# -*- coding: utf-8 -*- # This file is auto-generated, don't edit it. Thanks. from Tea.model import TeaModel from typing import Dict class IndustrializeManufactureJobBookRequest(TeaModel): def __init__( self, corp_id: str = None, extend: str = None, inst_no: str = None, is_batch_job: str = None, manufacture_date: str = None, mes_app_key: str = None, process_en_name: str = None, process_name: str = None, product_code: str = None, product_en_name: str = None, product_name: str = None, product_specification: str = None, qualified_quantity: str = None, reworkable_quantity: str = None, scrapped_quantity: str = None, unit_price: str = None, user_id_list: str = None, user_name: str = None, user_name_list: str = None, uuid: str = None, ): self.corp_id = corp_id self.extend = extend # This parameter is required. self.inst_no = inst_no self.is_batch_job = is_batch_job # This parameter is required. self.manufacture_date = manufacture_date # This parameter is required. self.mes_app_key = mes_app_key self.process_en_name = process_en_name self.process_name = process_name self.product_code = product_code self.product_en_name = product_en_name self.product_name = product_name self.product_specification = product_specification # This parameter is required. self.qualified_quantity = qualified_quantity self.reworkable_quantity = reworkable_quantity self.scrapped_quantity = scrapped_quantity self.unit_price = unit_price self.user_id_list = user_id_list self.user_name = user_name self.user_name_list = user_name_list # This parameter is required. self.uuid = uuid def validate(self): pass def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.corp_id is not None: result['corpId'] = self.corp_id if self.extend is not None: result['extend'] = self.extend if self.inst_no is not None: result['instNo'] = self.inst_no if self.is_batch_job is not None: result['isBatchJob'] = self.is_batch_job if self.manufacture_date is not None: result['manufactureDate'] = self.manufacture_date if self.mes_app_key is not None: result['mesAppKey'] = self.mes_app_key if self.process_en_name is not None: result['processEnName'] = self.process_en_name if self.process_name is not None: result['processName'] = self.process_name if self.product_code is not None: result['productCode'] = self.product_code if self.product_en_name is not None: result['productEnName'] = self.product_en_name if self.product_name is not None: result['productName'] = self.product_name if self.product_specification is not None: result['productSpecification'] = self.product_specification if self.qualified_quantity is not None: result['qualifiedQuantity'] = self.qualified_quantity if self.reworkable_quantity is not None: result['reworkableQuantity'] = self.reworkable_quantity if self.scrapped_quantity is not None: result['scrappedQuantity'] = self.scrapped_quantity if self.unit_price is not None: result['unitPrice'] = self.unit_price if self.user_id_list is not None: result['userIdList'] = self.user_id_list if self.user_name is not None: result['userName'] = self.user_name if self.user_name_list is not None: result['userNameList'] = self.user_name_list if self.uuid is not None: result['uuid'] = self.uuid return result def from_map(self, m: dict = None): m = m or dict() if m.get('corpId') is not None: self.corp_id = m.get('corpId') if m.get('extend') is not None: self.extend = m.get('extend') if m.get('instNo') is not None: self.inst_no = m.get('instNo') if m.get('isBatchJob') is not None: self.is_batch_job = m.get('isBatchJob') if m.get('manufactureDate') is not None: self.manufacture_date = m.get('manufactureDate') if m.get('mesAppKey') is not None: self.mes_app_key = m.get('mesAppKey') if m.get('processEnName') is not None: self.process_en_name = m.get('processEnName') if m.get('processName') is not None: self.process_name = m.get('processName') if m.get('productCode') is not None: self.product_code = m.get('productCode') if m.get('productEnName') is not None: self.product_en_name = m.get('productEnName') if m.get('productName') is not None: self.product_name = m.get('productName') if m.get('productSpecification') is not None: self.product_specification = m.get('productSpecification') if m.get('qualifiedQuantity') is not None: self.qualified_quantity = m.get('qualifiedQuantity') if m.get('reworkableQuantity') is not None: self.reworkable_quantity = m.get('reworkableQuantity') if m.get('scrappedQuantity') is not None: self.scrapped_quantity = m.get('scrappedQuantity') if m.get('unitPrice') is not None: self.unit_price = m.get('unitPrice') if m.get('userIdList') is not None: self.user_id_list = m.get('userIdList') if m.get('userName') is not None: self.user_name = m.get('userName') if m.get('userNameList') is not None: self.user_name_list = m.get('userNameList') if m.get('uuid') is not None: self.uuid = m.get('uuid') return self class IndustrializeManufactureJobBookResponseBodyContent(TeaModel): def __init__( self, count: int = None, id: int = None, ): self.count = count self.id = id def validate(self): pass def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.count is not None: result['count'] = self.count if self.id is not None: result['id'] = self.id return result def from_map(self, m: dict = None): m = m or dict() if m.get('count') is not None: self.count = m.get('count') if m.get('id') is not None: self.id = m.get('id') return self class IndustrializeManufactureJobBookResponseBody(TeaModel): def __init__( self, content: IndustrializeManufactureJobBookResponseBodyContent = None, error_code: str = None, error_level: int = None, error_msg: str = None, http_code: str = None, success: bool = None, uuid: str = None, ): self.content = content self.error_code = error_code self.error_level = error_level self.error_msg = error_msg self.http_code = http_code # This parameter is required. self.success = success self.uuid = uuid def validate(self): if self.content: self.content.validate() def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.content is not None: result['content'] = self.content.to_map() if self.error_code is not None: result['errorCode'] = self.error_code if self.error_level is not None: result['errorLevel'] = self.error_level if self.error_msg is not None: result['errorMsg'] = self.error_msg if self.http_code is not None: result['httpCode'] = self.http_code if self.success is not None: result['success'] = self.success if self.uuid is not None: result['uuid'] = self.uuid return result def from_map(self, m: dict = None): m = m or dict() if m.get('content') is not None: temp_model = IndustrializeManufactureJobBookResponseBodyContent() self.content = temp_model.from_map(m['content']) if m.get('errorCode') is not None: self.error_code = m.get('errorCode') if m.get('errorLevel') is not None: self.error_level = m.get('errorLevel') if m.get('errorMsg') is not None: self.error_msg = m.get('errorMsg') if m.get('httpCode') is not None: self.http_code = m.get('httpCode') if m.get('success') is not None: self.success = m.get('success') if m.get('uuid') is not None: self.uuid = m.get('uuid') return self class IndustrializeManufactureJobBookResponse(TeaModel): def __init__( self, headers: Dict[str, str] = None, status_code: int = None, body: IndustrializeManufactureJobBookResponseBody = None, ): self.headers = headers self.status_code = status_code self.body = body def validate(self): if self.body: self.body.validate() def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.headers is not None: result['headers'] = self.headers if self.status_code is not None: result['statusCode'] = self.status_code if self.body is not None: result['body'] = self.body.to_map() return result def from_map(self, m: dict = None): m = m or dict() if m.get('headers') is not None: self.headers = m.get('headers') if m.get('statusCode') is not None: self.status_code = m.get('statusCode') if m.get('body') is not None: temp_model = IndustrializeManufactureJobBookResponseBody() self.body = temp_model.from_map(m['body']) return self class IndustrializeManufactureQueryJobsHeaders(TeaModel): def __init__( self, common_headers: Dict[str, str] = None, x_acs_dingtalk_access_token: str = None, ): self.common_headers = common_headers self.x_acs_dingtalk_access_token = x_acs_dingtalk_access_token def validate(self): pass def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.common_headers is not None: result['commonHeaders'] = self.common_headers if self.x_acs_dingtalk_access_token is not None: result['x-acs-dingtalk-access-token'] = self.x_acs_dingtalk_access_token return result def from_map(self, m: dict = None): m = m or dict() if m.get('commonHeaders') is not None: self.common_headers = m.get('commonHeaders') if m.get('x-acs-dingtalk-access-token') is not None: self.x_acs_dingtalk_access_token = m.get('x-acs-dingtalk-access-token') return self class IndustrializeManufactureQueryJobsRequest(TeaModel): def __init__( self, current_page: int = None, inst_no: str = None, manufacture_day: str = None, mes_app_key: str = None, page_size: int = None, process_name: str = None, product_code: str = None, product_name: str = None, product_specification: str = None, qualified_quantity: str = None, unit_price: str = None, user_id: str = None, user_id_list: str = None, user_name: str = None, uuid: str = None, ): self.current_page = current_page self.inst_no = inst_no self.manufacture_day = manufacture_day self.mes_app_key = mes_app_key self.page_size = page_size self.process_name = process_name self.product_code = product_code self.product_name = product_name self.product_specification = product_specification self.qualified_quantity = qualified_quantity self.unit_price = unit_price self.user_id = user_id self.user_id_list = user_id_list self.user_name = user_name self.uuid = uuid def validate(self): pass def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.current_page is not None: result['currentPage'] = self.current_page if self.inst_no is not None: result['instNo'] = self.inst_no if self.manufacture_day is not None: result['manufactureDay'] = self.manufacture_day if self.mes_app_key is not None: result['mesAppKey'] = self.mes_app_key if self.page_size is not None: result['pageSize'] = self.page_size if self.process_name is not None: result['processName'] = self.process_name if self.product_code is not None: result['productCode'] = self.product_code if self.product_name is not None: result['productName'] = self.product_name if self.product_specification is not None: result['productSpecification'] = self.product_specification if self.qualified_quantity is not None: result['qualifiedQuantity'] = self.qualified_quantity if self.unit_price is not None: result['unitPrice'] = self.unit_price if self.user_id is not None: result['userId'] = self.user_id if self.user_id_list is not None: result['userIdList'] = self.user_id_list if self.user_name is not None: result['userName'] = self.user_name if self.uuid is not None: result['uuid'] = self.uuid return result def from_map(self, m: dict = None): m = m or dict() if m.get('currentPage') is not None: self.current_page = m.get('currentPage') if m.get('instNo') is not None: self.inst_no = m.get('instNo') if m.get('manufactureDay') is not None: self.manufacture_day = m.get('manufactureDay') if m.get('mesAppKey') is not None: self.mes_app_key = m.get('mesAppKey') if m.get('pageSize') is not None: self.page_size = m.get('pageSize') if m.get('processName') is not None: self.process_name = m.get('processName') if m.get('productCode') is not None: self.product_code = m.get('productCode') if m.get('productName') is not None: self.product_name = m.get('productName') if m.get('productSpecification') is not None: self.product_specification = m.get('productSpecification') if m.get('qualifiedQuantity') is not None: self.qualified_quantity = m.get('qualifiedQuantity') if m.get('unitPrice') is not None: self.unit_price = m.get('unitPrice') if m.get('userId') is not None: self.user_id = m.get('userId') if m.get('userIdList') is not None: self.user_id_list = m.get('userIdList') if m.get('userName') is not None: self.user_name = m.get('userName') if m.get('uuid') is not None: self.uuid = m.get('uuid') return self class IndustrializeManufactureQueryJobsResponseBodyContent(TeaModel): def __init__( self, corp_id: str = None, gmt_create: str = None, gmt_modified: str = None, id: int = None, inst_no: str = None, is_batch_job: str = None, manufacture_date: str = None, manufacture_day: str = None, mes_app_key: str = None, process_name: str = None, qualified_quantity: str = None, scrapped_quantity: str = None, unit_price: str = None, user_id: str = None, user_id_list: str = None, user_name_list: str = None, uuid: str = None, ): # This parameter is required. self.corp_id = corp_id # This parameter is required. self.gmt_create = gmt_create # This parameter is required. self.gmt_modified = gmt_modified # This parameter is required. self.id = id # This parameter is required. self.inst_no = inst_no # This parameter is required. self.is_batch_job = is_batch_job # This parameter is required. self.manufacture_date = manufacture_date # This parameter is required. self.manufacture_day = manufacture_day # This parameter is required. self.mes_app_key = mes_app_key # This parameter is required. self.process_name = process_name # This parameter is required. self.qualified_quantity = qualified_quantity # This parameter is required. self.scrapped_quantity = scrapped_quantity # This parameter is required. self.unit_price = unit_price # This parameter is required. self.user_id = user_id # This parameter is required. self.user_id_list = user_id_list # This parameter is required. self.user_name_list = user_name_list # This parameter is required. self.uuid = uuid def validate(self): pass def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.corp_id is not None: result['corpId'] = self.corp_id if self.gmt_create is not None: result['gmtCreate'] = self.gmt_create if self.gmt_modified is not None: result['gmtModified'] = self.gmt_modified if self.id is not None: result['id'] = self.id if self.inst_no is not None: result['instNo'] = self.inst_no if self.is_batch_job is not None: result['isBatchJob'] = self.is_batch_job if self.manufacture_date is not None: result['manufactureDate'] = self.manufacture_date if self.manufacture_day is not None: result['manufactureDay'] = self.manufacture_day if self.mes_app_key is not None: result['mesAppKey'] = self.mes_app_key if self.process_name is not None: result['processName'] = self.process_name if self.qualified_quantity is not None: result['qualifiedQuantity'] = self.qualified_quantity if self.scrapped_quantity is not None: result['scrappedQuantity'] = self.scrapped_quantity if self.unit_price is not None: result['unitPrice'] = self.unit_price if self.user_id is not None: result['userId'] = self.user_id if self.user_id_list is not None: result['userIdList'] = self.user_id_list if self.user_name_list is not None: result['userNameList'] = self.user_name_list if self.uuid is not None: result['uuid'] = self.uuid return result def from_map(self, m: dict = None): m = m or dict() if m.get('corpId') is not None: self.corp_id = m.get('corpId') if m.get('gmtCreate') is not None: self.gmt_create = m.get('gmtCreate') if m.get('gmtModified') is not None: self.gmt_modified = m.get('gmtModified') if m.get('id') is not None: self.id = m.get('id') if m.get('instNo') is not None: self.inst_no = m.get('instNo') if m.get('isBatchJob') is not None: self.is_batch_job = m.get('isBatchJob') if m.get('manufactureDate') is not None: self.manufacture_date = m.get('manufactureDate') if m.get('manufactureDay') is not None: self.manufacture_day = m.get('manufactureDay') if m.get('mesAppKey') is not None: self.mes_app_key = m.get('mesAppKey') if m.get('processName') is not None: self.process_name = m.get('processName') if m.get('qualifiedQuantity') is not None: self.qualified_quantity = m.get('qualifiedQuantity') if m.get('scrappedQuantity') is not None: self.scrapped_quantity = m.get('scrappedQuantity') if m.get('unitPrice') is not None: self.unit_price = m.get('unitPrice') if m.get('userId') is not None: self.user_id = m.get('userId') if m.get('userIdList') is not None: self.user_id_list = m.get('userIdList') if m.get('userNameList') is not None: self.user_name_list = m.get('userNameList') if m.get('uuid') is not None: self.uuid = m.get('uuid') return self class IndustrializeManufactureQueryJobsResponseBody(TeaModel): def __init__( self, content: IndustrializeManufactureQueryJobsResponseBodyContent = None, http_code: str = None, ): self.content = content self.http_code = http_code def validate(self): if self.content: self.content.validate() def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.content is not None: result['content'] = self.content.to_map() if self.http_code is not None: result['httpCode'] = self.http_code return result def from_map(self, m: dict = None): m = m or dict() if m.get('content') is not None: temp_model = IndustrializeManufactureQueryJobsResponseBodyContent() self.content = temp_model.from_map(m['content']) if m.get('httpCode') is not None: self.http_code = m.get('httpCode') return self class IndustrializeManufactureQueryJobsResponse(TeaModel): def __init__( self, headers: Dict[str, str] = None, status_code: int = None, body: IndustrializeManufactureQueryJobsResponseBody = None, ): self.headers = headers self.status_code = status_code self.body = body def validate(self): if self.body: self.body.validate() def to_map(self): _map = super().to_map() if _map is not None: return _map result = dict() if self.headers is not None: result['headers'] = self.headers if self.status_code is not None: result['statusCode'] = self.status_code if self.body is not None: result['body'] = self.body.to_map() return result def from_map(self, m: dict = None): m = m or dict() if m.get('headers') is not None: self.headers = m.get('headers') if m.get('statusCode') is not None: self.status_code = m.get('statusCode') if m.get('body') is not None: temp_model = IndustrializeManufactureQueryJobsResponseBody() self.body = temp_model.from_map(m['body']) return self