var $root = protobuf.get('om'); $root.ge = {}; $root.ge.proto = {}; $root.ge.proto.DataType = { "DT_UNDEFINED": 0, "DT_FLOAT": 1, "DT_FLOAT16": 2, "DT_INT8": 3, "DT_UINT8": 4, "DT_INT16": 5, "DT_UINT16": 6, "DT_INT32": 7, "DT_INT64": 8, "DT_UINT32": 9, "DT_UINT64": 10, "DT_BOOL": 11, "DT_DOUBLE": 12, "DT_STRING": 13, "DT_DUAL_SUB_INT8": 14, "DT_DUAL_SUB_UINT8": 15, "DT_COMPLEX64": 16, "DT_COMPLEX128": 17, "DT_QINT8": 18, "DT_QINT16": 19, "DT_QINT32": 20, "DT_QUINT8": 21, "DT_QUINT16": 22, "DT_RESOURCE": 23, "DT_STRING_REF": 24, "DT_DUAL": 25, "DT_VARIANT": 26, "DT_BF16": 27, "DT_INT4": 28, "DT_UINT1": 29, "DT_INT2": 30, "DT_UINT2": 31 }; $root.ge.proto.AttrDef = class AttrDef { constructor() { } get value() { $root.ge.proto.AttrDef.valueSet = $root.ge.proto.AttrDef.valueSet || new Set([ "s", "i", "f", "b", "bt", "list", "func", "td", "t", "g", "list_list_int", "dt", "list_list_float"]); return Object.keys(this).find((key) => $root.ge.proto.AttrDef.valueSet.has(key) && this[key] != null); } static decode(reader, length) { const message = new $root.ge.proto.AttrDef(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 2: message.s = reader.bytes(); break; case 3: message.i = reader.int64(); break; case 4: message.f = reader.float(); break; case 5: message.b = reader.bool(); break; case 7: message.bt = reader.bytes(); break; case 1: message.list = $root.ge.proto.AttrDef.ListValue.decode(reader, reader.uint32()); break; case 10: message.func = $root.ge.proto.NamedAttrs.decode(reader, reader.uint32()); break; case 11: message.td = $root.ge.proto.TensorDescriptor.decode(reader, reader.uint32()); break; case 12: message.t = $root.ge.proto.TensorDef.decode(reader, reader.uint32()); break; case 13: message.g = $root.ge.proto.GraphDef.decode(reader, reader.uint32()); break; case 14: message.list_list_int = $root.ge.proto.AttrDef.ListListInt.decode(reader, reader.uint32()); break; case 15: message.dt = reader.int64(); break; case 16: message.list_list_float = $root.ge.proto.AttrDef.ListListFloat.decode(reader, reader.uint32()); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.AttrDef(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "s": message.s = reader.bytes(); break; case "i": message.i = reader.int64(); break; case "f": message.f = reader.float(); break; case "b": message.b = reader.bool(); break; case "bt": message.bt = reader.bytes(); break; case "list": message.list = $root.ge.proto.AttrDef.ListValue.decodeText(reader); break; case "func": message.func = $root.ge.proto.NamedAttrs.decodeText(reader); break; case "td": message.td = $root.ge.proto.TensorDescriptor.decodeText(reader); break; case "t": message.t = $root.ge.proto.TensorDef.decodeText(reader); break; case "g": message.g = $root.ge.proto.GraphDef.decodeText(reader); break; case "list_list_int": message.list_list_int = $root.ge.proto.AttrDef.ListListInt.decodeText(reader); break; case "dt": message.dt = reader.int64(); break; case "list_list_float": message.list_list_float = $root.ge.proto.AttrDef.ListListFloat.decodeText(reader); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.AttrDef.ListValue = class ListValue { constructor() { this.s = []; this.i = []; this.f = []; this.b = []; this.bt = []; this.td = []; this.t = []; this.g = []; this.na = []; this.dt = []; } static decode(reader, length) { const message = new $root.ge.proto.AttrDef.ListValue(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 2: message.s.push(reader.bytes()); break; case 3: message.i = reader.array(message.i, () => reader.int64(), tag); break; case 4: message.f = reader.floats(message.f, tag); break; case 5: message.b = reader.array(message.b, () => reader.bool(), tag); break; case 7: message.bt.push(reader.bytes()); break; case 8: message.td.push($root.ge.proto.TensorDescriptor.decode(reader, reader.uint32())); break; case 9: message.t.push($root.ge.proto.TensorDef.decode(reader, reader.uint32())); break; case 10: message.g.push($root.ge.proto.GraphDef.decode(reader, reader.uint32())); break; case 11: message.na.push($root.ge.proto.NamedAttrs.decode(reader, reader.uint32())); break; case 12: message.dt = reader.array(message.dt, () => reader.int64(), tag); break; case 20: message.val_type = reader.int32(); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.AttrDef.ListValue(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "s": reader.array(message.s, () => reader.bytes()); break; case "i": reader.array(message.i, () => reader.int64()); break; case "f": reader.array(message.f, () => reader.float()); break; case "b": reader.array(message.b, () => reader.bool()); break; case "bt": reader.array(message.bt, () => reader.bytes()); break; case "td": message.td.push($root.ge.proto.TensorDescriptor.decodeText(reader)); break; case "t": message.t.push($root.ge.proto.TensorDef.decodeText(reader)); break; case "g": message.g.push($root.ge.proto.GraphDef.decodeText(reader)); break; case "na": message.na.push($root.ge.proto.NamedAttrs.decodeText(reader)); break; case "dt": reader.array(message.dt, () => reader.int64()); break; case "val_type": message.val_type = reader.enum($root.ge.proto.AttrDef.ListValue.ListValueType); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.AttrDef.ListValue.prototype.val_type = 0; $root.ge.proto.AttrDef.ListValue.ListValueType = { "VT_LIST_NONE": 0, "VT_LIST_STRING": 1, "VT_LIST_INT": 2, "VT_LIST_FLOAT": 3, "VT_LIST_BOOL": 4, "VT_LIST_BYTES": 5, "VT_LIST_TENSOR_DESC": 6, "VT_LIST_TENSOR": 7, "VT_LIST_GRAPH": 8, "VT_LIST_NAMED_ATTRS": 9, "VT_LIST_DATA_TYPE": 10 }; $root.ge.proto.AttrDef.ListListInt = class ListListInt { constructor() { this.list_list_i = []; } static decode(reader, length) { const message = new $root.ge.proto.AttrDef.ListListInt(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.list_list_i.push($root.ge.proto.AttrDef.ListListInt.ListInt.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.AttrDef.ListListInt(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "list_list_i": message.list_list_i.push($root.ge.proto.AttrDef.ListListInt.ListInt.decodeText(reader)); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.AttrDef.ListListInt.ListInt = class ListInt { constructor() { this.list_i = []; } static decode(reader, length) { const message = new $root.ge.proto.AttrDef.ListListInt.ListInt(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.list_i = reader.array(message.list_i, () => reader.int64(), tag); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.AttrDef.ListListInt.ListInt(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "list_i": reader.array(message.list_i, () => reader.int64()); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.AttrDef.ListListFloat = class ListListFloat { constructor() { this.list_list_f = []; } static decode(reader, length) { const message = new $root.ge.proto.AttrDef.ListListFloat(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.list_list_f.push($root.ge.proto.AttrDef.ListListFloat.ListFloat.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.AttrDef.ListListFloat(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "list_list_f": message.list_list_f.push($root.ge.proto.AttrDef.ListListFloat.ListFloat.decodeText(reader)); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.AttrDef.ListListFloat.ListFloat = class ListFloat { constructor() { this.list_f = []; } static decode(reader, length) { const message = new $root.ge.proto.AttrDef.ListListFloat.ListFloat(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.list_f = reader.floats(message.list_f, tag); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.AttrDef.ListListFloat.ListFloat(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "list_f": reader.array(message.list_f, () => reader.float()); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.NamedAttrs = class NamedAttrs { constructor() { this.attr = {}; } static decode(reader, length) { const message = new $root.ge.proto.NamedAttrs(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.name = reader.string(); break; case 2: reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.NamedAttrs(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "name": message.name = reader.string(); break; case "attr": reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decodeText(reader)); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.NamedAttrs.prototype.name = ""; $root.ge.proto.ShapeDef = class ShapeDef { constructor() { this.dim = []; } static decode(reader, length) { const message = new $root.ge.proto.ShapeDef(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.dim = reader.array(message.dim, () => reader.int64(), tag); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.ShapeDef(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "dim": reader.array(message.dim, () => reader.int64()); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.TensorDescriptor = class TensorDescriptor { constructor() { this.attr = {}; } static decode(reader, length) { const message = new $root.ge.proto.TensorDescriptor(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.name = reader.string(); break; case 2: message.dtype = reader.int32(); break; case 3: message.shape = $root.ge.proto.ShapeDef.decode(reader, reader.uint32()); break; case 4: message.layout = reader.string(); break; case 9: message.has_out_attr = reader.bool(); break; case 10: message.size = reader.int64(); break; case 11: message.weight_size = reader.int64(); break; case 12: message.reuse_input = reader.bool(); break; case 13: message.output_tensor = reader.bool(); break; case 14: message.device_type = reader.string(); break; case 15: message.input_tensor = reader.bool(); break; case 16: message.real_dim_cnt = reader.int64(); break; case 17: message.reuse_input_index = reader.int64(); break; case 18: message.data_offset = reader.int64(); break; case 19: message.cmps_size = reader.int64(); break; case 20: message.cmps_tab = reader.string(); break; case 21: message.cmps_tab_offset = reader.int64(); break; case 5: reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.TensorDescriptor(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "name": message.name = reader.string(); break; case "dtype": message.dtype = reader.enum($root.ge.proto.DataType); break; case "shape": message.shape = $root.ge.proto.ShapeDef.decodeText(reader); break; case "layout": message.layout = reader.string(); break; case "has_out_attr": message.has_out_attr = reader.bool(); break; case "size": message.size = reader.int64(); break; case "weight_size": message.weight_size = reader.int64(); break; case "reuse_input": message.reuse_input = reader.bool(); break; case "output_tensor": message.output_tensor = reader.bool(); break; case "device_type": message.device_type = reader.string(); break; case "input_tensor": message.input_tensor = reader.bool(); break; case "real_dim_cnt": message.real_dim_cnt = reader.int64(); break; case "reuse_input_index": message.reuse_input_index = reader.int64(); break; case "data_offset": message.data_offset = reader.int64(); break; case "cmps_size": message.cmps_size = reader.int64(); break; case "cmps_tab": message.cmps_tab = reader.string(); break; case "cmps_tab_offset": message.cmps_tab_offset = reader.int64(); break; case "attr": reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decodeText(reader)); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.TensorDescriptor.prototype.name = ""; $root.ge.proto.TensorDescriptor.prototype.dtype = 0; $root.ge.proto.TensorDescriptor.prototype.shape = null; $root.ge.proto.TensorDescriptor.prototype.layout = ""; $root.ge.proto.TensorDescriptor.prototype.has_out_attr = false; $root.ge.proto.TensorDescriptor.prototype.size = protobuf.Int64.create(0); $root.ge.proto.TensorDescriptor.prototype.weight_size = protobuf.Int64.create(0); $root.ge.proto.TensorDescriptor.prototype.reuse_input = false; $root.ge.proto.TensorDescriptor.prototype.output_tensor = false; $root.ge.proto.TensorDescriptor.prototype.device_type = ""; $root.ge.proto.TensorDescriptor.prototype.input_tensor = false; $root.ge.proto.TensorDescriptor.prototype.real_dim_cnt = protobuf.Int64.create(0); $root.ge.proto.TensorDescriptor.prototype.reuse_input_index = protobuf.Int64.create(0); $root.ge.proto.TensorDescriptor.prototype.data_offset = protobuf.Int64.create(0); $root.ge.proto.TensorDescriptor.prototype.cmps_size = protobuf.Int64.create(0); $root.ge.proto.TensorDescriptor.prototype.cmps_tab = ""; $root.ge.proto.TensorDescriptor.prototype.cmps_tab_offset = protobuf.Int64.create(0); $root.ge.proto.TensorDef = class TensorDef { constructor() { } static decode(reader, length) { const message = new $root.ge.proto.TensorDef(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.desc = $root.ge.proto.TensorDescriptor.decode(reader, reader.uint32()); break; case 2: message.data = reader.bytes(); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.TensorDef(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "desc": message.desc = $root.ge.proto.TensorDescriptor.decodeText(reader); break; case "data": message.data = reader.bytes(); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.TensorDef.prototype.desc = null; $root.ge.proto.TensorDef.prototype.data = new Uint8Array([]); $root.ge.proto.OpDef = class OpDef { constructor() { this.input = []; this.attr = {}; this.input_name = []; this.src_name = []; this.src_index = []; this.dst_name = []; this.dst_index = []; this.input_i = []; this.output_i = []; this.workspace = []; this.workspace_bytes = []; this.is_input_const = []; this.input_desc = []; this.output_desc = []; this.subgraph_name = []; } static decode(reader, length) { const message = new $root.ge.proto.OpDef(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.name = reader.string(); break; case 2: message.type = reader.string(); break; case 5: message.input.push(reader.string()); break; case 10: reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decode(reader, reader.uint32())); break; case 20: message.has_out_attr = reader.bool(); break; case 21: message.id = reader.int64(); break; case 22: message.stream_id = reader.int64(); break; case 23: message.input_name.push(reader.string()); break; case 24: message.src_name.push(reader.string()); break; case 25: message.src_index = reader.array(message.src_index, () => reader.int64(), tag); break; case 26: message.dst_name.push(reader.string()); break; case 27: message.dst_index = reader.array(message.dst_index, () => reader.int64(), tag); break; case 28: message.input_i = reader.array(message.input_i, () => reader.int64(), tag); break; case 29: message.output_i = reader.array(message.output_i, () => reader.int64(), tag); break; case 30: message.workspace = reader.array(message.workspace, () => reader.int64(), tag); break; case 31: message.workspace_bytes = reader.array(message.workspace_bytes, () => reader.int64(), tag); break; case 32: message.is_input_const = reader.array(message.is_input_const, () => reader.bool(), tag); break; case 33: message.input_desc.push($root.ge.proto.TensorDescriptor.decode(reader, reader.uint32())); break; case 34: message.output_desc.push($root.ge.proto.TensorDescriptor.decode(reader, reader.uint32())); break; case 35: message.subgraph_name.push(reader.string()); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.OpDef(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "name": message.name = reader.string(); break; case "type": message.type = reader.string(); break; case "input": reader.array(message.input, () => reader.string()); break; case "attr": reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decodeText(reader)); break; case "has_out_attr": message.has_out_attr = reader.bool(); break; case "id": message.id = reader.int64(); break; case "stream_id": message.stream_id = reader.int64(); break; case "input_name": reader.array(message.input_name, () => reader.string()); break; case "src_name": reader.array(message.src_name, () => reader.string()); break; case "src_index": reader.array(message.src_index, () => reader.int64()); break; case "dst_name": reader.array(message.dst_name, () => reader.string()); break; case "dst_index": reader.array(message.dst_index, () => reader.int64()); break; case "input_i": reader.array(message.input_i, () => reader.int64()); break; case "output_i": reader.array(message.output_i, () => reader.int64()); break; case "workspace": reader.array(message.workspace, () => reader.int64()); break; case "workspace_bytes": reader.array(message.workspace_bytes, () => reader.int64()); break; case "is_input_const": reader.array(message.is_input_const, () => reader.bool()); break; case "input_desc": message.input_desc.push($root.ge.proto.TensorDescriptor.decodeText(reader)); break; case "output_desc": message.output_desc.push($root.ge.proto.TensorDescriptor.decodeText(reader)); break; case "subgraph_name": reader.array(message.subgraph_name, () => reader.string()); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.OpDef.prototype.name = ""; $root.ge.proto.OpDef.prototype.type = ""; $root.ge.proto.OpDef.prototype.has_out_attr = false; $root.ge.proto.OpDef.prototype.id = protobuf.Int64.create(0); $root.ge.proto.OpDef.prototype.stream_id = protobuf.Int64.create(0); $root.ge.proto.GraphDef = class GraphDef { constructor() { this.input = []; this.output = []; this.op = []; this.attr = {}; } static decode(reader, length) { const message = new $root.ge.proto.GraphDef(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.name = reader.string(); break; case 4: message.input.push(reader.string()); break; case 5: message.output.push(reader.string()); break; case 6: message.op.push($root.ge.proto.OpDef.decode(reader, reader.uint32())); break; case 11: reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.GraphDef(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "name": message.name = reader.string(); break; case "input": reader.array(message.input, () => reader.string()); break; case "output": reader.array(message.output, () => reader.string()); break; case "op": message.op.push($root.ge.proto.OpDef.decodeText(reader)); break; case "attr": reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decodeText(reader)); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.GraphDef.prototype.name = ""; $root.ge.proto.ModelDef = class ModelDef { constructor() { this.graph = []; this.attr = {}; } static decode(reader, length) { const message = new $root.ge.proto.ModelDef(); const end = length !== undefined ? reader.position + length : reader.length; while (reader.position < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.name = reader.string(); break; case 2: message.version = reader.uint32(); break; case 3: message.custom_version = reader.string(); break; case 7: message.graph.push($root.ge.proto.GraphDef.decode(reader, reader.uint32())); break; case 11: reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; } static decodeText(reader) { const message = new $root.ge.proto.ModelDef(); reader.start(); while (!reader.end()) { const tag = reader.tag(); switch (tag) { case "name": message.name = reader.string(); break; case "version": message.version = reader.uint32(); break; case "custom_version": message.custom_version = reader.string(); break; case "graph": message.graph.push($root.ge.proto.GraphDef.decodeText(reader)); break; case "attr": reader.entry(message.attr, () => reader.string(), () => $root.ge.proto.AttrDef.decodeText(reader)); break; default: reader.field(tag, message); break; } } return message; } }; $root.ge.proto.ModelDef.prototype.name = ""; $root.ge.proto.ModelDef.prototype.version = 0; $root.ge.proto.ModelDef.prototype.custom_version = "";