CN117311675A - Service configuration method and device related to distributed system and electronic equipment - Google Patents

Abstract

The application provides a service configuration method, a service configuration device and electronic equipment related to a distributed system, and relates to the technical field of data processing, wherein the method comprises the following steps: acquiring the generation requirement of a business process input by a creator; analyzing the generated demand, and determining a flow direction of the business process, wherein the flow direction comprises a flow starting point and a flow ending point of the business process; determining a start point code of a flow start point, a plurality of midpoint codes and an end point code of a flow end point according to the flow direction; calling a starting point node module corresponding to the starting point code, an ending point node module corresponding to the ending point code and a middle point node module corresponding to each middle point code from a preset database; and according to the flow direction, according to the starting point codes, the plurality of midpoint codes and the end point codes, sequencing and connecting the starting point node modules, the plurality of midpoint node modules and the end point node module to generate a business flow. The method and the device can improve the development efficiency of the business process.

Description

Service configuration method and device related to distributed system and electronic equipment

Technical Field

The present invention relates to the technical field of data processing, and in particular, to a service configuration method and apparatus for a distributed system, and an electronic device.

Background

Business systems simplify and optimize traditional office workflows by utilizing modern tools such as computers, communication technology, and the like. By means of automation and digitalization, manual and repeated work of office workers is reduced, and office transactions and business information are processed more efficiently and with higher quality. By fully utilizing the information resources, the service system provides better decision support, improves the working efficiency of staff and improves the working environment. Overall, the goal of business systems is to improve work efficiency, improve work quality, and provide better competitive advantages for enterprises through modern technology.

When a company works by using a business system, the business process of the application platform is generally involved to simplify and optimize office tasks and processes, so that the office tasks and processes are more efficient, transparent and traceable. The business processes include a reimbursement approval process, a contract approval process, a project management process, an application for leave, a purchase application process, and the like. These business processes help companies better manage and coordinate work between different departments and various office tasks, reduce manual work, improve efficiency, reduce errors, and provide better traceability and reporting.

Different business processes are often required for different companies, depending on the industry, scale, culture, strategy and specific needs of the company. Typically, the business process provided by the business system is designed according to the actual needs of the company. Currently, when a business system designs a business process for a client company, a developer is required to be in butt joint with a relevant responsible person of the client company, and the business process is designed from scratch after the requirement is known. After the design is finished, the online service system is provided for a client company, the whole process needs to take a long time, and the process development efficiency is low. Therefore, a method is needed to improve the development efficiency of the business process.

Disclosure of Invention

The application provides a service configuration method, a service configuration device and electronic equipment related to a distributed system, which can improve the development efficiency of a service flow.

In a first aspect of the present application, there is provided a service configuration method involving a distributed system, the method comprising:

acquiring a generation requirement of a business process input by a creator, wherein the generation requirement comprises related processing department information of the business process and process type information of the business process;

Analyzing the generated demand, and determining a flow direction of a business flow, wherein the flow direction comprises a flow starting point and a flow ending point of the business flow, the flow starting point is the creator, and the flow ending point is an ending processor corresponding to an ending node of the business flow;

determining a starting point code of the starting point of the process, a plurality of midpoint codes and an end point code of the end point of the process according to the flow direction, wherein the starting point code is a post code corresponding to a processor of an intermediate node of the business process, the midpoint codes are post codes corresponding to a processor, the end point codes are post codes of the processor, and the post codes are codes for staff posts of a preset company where the creator is located based on preset coding rules;

calling a starting point node module corresponding to the starting point code, an end point node module corresponding to the end point code and a middle point node module corresponding to each middle point code from a preset database;

and according to the flow direction, according to the starting point codes, the plurality of midpoint codes and the end point codes, sequencing and connecting the starting point node modules, the plurality of midpoint node modules and the end point node modules to generate the business flow.

By adopting the technical scheme, when a user needs to develop a business process, the user only needs to input the generation requirement related to the information of the processing department and the information of the process type, and the generation requirement can be analyzed to realize the flow direction of the business process. The starting point of the flow direction is the creator, and the end point of the flow direction is the responsible person of the processing department in the processing department information, so that the determination of the flow direction does not need manual setting by a user, and can be automatically generated after the generation requirement is input. And further determining a starting point code corresponding to the starting point of the flow and an end point code corresponding to the end point of the flow according to the flow direction, and determining midpoint codes of a plurality of intermediate nodes positioned in the middle of the starting point of the flow and the end point of the flow so as to obtain the position codes corresponding to all processors participating in business flow processing. And then, only the node modules corresponding to the codes are called from a preset database, and the node modules are connected in sequence according to the flow direction of the flow, so that the service module can be generated. Most of the process generation work is automatically completed, so that a creator is required to manually develop the process each time, and the development efficiency of the business process is improved.

Optionally, before the determining the start point code of the start point of the flow and the end point code of the end point of the flow, the method includes:

Acquiring a preset organization architecture, wherein the organization architecture is an internal hierarchical structure of the preset company;

and carrying out preset coding processing on each post of the preset company according to the post hierarchy relation contained in the organization framework to obtain a plurality of post codes, wherein the post codes contain post hierarchy relation information and department information corresponding to the posts.

By adopting the technical scheme, the preset organization architecture is acquired, and the preset coding processing is carried out on each post according to the organization architecture, so that the post codes containing post level relation information and department information can be obtained. This step may provide the necessary preparation and support for the start code and end code that subsequently determines the start of the process and the end of the process. By acquiring the preset organization structure, the internal hierarchical structure of the preset company and the hierarchical relationship of each post can be clearly known, which is helpful for correctly determining the start point and the end point of the flow. The preset coding processing is carried out on each post according to the organization architecture, so that a plurality of post codes can be obtained, and the codes comprise post level relation information and department information and can be effectively used for subsequent process development and code determination. Meanwhile, under the condition that the coding rule is unchanged, the accuracy and consistency of flow development and execution can be better ensured, and the efficiency and quality of flow development are improved.

Optionally, the analyzing the generating requirement to determine a flow direction of the business process specifically includes:

setting the creator as the flow start point;

acquiring a first department in which the creator is located;

performing natural language analysis on the data content of the generation requirement, and determining processing department information contained in the generation requirement;

determining a second department for ending processing the business process according to the processing department information;

determining a responsible person of the second department, and setting the responsible person as the end processor to obtain the flow end point;

and obtaining the flow direction according to the flow starting point and the flow ending point, wherein the flow direction flows from the flow starting point to a first node, flows from the first node to a second node, flows from the second node to the flow ending point, the first node is a responsible person of the first department, the second node is a processor of the second department on the same post as the creator, and the plurality of intermediate nodes comprise the first node and the second node.

By adopting the technical scheme, the flow direction of the business flow can be determined by generating the processing department information in the demand through natural language analysis. Specifically, a creator is set as a flow start point, a first department where the creator is located is acquired, natural language analysis is performed on data content of the generated demand to determine processing department information, a second department ending the processing business flow and a responsible person thereof are determined according to the processing department information, and then a flow end point is determined. After the flow start point and the flow end point are determined, the flow direction can be rapidly determined.

Optionally, before the calling the starting node module corresponding to the starting code, the ending node module corresponding to the ending code, and the midpoint node module corresponding to each midpoint code from the preset database, the method further includes:

invoking a plurality of historical business processes in the preset database, wherein the plurality of historical business processes comprise a first business process created by the creator, a second business process created by other processors of the preset company and a third business process created by the processors of the other companies;

acquiring a first flow type of the business process and acquiring a second flow type of each historical business process;

determining a plurality of first business processes, wherein the first business process is any one of a plurality of historical business processes, and the second flow type of the first business process is the same as the first flow type;

acquiring a first node code corresponding to each process node of a second business process, wherein the second business process is any one of a plurality of first business processes, and the first node code is a post code of a processor corresponding to the process node;

Determining a second node code identical to any one of a plurality of post codes, wherein the plurality of post codes comprise the starting point code, a plurality of midpoint codes and the end point code, and the second node code is any one of a plurality of first node codes;

determining the number of codes of a plurality of second node codes;

judging whether the coding quantity is larger than a preset quantity, if so, splitting the nodes of the second business process to obtain a plurality of node modules, wherein the plurality of node modules comprise a starting point node module, a middle point node module and an end point node module.

By adopting the technical scheme, the flow types and the flow structures created by different processors can be known by calling a plurality of historical business flows in the preset database, and references are provided for the development of new flows. The first flow type of the business flow and the second flow type of the historical business flow are obtained, whether the first flow type and the second flow type of the historical business flow are identical or not is judged, whether the historical business flow to be adopted is consistent with the flow type of a new flow to be developed or not can be judged preliminarily, and errors such as type mismatch and the like when the new flow is developed are avoided, so that the following flow module is not adapted. If the first flow type is determined to be the same as the second flow type, comparing the number of node codes which are the same as the plurality of post codes in the node codes of the flow nodes in the historical business flow. If the same number exceeds the preset number, the historical business process has larger similarity with the process to be created. And firstly, rough comparison is carried out according to the flow types, so that the calculation force can be saved, and the efficiency of searching and comparing the historical business flow is improved. And then the precise comparison is carried out through the codes, so that the accuracy of the comparison can be further improved. The historical business process is subjected to node splitting to obtain a plurality of node modules, wherein the node modules comprise a starting point node module, a middle point node module and an end point node module, and the node modules can be directly used for generating new business processes. By referring to the historical business process and splitting the nodes, the advantages and characteristics of the business process can be better reserved and inherited, and unnecessary errors or deviations are avoided during redevelopment. The scheme can improve the development efficiency and quality, reduce the workload of manual operation and possible errors, and further optimize the development process of the business process.

Optionally, according to the flow direction, the starting point node module, the plurality of midpoint node modules and the end point node module are connected in sequence according to the starting point code, the plurality of midpoint codes and the end point code, so as to generate the service flow, which specifically includes:

determining a first node module corresponding to a first post code, and determining a second node module corresponding to a second post code, wherein the first post code and the second post code are any two post codes of the starting point code, the midpoint codes and the end point codes, the first node module is a node module corresponding to the first post code among the starting point node module, the midpoint node modules and the end point node modules, and the second node module is a node module corresponding to the second post code among the starting point node module, the midpoint node modules and the end point node modules;

according to the flow direction, acquiring first position data of a first post code and second position data of a second post code;

judging the sequence of the first position data and the second position data;

And if the first position data is determined to be positioned before the second position data, setting the first node module to be positioned before the second node module.

Through adopting above-mentioned technical scheme, through determining arbitrary two post codes in a plurality of post codes, first node module and the second node module that first post code and second post code correspond can be fixed a position the node module that corresponds with specific post code fast, make things convenient for subsequent sequencing and connection. Position data of the first position code and the second position code are obtained, and the position and sequence relation of each node module in the service flow can be known. And judging the sequence of the first position data and the second position data, and determining the connection sequence between the node modules. If the first position data is located before the second position data, the first node module is located before the second node module, and the connection sequence and the flow direction between the node modules can be guaranteed to be consistent. Based on this principle, ordering and connection of all node modules is achieved.

Optionally, after the step of generating the service flow according to the flow direction, the step of performing ordered connection on the starting node module, the plurality of midpoint node modules and the end node module according to the starting point code, the plurality of midpoint codes and the end code, the method further includes:

Acquiring a flow file which is input by the creator and aims at the business flow;

according to a preset bit screening rule, carrying out coding screening on the plurality of position codes to obtain a first code, wherein the plurality of position codes comprise the starting point code, a plurality of midpoint codes and the end point code, the position level corresponding to the first code is larger than or equal to the position level corresponding to the starting point code, and the first code is any one of the position codes;

opening an opening authority of a processor of a first node, wherein the opening authority is the authority of the processor on the flow file, and the first node is a node corresponding to the first code;

according to a preset bit screening rule, carrying out coding screening on a plurality of post codes to obtain a second code, wherein the post level corresponding to the second code is smaller than the post level corresponding to the starting point code, and the second code is any one of the post codes;

closing the opening authority of a processor of a second node, wherein the second node is a node corresponding to the second code.

By adopting the technical scheme, the codes of the posts are screened according to the preset digit screening rule, so that the first codes and the second codes can be obtained, and the corresponding post levels of the codes are different and can be used for determining nodes with different process file opening authorities. And determining a first node and a second node corresponding to the first code and the second code, and further determining the node needing control authority. Closing the opening authority of the processor of the first node can prevent the processor from modifying or deleting the process file of the node, and the stability and safety of the business process are ensured. Opening the opening authority of the processor of the second node can enable the processor to normally access and operate the flow file of the node so as to meet the actual service requirement.

Optionally, after the step of generating the service flow according to the flow direction, the step of performing ordered connection on the starting node module, the plurality of midpoint node modules and the end node module according to the starting point code, the plurality of midpoint codes and the end code, the method further includes:

acquiring a position adjustment instruction which is input by the creator and aims at the first node module;

acquiring third position data of the first node module input by the creator;

setting the third location data as location data of the first node module;

and reordering the plurality of node modules according to the third position data.

By adopting the technical scheme, the specific requirements of the creator on the position of the first node module can be known by acquiring the position adjustment instruction which is input by the creator and aims at the first node module. And acquiring the third position data of the first node module input by the creator, and determining the new position of the first node module. Setting the third position data as the position data of the first node module can realize the adjustment of the position of the first node module. The plurality of node modules are reordered according to the third position data, so that the sequence and structure of the whole business process can be ensured to be consistent with the requirements of the creator, and the execution efficiency of the business process can be optimized. Meanwhile, the position and sequence of the node modules are flexibly adjusted, and different service requirements and changes are adapted.

In a second aspect of the present application, a service configuration apparatus related to a distributed system is provided, including an acquisition module, an analysis module, a processing module, and a generation module, where:

the acquisition module is used for acquiring the generation requirement of the business process input by the creator, wherein the generation requirement comprises the related processing department information of the business process and the process type information of the business process.

The analysis module is used for analyzing the generated demand and determining a flow direction of a business flow, wherein the flow direction comprises a flow starting point and a flow ending point of the business flow, the flow starting point is the creator, and the flow ending point is a responsible person of a processing department in the processing department information.

The processing module is configured to determine, according to the flow direction, a start code of the start point of the flow, a plurality of midpoint codes, and an end code of the end point of the flow, where the start code is a post code of the creator, the midpoint codes are post codes corresponding to a processor of an intermediate node of the business flow, the end codes are post codes of an end processor, and the post codes are codes performed on employee posts of a preset company where the creator is located based on a preset coding rule.

The acquisition module is used for calling a starting point node module corresponding to the starting point code, an ending point node module corresponding to the ending point code and a middle point node module corresponding to each middle point code from a preset database.

The generating module is configured to perform sequencing connection on the starting node module, the plurality of midpoint node modules, and the end node module according to the flow direction and the starting point code, the plurality of midpoint codes, and the end code, so as to generate the service flow.

Optionally, the obtaining module is configured to obtain a preset organization architecture, where the organization architecture is an internal hierarchical structure of the preset company.

The processing module is used for carrying out preset coding processing on each post of the preset company according to post level relation contained in the organization structure to obtain a plurality of post codes, wherein the post codes contain post level relation information and department information corresponding to the posts.

Optionally, the processing module is configured to set the creator as the flow start point.

The acquisition module is used for acquiring a first department where the creator is located.

The analysis module is used for carrying out natural language analysis on the data content of the generation requirement and determining the processing department information contained in the generation requirement.

And the processing module is used for determining a second department for ending processing the business process according to the processing department information.

The processing module is used for determining a responsible person of the second department, setting the responsible person as the ending processor, and obtaining the flow end point.

The generating module is configured to obtain the flow direction according to the flow start point and the flow end point, where the flow direction flows from the flow start point to a first node, flows from the first node to a second node, flows from the second node to the flow end point, the first node is a responsible person of the first department, the second node is a processor of the second department on the same post level as the creator, and the plurality of intermediate nodes include the first node and the second node.

Optionally, the obtaining module is configured to invoke a plurality of historical business processes in the preset database, where the plurality of historical business processes includes a first business process created by the creator, a second business process created by other processors of the preset company, and a third business process created by processors of other companies.

The acquisition module is used for acquiring a first flow type of the business process and acquiring a second flow type of each historical business process.

The processing module is configured to determine a plurality of first service flows, where the first service flow is any one of the plurality of historical service flows, and a second flow type of the first service flow is the same as the first flow type.

The acquisition module is configured to acquire a first node code corresponding to each process node of a second service process, where the second service process is any one of a plurality of first service processes, and the first node code is a post code of a processor corresponding to the process node.

The processing module is configured to determine a second node code that is the same as any one of a plurality of post codes, where the plurality of post codes includes the start code, a plurality of midpoint codes, and the end code, and the second node code is any one of the plurality of first node codes.

The processing module is used for determining the coding quantity of a plurality of second node codes.

The analysis module is configured to determine whether the number of codes is greater than a preset number, and if the number of codes is greater than the preset number, split nodes of the second business process to obtain a plurality of node modules, where the plurality of node modules include the starting node module, the midpoint node module, and the end node module.

Optionally, the processing module is configured to determine a first node module corresponding to a first position code, and determine a second node module corresponding to a second position code, where the first position code and the second position code are any two position codes of the start point code, the plurality of midpoint codes, and the end point code, the first node module is a node module corresponding to the first position code among the start point node module, the plurality of midpoint node modules, and the end point node module, and the second node module is a node module corresponding to the second position code among the start point node module, the plurality of midpoint node modules, and the end point node module.

The acquisition module is used for acquiring first position data of the first post code and second position data of the second post code according to the flow direction.

The analysis module is used for judging the sequence of the first position data and the second position data.

The processing module is configured to set the first node module to be located before the second node module if the first location data is located before the second location data.

Optionally, the acquiring module is configured to acquire a flow file for the business flow input by the creator.

The processing module is used for carrying out coding screening on the plurality of post codes according to a preset bit screening rule to obtain a first code, the plurality of post codes comprise the starting point code, a plurality of midpoint codes and the end point code, the post level corresponding to the first code is larger than or equal to the post level corresponding to the starting point code, and the first code is any one of the post codes.

The processing module is used for opening the opening authority of a processor of a first node, wherein the opening authority is the authority of the processor for the flow file, and the first node is the node corresponding to the first code.

The processing module is used for carrying out coding screening on a plurality of post codes according to a preset bit screening rule to obtain a second code, the post level corresponding to the second code is smaller than the post level corresponding to the starting point code, and the second code is any one of the post codes.

The processing module is configured to close the opening permission of the processor of the second node, where the second node is a node corresponding to the second code.

Optionally, the acquiring module is configured to acquire a position adjustment instruction for the first node module, which is input by the creator.

The acquisition module is used for acquiring the third position data of the first node module input by the creator.

The processing module is configured to set the third location data as location data of the first node module.

The analysis module is configured to reorder the plurality of node modules according to the third location data.

In a third aspect the present application provides an electronic device comprising a processor, a memory for storing instructions, a user interface and a network interface, both for communicating with other devices, the processor being for executing the instructions stored in the memory to cause the electronic device to perform a method as claimed in any one of the preceding claims.

In a fourth aspect of the present application, there is provided a computer readable storage medium storing instructions that, when executed, perform a method as claimed in any one of the preceding claims.

In summary, one or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

1. when a user needs to develop a business process, the user only needs to input the generation requirement related to the information of the processing department and the information of the process type, and the generation requirement can be analyzed to flow the business process. The starting point of the flow direction is the creator, and the end point of the flow direction is the responsible person of the processing department in the processing department information, so that the determination of the flow direction does not need manual setting by a user, and can be automatically generated after the generation requirement is input. And further determining a starting point code corresponding to the starting point of the flow and an end point code corresponding to the end point of the flow according to the flow direction, and determining midpoint codes of a plurality of intermediate nodes positioned in the middle of the starting point of the flow and the end point of the flow so as to obtain the position codes corresponding to all processors participating in business flow processing. And then, only the node modules corresponding to the codes are called from a preset database, and the node modules are connected in sequence according to the flow direction of the flow, so that the service module can be generated. Most of the process generation work is automatically completed, so that a creator is required to manually develop the process each time, and the development efficiency of the business process is improved.

2. The method comprises the steps of obtaining a preset organization structure and carrying out preset coding processing on each post according to the organization structure, so that post codes containing post level relation information and department information can be obtained. This step may provide the necessary preparation and support for the start code and end code that subsequently determines the start of the process and the end of the process. By acquiring the preset organization structure, the internal hierarchical structure of the preset company and the hierarchical relationship of each post can be clearly known, which is helpful for correctly determining the start point and the end point of the flow. The preset coding processing is carried out on each post according to the organization architecture, so that a plurality of post codes can be obtained, and the codes comprise post level relation information and department information and can be effectively used for subsequent process development and code determination. Meanwhile, under the condition that the coding rule is unchanged, the accuracy and consistency of flow development and execution can be better ensured, and the efficiency and quality of flow development are improved.

Drawings

Fig. 1 is a schematic flow diagram of a service configuration method related to a distributed system according to an embodiment of the present application;

fig. 2 is a schematic application scenario diagram of a service configuration method related to a distributed system according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an organization architecture of a preset company according to an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of post codes of a preset company according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a service configuration device related to a distributed system according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Reference numerals illustrate: 201. a cloud server; 202. a server; 203. a client; 204. a user equipment; 501. an acquisition module; 502. an analysis module; 503. a processing module; 504. a generating module; 601. a processor; 602. a communication bus; 603. a user interface; 604. a network interface; 605. a memory.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present specification, the technical solutions in the embodiments of the present specification will be clearly and completely described below with reference to the drawings in the embodiments of the present specification, and it is obvious that the described embodiments are only some embodiments of the present application, but not all embodiments.

In the description of embodiments of the present application, words such as "for example" or "for example" are used to indicate examples, illustrations or descriptions. Any embodiment or design described herein as "such as" or "for example" should not be construed as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "or" for example "is intended to present related concepts in a concrete fashion.

In the description of the embodiments of the present application, the term "plurality" means two or more. For example, a plurality of systems means two or more systems, and a plurality of screen terminals means two or more screen terminals. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating an indicated technical feature. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

Business systems use modern tools such as computers, communication technology, etc. to simplify and optimize traditional office workflows. By means of automation and digitalization, manual and repeated work of office workers is reduced, and office transactions and business information are processed more efficiently and with higher quality. By fully utilizing the information resources, the service system provides better decision support, improves the working efficiency of staff and improves the working environment. Overall, the goal of business systems is to improve work efficiency, improve work quality, and provide better competitive advantages for enterprises through modern technology.

When a company works by using a business system, the business process of the application platform is generally involved to simplify and optimize office tasks and processes, so that the office tasks and processes are more efficient, transparent and traceable. The business processes include a reimbursement approval process, a contract approval process, a project management process, an application for leave, a purchase application process, and the like. These business processes help companies better manage and coordinate work between different departments and various office tasks, reduce manual work, improve efficiency, reduce errors, and provide better traceability and reporting.

Different business processes are often required for different companies, depending on the industry, scale, culture, strategy and specific needs of the company. Typically, the business process provided by the business system is designed according to the actual needs of the company. Currently, when a business system designs a business process for a client company, a developer is required to be in butt joint with a relevant responsible person of the client company, and the business process is designed from scratch after the requirement is known. After the design is finished, the online service system is provided for a client company, the whole process needs to take a long time, and the process development efficiency is low. Therefore, a method is needed to improve the development efficiency of the business process.

The embodiment discloses a service configuration method related to a distributed system, referring to fig. 1, including the following steps S110-S160:

s110, obtaining the generation requirement of the business process input by the creator.

The service configuration method related to the distributed system disclosed in the embodiments of the present application is applied to the cloud server 201, where the cloud server 201 (Elastic Compute Service, ECS) is one of cloud computing services, and is provided by a cloud service provider, and allows users to rent virtual computing resources, including virtual machines, CPUs, memories and storages, so as to easily create, configure and manage computing instances on the cloud, so as to meet the requirements of different application programs, thereby realizing highly scalable and elastic computing environments.

For any company, it contains a server 202. Referring to fig. 2, a plurality of servers 202 are simultaneously connected to a cloud server 201, but any two servers 202 are independent of each other and do not communicate data. The server 202 includes, but is not limited to, electronic devices such as cell phones, tablet computers, wearable devices, PCs (Personal Computer, personal computers), etc., and may also be a background server 202 running business systems. The server 202 may be implemented as a stand-alone server 202 or as a cluster of servers 202 comprising a plurality of servers 202. And each server 202 has connected thereto a plurality of clients 203, the clients 203 being computers used by staff (creator) of a client company (preset company). It will be understood here that each client 203 is a computer, and can use a service system through the connection server 202. A plurality of clients 203 are connected to the server 202, a plurality of servers 202 are connected to the cloud server 201, and a plurality of user devices 204 are connected to the cloud server, and the plurality of clients 203 and the servers 202, the cloud server 201, and the user devices 204 constitute a distributed system.

Referring to fig. 2, cloud server 201 is coupled to a plurality of user devices 204, including but not limited to: android (Android) system Devices, mobile operating system (IOS) Devices developed by apple corporation, personal Computers (PCs), world Wide Web (Web) Devices, smart Wearable Devices (WD), and the like. It will be appreciated herein that the user device 204 is a device used by a developer in the background of the business system, which developer develops and maintains the business system via the user device 204. The original code data of the service system is stored in the cloud server 201, and the service system is operated in the server 202. And the operating business system is different for different servers 202.

For the creator, if the service system is required to provide a new service flow, the creation requirement of the creator needs to be input to the server 202, and the creation requirement can be input to the cloud server 201 indirectly through the client 203 of the creator or can be input to the cloud server 201 through the user equipment 204. The production requirements of a business process need to include the processing department to which the business process relates and the process type of the business process. The processing departments to which a business process relates refer to which departments are required to process the business process. The process types include a cancel approval process, a contract approval process, a project management process, an ask for leave application process, a purchase application process, and the like. The generation requirement is typically a piece of text such as "reimbursement approval procedure by fiscal department", or "purchase application procedure approved by fiscal department".

S120, analyzing the generation requirement and determining the flow direction of the business flow.

The flow direction at least comprises a flow start point and a flow end point of the business flow, wherein the flow start point refers to a first department where a creator is located, the flow end point refers to a second department corresponding to an end node of the business flow, more precisely, the flow end point refers to a last node of the flow, and a department where a processor corresponding to the node is located. In the service configuration method related to the distributed system disclosed by the embodiment of the application, an automatic flow processing method needs to generate a service flow through post coding, wherein the post coding is based on preset coding rules and is used for coding staff posts of a preset company where a creator is located. It is therefore necessary to code the various posts of the preset company before this time.

Specifically, the cloud server 201 first needs to acquire an organization architecture of a preset company, that is, an internal hierarchy of a company where a creator of a business process is located. Then, the cloud server 201 performs preset encoding processing on each post of the preset company according to the organization architecture including the post hierarchy relationship to obtain a plurality of post codes, where the post codes need to include the post hierarchy relationship information and the department information corresponding to the post. Referring to fig. 3, fig. 3 is a schematic diagram of an organization structure of a preset company, and according to the organization structure in the diagram, the execution director is a top level of a market manager, and the market manager is a top level of a market clerk and after-sales customer service.

It should be noted that the organization structure diagram shown in fig. 3 may not be comprehensive or reasonable, and the organization structure diagram shown in fig. 3 is merely for convenience of description of the solution in the following description, which indicates the feasibility of the solution.

As mentioned above, the post code needs to include the post level relation information and the department information corresponding to the post, which can be understood that the level relation of the post corresponding to the post code and the department in which the post is located can be determined through the post code. According to preset coding rules, in the corporate organization architecture, the positions corresponding to the positions of the same level are the same in number of positions, except for the positions above the department responsible person. In addition, according to preset coding rules, the positions of the same level of different departments are different in corresponding position coding values, so that different departments can be distinguished through the position coding. In short, for any one post code, it is necessary to be able to represent the post hierarchy relationship contained therein by the code digit, and to represent the department information contained therein by the code digit. And the contained post hierarchy relation and department information need to be represented by one code, rather than representing the hierarchy relation and department information of any post by means of two or more codes.

For example, referring to FIG. 4, the post codes shown in FIG. 4 are in one-to-one correspondence with the organization structure shown in FIG. 3. According to the coding method corresponding to the position coding schematic diagram shown in fig. 4, the position code corresponding to the board length of the board is 0, and the position code corresponding to the total manager is 1. The post code indicates the corresponding post code of the total manager from the first position of the left number, the post code of the total manager from the second position of the left number, the post code of the department manager from the third position of the left number, the post code of the organization manager from the fourth position of the left number, and the post code of the staff from the fifth position of the left number. For example, the preset company includes two general authorities, namely an operation general authority and an execution general authority, whose corresponding post codes are 11 and 12, respectively. And the executive director manages the market part and the production part, the position code corresponding to the market manager of the market part is 125, and the position code corresponding to the production manager of the production part is 126. And the job manager of the production manager managed job shop organization corresponds to the job code 1261 and the job manager managed tester corresponds to the job code 12612. For personnel manager, it belongs to personnel department, but because of the manager straight tube of the reduction, the upper level has no general supervision post, so the general supervision corresponding post code of the second position in its corresponding post code is 0, thus the post code is 103. For the delivery group leader, the upper level has no director and manager for the operation director, but it belongs to the sales department corresponding code 1, so the post code of the delivery group leader is 11101.

The method comprises the steps of obtaining a preset organization structure and carrying out preset coding processing on each post according to the organization structure, so that post codes containing post level relation information and department information can be obtained. This step may provide the necessary preparation and support for the start code and end code that subsequently determines the start of the process and the end of the process. By acquiring the preset organization structure, the internal hierarchical structure of the preset company and the hierarchical relationship of each post can be clearly known, which is helpful for correctly determining the start point and the end point of the flow. The preset coding processing is carried out on each post according to the organization architecture, so that a plurality of post codes can be obtained, and the codes comprise post level relation information and department information and can be effectively used for subsequent process development and code determination. Meanwhile, under the condition that the coding rule is unchanged, the accuracy and consistency of flow development and execution can be better ensured, and the efficiency and quality of flow development are improved.

The cloud server 201 analyzes the generation requirement to determine the flow direction of the business process, and first sets the creator of the business process as the process start point. The data content of the generated demand, which is typically a piece of text content such as "reimbursement approval process approved by the finance department" is then subjected to natural language analysis to determine the processing department information contained in the generated demand. Therefore, after the cloud server 201 obtains the generation requirement, according to the natural language processing technology (Natural Language Processing, NLP), the cloud server 201 understands the processing department information included in the generation requirement, that is, determines the department for processing the business process, so as to obtain the second department for ending the processing business process. And then determining the responsible person of the second department, and setting the responsible person of the second department as a second processor to obtain the flow end point. The person in charge is different for different departments, and in the above example, referring to fig. 3, for the personnel department, the person in charge is a personnel manager. And is responsible for the market segment to perform the general supervision manually. And finally, according to the flow direction obtained by the flow starting point and the flow ending point, the whole flow direction preferably flows from the flow starting point to the first node, wherein the first node is the responsible person of the first department, and the first department is the part where the creator is located, so that the first node is the responsible person of the department where the creator is located. For example, if the creator is at a personnel department, the first node is a personnel manager. If the creator is in the market segment, the first node is the executive director. And then the flow direction flows from the first node to the second node, wherein the second node is a processor of the second department on the same post level as the creator, and the second part is the department where the processor corresponding to the flow end point is located. In this application, according to a preset encoding rule, if the post levels of two persons are the same, it means that the post encoding digits of the two persons are the same. For example, if the creator is a purchasing technician and the second department is a market segment, the second node should be a market clerk or after-market customer service. And finally, the flow flows from the second node to the flow end point and flows to the responsible person of the second department. For example, if a purchasing technician in the purchasing department initiates a purchasing reimbursement process that is processed by the finance department, the process flows from the purchasing technician in the purchasing department to the finance manager in the finance department. More specifically, the processor of the entire reimbursement flow is, in order, a purchasing specialist-purchasing manager-operation director-accounting/cashier-finance manager.

The flow direction of the business process can be determined by natural language analysis to generate the processing department information in the requirements. Specifically, a creator is set as a flow start point, a first department where the creator is located is acquired, natural language analysis is performed on data content of the generated demand to determine processing department information, a second department ending the processing business flow and a responsible person thereof are determined according to the processing department information, and then a flow end point is determined. After the flow start point and the flow end point are determined, the flow direction can be rapidly determined.

S130, determining a start point code of a flow start point, a plurality of midpoint codes and an end point code of a flow end point according to the flow direction.

Since the flow direction includes information of all processors related to the business process from the creator to the end processor. Therefore, the flow starting point, the intermediate node and the flow ending point of the business flow can be determined according to the flow direction. Wherein the intermediate nodes comprise the first node mentioned in step S120 and the second node. And then determining a start code corresponding to the flow start point according to the flow start point, namely determining the post code of the creator. And determining a midpoint code according to the intermediate node, namely determining a post code corresponding to a processor of the intermediate node of the business process. And determining an end point code corresponding to the end point of the flow, namely determining a post code of an end processor of the business flow, namely a post code of a responsible person of the second department.

S140, calling a starting point node module corresponding to the starting point code, an ending point node module corresponding to the ending point code and a middle point node module corresponding to each middle point code from a preset database.

In order to further increase the speed of flow generation to adapt to different requirements, a large number of node modules are designed in advance and stored in a preset database, wherein the node modules comprise a starting node module, a middle node module and an end node module. Each node module can be regarded as a certain node design template of the flow, and actual adjustment aiming at different requirements is made by calling the node module, so that the rapid generation of the customized flow is realized. In the process of designing the flow, the node module performs standardized and normalized definition and description on each node in the flow. Through the node module, consistency, standardization and operability of the business process can be ensured. The flow node module typically includes the following: node type: the type and function of the node are defined, such as input, output, judgment, sub-flow, etc. Node attributes: attributes, parameters, and input/output data describing the node, such as data type, format, scope, etc. Node processing rules: node processing logic and algorithms are defined, including data processing, result judgment, and the like. Node interface design: and designing a visual interface of the node according to the type and the attribute of the node, wherein the visual interface comprises an input and output frame, buttons, menus and the like. Node document writing: a corresponding document is written for each node, including node description, operation guide, problem handling, etc. However, the node module does not include data of the business process in actual application, so that data leakage is caused. For example, a node module of a business process that applies to contract approval will not include contract content.

Further, before selecting the node module, the cloud server 201 invokes a plurality of historical business processes in the preset database, where the historical business processes are processes created by different companies in the cloud server 201 and applied to the business system before the historical business processes. The method comprises a first business process created by a creator of the preset company, a second business process created by other processors of the preset company and a third business process created by the processors of the other companies. The historical business processes are stored in a preset database and used as reference templates for the creation of subsequent business processes.

Then, the cloud server 201 obtains a first flow type of the current service flow, and obtains any one of the historical service flows, and a second flow type of the historical service flow. The flow types include a cancel approval flow, a contract approval flow, a project management flow, an ask for leave application flow, a purchase application flow, and the like. Then, the cloud server 201 is used to determine whether the first flow type is the same as the second flow type, if it is determined that the first flow type is the same as the second flow type, for example, the first flow type and the second flow type are both approval flows, which indicates that the historical business flow is the same type as the business flow that needs to be generated currently, and the same historical business flow is marked as the first business flow. By calling a plurality of historical business processes in a preset database, the process types and the process structures created by different processors can be known, and references are provided for the development of new processes. The first flow type of the business flow and the second flow type of the historical business flow are obtained, whether the first flow type and the second flow type of the historical business flow are identical or not is judged, whether the historical business flow to be adopted is consistent with the flow type of a new flow to be developed or not can be judged preliminarily, and errors such as type mismatch and the like when the new flow is developed are avoided, so that the following flow module is not adapted.

And then, acquiring each flow node of each first business flow, further acquiring node codes corresponding to each flow node, marking the node codes as first node codes, and marking the node codes as post codes of processors corresponding to the flow nodes. The second business process is described with any one of the plurality of first business processes. And then determining a second node code which is the same as any one of a plurality of post codes, wherein the plurality of post codes comprise a start point code, a plurality of midpoint codes and an end point code, and the second node code is any one of a plurality of first node codes. And determining the number of codes coded by the plurality of second nodes, and finally judging whether the number of codes is larger than a preset number, if the number of codes is larger than the preset number, splitting the historical business process by the cloud server 201 into a plurality of nodes, namely splitting the second business process into a plurality of node modules, wherein each node is a node module, so that a plurality of node modules are obtained, and each node module comprises a starting point node module, a middle point node module and an end point node module. The starting point node module is a node module corresponding to the flow starting point, the middle point node module is a node module corresponding to the middle node, and the end point node module is a node module corresponding to the middle point of the flow.

If the first flow type is determined to be the same as the second flow type, comparing the number of node codes which are the same as the plurality of post codes in the node codes of the flow nodes in the historical business flow. If the same number exceeds the preset number, the historical business process has larger similarity with the process to be created. And firstly, rough comparison is carried out according to the flow types, so that the calculation force can be saved, and the efficiency of searching and comparing the historical business flow is improved. And then the precise comparison is carried out through the codes, so that the accuracy of the comparison can be further improved. The historical business process is subjected to node splitting to obtain a plurality of node modules, wherein the node modules comprise a starting point node module, a middle point node module and an end point node module, and the node modules can be directly used for generating new business processes. By referring to the historical business process and splitting the nodes, the advantages and characteristics of the business process can be better reserved and inherited, and unnecessary errors or deviations are avoided during redevelopment. The scheme can improve the development efficiency and quality, reduce the workload of manual operation and possible errors, and further optimize the development process of the business process.

When a business process is created in a history, for each node of the business process, in order for the node to flow to the corresponding handler, it is necessary to bind it with the corresponding handler's post code. That is, for a certain node of a business process, which needs to be processed by a certain handler, the node needs to be bound to the handler's position code. And further, the service flow created by the history is stored in a prediction database, the node module generated by each node of the obtained history service flow also has a post code bound with the node module, and the post codes of different companies are the same in coding rule, so that the node modules can be mutually referred by the post codes. For example, when designing a business process, the post code of the processor of a certain intermediate node is 11131 sales associate, if there is a node module whose post code is 11131 in the history business process, the post corresponding to the node module is also sales associate.

And S150, according to the flow direction, according to the starting point codes, the plurality of midpoint codes and the end point codes, the starting point node modules, the plurality of midpoint node modules and the end point node modules are connected in sequence, so that a business flow is generated.

In the foregoing description, the flow direction is from the flow start point to the first node, from the first node to the second node, and from the second node to the flow end point, where the first node is the responsible person of the first department, the second node is the handler of the second department on the same post as the creator, and the plurality of intermediate nodes include the first node and the second node. For the same department, for example, the first department, if other posts are located between the flow start point and the first node, other nodes are inserted into the same department according to the post-level sequence. The flow direction comprises a node sequence based on the post sequence, and the arrangement sequence of post codes is obtained based on the node sequence. For example, in a certain flow direction, the production manager is ranked after the shop owner, then the post code 126 should be ranked after 1261. And setting one position data for each position code according to the arrangement sequence of the position codes in the flow direction, and adding 1 to each position data from the starting point. For example, in "1261-126-12-10301-103", the position data of 1261 is 1 and the position data of 12 is 3.

The arrangement sequence of the position codes can be obtained according to the flow direction, and the position codes are in one-to-one correspondence with the node modules, so that the arrangement sequence of the node modules can be obtained according to the arrangement sequence of the position codes. Taking as an example any two of the start code, the plurality of midpoint codes, and the end code, the first position code and the second position code. Among the starting point node module, the plurality of midpoint node modules and the end point node modules, the node module corresponding to the first position code is the first node module. The node modules corresponding to the second post codes in the starting point node module, the plurality of midpoint node modules and the end point node module are second node modules.

According to the flow direction, first position data of a first post code are obtained, and second position data of a second post code are obtained. And then judging the sequence of the first position data and the second position data according to the sizes of the first position data and the second position data. When the numerical value of the position data is smaller, the corresponding position coding position is more forward, otherwise, when the numerical value of the position data is larger, the corresponding position coding position is more backward. If the first position data is determined to be positioned before the second position data, the first node module is arranged to be positioned before the second node module. If the first position data is determined to be located behind the second position data, the first node module is set to be located behind the second node module. And finishing the ordering of all the node modules by analogy, and connecting to generate a business flow.

By determining any two position codes in the plurality of position codes, the first node module and the second node module corresponding to the first position code and the second position code can rapidly position the node module corresponding to the specific position code, thereby facilitating subsequent sequencing and connection. Position data of the first position code and the second position code are obtained, and the position and sequence relation of each node module in the service flow can be known. And judging the sequence of the first position data and the second position data, and determining the connection sequence between the node modules. If the first position data is located before the second position data, the first node module is located before the second node module, and the connection sequence and the flow direction between the node modules can be guaranteed to be consistent. Based on this principle, ordering and connection of all node modules is achieved.

By adopting the technical scheme, when a user needs to develop a business process, the user only needs to input the generation requirement related to the information of the processing department and the information of the process type, and the generation requirement can be analyzed to realize the flow direction of the business process. The starting point of the flow direction is the creator, and the end point of the flow direction is the responsible person of the processing department in the processing department information, so that the determination of the flow direction does not need manual setting by a user, and can be automatically generated after the generation requirement is input. And further determining a starting point code corresponding to the starting point of the flow and an end point code corresponding to the end point of the flow according to the flow direction, and determining midpoint codes of a plurality of intermediate nodes positioned in the middle of the starting point of the flow and the end point of the flow so as to obtain the position codes corresponding to all processors participating in business flow processing. And then, only the node modules corresponding to the codes are called from a preset database, and the node modules are connected in sequence according to the flow direction of the flow, so that the service module can be generated. Most of the process generation work is automatically completed, so that a creator is required to manually develop the process each time, and the development efficiency of the business process is improved.

Because business processes are generated quickly based on historical business processes, the needs of the creator may not be fully met. If the creator needs to adjust the order of a certain node module, a position adjustment instruction for the node module is input first, where the first node module is taken as an example, and the instruction is an instruction and a command for directing the electronic device to work, and can be understood as a code for designating to execute a certain operation or a certain control of a function implementation. New position data, i.e. third position data, entered by the creator are then acquired. The third location data is set as location data of the first node module. And finally, re-ordering the plurality of node modules according to the ordering mode in the step S150.

By acquiring the position adjustment instruction for the first node module, which is input by the creator, the specific requirement of the creator on the position of the first node module can be known. And acquiring the third position data of the first node module input by the creator, and determining the new position of the first node module. Setting the third position data as the position data of the first node module can realize the adjustment of the position of the first node module. The plurality of node modules are reordered according to the third position data, so that the sequence and structure of the whole business process can be ensured to be consistent with the requirements of the creator, and the execution efficiency of the business process can be optimized. Meanwhile, the position and sequence of the node modules are flexibly adjusted, and different service requirements and changes are adapted.

For some types of business processes, such as contract approval processes, related files are involved in the process for subsequent process treatment, and the related files are process files. If the business process created by the creator contains a process file, the process file needs to be input when the process is created. After the cloud server 201 acquires the flow file, the opening authority of the handler of the flow file is limited. Because part of the flow files possibly belong to confidential files, the processor corresponding to part of the nodes can open the flow files only through a screening mechanism, so that the confidential flow files are prevented from being revealed. For example, a handler above the department manager level can open the flow file.

Under the default preset digit screening rule, the post level of the processor is greater than or equal to the post level of the creator, so that the flow file can be opened. For example, the creator is a department manager, the flow file can be opened only at the level of the department manager and above. The post codes of different post stages are different in corresponding coding digits according to the preset coding rules. Preferably, the higher the post, the smaller the number of encoding bits, and reference is made specifically to FIG. 4. Then after the post code of the creator is obtained, the first code with the number of bits smaller than the number of bits of the start code can be screened from the plurality of post codes according to the number of bits of the start code of the creator. The plurality of post codes includes a start code, a plurality of midpoint codes, and an end code. Since the number of bits of the first code is less than or equal to the number of bits of the starting code, the post level of the handler corresponding to the first code will be greater than or equal to the post level of the creator. Further, opening the opening authority of the processor of the first node corresponding to the first code, wherein the opening authority is the authority of the processor to open the flow file. After the opening permission is opened, the processor corresponding to the first node can open the flow file for viewing. And on the contrary, screening from a plurality of post codes according to the number of bits of the starting point codes of the creator, and screening out a second code with the number of bits larger than that of the starting point codes. Since the number of bits of the second code is greater than the number of bits of the starting code, the post level of the handler to which the second code corresponds will be less than the post level of the creator. Further, the opening authority of the processor of the second node corresponding to the second code is closed, and the processor corresponding to the second node cannot open the flow file for viewing.

And carrying out code screening on the plurality of post codes according to a preset bit screening rule to obtain a first code and a second code, wherein the post levels corresponding to the codes are different and can be used for determining nodes with different process file opening authorities. And determining a first node and a second node corresponding to the first code and the second code, and further determining the node needing control authority. Closing the opening authority of the processor of the first node can prevent the processor from modifying or deleting the process file of the node, and the stability and safety of the business process are ensured. Opening the opening authority of the processor of the second node can enable the processor to normally access and operate the flow file of the node so as to meet the actual service requirement.

The embodiment also discloses a service configuration device related to a distributed system, referring to fig. 5, including an acquisition module 501, an analysis module 502, a processing module 503, and a generation module 504, where:

the obtaining module 501 is configured to obtain a generation requirement of a business process input by a creator, where the generation requirement includes related processing department information of the business process and process type information of the business process.

The analysis module 502 is configured to analyze the generation requirement, determine a flow direction of the business process, where the flow direction includes a flow start point and a flow end point of the business process, the flow start point is a creator, and the flow end point is a responsible person of a processing department in the processing department information.

The processing module 503 is configured to determine, according to the flow direction, a start code of a start point of the flow, a plurality of midpoint codes, and an end code of an end point of the flow, where the start code is a post code of a creator, the midpoint codes are post codes corresponding to a processor of an intermediate node of the business flow, the end code is a post code of an end processor, and the post codes are codes performed on employee posts of a preset company where the creator is located based on a preset coding rule.

The obtaining module 501 is configured to retrieve, from a preset database, a start node module corresponding to a start code, an end node module corresponding to an end code, and a midpoint node module corresponding to each midpoint code.

The generating module 504 is configured to sequence and connect the start node module, the plurality of midpoint node modules, and the end node module according to the start code, the plurality of midpoint codes, and the end code according to the flow direction, and generate a business flow.

In one possible implementation, the obtaining module 501 is configured to obtain a preset organization structure, where the organization structure is an internal hierarchy of a preset company.

The processing module 503 is configured to perform preset encoding processing on each post of the preset company according to the post hierarchy relationship included in the organization architecture, so as to obtain a plurality of post codes, where the post codes include post hierarchy relationship information and department information corresponding to the post.

In one possible implementation, the processing module 503 is configured to set the creator as the start point of the flow.

The obtaining module 501 is configured to obtain a first department where the creator is located.

The analysis module 502 is configured to perform natural language analysis on the data content of the generation requirement, and determine the processing department information included in the generation requirement.

A processing module 503, configured to determine, according to the processing department information, a second department that ends the processing business process.

And a processing module 503, configured to determine a responsible person of the second department, set the responsible person as an end processor, and obtain a flow end point.

The generating module 504 is configured to obtain a flow direction according to the flow start point and the flow end point, where the flow direction is from the flow start point to the first node, from the first node to the second node, and from the second node to the flow end point, the first node is a person in charge of the first department, the second node is a person in charge of the second department who is on the same post as the creator, and the plurality of intermediate nodes include the first node and the second node.

In one possible implementation, the obtaining module 501 is configured to invoke a plurality of historical business processes in the preset database, where the plurality of historical business processes includes a first business process created by a creator, a second business process created by other processors of the preset company, and a third business process created by a processor of the other company.

The obtaining module 501 is configured to obtain a first flow type of a business process, and obtain a second flow type of each historical business process.

The processing module 503 is configured to determine a plurality of first business processes, where the first business process is any one of a plurality of historical business processes, and a second process type of the first business process is the same as the first process type.

The obtaining module 501 is configured to obtain a first node code corresponding to each process node of a second service flow, where the second service flow is any one of a plurality of first service flows, and the first node code is a post code of a handler corresponding to the process node.

A processing module 503, configured to determine a second node code that is the same as any one of a plurality of post codes, where the plurality of post codes includes a start code, a plurality of midpoint codes, and an end code, and the second node code is any one of a plurality of first node codes.

A processing module 503, configured to determine the number of codes encoded by the plurality of second nodes.

The analysis module 502 is configured to determine whether the number of codes is greater than a preset number, and if the number of codes is greater than the preset number, split the node of the second business process to obtain a plurality of node modules, where the plurality of node modules include a start node module, a middle node module, and an end node module.

In a possible implementation manner, the processing module 503 is configured to determine a first node module corresponding to the first position code, and determine a second node module corresponding to the second position code, where the first position code and the second position code are any two position codes of a start point code, a plurality of midpoint codes, and an end point code, the first node module is a node module corresponding to the first position code among the start point node module, the plurality of midpoint node modules, and the end point node module, and the second node module is a node module corresponding to the second position code among the start point node module, the plurality of midpoint node modules, and the end point node module.

The obtaining module 501 is configured to obtain first position data of a first post code and obtain second position data of a second post code according to a flow direction.

The analysis module 502 is configured to determine a sequence of the first position data and the second position data.

The processing module 503 is configured to set the first node module to be located before the second node module if it is determined that the first location data is located before the second location data.

In one possible implementation, the obtaining module 501 is configured to obtain a flow file for a business flow input by a creator.

The processing module 503 is configured to perform code screening on a plurality of post codes according to a preset bit screening rule, so as to obtain a first code, where the plurality of post codes include a start code, a plurality of midpoint codes, and an end code, a post level corresponding to the first code is greater than or equal to a post level corresponding to the start code, and the first code is any one of the plurality of post codes.

The processing module 503 is configured to open an opening right of a handler of the first node, where the opening right is a right of handling a process file of the handler, and the first node is a node corresponding to the first code.

The processing module 503 is configured to perform code screening on the plurality of post codes according to a preset bit screening rule, so as to obtain a second code, where a post level corresponding to the second code is smaller than a post level corresponding to the start point code, and the second code is any one of the plurality of post codes.

The generating module 504 is configured to close a second node corresponding to the second code, where the second node is a node corresponding to the second code.

And the processing module 503 is configured to open an opening right of the handler of the second node, where the opening right is a right of the handler flow file.

In a possible implementation, the obtaining module 501 is configured to obtain a position adjustment instruction for the first node module input by the creator.

An obtaining module 501, configured to obtain third location data of the first node module input by the creator.

A processing module 503, configured to set the third location data as the location data of the first node module.

An analysis module 502 for reordering the plurality of node modules according to the third location data.

It should be noted that: in the device provided in the above embodiment, when implementing the functions thereof, only the division of the above functional modules is used as an example, in practical application, the above functional allocation may be implemented by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules, so as to implement all or part of the functions described above. In addition, the embodiments of the apparatus and the method provided in the foregoing embodiments belong to the same concept, and specific implementation processes of the embodiments of the method are detailed in the method embodiments, which are not repeated herein.

The embodiment also discloses an electronic device, referring to fig. 6, the electronic device may include: at least one processor 601, at least one communication bus 602, a user interface 603, a network interface 604, at least one memory 605.

Wherein the communication bus 602 is used to enable connected communications between these components.

The user interface 603 may include a Display screen (Display), a Camera (Camera), and the optional user interface 603 may further include a standard wired interface, a wireless interface.

The network interface 604 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface), among others.

Wherein the processor 601 may include one or more processing cores. The processor 601 connects various portions of the overall server 202 using various interfaces and lines, performs various functions of the server 202 and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 605, and invoking data stored in the memory 605. Alternatively, the processor 601 may be implemented in hardware in at least one of digital signal processing (Digital Signal Processing, DSP), field programmable gate array (Field-Programmable Gate Array, FPGA), programmable logic array (Programmable Logic Array, PLA). The processor 601 may integrate one or a combination of several of a central processor 601 (Central Processing Unit, CPU), an image processor 601 (Graphics Processing Unit, GPU), and a modem, etc. The CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing the content required to be displayed by the display screen; the modem is used to handle wireless communications. It will be appreciated that the modem may not be integrated into the processor 601 and may be implemented by a single chip.

The Memory 605 may include a random access Memory 605 (Random Access Memory, RAM), or may include a Read-Only Memory 605. Optionally, the memory 605 includes a non-transitory computer readable medium (non-transitory computer-readable storage medium). Memory 605 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 605 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing the various method embodiments described above, etc.; the storage data area may store data or the like involved in the above respective method embodiments. The memory 605 may also optionally be at least one storage device located remotely from the processor 601. As shown, the memory 605, which is a computer storage medium, may include an operating system, network communication modules, user interface 603 modules, and an application program for a business configuration method involving a distributed system.

In the electronic device shown in fig. 6, the user interface 603 is mainly used for providing an input interface for a user, and acquiring data input by the user; and processor 601 may be operative to invoke the storage 605 to store an application program related to a business configuration method of a distributed system, which when executed by one or more processors 601, causes the electronic device to perform the method as in one or more of the embodiments described above.

It should be noted that, for simplicity of description, the foregoing method embodiments are all expressed as a series of action combinations, but it should be understood by those skilled in the art that the present application is not limited by the order of actions described, as some steps may be performed in other order or simultaneously in accordance with the present application. Further, those skilled in the art will also appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily required in the present application.

In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to related descriptions of other embodiments.

In the several embodiments provided herein, it should be understood that the disclosed apparatus may be implemented in other ways. For example, the apparatus embodiments described above are merely illustrative, such as a division of units, merely a division of logic functions, and there may be additional divisions in actual implementation, such as multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some service interface, device or unit indirect coupling or communication connection, electrical or otherwise.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable memory 605. Based on such understanding, the technical solution of the present application may be embodied in essence or a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a memory 605, including several instructions to cause a computer device (which may be a personal computer, a server 202, a network device, or the like) to perform all or part of the steps of the methods of the embodiments of the present application. Whereas the aforementioned memory 605 includes: various media capable of storing program codes, such as a U disk, a mobile hard disk, a magnetic disk or an optical disk.

The foregoing is merely exemplary embodiments of the present disclosure and is not intended to limit the scope of the present disclosure. That is, equivalent changes and modifications are contemplated by the teachings of this disclosure, which fall within the scope of the present disclosure. Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a scope and spirit of the disclosure being indicated by the claims.

Claims (10)

1. A method of service configuration involving a distributed system, the method comprising:

acquiring a generation requirement of a business process input by a creator, wherein the generation requirement comprises related processing department information of the business process and process type information of the business process;

analyzing the generated demand, and determining a flow direction of a business flow, wherein the flow direction comprises a flow starting point and a flow ending point of the business flow, the flow starting point is the creator, and the flow ending point is a responsible person of a processing department in the processing department information;

Determining a starting point code of the starting point of the process, a plurality of midpoint codes and an end point code of the end point of the process according to the flow direction, wherein the starting point code is a post code corresponding to a processor of an intermediate node of the business process, the midpoint codes are post codes corresponding to a processor, the end point codes are post codes of the processor, and the post codes are codes for staff posts of a preset company where the creator is located based on preset coding rules;

calling a starting point node module corresponding to the starting point code, an end point node module corresponding to the end point code and a middle point node module corresponding to each middle point code from a preset database;

and according to the flow direction, according to the starting point codes, the plurality of midpoint codes and the end point codes, sequencing and connecting the starting point node modules, the plurality of midpoint node modules and the end point node modules to generate the business flow.

2. A service configuration method relating to a distributed system according to claim 1, characterized in that, before said determining a start code of the start point of the flow and an end code of the end point of the flow, the method comprises:

Acquiring a preset organization architecture, wherein the organization architecture is an internal hierarchical structure of the preset company;

and carrying out preset coding processing on each post of the preset company according to the post hierarchy relation contained in the organization framework to obtain a plurality of post codes, wherein the post codes contain post hierarchy relation information and department information corresponding to the posts.

3. The method for configuring a service related to a distributed system according to claim 1, wherein the analyzing the generated requirement to determine a flow direction of a service flow specifically includes:

setting the creator as the flow start point;

acquiring a first department in which the creator is located;

performing natural language analysis on the data content of the generation requirement, and determining processing department information contained in the generation requirement;

determining a second department for ending processing the business process according to the processing department information;

determining a responsible person of the second department, and setting the responsible person as the end processor to obtain the flow end point;

and obtaining the flow direction according to the flow starting point and the flow ending point, wherein the flow direction flows from the flow starting point to a first node, flows from the first node to a second node, flows from the second node to the flow ending point, the first node is a responsible person of the first department, the second node is a processor of the second department on the same post as the creator, and the plurality of intermediate nodes comprise the first node and the second node.

4. The method according to claim 1, wherein before retrieving, from the preset database, a start node module corresponding to the start code, an end node module corresponding to the end code, and a midpoint node module corresponding to each midpoint code, the method further comprises:

invoking a plurality of historical business processes in the preset database, wherein the plurality of historical business processes comprise a first business process created by the creator, a second business process created by other processors of the preset company and a third business process created by the processors of the other companies;

acquiring a first flow type of the business process and acquiring a second flow type of each historical business process;

determining a plurality of first business processes, wherein the first business process is any one of a plurality of historical business processes, and the second flow type of the first business process is the same as the first flow type;

acquiring a first node code corresponding to each process node of a second business process, wherein the second business process is any one of a plurality of first business processes, and the first node code is a post code of a processor corresponding to the process node;

Determining a second node code identical to any one of a plurality of post codes, wherein the plurality of post codes comprise the starting point code, a plurality of midpoint codes and the end point code, and the second node code is any one of a plurality of first node codes;

determining the number of codes of a plurality of second node codes;

judging whether the coding quantity is larger than a preset quantity, if so, splitting the nodes of the second business process to obtain a plurality of node modules, wherein the plurality of node modules comprise a starting point node module, a middle point node module and an end point node module.

5. The method for configuring a service related to a distributed system according to claim 1, wherein said generating the service flow according to the flow direction includes, according to the start code, the plurality of midpoint codes, and the end code, performing a sequence connection on the start node module, the plurality of midpoint node modules, and the end node module:

determining a first node module corresponding to a first post code, and determining a second node module corresponding to a second post code, wherein the first post code and the second post code are any two post codes of the starting point code, the midpoint codes and the end point codes, the first node module is a node module corresponding to the first post code among the starting point node module, the midpoint node modules and the end point node modules, and the second node module is a node module corresponding to the second post code among the starting point node module, the midpoint node modules and the end point node modules;

According to the flow direction, acquiring first position data of a first post code and second position data of a second post code;

judging the sequence of the first position data and the second position data;

and if the first position data is determined to be positioned before the second position data, setting the first node module to be positioned before the second node module.

6. The method according to claim 1, wherein after said generating said flow according to said flow direction, said starting node module, said plurality of said midpoint node modules, and said end node module are connected in order according to said starting code, said plurality of said midpoint codes, and said end code, said method further comprises:

acquiring a flow file which is input by the creator and aims at the business flow;

according to a preset bit screening rule, carrying out coding screening on the plurality of position codes to obtain a first code, wherein the plurality of position codes comprise the starting point code, a plurality of midpoint codes and the end point code, the position level corresponding to the first code is larger than or equal to the position level corresponding to the starting point code, and the first code is any one of the position codes;

Opening an opening authority of a processor of a first node, wherein the opening authority is the authority of the processor on the flow file, and the first node is a node corresponding to the first code;

according to a preset bit screening rule, carrying out coding screening on a plurality of post codes to obtain a second code, wherein the post level corresponding to the second code is smaller than the post level corresponding to the starting point code, and the second code is any one of the post codes;

closing the opening authority of a processor of a second node, wherein the second node is a node corresponding to the second code.

7. The method according to claim 5, wherein after said generating said flow according to said flow direction, said starting node module, said plurality of said midpoint node modules, and said end node module are connected in sequence according to said starting code, said plurality of said midpoint codes, and said end code, said method further comprises:

acquiring a position adjustment instruction which is input by the creator and aims at the first node module;

acquiring third position data of the first node module input by the creator;

Setting the third location data as location data of the first node module;

and reordering the plurality of node modules according to the third position data.

8. A service configuration device related to a distributed system, comprising an acquisition module (501), an analysis module (502), a processing module (503) and a generation module (504), wherein:

the acquisition module (501) is configured to acquire a generation requirement of a business process input by a creator, where the generation requirement includes related processing department information of the business process and process type information of the business process;

the analysis module (502) is configured to analyze the generated demand, and determine a flow direction of a business process, where the flow direction includes a flow start point and a flow end point of the business process, the flow start point is the creator, and the flow end point is a responsible person of a processing department in the processing department information;

the processing module (503) is configured to determine, according to the flow direction, a start code of the flow start point, a plurality of midpoint codes, and an end code of the flow end point, where the start code is a post code of the creator, the midpoint codes are post codes corresponding to a handler of an intermediate node of the business flow, the end codes are post codes of the end handler, and the post codes are codes performed on employee posts of a preset company where the creator is located based on a preset coding rule;

The acquiring module (501) is configured to call a start node module corresponding to the start code, an end node module corresponding to the end code, and a middle node module corresponding to each middle code from a preset database;

the generating module (504) is configured to perform sequencing connection on the starting node module, the plurality of midpoint node modules, and the end node module according to the flow direction and according to the starting point code, the plurality of midpoint codes, and the end code, so as to generate the business flow.

9. An electronic device comprising a processor (601), a memory (605), a user interface (603) and a network interface (604), the memory (605) for storing instructions, the user interface (603) and the network interface (604) each for communicating with other devices, the processor (601) for executing the instructions stored in the memory (605) to cause the electronic device to perform the method of any of claims 1-7.

10. A computer readable storage medium storing instructions which, when executed, perform the method of any one of claims 1-7.