export const torch = {}; export const caffe2 = {}; torch.RecordRef = class RecordRef { static decodeJson(obj) { const message = new torch.RecordRef(); if ('key' in obj) { message.key = obj.key; } return message; } }; torch.RecordRef.prototype.key = ""; torch.TensorDef = class TensorDef { constructor() { this.dims = []; this.strides = []; } static decodeJson(obj) { const message = new torch.TensorDef(); if ('dims' in obj) { message.dims = obj.dims.map((obj) => BigInt(obj)); } if ('offset' in obj) { message.offset = BigInt(obj.offset); } if ('strides' in obj) { message.strides = obj.strides.map((obj) => BigInt(obj)); } if ('requiresGrad' in obj) { message.requires_grad = obj.requiresGrad; } if ('dataType' in obj) { message.data_type = typeof obj.dataType === 'string' ? caffe2.TensorProto.DataType[obj.dataType] : obj.dataType; } if ('data' in obj) { message.data = torch.RecordRef.decodeJson(obj.data); } if ('device' in obj) { message.device = obj.device; } if ('isQuantized' in obj) { message.is_quantized = obj.isQuantized; } if ('scale' in obj) { message.scale = Number(obj.scale); } if ('zeroPoint' in obj) { message.zero_point = BigInt(obj.zeroPoint); } return message; } }; torch.TensorDef.prototype.offset = 0n; torch.TensorDef.prototype.requires_grad = false; torch.TensorDef.prototype.data_type = 0; torch.TensorDef.prototype.data = null; torch.TensorDef.prototype.device = ""; torch.TensorDef.prototype.is_quantized = false; torch.TensorDef.prototype.scale = 0; torch.TensorDef.prototype.zero_point = 0n; torch.AttributeDef = class AttributeDef { static decodeJson(obj) { const message = new torch.AttributeDef(); message.type = obj.type; message.name = obj.name; message.id = BigInt(obj.id); return message; } }; torch.AttributeDef.prototype.type = ""; torch.AttributeDef.prototype.name = ""; torch.AttributeDef.prototype.id = 0n; torch.ParameterDef = class ParameterDef { static decodeJson(obj) { const message = new torch.ParameterDef(); if ('isBuffer' in obj) { message.is_buffer = obj.isBuffer; } if ('tensorId' in obj) { message.tensor_id = BigInt(obj.tensorId); } if ('name' in obj) { message.name = obj.name; } return message; } }; torch.ParameterDef.prototype.is_buffer = false; torch.ParameterDef.prototype.tensor_id = 0n; torch.ParameterDef.prototype.name = ""; torch.ModuleDef = class ModuleDef { constructor() { this.submodules = []; this.caffe2_nets = []; this.parameters = []; this.attributes = []; } static decodeJson(obj) { const message = new torch.ModuleDef(); if ('submodules' in obj) { message.submodules = obj.submodules.map((obj) => torch.ModuleDef.decodeJson(obj)); } if ('torchscriptArena' in obj) { message.torchscript_arena = torch.RecordRef.decodeJson(obj.torchscriptArena); } if ('caffe2Nets' in obj) { message.caffe2_nets = obj.caffe2Nets.map((obj) => caffe2.NetDef.decodeJson(obj)); } if ('pickleArena' in obj) { message.pickle_arena = torch.RecordRef.decodeJson(obj.pickleArena); } if ('cppArena' in obj) { message.cpp_arena = torch.RecordRef.decodeJson(obj.cppArena); } if ('parameters' in obj) { message.parameters = obj.parameters.map((obj) => torch.ParameterDef.decodeJson(obj)); } if ('name' in obj) { message.name = obj.name; } if ('optimize' in obj) { message.optimize = obj.optimize; } if ('attributes' in obj) { message.attributes = obj.attributes.map((obj) => torch.AttributeDef.decodeJson(obj)); } if ('getStateAttributeId' in obj) { message.get_state_attribute_id = BigInt(obj.getStateAttributeId); } if ('torchscriptDebugArena' in obj) { message.torchscript_debug_arena = torch.RecordRef.decodeJson(obj.torchscriptDebugArena); } return message; } }; torch.ModuleDef.prototype.torchscript_arena = null; torch.ModuleDef.prototype.pickle_arena = null; torch.ModuleDef.prototype.cpp_arena = null; torch.ModuleDef.prototype.name = ""; torch.ModuleDef.prototype.optimize = false; torch.ModuleDef.prototype.get_state_attribute_id = 0n; torch.ModuleDef.prototype.torchscript_debug_arena = null; torch.LibDef = class LibDef { static decodeJson(obj) { const message = new torch.LibDef(); if ('torchscriptArena' in obj) { message.torchscript_arena = torch.RecordRef.decodeJson(obj.torchscriptArena); } return message; } }; torch.LibDef.prototype.torchscript_arena = null; torch.ProtoVersion = { "PROTO_VERSION_NEWEST": 6 }; torch.ModelDef = class ModelDef { constructor() { this.tensors = []; } static decodeJson(obj) { const message = new torch.ModelDef(); if ('protoVersion' in obj) { message.proto_version = BigInt(obj.protoVersion); } if ('mainModule' in obj) { message.main_module = torch.ModuleDef.decodeJson(obj.mainModule); } if ('producerName' in obj) { message.producer_name = obj.producerName; } if ('producerVersion' in obj) { message.producer_version = obj.producerVersion; } if ('tensors' in obj) { message.tensors = obj.tensors.map((obj) => torch.TensorDef.decodeJson(obj)); } return message; } }; torch.ModelDef.prototype.proto_version = 0n; torch.ModelDef.prototype.main_module = null; torch.ModelDef.prototype.producer_name = ""; torch.ModelDef.prototype.producer_version = ""; caffe2.TensorProto = class TensorProto { constructor() { this.dims = []; this.float_data = []; this.int32_data = []; this.string_data = []; this.double_data = []; this.int64_data = []; } static decodeJson(obj) { const message = new caffe2.TensorProto(); if ('dims' in obj) { message.dims = obj.dims.map((obj) => BigInt(obj)); } if ('dataType' in obj) { message.data_type = typeof obj.dataType === 'string' ? caffe2.TensorProto.DataType[obj.dataType] : obj.dataType; } if ('dataFormat' in obj) { message.data_format = Number(obj.dataFormat); } if ('floatData' in obj) { message.float_data = obj.floatData.map((obj) => Number(obj)); } if ('int32Data' in obj) { message.int32_data = obj.int32Data.map((obj) => Number(obj)); } if ('byteData' in obj) { message.byte_data = typeof obj.byteData === 'string' ? Uint8Array.from(atob(obj.byteData), (c) => c.charCodeAt(0)) : Uint8Array.from(obj.byteData); } if ('stringData' in obj) { message.string_data = obj.stringData.map((obj) => typeof obj === 'string' ? Uint8Array.from(atob(obj), (c) => c.charCodeAt(0)) : Uint8Array.from(obj)); } if ('doubleData' in obj) { message.double_data = obj.doubleData.map((obj) => Number(obj)); } if ('int64Data' in obj) { message.int64_data = obj.int64Data.map((obj) => BigInt(obj)); } if ('rawData' in obj) { message.raw_data = typeof obj.rawData === 'string' ? Uint8Array.from(atob(obj.rawData), (c) => c.charCodeAt(0)) : Uint8Array.from(obj.rawData); } if ('name' in obj) { message.name = obj.name; } if ('deviceDetail' in obj) { message.device_detail = caffe2.DeviceOption.decodeJson(obj.deviceDetail); } if ('segment' in obj) { message.segment = caffe2.TensorProto.Segment.decodeJson(obj.segment); } return message; } }; caffe2.TensorProto.prototype.data_type = 1; caffe2.TensorProto.prototype.data_format = 0; caffe2.TensorProto.prototype.byte_data = new Uint8Array([]); caffe2.TensorProto.prototype.raw_data = new Uint8Array([]); caffe2.TensorProto.prototype.name = ""; caffe2.TensorProto.prototype.device_detail = null; caffe2.TensorProto.prototype.segment = null; caffe2.TensorProto.DataType = { "UNDEFINED": 0, "FLOAT": 1, "INT32": 2, "BYTE": 3, "STRING": 4, "BOOL": 5, "UINT8": 6, "INT8": 7, "UINT16": 8, "INT16": 9, "INT64": 10, "FLOAT16": 12, "DOUBLE": 13, "ZERO_COLLISION_HASH": 14, "REBATCHING_BUFFER": 15 }; caffe2.TensorProto.SerializationFormat = { "FMT_PROTOBUF": 0, "FMT_BFLOAT16": 1 }; caffe2.TensorProto.Segment = class Segment { static decodeJson(obj) { const message = new caffe2.TensorProto.Segment(); message.begin = BigInt(obj.begin); message.end = BigInt(obj.end); return message; } }; caffe2.TensorProto.Segment.prototype.begin = 0n; caffe2.TensorProto.Segment.prototype.end = 0n; caffe2.QTensorProto = class QTensorProto { constructor() { this.dims = []; this.data = []; this.scales = []; this.biases = []; } static decodeJson(obj) { const message = new caffe2.QTensorProto(); if ('dims' in obj) { message.dims = obj.dims.map((obj) => BigInt(obj)); } message.precision = Number(obj.precision); message.scale = Number(obj.scale); message.bias = Number(obj.bias); message.is_signed = obj.isSigned; if ('data' in obj) { message.data = obj.data.map((obj) => Number(obj)); } if ('name' in obj) { message.name = obj.name; } if ('dataType' in obj) { message.data_type = typeof obj.dataType === 'string' ? caffe2.TensorProto.DataType[obj.dataType] : obj.dataType; } if ('scales' in obj) { message.scales = obj.scales.map((obj) => Number(obj)); } if ('biases' in obj) { message.biases = obj.biases.map((obj) => Number(obj)); } if ('axis' in obj) { message.axis = Number(obj.axis); } if ('isMultiparam' in obj) { message.is_multiparam = obj.isMultiparam; } return message; } }; caffe2.QTensorProto.prototype.precision = 0; caffe2.QTensorProto.prototype.scale = 0; caffe2.QTensorProto.prototype.bias = 0; caffe2.QTensorProto.prototype.is_signed = false; caffe2.QTensorProto.prototype.name = ""; caffe2.QTensorProto.prototype.data_type = 2; caffe2.QTensorProto.prototype.axis = 0; caffe2.QTensorProto.prototype.is_multiparam = false; caffe2.TensorProtos = class TensorProtos { constructor() { this.protos = []; } static decodeJson(obj) { const message = new caffe2.TensorProtos(); if ('protos' in obj) { message.protos = obj.protos.map((obj) => caffe2.TensorProto.decodeJson(obj)); } return message; } }; caffe2.TensorShape = class TensorShape { constructor() { this.dims = []; this.unknown_dims = []; } static decodeJson(obj) { const message = new caffe2.TensorShape(); if ('dims' in obj) { message.dims = obj.dims.map((obj) => BigInt(obj)); } if ('dataType' in obj) { message.data_type = typeof obj.dataType === 'string' ? caffe2.TensorProto.DataType[obj.dataType] : obj.dataType; } if ('unknownDims' in obj) { message.unknown_dims = obj.unknownDims.map((obj) => Number(obj)); } if ('unknownShape' in obj) { message.unknown_shape = obj.unknownShape; } if ('name' in obj) { message.name = obj.name; } return message; } }; caffe2.TensorShape.prototype.data_type = 1; caffe2.TensorShape.prototype.unknown_shape = false; caffe2.TensorShape.prototype.name = ""; caffe2.TensorShapes = class TensorShapes { constructor() { this.shapes = []; } static decodeJson(obj) { const message = new caffe2.TensorShapes(); if ('shapes' in obj) { message.shapes = obj.shapes.map((obj) => caffe2.TensorShape.decodeJson(obj)); } return message; } }; caffe2.TensorBoundShape = class TensorBoundShape { constructor() { this.dim_type = []; } static decodeJson(obj) { const message = new caffe2.TensorBoundShape(); if ('shape' in obj) { message.shape = caffe2.TensorShape.decodeJson(obj.shape); } if ('dimType' in obj) { message.dim_type = obj.dimType.map((key) => typeof key === 'string' ? caffe2.TensorBoundShape.DimType[key] : key); } if ('name' in obj) { message.name = obj.name; } if ('shapeIsFinal' in obj) { message.shape_is_final = obj.shapeIsFinal; } return message; } }; caffe2.TensorBoundShape.prototype.shape = null; caffe2.TensorBoundShape.prototype.name = ""; caffe2.TensorBoundShape.prototype.shape_is_final = false; caffe2.TensorBoundShape.DimType = { "UNKNOWN": 0, "CONSTANT": 1, "BATCH": 2, "BATCH_OF_FEATURE_MAX": 3, "BATCH_OF_FEATURE_MAX_DEFAULT": 4, "FEATURE_MAX": 5, "FEATURE_MAX_DEFAULT": 6 }; caffe2.TensorBoundShapes = class TensorBoundShapes { constructor() { this.shapes = []; } static decodeJson(obj) { const message = new caffe2.TensorBoundShapes(); if ('shapes' in obj) { message.shapes = obj.shapes.map((obj) => caffe2.TensorBoundShape.decodeJson(obj)); } if ('maxBatchSize' in obj) { message.max_batch_size = BigInt(obj.maxBatchSize); } if ('maxFeatureLen' in obj) { message.max_feature_len = BigInt(obj.maxFeatureLen); } return message; } }; caffe2.TensorBoundShapes.prototype.max_batch_size = 0n; caffe2.TensorBoundShapes.prototype.max_feature_len = 0n; caffe2.AOTConfig = class AOTConfig { static decodeJson(obj) { const message = new caffe2.AOTConfig(); message.max_batch_size = BigInt(obj.maxBatchSize); message.max_seq_size = BigInt(obj.maxSeqSize); message.in_batch_broadcast = obj.inBatchBroadcast; if ('onnxifiBlacklistOps' in obj) { message.onnxifi_blacklist_ops = obj.onnxifiBlacklistOps; } if ('onnxifiMinOps' in obj) { message.onnxifi_min_ops = Number(obj.onnxifiMinOps); } return message; } }; caffe2.AOTConfig.prototype.max_batch_size = 0n; caffe2.AOTConfig.prototype.max_seq_size = 0n; caffe2.AOTConfig.prototype.in_batch_broadcast = false; caffe2.AOTConfig.prototype.onnxifi_blacklist_ops = ""; caffe2.AOTConfig.prototype.onnxifi_min_ops = 0; caffe2.Argument = class Argument { constructor() { this.floats = []; this.ints = []; this.strings = []; this.tensors = []; this.nets = []; this.qtensors = []; } static decodeJson(obj) { const message = new caffe2.Argument(); if ('name' in obj) { message.name = obj.name; } if ('f' in obj) { message.f = Number(obj.f); } if ('i' in obj) { message.i = BigInt(obj.i); } if ('s' in obj) { message.s = typeof obj.s === 'string' ? Uint8Array.from(atob(obj.s), (c) => c.charCodeAt(0)) : Uint8Array.from(obj.s); } if ('t' in obj) { message.t = caffe2.TensorProto.decodeJson(obj.t); } if ('n' in obj) { message.n = caffe2.NetDef.decodeJson(obj.n); } if ('floats' in obj) { message.floats = obj.floats.map((obj) => Number(obj)); } if ('ints' in obj) { message.ints = obj.ints.map((obj) => BigInt(obj)); } if ('strings' in obj) { message.strings = obj.strings.map((obj) => typeof obj === 'string' ? Uint8Array.from(atob(obj), (c) => c.charCodeAt(0)) : Uint8Array.from(obj)); } if ('tensors' in obj) { message.tensors = obj.tensors.map((obj) => caffe2.TensorProto.decodeJson(obj)); } if ('nets' in obj) { message.nets = obj.nets.map((obj) => caffe2.NetDef.decodeJson(obj)); } if ('qtensors' in obj) { message.qtensors = obj.qtensors.map((obj) => caffe2.QTensorProto.decodeJson(obj)); } return message; } }; caffe2.Argument.prototype.name = ""; caffe2.Argument.prototype.f = 0; caffe2.Argument.prototype.i = 0n; caffe2.Argument.prototype.s = new Uint8Array([]); caffe2.Argument.prototype.t = null; caffe2.Argument.prototype.n = null; caffe2.DeviceTypeProto = { "PROTO_CPU": 0, "PROTO_CUDA": 1, "PROTO_MKLDNN": 2, "PROTO_OPENGL": 3, "PROTO_OPENCL": 4, "PROTO_IDEEP": 5, "PROTO_HIP": 6, "PROTO_FPGA": 7, "PROTO_MAIA": 8, "PROTO_XLA": 9, "PROTO_MPS": 10, "PROTO_COMPILE_TIME_MAX_DEVICE_TYPES": 11 }; caffe2.DeviceOption = class DeviceOption { constructor() { this.extra_info = []; } static decodeJson(obj) { const message = new caffe2.DeviceOption(); if ('deviceType' in obj) { message.device_type = Number(obj.deviceType); } if ('deviceId' in obj) { message.device_id = Number(obj.deviceId); } if ('randomSeed' in obj) { message.random_seed = Number(obj.randomSeed); } if ('nodeName' in obj) { message.node_name = obj.nodeName; } if ('numaNodeId' in obj) { message.numa_node_id = Number(obj.numaNodeId); } if ('extraInfo' in obj) { message.extra_info = obj.extraInfo; } return message; } }; caffe2.DeviceOption.prototype.device_type = 0; caffe2.DeviceOption.prototype.device_id = 0; caffe2.DeviceOption.prototype.random_seed = 0; caffe2.DeviceOption.prototype.node_name = ""; caffe2.DeviceOption.prototype.numa_node_id = 0; caffe2.OperatorDef = class OperatorDef { constructor() { this.input = []; this.output = []; this.arg = []; this.control_input = []; } static decodeJson(obj) { const message = new caffe2.OperatorDef(); if ('input' in obj) { message.input = obj.input; } if ('output' in obj) { message.output = obj.output; } if ('name' in obj) { message.name = obj.name; } if ('type' in obj) { message.type = obj.type; } if ('arg' in obj) { message.arg = obj.arg.map((obj) => caffe2.Argument.decodeJson(obj)); } if ('deviceOption' in obj) { message.device_option = caffe2.DeviceOption.decodeJson(obj.deviceOption); } if ('engine' in obj) { message.engine = obj.engine; } if ('controlInput' in obj) { message.control_input = obj.controlInput; } if ('isGradientOp' in obj) { message.is_gradient_op = obj.isGradientOp; } if ('debugInfo' in obj) { message.debug_info = obj.debugInfo; } if ('domain' in obj) { message.domain = obj.domain; } if ('opVersion' in obj) { message.op_version = BigInt(obj.opVersion); } return message; } }; caffe2.OperatorDef.prototype.name = ""; caffe2.OperatorDef.prototype.type = ""; caffe2.OperatorDef.prototype.device_option = null; caffe2.OperatorDef.prototype.engine = ""; caffe2.OperatorDef.prototype.is_gradient_op = false; caffe2.OperatorDef.prototype.debug_info = ""; caffe2.OperatorDef.prototype.domain = ""; caffe2.OperatorDef.prototype.op_version = 0n; caffe2.MapFieldEntry = class MapFieldEntry { static decodeJson(obj) { const message = new caffe2.MapFieldEntry(); message.key = obj.key; message.val = obj.val; return message; } }; caffe2.MapFieldEntry.prototype.key = ""; caffe2.MapFieldEntry.prototype.val = ""; caffe2.BackendOptions = class BackendOptions { constructor() { this.option = []; } static decodeJson(obj) { const message = new caffe2.BackendOptions(); message.backend_name = obj.backendName; if ('option' in obj) { message.option = obj.option.map((obj) => caffe2.MapFieldEntry.decodeJson(obj)); } return message; } }; caffe2.BackendOptions.prototype.backend_name = ""; caffe2.PartitionInfo = class PartitionInfo { constructor() { this.device_id = []; this.backend_options = []; } static decodeJson(obj) { const message = new caffe2.PartitionInfo(); message.name = obj.name; if ('deviceId' in obj) { message.device_id = obj.deviceId.map((obj) => Number(obj)); } if ('extraInfo' in obj) { message.extra_info = obj.extraInfo; } if ('backendOptions' in obj) { message.backend_options = obj.backendOptions.map((obj) => caffe2.BackendOptions.decodeJson(obj)); } return message; } }; caffe2.PartitionInfo.prototype.name = ""; caffe2.PartitionInfo.prototype.extra_info = ""; caffe2.NetDef = class NetDef { constructor() { this.op = []; this.arg = []; this.external_input = []; this.external_output = []; this.partition_info = []; } static decodeJson(obj) { const message = new caffe2.NetDef(); if ('name' in obj) { message.name = obj.name; } if ('op' in obj) { message.op = obj.op.map((obj) => caffe2.OperatorDef.decodeJson(obj)); } if ('type' in obj) { message.type = obj.type; } if ('numWorkers' in obj) { message.num_workers = Number(obj.numWorkers); } if ('deviceOption' in obj) { message.device_option = caffe2.DeviceOption.decodeJson(obj.deviceOption); } if ('arg' in obj) { message.arg = obj.arg.map((obj) => caffe2.Argument.decodeJson(obj)); } if ('externalInput' in obj) { message.external_input = obj.externalInput; } if ('externalOutput' in obj) { message.external_output = obj.externalOutput; } if ('partitionInfo' in obj) { message.partition_info = obj.partitionInfo.map((obj) => caffe2.PartitionInfo.decodeJson(obj)); } return message; } }; caffe2.NetDef.prototype.name = ""; caffe2.NetDef.prototype.type = ""; caffe2.NetDef.prototype.num_workers = 0; caffe2.NetDef.prototype.device_option = null; caffe2.ExecutionStep = class ExecutionStep { constructor() { this.substep = []; this.network = []; } static decodeJson(obj) { const message = new caffe2.ExecutionStep(); if ('name' in obj) { message.name = obj.name; } if ('substep' in obj) { message.substep = obj.substep.map((obj) => caffe2.ExecutionStep.decodeJson(obj)); } if ('network' in obj) { message.network = obj.network; } if ('numIter' in obj) { message.num_iter = BigInt(obj.numIter); } if ('criteriaNetwork' in obj) { message.criteria_network = obj.criteriaNetwork; } if ('reportNet' in obj) { message.report_net = obj.reportNet; } if ('reportInterval' in obj) { message.report_interval = Number(obj.reportInterval); } if ('runEveryMs' in obj) { message.run_every_ms = BigInt(obj.runEveryMs); } if ('concurrentSubsteps' in obj) { message.concurrent_substeps = obj.concurrentSubsteps; } if ('shouldStopBlob' in obj) { message.should_stop_blob = obj.shouldStopBlob; } if ('onlyOnce' in obj) { message.only_once = obj.onlyOnce; } if ('createWorkspace' in obj) { message.create_workspace = obj.createWorkspace; } if ('numConcurrentInstances' in obj) { message.num_concurrent_instances = Number(obj.numConcurrentInstances); } return message; } }; caffe2.ExecutionStep.prototype.name = ""; caffe2.ExecutionStep.prototype.num_iter = 0n; caffe2.ExecutionStep.prototype.criteria_network = ""; caffe2.ExecutionStep.prototype.report_net = ""; caffe2.ExecutionStep.prototype.report_interval = 0; caffe2.ExecutionStep.prototype.run_every_ms = 0n; caffe2.ExecutionStep.prototype.concurrent_substeps = false; caffe2.ExecutionStep.prototype.should_stop_blob = ""; caffe2.ExecutionStep.prototype.only_once = false; caffe2.ExecutionStep.prototype.create_workspace = false; caffe2.ExecutionStep.prototype.num_concurrent_instances = 0; caffe2.PlanDef = class PlanDef { constructor() { this.network = []; this.execution_step = []; } static decodeJson(obj) { const message = new caffe2.PlanDef(); if ('name' in obj) { message.name = obj.name; } if ('network' in obj) { message.network = obj.network.map((obj) => caffe2.NetDef.decodeJson(obj)); } if ('executionStep' in obj) { message.execution_step = obj.executionStep.map((obj) => caffe2.ExecutionStep.decodeJson(obj)); } return message; } }; caffe2.PlanDef.prototype.name = ""; caffe2.BlobProto = class BlobProto { static decodeJson(obj) { const message = new caffe2.BlobProto(); if ('name' in obj) { message.name = obj.name; } if ('type' in obj) { message.type = obj.type; } if ('tensor' in obj) { message.tensor = caffe2.TensorProto.decodeJson(obj.tensor); } if ('content' in obj) { message.content = typeof obj.content === 'string' ? Uint8Array.from(atob(obj.content), (c) => c.charCodeAt(0)) : Uint8Array.from(obj.content); } if ('qtensor' in obj) { message.qtensor = caffe2.QTensorProto.decodeJson(obj.qtensor); } if ('contentNumChunks' in obj) { message.content_num_chunks = Number(obj.contentNumChunks); } if ('contentChunkId' in obj) { message.content_chunk_id = Number(obj.contentChunkId); } return message; } }; caffe2.BlobProto.prototype.name = ""; caffe2.BlobProto.prototype.type = ""; caffe2.BlobProto.prototype.tensor = null; caffe2.BlobProto.prototype.content = new Uint8Array([]); caffe2.BlobProto.prototype.qtensor = null; caffe2.BlobProto.prototype.content_num_chunks = 0; caffe2.BlobProto.prototype.content_chunk_id = 0; caffe2.DBReaderProto = class DBReaderProto { static decodeJson(obj) { const message = new caffe2.DBReaderProto(); if ('name' in obj) { message.name = obj.name; } if ('source' in obj) { message.source = obj.source; } if ('dbType' in obj) { message.db_type = obj.dbType; } if ('key' in obj) { message.key = obj.key; } return message; } }; caffe2.DBReaderProto.prototype.name = ""; caffe2.DBReaderProto.prototype.source = ""; caffe2.DBReaderProto.prototype.db_type = ""; caffe2.DBReaderProto.prototype.key = ""; caffe2.BlobSerializationOptions = class BlobSerializationOptions { static decodeJson(obj) { const message = new caffe2.BlobSerializationOptions(); if ('blobNameRegex' in obj) { message.blob_name_regex = obj.blobNameRegex; } if ('chunkSize' in obj) { message.chunk_size = BigInt(obj.chunkSize); } if ('floatFormat' in obj) { message.float_format = typeof obj.floatFormat === 'string' ? caffe2.BlobSerializationOptions.FloatFormat[obj.floatFormat] : obj.floatFormat; } return message; } }; caffe2.BlobSerializationOptions.prototype.blob_name_regex = ""; caffe2.BlobSerializationOptions.prototype.chunk_size = 0n; caffe2.BlobSerializationOptions.prototype.float_format = 0; caffe2.BlobSerializationOptions.FloatFormat = { "FLOAT_DEFAULT": 0, "FLOAT_PROTOBUF": 1, "FLOAT_BFLOAT16": 2 }; caffe2.SerializationOptions = class SerializationOptions { constructor() { this.options = []; } static decodeJson(obj) { const message = new caffe2.SerializationOptions(); if ('options' in obj) { message.options = obj.options.map((obj) => caffe2.BlobSerializationOptions.decodeJson(obj)); } return message; } };