEYAPISTELEMETRYCONTROLV1Device_StatusType_Unlink, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_StatusType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_StatusType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_StatusType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_StatusType_StatusTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_StatusType_Received: case KEYAPISTELEMETRYCONTROLV1Device_StatusType_Active: case KEYAPISTELEMETRYCONTROLV1Device_StatusType_Wrong: case KEYAPISTELEMETRYCONTROLV1Device_StatusType_Archive: case KEYAPISTELEMETRYCONTROLV1Device_StatusType_Delete: case KEYAPISTELEMETRYCONTROLV1Device_StatusType_Unlink: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_PlanType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_PlanType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "PlanTypeUnknown\000Single\000Double\000Triple\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_PlanType_PlanTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_PlanType_Single, KEYAPISTELEMETRYCONTROLV1Device_PlanType_Double, KEYAPISTELEMETRYCONTROLV1Device_PlanType_Triple, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_PlanType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_PlanType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_PlanType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_PlanType_PlanTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_PlanType_Single: case KEYAPISTELEMETRYCONTROLV1Device_PlanType_Double: case KEYAPISTELEMETRYCONTROLV1Device_PlanType_Triple: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_PipeType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_PipeType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "PipeTypeUnknown\000Infeed\000Circulating\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_PipeType_PipeTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_PipeType_Infeed, KEYAPISTELEMETRYCONTROLV1Device_PipeType_Circulating, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_PipeType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_PipeType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_PipeType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_PipeType_PipeTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_PipeType_Infeed: case KEYAPISTELEMETRYCONTROLV1Device_PipeType_Circulating: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "MetricTypeUnknown\000HotWater\000ColdWater\000Hea" "t\000Gas\000Electricity\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_MetricTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_HotWater, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_ColdWater, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_Heat, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_Gas, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_Electricity, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_MetricTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_HotWater: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_ColdWater: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_Heat: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_Gas: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_Electricity: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "StatusTypeUnknown\000Active\000Wrong\000Archive\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_StatusTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_Active, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_Wrong, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_Archive, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_StatusTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_Active: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_Wrong: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_Archive: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "AccountingTypeUnknown\000Commercial\000Technic" "al\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_AccountingTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_Commercial, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_Technical, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_AccountingTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_Commercial: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_Technical: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "PrimaryCurrentTypeUnknown\000Tt1A\000Tt5A\000Tt10" "A\000Tt15A\000Tt20A\000Tt30A\000Tt40A\000Tt50A\000Tt75A\000Tt" "80A\000Tt100A\000Tt150A\000Tt200A\000Tt300A\000Tt400A\000T" "t500A\000Tt600A\000Tt750A\000Tt800A\000Tt1000A\000Tt120" "0A\000Tt1500A\000Tt2000A\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_PrimaryCurrentTypeUnknown, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt5A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt10A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt15A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt20A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt30A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt40A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt50A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt75A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt80A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt100A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt150A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt200A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt300A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt400A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt500A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt600A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt750A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt800A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1000A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1200A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1500A, KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt2000A, }; static const char *extraTextFormatInfo = "\027\001b\002\000\002b\002\000\003b\003\000\004b\003\000\005b\003\000\006b\003\000\007b\003\000\010b\003\000\tb\003\000\nb\003\000\013b\004\000\014b\004\000\rb\004\000\016b\004\000\017b\004\000\020b\004\000\021b\004\000\022b\004\000\023b\004\000\024b\005\000\025b\005\000\026b\005\000\027b\005\000"; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None extraTextFormatInfo:extraTextFormatInfo]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_PrimaryCurrentTypeUnknown: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt5A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt10A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt15A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt20A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt30A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt40A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt50A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt75A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt80A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt100A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt150A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt200A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt300A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt400A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt500A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt600A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt750A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt800A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1000A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1200A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt1500A: case KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_Tt2000A: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "OrderByTypeUnknown\000Id\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_OrderByTypeUnknown, KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_Id, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_OrderByTypeUnknown: case KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_Id: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "DirectionTypeUnknown\000Desc\000Asc\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_DirectionTypeUnknown, KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_Desc, KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_Asc, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_DirectionTypeUnknown: case KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_Desc: case KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_Asc: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "OrderByTypeUnknown\000IndicatorId\000MetricPoi" "ntId\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_OrderByTypeUnknown, KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_IndicatorId, KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_MetricPointId, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_OrderByTypeUnknown: case KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_IndicatorId: case KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_MetricPointId: return YES; default: return NO; } } #pragma mark - Enum KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType GPBEnumDescriptor *KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_EnumDescriptor(void) { static _Atomic(GPBEnumDescriptor*) descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static const char *valueNames = "DirectionTypeUnknown\000Desc\000Asc\000"; static const int32_t values[] = { KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_DirectionTypeUnknown, KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_Desc, KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_Asc, }; GPBEnumDescriptor *worker = [GPBEnumDescriptor allocDescriptorForName:GPBNSStringifySymbol(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType) valueNames:valueNames values:values count:(uint32_t)(sizeof(values) / sizeof(int32_t)) enumVerifier:KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_IsValidValue flags:GPBEnumDescriptorInitializationFlag_None]; GPBEnumDescriptor *expected = nil; if (!atomic_compare_exchange_strong(&descriptor, &expected, worker)) { [worker release]; } } return descriptor; } BOOL KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_IsValidValue(int32_t value__) { switch (value__) { case KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_DirectionTypeUnknown: case KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_Desc: case KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_Asc: return YES; default: return NO; } } #pragma mark - KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest @implementation KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest @dynamic id_p; typedef struct KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest__storage_ { uint32_t _has_storage_[1]; int32_t id_p; } KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "id_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest_FieldNumber_Id_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest__storage_, id_p), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest) messageName:@"DeleteDeviceRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeleteDeviceRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1DeleteDeviceResponse @implementation KEYAPISTELEMETRYCONTROLV1DeleteDeviceResponse typedef struct KEYAPISTELEMETRYCONTROLV1DeleteDeviceResponse__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1DeleteDeviceResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeleteDeviceResponse) messageName:@"DeleteDeviceResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeleteDeviceResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest @dynamic hasDeviceGroup, deviceGroup; typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceGroup *deviceGroup; } KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceGroup", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroup), .number = KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest_FieldNumber_DeviceGroup, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest__storage_, deviceGroup), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest) messageName:@"PutDeviceGroupAttachRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachResponse @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachResponse typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachResponse__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachResponse) messageName:@"PutDeviceGroupAttachResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupAttachResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest @dynamic paginationOneOfCase; @dynamic hasFilter, filter; @dynamic paging; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter *filter; KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging *paging; } KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "paging", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest_FieldNumber_Paging, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest__storage_, paging), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest) messageName:@"GetDeviceGroupListRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "pagination", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest_ClearPaginationOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListRequest descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging @implementation KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging @dynamic orderByType; @dynamic directionType; @dynamic limit; @dynamic offset; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType orderByType; KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType directionType; int32_t limit; int32_t offset; } KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "orderByType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_OrderByType, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging__storage_, orderByType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "directionType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_DirectionType, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging__storage_, directionType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "limit", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_Limit, .hasIndex = 2, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging__storage_, limit), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "offset", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_Offset, .hasIndex = 3, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging__storage_, offset), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging) messageName:@"DeviceGroupPaging" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end int32_t KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_OrderByType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_OrderByType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_DirectionType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceGroupPaging_FieldNumber_DirectionType]; GPBSetMessageRawEnumField(message, field, value); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse @dynamic typeOneOfCase; @dynamic data_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DeviceGroup *data_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroup), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse) messageName:@"GetDeviceGroupListResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceGroupListResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest @dynamic hasFilter, filter; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter *filter; } KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest) messageName:@"GetDeviceGroupCountRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter @implementation KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter @dynamic groupIdsArray, groupIdsArray_Count; @dynamic deviceIdsArray, deviceIdsArray_Count; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter__storage_ { uint32_t _has_storage_[1]; NSMutableArray *groupIdsArray; GPBInt32Array *deviceIdsArray; } KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "groupIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter_FieldNumber_GroupIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter__storage_, groupIdsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "deviceIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter_FieldNumber_DeviceIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter__storage_, deviceIdsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter) messageName:@"DeviceGroupFilter" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceGroupFilter__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse @dynamic typeOneOfCase; @dynamic data_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse__storage_ { uint32_t _has_storage_[2]; int32_t data_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse) messageName:@"GetDeviceGroupCountResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceGroupCountResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest @dynamic hasDeviceGroup, deviceGroup; typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceGroup *deviceGroup; } KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceGroup", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroup), .number = KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest_FieldNumber_DeviceGroup, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest__storage_, deviceGroup), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest) messageName:@"PutDeviceGroupDetachRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachResponse @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachResponse typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachResponse__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachResponse) messageName:@"PutDeviceGroupDetachResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceGroupDetachResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceGroup @implementation KEYAPISTELEMETRYCONTROLV1DeviceGroup @dynamic groupId; @dynamic deviceId; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceGroup__storage_ { uint32_t _has_storage_[1]; int32_t deviceId; NSString *groupId; } KEYAPISTELEMETRYCONTROLV1DeviceGroup__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "groupId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroup_FieldNumber_GroupId, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroup__storage_, groupId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "deviceId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceGroup_FieldNumber_DeviceId, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceGroup__storage_, deviceId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceGroup) messageName:@"DeviceGroup" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceGroup__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest @dynamic hasData_p, data_p; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1Indicator *data_p; } KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest_FieldNumber_Data_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest) messageName:@"PostDeviceIndicatorRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse @dynamic typeOneOfCase; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Indicator *data_p; KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error *error; } KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse) messageName:@"PostDeviceIndicatorResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error @dynamic reasonOneOfCase; @dynamic validation; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError *validation; } KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "validation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error_FieldNumber_Validation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error__storage_, validation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceIndicatorResponse_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest @dynamic id_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest__storage_ { uint32_t _has_storage_[1]; int32_t id_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "id_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest_FieldNumber_Id_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest__storage_, id_p), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest) messageName:@"GetDeviceIndicatorRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse @dynamic typeOneOfCase; @dynamic data_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Indicator *data_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse) messageName:@"GetDeviceIndicatorResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceRequest @dynamic id_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceRequest__storage_ { uint32_t _has_storage_[1]; int32_t id_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "id_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1GetDeviceRequest_FieldNumber_Id_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceRequest__storage_, id_p), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceRequest) messageName:@"GetDeviceRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceResponse @dynamic typeOneOfCase; @dynamic data_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Device *data_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceResponse) messageName:@"GetDeviceResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest @dynamic paginationOneOfCase; @dynamic hasFilter, filter; @dynamic paging; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1IndicatorFilter *filter; KEYAPISTELEMETRYCONTROLV1IndicatorPaging *paging; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "paging", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest_FieldNumber_Paging, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest__storage_, paging), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest) messageName:@"GetDeviceIndicatorListRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "pagination", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest_ClearPaginationOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListRequest descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1IndicatorPaging @implementation KEYAPISTELEMETRYCONTROLV1IndicatorPaging @dynamic orderByType; @dynamic directionType; @dynamic limit; @dynamic offset; typedef struct KEYAPISTELEMETRYCONTROLV1IndicatorPaging__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType orderByType; KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType directionType; int32_t limit; int32_t offset; } KEYAPISTELEMETRYCONTROLV1IndicatorPaging__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "orderByType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_OrderByType, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging__storage_, orderByType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "directionType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_DirectionType, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging__storage_, directionType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "limit", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_Limit, .hasIndex = 2, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging__storage_, limit), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "offset", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_Offset, .hasIndex = 3, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging__storage_, offset), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging) messageName:@"IndicatorPaging" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end int32_t KEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1IndicatorPaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1IndicatorPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_OrderByType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1IndicatorPaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1IndicatorPaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1IndicatorPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_OrderByType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1IndicatorPaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1IndicatorPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_DirectionType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1IndicatorPaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1IndicatorPaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1IndicatorPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1IndicatorPaging_FieldNumber_DirectionType]; GPBSetMessageRawEnumField(message, field, value); } #pragma mark - KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError @implementation KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError @dynamic reasonOneOfCase; @dynamic limit; @dynamic offset; typedef struct KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid *limit; KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid *offset; } KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "limit", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid), .number = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_FieldNumber_Limit, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError__storage_, limit), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "offset", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid), .number = KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_FieldNumber_Offset, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError__storage_, offset), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError) messageName:@"ValidationError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid @implementation KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid typedef struct KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid) messageName:@"LimitInvalid" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_LimitInvalid__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid @implementation KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid typedef struct KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid) messageName:@"OffsetInvalid" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError_OffsetInvalid__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse @dynamic typeOneOfCase; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Indicator *data_p; KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error *error; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse) messageName:@"GetDeviceIndicatorListResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error @dynamic reasonOneOfCase; @dynamic deviceFilterValidation; @dynamic devicePagingValidation; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError *deviceFilterValidation; KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError *devicePagingValidation; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceFilterValidation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error_FieldNumber_DeviceFilterValidation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error__storage_, deviceFilterValidation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "devicePagingValidation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorPaging_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error_FieldNumber_DevicePagingValidation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error__storage_, devicePagingValidation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorListResponse_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1IndicatorFilter @implementation KEYAPISTELEMETRYCONTROLV1IndicatorFilter @dynamic deviceIdsArray, deviceIdsArray_Count; @dynamic signTypesArray, signTypesArray_Count; @dynamic idsArray, idsArray_Count; @dynamic deviceSerialNumbersArray, deviceSerialNumbersArray_Count; @dynamic buildingIdsArray, buildingIdsArray_Count; @dynamic roomNumbersArray, roomNumbersArray_Count; @dynamic roomLabelsArray, roomLabelsArray_Count; @dynamic metricPointIdsArray, metricPointIdsArray_Count; @dynamic indicatorVendorTypesArray, indicatorVendorTypesArray_Count; typedef struct KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_ { uint32_t _has_storage_[1]; GPBInt32Array *deviceIdsArray; GPBEnumArray *signTypesArray; GPBInt32Array *idsArray; NSMutableArray *deviceSerialNumbersArray; GPBInt32Array *buildingIdsArray; NSMutableArray *roomNumbersArray; NSMutableArray *roomLabelsArray; NSMutableArray *metricPointIdsArray; GPBEnumArray *indicatorVendorTypesArray; } KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_DeviceIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, deviceIdsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, { .name = "signTypesArray", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_SignType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_SignTypesArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, signTypesArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked | GPBFieldHasEnumDescriptor), .dataType = GPBDataTypeEnum, }, { .name = "idsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_IdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, idsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, { .name = "deviceSerialNumbersArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_DeviceSerialNumbersArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, deviceSerialNumbersArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "buildingIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_BuildingIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, buildingIdsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, { .name = "roomNumbersArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_RoomNumbersArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, roomNumbersArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "roomLabelsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_RoomLabelsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, roomLabelsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "metricPointIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_MetricPointIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, metricPointIdsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "indicatorVendorTypesArray", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_FieldNumber_IndicatorVendorTypesArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_, indicatorVendorTypesArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked | GPBFieldHasEnumDescriptor), .dataType = GPBDataTypeEnum, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorFilter) messageName:@"IndicatorFilter" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError @implementation KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError @dynamic path; @dynamic message; typedef struct KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError__storage_ { uint32_t _has_storage_[1]; NSString *path; NSString *message; } KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "path", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError_FieldNumber_Path, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError__storage_, path), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "message", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError_FieldNumber_Message, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError__storage_, message), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError) messageName:@"ValidationError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorFilter)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest @dynamic hasFilter, filter; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1IndicatorFilter *filter; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest) messageName:@"GetDeviceIndicatorCountRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse @dynamic typeOneOfCase; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse__storage_ { uint32_t _has_storage_[2]; int32_t data_p; KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error *error; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeInt32, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse) messageName:@"GetDeviceIndicatorCountResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error @dynamic reasonOneOfCase; @dynamic deviceFilterValidation; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError *deviceFilterValidation; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceFilterValidation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1IndicatorFilter_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error_FieldNumber_DeviceFilterValidation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error__storage_, deviceFilterValidation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorCountResponse_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest @implementation KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest @dynamic id_p; typedef struct KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest__storage_ { uint32_t _has_storage_[1]; int32_t id_p; } KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "id_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest_FieldNumber_Id_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest__storage_, id_p), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest) messageName:@"DeleteDeviceIndicatorRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorResponse @implementation KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorResponse typedef struct KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorResponse__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorResponse) messageName:@"DeleteDeviceIndicatorResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeleteDeviceIndicatorResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest @dynamic taskOneOfCase; @dynamic requestId; @dynamic postDeviceFullDuplexDeviceAsyncStatus; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest__storage_ { uint32_t _has_storage_[2]; NSString *requestId; KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus *postDeviceFullDuplexDeviceAsyncStatus; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "requestId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_FieldNumber_RequestId, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest__storage_, requestId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "postDeviceFullDuplexDeviceAsyncStatus", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_FieldNumber_PostDeviceFullDuplexDeviceAsyncStatus, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest__storage_, postDeviceFullDuplexDeviceAsyncStatus), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest) messageName:@"PostDeviceFullDuplexRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "task", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_ClearTaskOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus @dynamic typeOneOfCase; @dynamic deviceId; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus__storage_ { uint32_t _has_storage_[2]; int32_t deviceId; KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success *data_p; KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error *error; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_FieldNumber_DeviceId, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus__storage_, deviceId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus) messageName:@"DeviceAsyncStatus" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success) messageName:@"Success" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Success__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error @dynamic reasonOneOfCase; @dynamic postDeviceRequestUnknown; @dynamic postDeviceRequestIp; @dynamic postDeviceRequestPort; @dynamic postDeviceRequestNetworkAddress; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError *postDeviceRequestUnknown; KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError *postDeviceRequestIp; KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError *postDeviceRequestPort; KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError *postDeviceRequestNetworkAddress; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "postDeviceRequestUnknown", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_FieldNumber_PostDeviceRequestUnknown, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error__storage_, postDeviceRequestUnknown), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "postDeviceRequestIp", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_FieldNumber_PostDeviceRequestIp, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error__storage_, postDeviceRequestIp), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "postDeviceRequestPort", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_FieldNumber_PostDeviceRequestPort, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error__storage_, postDeviceRequestPort), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "postDeviceRequestNetworkAddress", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_FieldNumber_PostDeviceRequestNetworkAddress, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error__storage_, postDeviceRequestNetworkAddress), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError @dynamic message; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError__storage_ { uint32_t _has_storage_[1]; NSString *message; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "message", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError_FieldNumber_Message, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError__storage_, message), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError) messageName:@"UnknownError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_UnknownError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError) messageName:@"IpError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_IpError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError) messageName:@"PortError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_PortError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError) messageName:@"NetworkAddressError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error_NetworkAddressError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexRequest_DeviceAsyncStatus_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceRequest @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceRequest @dynamic hasDevice, device; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1Device *device; } KEYAPISTELEMETRYCONTROLV1PostDeviceRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "device", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceRequest_FieldNumber_Device, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceRequest__storage_, device), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceRequest) messageName:@"PostDeviceRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest @dynamic replaceDeviceId; @dynamic hasDevice, device; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest__storage_ { uint32_t _has_storage_[1]; int32_t replaceDeviceId; KEYAPISTELEMETRYCONTROLV1Device *device; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "replaceDeviceId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest_FieldNumber_ReplaceDeviceId, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest__storage_, replaceDeviceId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "device", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest_FieldNumber_Device, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest__storage_, device), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest) messageName:@"PostDeviceReplaceRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse @dynamic typeOneOfCase; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Device *data_p; KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error *error; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse) messageName:@"PostDeviceReplaceResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error @dynamic reasonOneOfCase; @dynamic validation; @dynamic replaceDeviceNotFound; @dynamic createIndicatorsFail; @dynamic multiLinkedMetricPoint; @dynamic wrongBuilding; @dynamic metricPointNotFound; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Device_ValidationError *validation; KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound *replaceDeviceNotFound; KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail *createIndicatorsFail; KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint *multiLinkedMetricPoint; KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding *wrongBuilding; KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound *metricPointNotFound; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "validation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_FieldNumber_Validation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_, validation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "replaceDeviceNotFound", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_FieldNumber_ReplaceDeviceNotFound, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_, replaceDeviceNotFound), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "createIndicatorsFail", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_FieldNumber_CreateIndicatorsFail, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_, createIndicatorsFail), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "multiLinkedMetricPoint", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_FieldNumber_MultiLinkedMetricPoint, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_, multiLinkedMetricPoint), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "wrongBuilding", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_FieldNumber_WrongBuilding, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_, wrongBuilding), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "metricPointNotFound", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_FieldNumber_MetricPointNotFound, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_, metricPointNotFound), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound) messageName:@"ReplaceDeviceNotFound" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_ReplaceDeviceNotFound__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail) messageName:@"CreateIndicatorsFail" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_CreateIndicatorsFail__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint) messageName:@"MultiLinkedMetricPoint" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MultiLinkedMetricPoint__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding) messageName:@"WrongBuilding" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_WrongBuilding__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound) messageName:@"MetricPointNotFound" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error_MetricPointNotFound__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceReplaceResponse_Error)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse @dynamic eventOneOfCase; @dynamic requestId; @dynamic postDevice; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse__storage_ { uint32_t _has_storage_[2]; NSString *requestId; KEYAPISTELEMETRYCONTROLV1PostDeviceResponse *postDevice; } KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "requestId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse_FieldNumber_RequestId, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse__storage_, requestId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "postDevice", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse_FieldNumber_PostDevice, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse__storage_, postDevice), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse) messageName:@"PostDeviceFullDuplexResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "event", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse_ClearEventOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceFullDuplexResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceResponse @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceResponse @dynamic typeOneOfCase; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Device *data_p; KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error *error; } KEYAPISTELEMETRYCONTROLV1PostDeviceResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse) messageName:@"PostDeviceResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error @implementation KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error @dynamic reasonOneOfCase; @dynamic validation; typedef struct KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Device_ValidationError *validation; } KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "validation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error_FieldNumber_Validation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error__storage_, validation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1PostDeviceResponse_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1Indicator @implementation KEYAPISTELEMETRYCONTROLV1Indicator @dynamic id_p; @dynamic deviceId; @dynamic title; @dynamic unitType; @dynamic signType; @dynamic hasCreatedAt, createdAt; @dynamic hasChangedAt, changedAt; @dynamic isIndividual; @dynamic hasCompatibilityCode, compatibilityCode; @dynamic archiveType; @dynamic presentationUnitType; @dynamic hasCoefficient, coefficient; @dynamic hasShift, shift; @dynamic hasRoundDecimalDigits, roundDecimalDigits; @dynamic metricExpectedFreq; @dynamic hasChannelNumber, channelNumber; @dynamic hasChannelOrder, channelOrder; @dynamic vendorType; typedef struct KEYAPISTELEMETRYCONTROLV1Indicator__storage_ { uint32_t _has_storage_[1]; int32_t id_p; int32_t deviceId; KEYAPISTELEMETRYCONTROLV1Indicator_UnitType unitType; KEYAPISTELEMETRYCONTROLV1Indicator_SignType signType; KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType archiveType; KEYAPISTELEMETRYCONTROLV1Indicator_UnitType presentationUnitType; int32_t metricExpectedFreq; KEYAPISTELEMETRYCONTROLV1Indicator_VendorType vendorType; NSString *title; GPBTimestamp *createdAt; GPBTimestamp *changedAt; GPBStringValue *compatibilityCode; GPBFloatValue *coefficient; GPBFloatValue *shift; GPBInt32Value *roundDecimalDigits; GPBStringValue *channelNumber; GPBInt32Value *channelOrder; } KEYAPISTELEMETRYCONTROLV1Indicator__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "id_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_Id_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, id_p), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "deviceId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_DeviceId, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, deviceId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "title", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_Title, .hasIndex = 2, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, title), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "unitType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_UnitType, .hasIndex = 3, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, unitType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "signType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_SignType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_SignType, .hasIndex = 4, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, signType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "createdAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_CreatedAt, .hasIndex = 5, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, createdAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "changedAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_ChangedAt, .hasIndex = 6, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, changedAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "isIndividual", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_IsIndividual, .hasIndex = 7, .offset = 8, // Stored in _has_storage_ to save space. .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeBool, }, { .name = "compatibilityCode", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_CompatibilityCode, .hasIndex = 9, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, compatibilityCode), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "archiveType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_ArchiveType, .hasIndex = 10, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, archiveType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "presentationUnitType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_PresentationUnitType, .hasIndex = 11, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, presentationUnitType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "coefficient", .dataTypeSpecific.clazz = GPBObjCClass(GPBFloatValue), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_Coefficient, .hasIndex = 12, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, coefficient), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "shift", .dataTypeSpecific.clazz = GPBObjCClass(GPBFloatValue), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_Shift, .hasIndex = 13, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, shift), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "roundDecimalDigits", .dataTypeSpecific.clazz = GPBObjCClass(GPBInt32Value), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_RoundDecimalDigits, .hasIndex = 14, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, roundDecimalDigits), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "metricExpectedFreq", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_MetricExpectedFreq, .hasIndex = 15, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, metricExpectedFreq), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "channelNumber", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_ChannelNumber, .hasIndex = 16, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, channelNumber), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "channelOrder", .dataTypeSpecific.clazz = GPBObjCClass(GPBInt32Value), .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_ChannelOrder, .hasIndex = 17, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, channelOrder), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "vendorType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_VendorType, .hasIndex = 18, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_, vendorType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator) messageName:@"Indicator" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1Indicator__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end int32_t KEYAPISTELEMETRYCONTROLV1Indicator_UnitType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_UnitType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Indicator_UnitType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_UnitType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Indicator_SignType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_SignType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Indicator_SignType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_SignType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_ArchiveType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Indicator_ArchiveType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_ArchiveType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Indicator_PresentationUnitType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_PresentationUnitType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Indicator_PresentationUnitType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_PresentationUnitType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_VendorType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Indicator_VendorType_RawValue(KEYAPISTELEMETRYCONTROLV1Indicator *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Indicator descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Indicator_FieldNumber_VendorType]; GPBSetMessageRawEnumField(message, field, value); } #pragma mark - KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError @implementation KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError @dynamic path; @dynamic message; typedef struct KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError__storage_ { uint32_t _has_storage_[1]; NSString *path; NSString *message; } KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "path", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError_FieldNumber_Path, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError__storage_, path), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "message", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError_FieldNumber_Message, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError__storage_, message), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError) messageName:@"ValidationError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1Indicator_ValidationError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1Device @implementation KEYAPISTELEMETRYCONTROLV1Device @dynamic id_p; @dynamic indicatorsArray, indicatorsArray_Count; @dynamic hasMetricPoint, metricPoint; @dynamic hasCreatedAt, createdAt; @dynamic hasChangedAt, changedAt; @dynamic type; @dynamic serialNumber; @dynamic model; @dynamic year; @dynamic fiasId; @dynamic resourceOwnerId; @dynamic statusType; @dynamic hasInstalledAt, installedAt; @dynamic hasRemovedAt, removedAt; @dynamic hasCheckAt, checkAt; @dynamic hasNextCheckAt, nextCheckAt; @dynamic hasExternalId, externalId; @dynamic planType; @dynamic hasParentId, parentId; @dynamic pipeType; @dynamic hasDevEui, devEui; @dynamic hasMac, mac; @dynamic hasPort, port; @dynamic hasNetworkAddress, networkAddress; @dynamic hasCommChannel, commChannel; @dynamic hasSimNumber, simNumber; @dynamic hasSimSerial, simSerial; @dynamic hasIpAddressSim, ipAddressSim; @dynamic hasPlacement, placement; @dynamic hasInstallationPlace, installationPlace; @dynamic hasAppkey, appkey; @dynamic hasAppeui, appeui; @dynamic hasProtocolTypeLabel, protocolTypeLabel; @dynamic hasChannelNumber, channelNumber; @dynamic hasWireInterface, wireInterface; @dynamic buildingId; @dynamic hasManufactureYear, manufactureYear; @dynamic indicatorVendorType; typedef struct KEYAPISTELEMETRYCONTROLV1Device__storage_ { uint32_t _has_storage_[2]; int32_t id_p; KEYAPISTELEMETRYCONTROLV1Device_Type type; int32_t year; KEYAPISTELEMETRYCONTROLV1Device_StatusType statusType; KEYAPISTELEMETRYCONTROLV1Device_PlanType planType; KEYAPISTELEMETRYCONTROLV1Device_PipeType pipeType; int32_t buildingId; KEYAPISTELEMETRYCONTROLV1Indicator_VendorType indicatorVendorType; NSMutableArray *indicatorsArray; KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *metricPoint; GPBTimestamp *createdAt; GPBTimestamp *changedAt; NSString *serialNumber; NSString *model; NSString *fiasId; NSString *resourceOwnerId; GPBTimestamp *installedAt; GPBTimestamp *removedAt; GPBTimestamp *checkAt; GPBTimestamp *nextCheckAt; GPBStringValue *externalId; GPBInt32Value *parentId; GPBStringValue *devEui; GPBStringValue *mac; GPBInt32Value *port; GPBStringValue *networkAddress; GPBStringValue *commChannel; GPBStringValue *simNumber; GPBStringValue *simSerial; GPBStringValue *ipAddressSim; GPBStringValue *placement; GPBStringValue *installationPlace; GPBStringValue *appkey; GPBStringValue *appeui; GPBStringValue *protocolTypeLabel; GPBInt32Value *channelNumber; GPBStringValue *wireInterface; GPBInt32Value *manufactureYear; } KEYAPISTELEMETRYCONTROLV1Device__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "id_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Id_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, id_p), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "indicatorsArray", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Indicator), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_IndicatorsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, indicatorsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeMessage, }, { .name = "metricPoint", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_MetricPoint, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, metricPoint), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "createdAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_CreatedAt, .hasIndex = 2, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, createdAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "changedAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_ChangedAt, .hasIndex = 3, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, changedAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "type", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_Type_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Type, .hasIndex = 4, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, type), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "serialNumber", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_SerialNumber, .hasIndex = 5, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, serialNumber), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "model", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Model, .hasIndex = 6, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, model), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "year", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Year, .hasIndex = 7, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, year), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "fiasId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_FiasId, .hasIndex = 8, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, fiasId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "resourceOwnerId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_ResourceOwnerId, .hasIndex = 9, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, resourceOwnerId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "statusType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_StatusType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_StatusType, .hasIndex = 10, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, statusType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "installedAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_InstalledAt, .hasIndex = 11, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, installedAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "removedAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_RemovedAt, .hasIndex = 12, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, removedAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "checkAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_CheckAt, .hasIndex = 13, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, checkAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "nextCheckAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_NextCheckAt, .hasIndex = 14, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, nextCheckAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "externalId", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_ExternalId, .hasIndex = 15, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, externalId), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "planType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_PlanType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_PlanType, .hasIndex = 16, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, planType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "parentId", .dataTypeSpecific.clazz = GPBObjCClass(GPBInt32Value), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_ParentId, .hasIndex = 17, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, parentId), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "pipeType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_PipeType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_PipeType, .hasIndex = 18, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, pipeType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "devEui", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_DevEui, .hasIndex = 19, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, devEui), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "mac", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Mac, .hasIndex = 20, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, mac), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "port", .dataTypeSpecific.clazz = GPBObjCClass(GPBInt32Value), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Port, .hasIndex = 21, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, port), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "networkAddress", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_NetworkAddress, .hasIndex = 22, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, networkAddress), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "commChannel", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_CommChannel, .hasIndex = 23, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, commChannel), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "simNumber", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_SimNumber, .hasIndex = 24, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, simNumber), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "simSerial", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_SimSerial, .hasIndex = 25, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, simSerial), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "ipAddressSim", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_IpAddressSim, .hasIndex = 26, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, ipAddressSim), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "placement", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Placement, .hasIndex = 27, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, placement), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "installationPlace", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_InstallationPlace, .hasIndex = 28, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, installationPlace), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "appkey", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Appkey, .hasIndex = 29, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, appkey), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "appeui", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Appeui, .hasIndex = 30, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, appeui), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "protocolTypeLabel", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_ProtocolTypeLabel, .hasIndex = 31, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, protocolTypeLabel), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "channelNumber", .dataTypeSpecific.clazz = GPBObjCClass(GPBInt32Value), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_ChannelNumber, .hasIndex = 32, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, channelNumber), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "wireInterface", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_WireInterface, .hasIndex = 33, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, wireInterface), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "buildingId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_BuildingId, .hasIndex = 34, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, buildingId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "manufactureYear", .dataTypeSpecific.clazz = GPBObjCClass(GPBInt32Value), .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_ManufactureYear, .hasIndex = 35, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, manufactureYear), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "indicatorVendorType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_IndicatorVendorType, .hasIndex = 36, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device__storage_, indicatorVendorType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device) messageName:@"Device" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1Device__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end int32_t KEYAPISTELEMETRYCONTROLV1Device_Type_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Type]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_Type_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_Type]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_StatusType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_StatusType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_StatusType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_StatusType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_PlanType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_PlanType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_PlanType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_PlanType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_PipeType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_PipeType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_PipeType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_PipeType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_IndicatorVendorType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_IndicatorVendorType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_IndicatorVendorType_RawValue(KEYAPISTELEMETRYCONTROLV1Device *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_FieldNumber_IndicatorVendorType]; GPBSetMessageRawEnumField(message, field, value); } #pragma mark - KEYAPISTELEMETRYCONTROLV1Device_ValidationError @implementation KEYAPISTELEMETRYCONTROLV1Device_ValidationError @dynamic path; @dynamic message; typedef struct KEYAPISTELEMETRYCONTROLV1Device_ValidationError__storage_ { uint32_t _has_storage_[1]; NSString *path; NSString *message; } KEYAPISTELEMETRYCONTROLV1Device_ValidationError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "path", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_ValidationError_FieldNumber_Path, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_ValidationError__storage_, path), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "message", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_ValidationError_FieldNumber_Message, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_ValidationError__storage_, message), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device_ValidationError) messageName:@"ValidationError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1Device_ValidationError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1Device_MetricPoint @implementation KEYAPISTELEMETRYCONTROLV1Device_MetricPoint @dynamic id_p; @dynamic metricType; @dynamic roomNumber; @dynamic roomLabel; @dynamic hasZoneLabel, zoneLabel; @dynamic statusType; @dynamic accountingType; @dynamic hasCreatedAt, createdAt; @dynamic primaryCurrentType; @dynamic secondaryCurrentType; @dynamic buildingId; @dynamic hasChangedAt, changedAt; @dynamic buildingLevel; @dynamic buildingSection; typedef struct KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType metricType; KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType statusType; KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType accountingType; KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType primaryCurrentType; KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType secondaryCurrentType; int32_t buildingId; int32_t buildingLevel; int32_t buildingSection; NSString *id_p; NSString *roomNumber; NSString *roomLabel; GPBStringValue *zoneLabel; GPBTimestamp *createdAt; GPBTimestamp *changedAt; } KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "id_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_Id_p, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, id_p), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "metricType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_MetricType, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, metricType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "roomNumber", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_RoomNumber, .hasIndex = 2, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, roomNumber), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "roomLabel", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_RoomLabel, .hasIndex = 3, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, roomLabel), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "zoneLabel", .dataTypeSpecific.clazz = GPBObjCClass(GPBStringValue), .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_ZoneLabel, .hasIndex = 4, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, zoneLabel), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "statusType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_StatusType, .hasIndex = 5, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, statusType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "accountingType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_AccountingType, .hasIndex = 6, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, accountingType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "createdAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_CreatedAt, .hasIndex = 7, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, createdAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "primaryCurrentType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_PrimaryCurrentType, .hasIndex = 8, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, primaryCurrentType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "secondaryCurrentType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_SecondaryCurrentType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_SecondaryCurrentType, .hasIndex = 9, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, secondaryCurrentType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "buildingId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_BuildingId, .hasIndex = 10, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, buildingId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "changedAt", .dataTypeSpecific.clazz = GPBObjCClass(GPBTimestamp), .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_ChangedAt, .hasIndex = 11, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, changedAt), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "buildingLevel", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_BuildingLevel, .hasIndex = 12, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, buildingLevel), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "buildingSection", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_BuildingSection, .hasIndex = 13, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_, buildingSection), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint) messageName:@"MetricPoint" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end int32_t KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_MetricType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_MetricType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_StatusType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_MetricPoint_StatusType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_StatusType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_AccountingType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_MetricPoint_AccountingType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_AccountingType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_PrimaryCurrentType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_MetricPoint_PrimaryCurrentType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_PrimaryCurrentType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_SecondaryCurrentType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_SecondaryCurrentType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1Device_MetricPoint_SecondaryCurrentType_RawValue(KEYAPISTELEMETRYCONTROLV1Device_MetricPoint *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1Device_MetricPoint descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_FieldNumber_SecondaryCurrentType]; GPBSetMessageRawEnumField(message, field, value); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest @dynamic paginationOneOfCase; @dynamic hasFilter, filter; @dynamic paging; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DeviceFilter *filter; KEYAPISTELEMETRYCONTROLV1DevicePaging *paging; } KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "paging", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest_FieldNumber_Paging, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest__storage_, paging), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest) messageName:@"GetDeviceListRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "pagination", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest_ClearPaginationOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceListRequest descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DevicePaging @implementation KEYAPISTELEMETRYCONTROLV1DevicePaging @dynamic orderByType; @dynamic directionType; @dynamic limit; @dynamic offset; typedef struct KEYAPISTELEMETRYCONTROLV1DevicePaging__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType orderByType; KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType directionType; int32_t limit; int32_t offset; } KEYAPISTELEMETRYCONTROLV1DevicePaging__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "orderByType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_OrderByType, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DevicePaging__storage_, orderByType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "directionType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_DirectionType, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DevicePaging__storage_, directionType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "limit", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_Limit, .hasIndex = 2, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DevicePaging__storage_, limit), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "offset", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_Offset, .hasIndex = 3, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DevicePaging__storage_, offset), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging) messageName:@"DevicePaging" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DevicePaging__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end int32_t KEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1DevicePaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DevicePaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_OrderByType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1DevicePaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1DevicePaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DevicePaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_OrderByType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1DevicePaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DevicePaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_DirectionType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1DevicePaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1DevicePaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DevicePaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DevicePaging_FieldNumber_DirectionType]; GPBSetMessageRawEnumField(message, field, value); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError @implementation KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError @dynamic reasonOneOfCase; @dynamic limit; @dynamic offset; typedef struct KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid *limit; KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid *offset; } KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "limit", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid), .number = KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_FieldNumber_Limit, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError__storage_, limit), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "offset", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid), .number = KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_FieldNumber_Offset, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError__storage_, offset), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError) messageName:@"ValidationError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid @implementation KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid typedef struct KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid) messageName:@"LimitInvalid" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_LimitInvalid__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid @implementation KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid typedef struct KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid) messageName:@"OffsetInvalid" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError_OffsetInvalid__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse @dynamic typeOneOfCase; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1Device *data_p; KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error *error; } KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1Device), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse) messageName:@"GetDeviceListResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error @dynamic reasonOneOfCase; @dynamic deviceFilterValidation; @dynamic devicePagingValidation; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError *deviceFilterValidation; KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError *devicePagingValidation; } KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceFilterValidation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error_FieldNumber_DeviceFilterValidation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error__storage_, deviceFilterValidation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "devicePagingValidation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DevicePaging_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error_FieldNumber_DevicePagingValidation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error__storage_, devicePagingValidation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceListResponse_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceFilter @implementation KEYAPISTELEMETRYCONTROLV1DeviceFilter @dynamic fiasIdsArray, fiasIdsArray_Count; @dynamic typesArray, typesArray_Count; @dynamic statusTypesArray, statusTypesArray_Count; @dynamic modelsArray, modelsArray_Count; @dynamic metricPointMetricTypesArray, metricPointMetricTypesArray_Count; @dynamic roomNumbersArray, roomNumbersArray_Count; @dynamic roomLabelsArray, roomLabelsArray_Count; @dynamic parentIdsArray, parentIdsArray_Count; @dynamic idsArray, idsArray_Count; @dynamic buildingIdsArray, buildingIdsArray_Count; @dynamic serialNumbersArray, serialNumbersArray_Count; @dynamic metricPointIdsArray, metricPointIdsArray_Count; @dynamic serialIdsArray, serialIdsArray_Count; @dynamic orponsArray, orponsArray_Count; @dynamic indicatorVendorTypesArray, indicatorVendorTypesArray_Count; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_ { uint32_t _has_storage_[1]; NSMutableArray *fiasIdsArray; GPBEnumArray *typesArray; GPBEnumArray *statusTypesArray; NSMutableArray *modelsArray; GPBEnumArray *metricPointMetricTypesArray; NSMutableArray *roomNumbersArray; NSMutableArray *roomLabelsArray; GPBInt32Array *parentIdsArray; GPBInt32Array *idsArray; GPBInt32Array *buildingIdsArray; NSMutableArray *serialNumbersArray; NSMutableArray *metricPointIdsArray; NSMutableArray *serialIdsArray; GPBInt64Array *orponsArray; GPBEnumArray *indicatorVendorTypesArray; } KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "fiasIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_FiasIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, fiasIdsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "typesArray", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_Type_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_TypesArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, typesArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked | GPBFieldHasEnumDescriptor), .dataType = GPBDataTypeEnum, }, { .name = "statusTypesArray", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_StatusType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_StatusTypesArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, statusTypesArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked | GPBFieldHasEnumDescriptor), .dataType = GPBDataTypeEnum, }, { .name = "modelsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_ModelsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, modelsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "metricPointMetricTypesArray", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Device_MetricPoint_MetricType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_MetricPointMetricTypesArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, metricPointMetricTypesArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked | GPBFieldHasEnumDescriptor), .dataType = GPBDataTypeEnum, }, { .name = "roomNumbersArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_RoomNumbersArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, roomNumbersArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "roomLabelsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_RoomLabelsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, roomLabelsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "parentIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_ParentIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, parentIdsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, { .name = "idsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_IdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, idsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, { .name = "buildingIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_BuildingIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, buildingIdsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, { .name = "serialNumbersArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_SerialNumbersArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, serialNumbersArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "metricPointIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_MetricPointIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, metricPointIdsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "serialIdsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_SerialIdsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, serialIdsArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, { .name = "orponsArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_OrponsArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, orponsArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt64, }, { .name = "indicatorVendorTypesArray", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1Indicator_VendorType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_FieldNumber_IndicatorVendorTypesArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_, indicatorVendorTypesArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked | GPBFieldHasEnumDescriptor), .dataType = GPBDataTypeEnum, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceFilter) messageName:@"DeviceFilter" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceFilter__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError @implementation KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError @dynamic path; @dynamic message; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError__storage_ { uint32_t _has_storage_[1]; NSString *path; NSString *message; } KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "path", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError_FieldNumber_Path, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError__storage_, path), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, { .name = "message", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError_FieldNumber_Message, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError__storage_, message), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError) messageName:@"ValidationError" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceFilter)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest @dynamic hasFilter, filter; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceFilter *filter; } KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest) messageName:@"GetDeviceCountRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceCountRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse @dynamic typeOneOfCase; @dynamic data_p; @dynamic error; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse__storage_ { uint32_t _has_storage_[2]; int32_t data_p; KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error *error; } KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeInt32, }, { .name = "error", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_FieldNumber_Error, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse__storage_, error), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse) messageName:@"GetDeviceCountResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error @dynamic reasonOneOfCase; @dynamic deviceFilterValidation; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError *deviceFilterValidation; } KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceFilterValidation", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceFilter_ValidationError), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error_FieldNumber_DeviceFilterValidation, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error__storage_, deviceFilterValidation), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error) messageName:@"Error" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "reason", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; [localDescriptor setupContainingMessageClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error_ClearReasonOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceCountResponse_Error descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest @dynamic paginationOneOfCase; @dynamic hasFilter, filter; @dynamic paging; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter *filter; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging *paging; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, { .name = "paging", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest_FieldNumber_Paging, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest__storage_, paging), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest) messageName:@"GetDeviceIndicatorMetricPointListRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "pagination", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest_ClearPaginationOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListRequest descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter @implementation KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter @dynamic indicatorIdArray, indicatorIdArray_Count; @dynamic metricPointIdArray, metricPointIdArray_Count; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter__storage_ { uint32_t _has_storage_[1]; GPBInt32Array *indicatorIdArray; NSMutableArray *metricPointIdArray; } KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "indicatorIdArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter_FieldNumber_IndicatorIdArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter__storage_, indicatorIdArray), .flags = (GPBFieldFlags)(GPBFieldRepeated | GPBFieldPacked), .dataType = GPBDataTypeInt32, }, { .name = "metricPointIdArray", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter_FieldNumber_MetricPointIdArray, .hasIndex = GPBNoHasBit, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter__storage_, metricPointIdArray), .flags = GPBFieldRepeated, .dataType = GPBDataTypeString, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter) messageName:@"DeviceIndicatorMetricPointFilter" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging @implementation KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging @dynamic orderByType; @dynamic directionType; @dynamic limit; @dynamic offset; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType orderByType; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType directionType; int32_t limit; int32_t offset; } KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "orderByType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_OrderByType, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging__storage_, orderByType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "directionType", .dataTypeSpecific.enumDescFunc = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_EnumDescriptor, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_DirectionType, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging__storage_, directionType), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldHasEnumDescriptor | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeEnum, }, { .name = "limit", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_Limit, .hasIndex = 2, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging__storage_, limit), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "offset", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_Offset, .hasIndex = 3, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging__storage_, offset), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging) messageName:@"DeviceIndicatorMetricPointPaging" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end int32_t KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_OrderByType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_OrderByType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_OrderByType]; GPBSetMessageRawEnumField(message, field, value); } int32_t KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_DirectionType]; return GPBGetMessageRawEnumField(message, field); } void SetKEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_DirectionType_RawValue(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging *message, int32_t value) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging descriptor]; GPBFieldDescriptor *field = [descriptor fieldWithNumber:KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointPaging_FieldNumber_DirectionType]; GPBSetMessageRawEnumField(message, field, value); } #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse @dynamic typeOneOfCase; @dynamic data_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse__storage_ { uint32_t _has_storage_[2]; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint *data_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse) messageName:@"GetDeviceIndicatorMetricPointListResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointListResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint @implementation KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint @dynamic indicatorId; @dynamic metricPointId; typedef struct KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint__storage_ { uint32_t _has_storage_[1]; int32_t indicatorId; NSString *metricPointId; } KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "indicatorId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint_FieldNumber_IndicatorId, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint__storage_, indicatorId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeInt32, }, { .name = "metricPointId", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint_FieldNumber_MetricPointId, .hasIndex = 1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint__storage_, metricPointId), .flags = (GPBFieldFlags)(GPBFieldOptional | GPBFieldClearHasIvarOnZero), .dataType = GPBDataTypeString, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint) messageName:@"DeviceIndicatorMetricPoint" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest @dynamic hasFilter, filter; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter *filter; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "filter", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPointFilter), .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest_FieldNumber_Filter, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest__storage_, filter), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest) messageName:@"GetDeviceIndicatorMetricPointCountRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse @implementation KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse @dynamic typeOneOfCase; @dynamic data_p; typedef struct KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse__storage_ { uint32_t _has_storage_[2]; int32_t data_p; } KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "data_p", .dataTypeSpecific.clazz = Nil, .number = KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse_FieldNumber_Data_p, .hasIndex = -1, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse__storage_, data_p), .flags = GPBFieldOptional, .dataType = GPBDataTypeInt32, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse) messageName:@"GetDeviceIndicatorMetricPointCountResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; static const char *oneofs[] = { "type", }; [localDescriptor setupOneofs:oneofs count:(uint32_t)(sizeof(oneofs) / sizeof(char*)) firstHasIndex:-1]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end void KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse_ClearTypeOneOfCase(KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse *message) { GPBDescriptor *descriptor = [KEYAPISTELEMETRYCONTROLV1GetDeviceIndicatorMetricPointCountResponse descriptor]; GPBOneofDescriptor *oneof = [descriptor.oneofs objectAtIndex:0]; GPBClearOneof(message, oneof); } #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest @dynamic hasDeviceIndicatorMetricPoint, deviceIndicatorMetricPoint; typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint *deviceIndicatorMetricPoint; } KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceIndicatorMetricPoint", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint), .number = KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest_FieldNumber_DeviceIndicatorMetricPoint, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest__storage_, deviceIndicatorMetricPoint), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest) messageName:@"PutDeviceIndicatorMetricPointAttachRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachResponse @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachResponse typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachResponse__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachResponse) messageName:@"PutDeviceIndicatorMetricPointAttachResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointAttachResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest @dynamic hasDeviceIndicatorMetricPoint, deviceIndicatorMetricPoint; typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest__storage_ { uint32_t _has_storage_[1]; KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint *deviceIndicatorMetricPoint; } KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); static GPBMessageFieldDescription fields[] = { { .name = "deviceIndicatorMetricPoint", .dataTypeSpecific.clazz = GPBObjCClass(KEYAPISTELEMETRYCONTROLV1DeviceIndicatorMetricPoint), .number = KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest_FieldNumber_DeviceIndicatorMetricPoint, .hasIndex = 0, .offset = (uint32_t)offsetof(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest__storage_, deviceIndicatorMetricPoint), .flags = GPBFieldOptional, .dataType = GPBDataTypeMessage, }, }; GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest) messageName:@"PutDeviceIndicatorMetricPointDetachRequest" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:fields fieldCount:(uint32_t)(sizeof(fields) / sizeof(GPBMessageFieldDescription)) storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachRequest__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma mark - KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachResponse @implementation KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachResponse typedef struct KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachResponse__storage_ { uint32_t _has_storage_[1]; } KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachResponse__storage_; // This method is threadsafe because it is initially called // in +initialize for each subclass. + (GPBDescriptor *)descriptor { static GPBDescriptor *descriptor = nil; if (!descriptor) { GPB_DEBUG_CHECK_RUNTIME_VERSIONS(); GPBDescriptor *localDescriptor = [GPBDescriptor allocDescriptorForClass:GPBObjCClass(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachResponse) messageName:@"PutDeviceIndicatorMetricPointDetachResponse" fileDescription:&KEYAPISTELEMETRYCONTROLV1KeyapisTelemetryControlDeviceV1Root_FileDescription fields:NULL fieldCount:0 storageSize:sizeof(KEYAPISTELEMETRYCONTROLV1PutDeviceIndicatorMetricPointDetachResponse__storage_) flags:(GPBDescriptorInitializationFlags)(GPBDescriptorInitializationFlag_UsesClassRefs | GPBDescriptorInitializationFlag_Proto3OptionalKnown | GPBDescriptorInitializationFlag_ClosedEnumSupportKnown)]; #if defined(DEBUG) && DEBUG NSAssert(descriptor == nil, @"Startup recursed!"); #endif // DEBUG descriptor = localDescriptor; } return descriptor; } @end #pragma clang diagnostic pop // @@protoc_insertion_point(global_scope) // clang-format on