CN110610406B - Business process configuration method and device, computer equipment and storage medium - Google Patents

Abstract

The invention provides a business process configuration method, a device, computer equipment and a storage medium, wherein the method comprises the steps of receiving a business process configuration request, and acquiring user role information and user demand information from the business process configuration request; acquiring a role corresponding to a user according to the user role information, and acquiring a role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes; reading node data in user demand information; and configuring the role flow according to the node data, wherein the configuration comprises the modification of the node attribute and/or the node state. The self-defined configuration service process is realized by self-defining the attribute, the state and the node flow direction of the configuration node, and the method is suitable for the continuous change of complex services and service strategies.

Description

Business process configuration method and device, computer equipment and storage medium

Technical Field

The invention relates to the technical field of bidding, in particular to a business process configuration method, a business process configuration device, computer equipment and a storage medium.

Background

With the continuous development of internet technology, the types of services are increased continuously, the complexity of the services is higher and higher, and currently, service flows of different services are generally configured in a unified manner, and service flows corresponding to different service configurations cannot be configured according to different services.

For example, in the technical field of bid inviting purchase, most of the traditional bid inviting work is operated in a manual and written document mode, the electronization degree is low, the regulation and regulation are complex, the operation flow is complex, the purchase period is long, and the whole operation cost is high. The electronic bidding is based on network technology, realizes a novel digital, networked and highly integrated bidding mode for all the traditional business processes of bidding, bid evaluation, contract and the like, has the functions of database management, information query analysis and the like, and is a truly full-flow, all-around and paperless innovative purchasing transaction mode.

In the prior art, each enterprise develops an invitation procurement management system which is in accordance with the enterprise, but the invitation procurement system is usually established according to the habits of the enterprise and has a fixed invitation procurement process. In addition, in the field of bidding and purchasing, many personalized business processes are provided along with different purchasing modes, bid evaluation methods, different purchasing bid objects, different company conditions and the like, for example, one-time bid return, two-time bid return, technical bid evaluation requirements, direct business bid evaluation requirements and the like exist, and purchasing modes and strategies can be changed frequently, so that a flexible configuration mode is required in the field of electronic bidding and purchasing to adapt to the continuous change of the existing complex business and purchasing strategy of bidding and purchasing.

Disclosure of Invention

One of the objectives of the present invention is to provide a method and an apparatus for configuring a business process, a computer device and a storage medium, which can be used in the technical field of bidding procurement, configure the attribute of a node by user-defining according to the requirements of a user, associate and bind the node state and the node flow direction, configure different business processes according to different user requirements, and adapt to the continuous change of business policies.

In order to solve the above technical problem, a first embodiment of the present invention discloses a method for configuring a service flow, including: receiving a service flow configuration request, and acquiring user role information and user demand information from the service flow configuration request; acquiring a role corresponding to a user according to the user role information, and acquiring a role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes; reading node data in the user demand information; and configuring the role flow according to the node data, wherein the configuration comprises the modification of node attributes and/or node states.

Optionally, the node attribute includes one or more of a node valid attribute, a node optional attribute, a node order attribute, and a node priority attribute.

Optionally, the node states include one or more of a node not started state, a node in progress state, a node completed modifiable state, a node completed state, and a node terminated state.

Optionally, the node data further includes a node flow direction, and the node flow direction is associated with the node attribute and/or the node state of the incoming node and the outgoing node of the node flow direction.

Optionally, the configuring includes modifying the node flow direction, and after the node flow direction is configured, changing the node attribute and/or the node state of the destination node and/or the destination node of the node flow direction.

Optionally, after reading the node data in the user requirement information, the method further includes: searching a main node and a sub-node corresponding to the main node in the node data; performing association binding on the main node and the child nodes; and when the node state of the child node associated with the master node is a node completed state, the node state of the master node is a node completed state.

Optionally, the configuring the role flow according to the node data further includes: acquiring the node attribute of the current node after configuration, and hiding the node when the node attribute is an invalid attribute; or obtaining the node attribute and the node state of the current node after configuration, and hiding the node when the node attribute is optional and the node state is a node non-starting state.

Optionally, after reading the node data in the user requirement information, the method further includes: and searching whether the current node starts the approval flow, and configuring the approval flow for the node when the node starts the approval flow.

A second embodiment of the present invention further provides a method for testing service flow configuration, which tests a service flow configured by using the method in any embodiment of the first embodiment, and includes the following steps:

acquiring the node attribute and/or the node state of the current node; querying the node flow direction associated with the node attributes and/or the node state; and calling the node flow to run the business process.

A third embodiment of the present invention further provides a device for configuring a service flow, including: the user data acquisition module is used for receiving a service flow configuration request and acquiring user role information and user demand information from the service flow configuration request; the role flow acquiring module is used for acquiring a role corresponding to a user according to the user role information and acquiring a role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes; the node data reading module is used for reading the node data in the user demand information; and the role flow configuration module is used for configuring the role flow according to the node data, wherein the configuration comprises the modification of node attributes and/or node states.

The fourth embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program is executed by a processor to perform a business process configuration method as in any one of the first embodiment.

A fifth embodiment of the present invention also provides a computer device comprising a processor, an input device, an output device and a memory connected to each other, the memory being used for storing a computer program, the computer program comprising program instructions which, when executed by the processor, cause the processor to perform a method of business process configuration as in any one of the first embodiments.

Compared with the prior art, the embodiment of the invention provides a business process configuration model which can be used in the field of bid inviting purchase, and the main differences and effects thereof are at least as follows:

(1) The model divides a main process into different role processes according to different roles, and realizes that each node has at least five different node states by customizing the node states of the nodes in the role processes, wherein the node does not start, the node is in a middle state, the node is in a modifiable state, the node is in a finished state and the node is in a terminated state.

The node state of the current node is displayed according to the task completion progress corresponding to the node, each node is defined into five different node states, the operability and the operation accuracy of the node can be improved, and all service requirements in the coverage service are met by the five different node states.

(2) And self-defining node attributes of the nodes, wherein the node attributes comprise the attribute of whether the nodes are valid or not, the attribute of whether the nodes are optional or not, the node sequence attribute and the node priority attribute.

The node attribute is used for defining the operability of each node in the role flow and configuring the node attribute of each node individually according to different bidding purchase services. Hiding the node, for example, when the node attribute is an invalid node; when the node attribute is an optional node and the node state is a node non-starting state, hiding the node.

And configuring node attributes for each node according to different services, so that the nodes with different node attributes form a service flow corresponding to the current service, and further flexibly configuring the service flow.

(3) The node data also comprises a node flow direction, the node flow direction is associated with the node property and/or the node state of the node flow direction to the node, and the node flow direction can also be associated with the node property and/or the node state of the node flow direction to the node. The node flow may be used to effect a transition of the node state of the node. For example, when a node is in a node completed state, the node flow direction of the current node is called, and the node task corresponding to the current node state flows to the node task corresponding to another node state. Specifically, the node flow direction may be determined according to task execution relationships between nodes, and the state of a plurality of nodes may be changed upon invoking the node flow direction.

The node flow direction is configured for each node, and the node flow direction is associated with the node state, so that the node state is controlled through the node flow direction. Because each node state corresponds to one node task, the transfer of the node tasks is realized by configuring the node flow direction. The updating of the node state is realized by calling the node flow direction in the flow direction mode, so that the service flow is more flexible and the operability is stronger.

The invention associates the node state with the node flow direction, realizes that the node state is controlled through the node flow direction, and simultaneously the node flow direction associated with the node state can point to a plurality of nodes, thereby combining a plurality of task flows, improving the operability and flexibility of the service and improving the working efficiency of executing the service.

And configuring a node page unit for each node, wherein the node page unit is used for displaying the task progress of the current node, and the node page unit can more intuitively display the service execution progress of the current service through graphical page form display.

In the process, not only the state self-definition and the node attribute self-definition of the node but also the node flow direction self-definition of the node are realized, and the node attribute and/or the node state of the node are/is changed by calling the node flow direction and the node flow direction correlation to the node, so that the flexibility of the service flow is greatly improved, and the problems that the conventional service flow has a single mode and low efficiency and cannot adapt to continuously changing services are solved.

Drawings

FIG. 1 is a diagram illustrating an example of an application scenario for a business process configuration method;

FIG. 2 is a flow diagram illustrating a business process configuration method in one embodiment;

FIG. 3 is a flow diagram illustrating a method for using a business process in one embodiment;

FIG. 4 is a block diagram of an embodiment of a business process configuration apparatus;

FIG. 5 is a schematic diagram of one embodiment of a method for business process configuration in one embodiment;

FIG. 6 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some but not all embodiments of the present invention, and on the contrary, the present invention is described with reference to the embodiments in order to cover other alternatives or modifications that may be extended based on the claims of the present invention. In the following description, numerous specific details are included to provide a thorough understanding of the invention. The invention may be practiced without these particulars. Moreover, some of the specific details have been left out of the description in order to avoid obscuring or obscuring the focus of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The business process configuration method provided by the application can be applied to the application environment shown in fig. 1. The server 104 is provided with a service system capable of operating according to a preset process, and the service system is composed of a plurality of executable service processes. Before formal operation of some systems which need to flexibly adjust the business process, the business process of the system needs to be configured. For example, embodiments of the present invention may be applied to the field of purchasing for electronic bidding. In the field of bidding and purchasing, a plurality of personalized business processes are provided along with different purchasing modes, bid evaluation methods, different purchasing target materials, different company conditions and the like. For example, there may be a primary bid return, a secondary bid return, a technical bid evaluation request, a direct business bid evaluation request, etc., and the purchasing method and strategy may be changed frequently, so a flexible configuration mode is required.

Under the circumstance, an embodiment of the present invention provides a method for configuring a service flow, in which a user terminal 102 communicates with a server 104 through a network, and can provide a request or information required for configuring the service flow to the server 104, and the server 104 invokes a configuration function to configure the service flow in a service system in the server according to the received request or information, that is, changes data of some function modules in the system for implementing the service flow, so as to finally change and determine which nodes need to pass through, in which order, and through which attributes and states of the nodes need to pass through, or in which order, to complete a certain service in formal operation of the system. Specifically, the server 104 receives a service flow configuration request sent by the user terminal 102, and the server 104 obtains role information and user requirement information of a user in need from the service flow configuration request; acquiring a role corresponding to a user according to the user role information, and calling a role flow configuration guide corresponding to the role according to the role; reading node data in user demand information; and the role flow configuration guide configures the service flow according to the content in the node data.

That is, an embodiment of the present invention provides a new method for configuring a service flow, where configuration and formal operation are not related to each other, but configuration is performed while virtual operation is performed, that is, a role flow of a role is configured based on a role flow configuration guide. The success rate of smooth operation after the configuration is higher.

In the embodiment of the invention, the business process in the business system is divided into a main process and a role process. For example, in a bidding project process, the whole bidding service process includes a process flowing through as a bidder and a process flowing through as a bidder, the bidder and the bidder belong to different roles, and the process flowing through as a bidder belong to different role processes.

In an embodiment of the present invention, the role flow may include nodes, where the nodes have node attributes, and the node attributes of each node at least include an attribute of whether the node is valid, an attribute of whether the node is optional, a node order attribute, and a node priority attribute. The nodes have node states, and the node states of each node include at least a node not-started state, a node in-progress state, a node completed modifiable state, a node completed state, and a node terminated state.

The nodes can comprise main nodes and sub-nodes, one main node can comprise a plurality of sub-nodes, and the node attributes and the node states of the sub-nodes belonging to the main node can be influenced; in addition, the node attribute or the node state of one or a plurality of child nodes may affect not only the child node or the master nodes of the plurality of child nodes, but also the node attribute or the node state of other child nodes and the node attribute or the node state of the master node of other child nodes. In other words, if a master node and its subordinate children nodes are defined as a node group, an interaction between nodes based on an attribute or state may occur across the group. It should be noted that each node corresponds to a specific node task, and more specifically, the node state of each node corresponds to different execution stages of the node task.

The node data is between node attributes of each node, node states of each node, and node attributes and node states of each node in the business process, and the logical relationship between the node attribute or the node state of one or more nodes may be changed based on the node attribute or the node state of one or more nodes. Specifically, in the service process, based on the node states of two nodes and according to the logical relationship in the node data, the node state or the node attribute of another node may be configured through the process configuration guide. The node may be a master node or a child node. The configuration mode can be that the service system is directly and automatically modified, or a configuration page is provided until the node attributes or the node states of all corresponding nodes are changed according to the logical relationship in the node data.

Additionally, the node data may also include node flow direction. When the business system runs formally, the role flow flows among the nodes belonging to the role flow in sequence until the role flow is completely finished. Therefore, the configuration of the service flow can also include the configuration of the node flow direction. In an embodiment of the present invention, the business process configuration wizard obtains the corresponding logical relationship from the node data, and searches for the node flow direction associated with the node attribute and/or the node state of each node. When a node flows to another node, the former is defined as the incoming node and the latter is defined as the outgoing node. The node flow direction is related to the node attribute and/or node state of the incoming node and the outgoing node to which the node flows, i.e., the node attribute and/or node state of the node and the nodes related thereto, may affect the node flow direction in which the node participates; in addition, it may be arranged that when the node flow direction is determined in the above manner, the node attribute and/or the node state to and/or from the node is also adversely affected, i.e., changed.

The business process configuration method provided by the invention can be used in the technical field of bid solicitation and purchase. The bid inviting procurement refers to a procurement mode that a tenderer opens purchase information within a certain range, draws up procurement article or project transaction conditions, invites a supplier or a contractor to offer a quote within a specified period, and determines bidders who are most favorable for the conditions according to a set standard and signs a procurement contract after comparative analysis. Generally comprising a bid preparation phase, a bid phase, an opening phase, a bid evaluation phase, a bid final phase and a contract awarding phase.

Wherein, the bidding preparation phase is to discuss the formed scheme plan to form a file; the bidding stage forms a bidding document and transmits the bidding document to potential bidders in a proper mode; the bidding stage transmits the bidding document to a bidding unit; in the bid opening stage, a bid inviting person opens bids according to the reverse order of the delivery and sings bids according to the bid opening order; the bid evaluation stage is used for examining the validity of the bid document; in the bid deciding stage, the bidder reviews bid evaluation conclusions submitted by the bid evaluation committee, and determines the bidders, and notifies all bidders of the bid-winning results in writing after the determination; and a contract awarding stage, wherein the successful bidder contracts with the buyer.

A first embodiment of the present invention provides a method for configuring a service flow, referring to fig. 2, where the method includes:

step S210, receiving the service flow configuration request, and obtaining the user role information and the user requirement information from the service flow configuration request.

Specifically, the user terminal sends a service flow configuration request to the server, and the server receives the service flow configuration request and obtains user role information and user demand information from the service flow configuration request. For example, in the field of bid inviting purchase service, the user role information may include role information corresponding to a current user, the role of the current user may be a bid inviting person or a bidder, and the user requirement information may include a requirement of the user in the current bid inviting purchase service, and specifically may include a node included in the current bid inviting purchase service, a node attribute of each node, a node state of each node, a node flow direction associated with each node state, and the like.

The user requirement information may be input by the user in advance, or may be pre-stored user requirement information called according to the user data.

Step S220, acquiring the role corresponding to the user according to the user role information, and acquiring the role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes.

The process of configuring the business process may include a process of editorial redefinition of nodes in the character process. For example, may include editorial redefinition of node attributes for each node, node status for each node, and node flow associated with each node status, among others.

Referring to fig. 5, in the present embodiment, the nodes may include a bid preparation node 11, a bid answering node 12, an open bid evaluation node 13, a scaling node 14, and a contract signing node 15. In other embodiments, the nodes may include a bid inviting node, a bid bidding node, an bid opening node, a bid evaluating node, a bid final node, a contract granting node, etc., that is, the nodes matched with the bid inviting node may be set according to different bid inviting purchasing business processes in the present invention.

And step S230, reading the node data in the user requirement information.

Different users have different service requirements, and the different service requirements correspond to different service processes. Before configuring the service flow, node data in the user requirement information is acquired, and the node data includes, but is not limited to, nodes required by the configuration of the service flow, node attributes corresponding to the nodes, node states of the nodes, task flow directions associated with the node states, and the like.

Step S240, configuring the role flow according to the node data, wherein the configuring includes modifying the node attribute and/or the node state.

The node attribute may include a node valid attribute, a node optional attribute, a node order attribute, or a node priority attribute. The node states may include a node not started state, a node in progress state, a node completed modifiable state, a node completed state, or a node terminated state.

Specifically, in the process of service flow configuration, node attribute configuration is further performed on each node. The node attribute is a property specific to a node and determines the controllability of the current node. Specifically, the node attribute is configured for each node according to different services, so that the service process is more flexibly configured.

In one embodiment, the step of configuring the role flow according to the node data may further include: acquiring the node attribute of the current node after configuration, and hiding the node when the node attribute is invalid; and when the node attribute is optional and the node state is a node non-starting state, hiding the current node. In this embodiment, hiding the current node means that the node is not displayed on the running interface when the business process runs formally.

For example, in the bidding process, a second bid returning is sometimes needed, the second bid returning node needs to be displayed only when the attribute of the second bid returning node is optional and the node state is the starting state, and when the node state is the node non-starting state, the second bid returning node is not displayed, that is, the second bid returning node is hidden.

When the attribute of a node is invalid, the node is not displayed at this time regardless of the node state of the node. In particular, it can be applied to the case where some nodes do not need to be displayed after completion.

The nodes have sequential attributes, for example, arranged in order of standing, bidding, opening, bid evaluation, etc. The nodes also have a priority attribute, and in one embodiment, when the priorities of the two nodes are the same, the nodes are displayed in order; when the node flow simultaneously points to two nodes with different priorities, the node with high priority is defined as a default destination node. It can be seen that the priority attributes of the nodes can be used to determine which of a plurality of selectable node flow directions to select based on the current node state.

The process of configuring the node attribute may be a process of defining or configuring a role flow, or a process of further optimizing a node in the role flow. In other words, in the bid inviting procurement business process, after the role corresponding to the user is obtained, the corresponding role process guide is obtained, the node attribute and the node flow direction of the node in the role process are configured according to the received user requirement information, and a bid inviting procurement process configured with the user role and the user requirement is generated.

And searching a node flow direction associated with each node state from the node data, wherein the node flow direction is used for determining a destination node according to the node attributes and/or node states of the destination node and the destination node of the node flow direction. After the node flow direction is configured, the node property and/or the node state of the node flow direction to and/or from the node can be changed.

In particular, each node may correspond to one or more specific tasks, with different node states reflecting respective completions of the tasks being performed. That is, the node state is used to show the executed stage of the task corresponding to the current node. For example, the node non-start state represents that the task corresponding to the current node has not started to be executed, the node in-progress state represents that the task corresponding to the current node is being executed, and the like. The method has the advantages that each node is decomposed into five different node states, so that not only can the situation that the task corresponding to the current node is executed be intuitively known, but also the different node states can be associated through the node flow direction to realize the transfer among the different node states, namely the transfer among the tasks in different stages is realized. That is, by decomposing the task corresponding to one node into the node stage tasks in five different node states, more service flows can be combined, and the flexibility of service flow configuration is improved.

More specifically, when the node flow directions of the incoming nodes point to a plurality of nodes, different node flow directions can be combined into a plurality of service flows, so that not only is the flexibility of the service configuration flow improved, but also the selectable execution task flow of the user terminal is increased, and the execution efficiency of the task is improved.

Specifically, the server calls a node flow direction associated with the incoming node state, transfers the task corresponding to the current node state to another node and executes another task, the node flow direction brings the transfer of the task, and the transfer of the task brings the change of the node state.

Referring to fig. 5, the node status of the present business process is shown, wherein the point mark is used to mark the node currently located, for example, the operational status of the bidding purchase business at this time in the open business tender sub-node 1315 is shown in fig. 5, and the node status of the node may be further distinguished by different colors, for example, red, yellow, blue, green, and purple colors are respectively used to mark five statuses of the node. The currently optional to-do nodes may also be represented by dotted lines, for example, in fig. 5, it is shown that the currently located work node is an open business label child node 1315, and the optional to-do nodes are a technology clarification challenge node 1312 and a business clarification challenge node 1316. In other embodiments, the above-described manner of marking is not limited.

The node flow direction may be determined according to a task execution relationship between different nodes in the bid procurement business process, and more specifically, the node flow direction may be determined according to a task execution relationship between different node states.

In one embodiment, first user requirement information is acquired, first node data in the first user requirement information is read, and a first node state in the first node data and a first node flow direction associated with the first node state are searched; acquiring second user requirement information, reading second node data in the second user requirement information, and searching a second node state in the second node data and a second node flow direction associated with the second node state; the first node flow direction points to the first node or the second node; the second node flow direction points to either the first node or the second node.

For example, the bid procurement process configuration method may include two user roles, and the two user roles may correspond to the first user demand information and the second user demand information, respectively. Wherein different nodes in the same user role or in different user roles can be connected through the node flow.

The task execution of the nodes among different role flows can be performed in a cross mode, so that the task cross execution among different roles is realized, and the working efficiency of service execution is improved. For example, when a task corresponding to a node state in one role flow is completed, a node flow of the node state may be defined to be a node in another role flow, and since the node task corresponding to the node state is completed at this time, the node state may be changed. For example, in a role flow of a bidder, when a node task of issuing a bid document is completed, a user terminal may trigger the node, a server calls a node flow direction associated with a state of the node, calls the node flow direction to realize node task transfer, and at this time, a node state of a current node may be changed to a node completed state, and a bid return check node is opened at the same time, and a node downloading a bid document in the role flow of the bidder is also opened, that is, node states of a plurality of nodes may be changed according to the task flow direction.

The node task flow is transferred by defining the node flow direction associated with each node state of the node, and the node flow direction can change the node state of the node in the same main flow and change the node state of the node in another role across the role flows. More preferably, the node flow direction does not only point to one node, but also points to a plurality of nodes, that is, each node may correspond to a plurality of node flow directions, thereby further optimizing the flexibility of the bid procurement process and improving the efficiency of business operation.

The invention provides a flow direction configuration mode by defining the node flow direction of the nodes, and in the flow direction configuration mode, each node is independent, and the execution is not performed according to the sequence between the nodes, but according to the node flow direction related to the node state. For example, when a task corresponding to the current node state is completed, the node flow direction of the node state is called to realize the task transfer, and meanwhile, the state of the current node is changed into the node completed state, and the node state of the called node is also opened.

In one embodiment, the step after reading the node data in the user requirement information further comprises: searching a main node and a sub-node corresponding to the main node in the node data; performing association binding on the main node and the sub-nodes; and when the tasks of all the child nodes under the main node are completed, the tasks of the main node are completed.

Specifically, the node is a parent-child node structure, and the parent-child node structure includes a main node and a child node corresponding to the main node. Referring to fig. 5, the main node 1 task includes a bid preparation node 11, a bid answering node 12, an open bid evaluation node 13, a scaling node 14, and a contract signing node 15, and more particularly, the open bid evaluation main node 13 may further include sub-nodes 131, and the sub-nodes 131 include an open technical bid sub-node 1311, a technical settlement inquiry sub-node 1312, a technical bid review sub-node 1313, a business bid return review sub-node 1314, an open business bid sub-node 1315, a business settlement inquiry sub-node 1316, and a business bid review sub-node 1317. The main node is composed of sub-nodes, when all tasks corresponding to the sub-nodes are completed, the tasks corresponding to the main node are completed, each main node is composed of sub-nodes, and each sub-node at least realizes one functional task.

In one embodiment, the method further comprises: acquiring the task progress of the current node; and generating a node page unit corresponding to the current node according to the task progress.

Specifically, the task progress of the node is used for displaying task execution information of the current node, and the task execution information may include a currently processed node, a node state of the node, a next executable node, a completed node, and the like; and generating a node page unit corresponding to the current node according to the task progress data of the node.

In order to more intuitively know the work progress of the bid-inviting purchase business process, each node is provided with a node page unit. The node page unit realizes a graphical display mode and is used for displaying the current working progress.

Additionally, the node page elements may include editable page elements, read-only page elements, in-approval page elements, and the like. The page unit in the examination and approval is used for displaying the task execution information of the nodes in the examination and approval; the read-only page unit is a node page unit which is not editable and is used for displaying task execution information of a current node; the editable page unit is a node page unit capable of editing the node page unit according to the demand of the bid purchase service, for example, in some embodiments, an attachment can be uploaded to the node page unit according to the demand, and the like.

In one embodiment, after reading the node data in the user requirement information, the method further includes: and searching whether the current node is configured with the approval flow, and configuring the approval flow information for the node when the node starts the approval flow.

Specifically, each node may configure whether to enable an approval flow, which means whether an approval process is required. For example, if some node tasks are configured as an "approval flow," this means that when the flow is transferred to this node, the system will start an additional running approval flow, otherwise referred to as an approval process. When the other running approval flow is completed, the node tasks related to the approval flow in the nodes are completed. In a specific service, a user can configure approval flow information for each node according to needs.

After the process guide configuration of bid inviting purchase is completed by the method, the process guide can be subjected to simulation test. The correctness of the currently configured bid inviting and purchasing business process can be checked through simulation test, so that the problems in the currently configured bid inviting and purchasing business process can be found in time and improved.

Referring to fig. 3, a second embodiment of the present invention relates to a method for testing service flow configuration, which tests a service flow configured by using the method in any one of the first embodiments, and includes the following steps:

step S310, acquiring node attributes and/or node states of the current node;

step S320, inquiring the node flow direction related to the node attribute and/or the node state;

step S330, calling the node flow to run the business process.

Specifically, the server obtains the current node state, queries the current node state and/or the node flow direction associated with the node attribute, calls the node flow direction to realize task transfer, and changes the node state of the current node and the node state of the node to which the node flow direction points while transferring the task.

Referring to fig. 4, a third embodiment of the present invention relates to a business process configuration apparatus, including any one of the business process configuration methods provided in the first embodiment, and further including: a user data obtaining module 410, a role process obtaining module 420, a node data reading module 430, and a role process configuring module 440, wherein:

the user data obtaining module 410 is configured to receive a service flow configuration request, and obtain user role information and user requirement information from the service flow configuration request.

A role process obtaining module 420, configured to obtain a role corresponding to a user according to the user role information, and obtain a role process corresponding to the role according to the role, where the role process includes multiple nodes.

And a node data reading module 430, configured to read node data in the user demand information.

A role process configuration module 440, configured to configure the role process according to the node data, where the configuration includes modifying a node attribute and/or a node state.

In one embodiment, the node attribute setting module is further included, and the node attributes include one or more of a node valid attribute, a node optional attribute, a node order attribute, and a node priority attribute.

In one embodiment, a node state setting module is further included, the node state including one or more of a node not started state, a node in progress state, a node completed modifiable state, a node completed state, and a node terminated state.

In one embodiment, the node flow direction associating module is further included, and the node flow direction is further included in the node data, and the node flow direction is associated with the node attribute and/or the node state of the incoming node and the outgoing node of the node flow direction.

In one embodiment, the node state changing module is further included, and the configuration includes modifying the node flow direction, and after the node flow direction is configured, the node attribute and/or the node state of the destination node and/or the destination node of the node flow direction are changed.

In one embodiment, the user data acquisition module further comprises: and the child node searching unit is used for searching the master node in the node data and the child node corresponding to the master node.

And the node association binding unit is used for associating and binding the main node and the child nodes.

And the node state changing module is used for changing the node state of the main node into the node finished state when the node state of the child node associated with the main node is the node finished state.

In one embodiment, the role flow configuration module comprises:

and the node attribute acquisition unit is used for acquiring the node attribute of the configured current node, and hiding the node when the node attribute is an invalid attribute.

Or, the node state and node attribute obtaining unit is configured to obtain the node attribute and the node state of the configured current node, and hide the node when the node attribute is an optional attribute and the node state is a node non-start state.

In one embodiment, the node data reading module includes: and the examination and approval flow searching unit is used for searching whether the current node starts examination and approval flows or not, and configuring the examination and approval flows for the node when the node starts the examination and approval flows.

The first embodiment is an embodiment of a business process configuration method, and is a method embodiment corresponding to the present embodiment, and the present embodiment may be implemented in cooperation with the first embodiment. The related art details mentioned in the first embodiment are still valid in this embodiment,

to reduce repetition, further description is omitted here. Accordingly, the related-art details mentioned in the present embodiment can also be applied to the first embodiment.

A fourth embodiment of the invention is directed to a computer storage medium having stored thereon computer instructions that, when executed by a processor, perform the steps of: receiving a service flow configuration request, and acquiring user role information and user demand information from the service flow configuration request; acquiring a role corresponding to a user according to the user role information, and acquiring a role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes; reading node data in the user demand information; and configuring the role flow according to the node data, wherein the configuration comprises the modification of node attributes and/or node states.

In one embodiment, the computer program when executed by the processor further performs the steps of: the node attributes include one or more of a node valid attribute, a node optional attribute, a node order attribute, and a node priority attribute.

In one embodiment, the computer program when executed by the processor further performs the steps of: the node states include one or more of a node not started state, a node in progress state, a node completed modifiable state, a node completed state, and a node terminated state.

In one embodiment, the computer program when executed by the processor further performs the steps of: also included in the node data is a node flow direction, which is associated with the node attributes and/or the node states of the inbound and outbound nodes to which the node flows.

In one embodiment, the computer program when executed by the processor further performs the steps of: the configuration comprises modifying the node flow direction, and after the node flow direction is configured, the node attribute and/or the node state of the to-node and/or the to-node of the node flow direction are changed.

In one embodiment, the computer program after being executed by the processor further realizes the following steps: searching a main node and a sub-node corresponding to the main node in the node data; performing association binding on the main node and the child nodes; and when the node state of the child node associated with the master node is a node completed state, the node state of the master node is a node completed state.

In one embodiment, the step of configuring, by the processor, the role flow based on the node data further implements the steps of: acquiring the node attribute of the current node after configuration, and hiding the node when the node attribute is an invalid attribute; or obtaining the node attribute and the node state of the current node after configuration, and hiding the node when the node attribute is optional and the node state is a node non-starting state.

In one embodiment, the computer program executed by the processor after the step of reading the node data in the user demand information further realizes the steps of: and searching whether the current node starts an approval flow or not, and configuring the approval flow for the node when the node starts the approval flow.

A fifth embodiment of the present invention relates to a computer device, which may be a server, and an internal structural diagram of which may be as shown in fig. 6. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device provides relevant data for performing the bid procurement configuration process. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program when executed by a processor implements a method of tendering a procurement configuration flow.

Those skilled in the art will appreciate that the architecture shown in fig. 6 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, there is provided a computer device comprising a processor, an input device, an output device and a memory interconnected to store a computer program, the computer program comprising program instructions which when executed by the processor implement the steps of: receiving a service flow configuration request, and acquiring user role information and user demand information from the service flow configuration request; acquiring a role corresponding to a user according to the user role information, and acquiring a role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes; reading node data in the user demand information; and configuring the role flow according to the node data, wherein the configuration comprises modification of node attributes and/or node states.

In one embodiment, the processor when executing the program further performs the steps of: the node attributes include one or more of a node valid attribute, a node optional attribute, a node order attribute, and a node priority attribute.

In one embodiment, the processor, when executing the computer program, further performs the steps of: the node states include one or more of a node not started state, a node in progress state, a node completed modifiable state, a node completed state, and a node terminated state.

In one embodiment, the processor, when executing the computer program, further performs the steps of: also included in the node data is a node flow direction, which is associated with the node attributes and/or the node states of the inbound and outbound nodes to which the node flows.

In one embodiment, the processor, when executing the computer program, further performs the steps of: the configuration comprises modifying the node flow direction, and after the node flow direction is configured, the node attribute and/or the node state of the to-node and/or the to-node of the node flow direction are changed.

In one embodiment, the processor further implements the following steps after executing the step of reading the node data in the user requirement information: searching a main node and a sub-node corresponding to the main node in the node data; performing association binding on the main node and the child nodes; and when the node state of the child node associated with the master node is a node completed state, the node state of the master node is a node completed state.

In one embodiment, the following steps are further implemented when the processor executes the configuration of the role flow according to the node data: acquiring the node attribute of the current node after configuration, and hiding the node when the node attribute is an invalid attribute; or, the node attribute and the node state of the current node after configuration are obtained, and when the node attribute is an optional attribute and the node state is a node non-starting state, the node is hidden.

In one embodiment, the processor further implements the following steps after executing the step of reading the node data in the user requirement information: and searching whether the current node starts the approval flow, and configuring the approval flow for the node when the node starts the approval flow.

The method realizes the method of self-defining configuration of the bid inviting purchase process by adopting the node attribute of the self-defining configuration node, the node state of the node and the node flow direction associated with the node state, adapts to the continuous change of complex business and purchase strategy of bid inviting purchase, and solves the technical problems of single bid inviting purchase mode, incapability of solving the problem of enterprise purchase complexity, low purchase process efficiency, difficult purchase cost reduction and the like in the prior art.

It is to be noted that in the claims and the description of the present patent, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the use of the verb "comprise a" to define an element does not exclude the presence of another, same element in a process, method, article, or apparatus that comprises the element.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (12)

1. A business process configuration method is used in the field of bidding procurement, and is characterized by comprising the following steps:

receiving a service flow configuration request, and acquiring user role information and user demand information from the service flow configuration request; the user role information comprises a first user role and a second user role, and the user demand information comprises first user demand information and second user demand information;

acquiring a role corresponding to a user according to the user role information, and acquiring a role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes, each node comprises a main node and a sub-node corresponding to the main node, and one or more sub-nodes belonging to the same main node are in the same node group;

reading node data in the user requirement information, including reading first node data in the first user requirement information and reading second node data in the second user requirement information;

the node data comprises node attributes of each node, node states of each node, and logical relations between the node attributes and the node states of each node, wherein the logical relations between the node attributes or the node states of one or more nodes are changed based on one or more node attributes or node states, and the logical relations comprise searching a first node state in the first node data and a first node flow direction associated with the first node state; reading second node data in the second user requirement information, and searching a second node state in the second node data and a second node flow direction associated with the second node state; the first node flow direction points to a first node or a second node; the second node flow direction points to a first node or a second node, and the mutual influence among the nodes based on the node attributes or the node states comprises the mutual influence among the same node group and the cross-group influence of components of different node groups;

the node data includes the nodes corresponding to the service flow configuration request, the node attributes of the nodes, the node states of the nodes, and node flow directions associated with the node states, where the node flow directions are used to determine the node states of the destination nodes and the destination nodes according to the node attributes and/or node states of the destination nodes and the destination nodes of the node flow directions, when the node flow directions of the destination nodes point to multiple destination nodes, different node flow directions combine multiple service flows, and when the node flow directions point to two nodes with different priorities at the same time, the node with a high priority is defined as a default destination node;

configuring the role flow according to the node data, wherein the role flow comprises the following steps: acquiring the logical relationship from the node data, searching the node flow direction associated with the node attribute and/or the node state of each node, and configuring the bidding service flow on the role flow based on the logical relationship and the node flow direction; the configuration comprises editing and redefining nodes in the role flow, and editing and redefining the node attribute of each node, the node state of each node and the node flow direction associated with each node state.

2. The method of claim 1, wherein the node attributes include one or more of a node valid attribute, a node optional attribute, a node order attribute, and a node priority attribute.

3. The method of claim 1, wherein the node state comprises one or more of a node not started state, a node in progress state, a node completed modifiable state, a node completed state, and a node terminated state.

4. The method according to claim 1, wherein the node data further comprises a node flow direction, wherein the node flow direction is associated with the node attributes and/or the node states of the incoming node and the outgoing node of the node flow direction.

5. The method according to claim 4, wherein the configuring comprises modifying the node flow direction, and after the node flow direction is configured, the node property and/or the node state of the destination node and/or the destination node of the node flow direction are/is changed.

6. The method of claim 1,

after the reading of the node data in the user requirement information, the method further includes:

searching a main node and a sub-node corresponding to the main node in the node data;

performing association binding on the main node and the child nodes;

and when the node state of the child node associated with the master node is a node completed state, the node state of the master node is a node completed state.

7. The method of claim 1,

the configuring the role flow according to the node data further comprises:

acquiring the node attribute of the current node after configuration, and hiding the node when the node attribute is an invalid attribute; or

And acquiring the node attribute and the node state of the current node after configuration, and hiding the node when the node attribute is an optional attribute and the node state is a node non-starting state.

8. The method of claim 1, further comprising:

after the reading of the node data in the user requirement information, the method further comprises:

and searching whether the current node starts an approval flow or not, and configuring the approval flow for the node when the node starts the approval flow.

9. A business process configuration testing method for testing a business process configured by using the method of any one of claims 1 to 8, comprising the steps of:

acquiring the node attribute and/or the node state of the current node;

querying the node flow associated with the node attributes and/or the node states;

and calling the node flow to operate the business process.

10. A business process configuration device is used for the bidding purchasing field, and is characterized by comprising:

the user data acquisition module is used for receiving a service flow configuration request and acquiring user role information and user demand information from the service flow configuration request; the user role information comprises a first user role and a second user role, and the user demand information comprises first user demand information and second user demand information;

the role flow acquiring module is used for acquiring a role corresponding to a user according to the user role information and acquiring a role flow corresponding to the role according to the role, wherein the role flow comprises a plurality of nodes, each node comprises a main node and a sub-node corresponding to the main node, and one or more sub-nodes belonging to the same main node are in the same node group;

a node data reading module, configured to read node data in the user demand information, where the node data includes reading first node data in the first user demand information and reading second node data in the second user demand information; the node data comprises node attributes of each node, node states of each node, and logical relations between the node attributes and the node states of each node, wherein the logical relations between the node attributes or the node states of one or more nodes are changed based on one or more node attributes or node states, and the logical relations comprise searching a first node state in the first node data and a first node flow direction associated with the first node state; reading second node data in the second user requirement information, and searching a second node state in the second node data and a second node flow direction associated with the second node state; the first node flow direction points to a first node or a second node; the second node flow direction points to a first node or a second node, and the mutual influence among the nodes based on the node attributes or the node states comprises the mutual influence among the same node group and the cross-group influence of components of different node groups; the node data includes the nodes corresponding to the service flow configuration request, the node attributes of the nodes, the node states of the nodes, and node flow directions associated with the node states, where the node flow directions are used to determine the node states of the destination nodes and the destination nodes according to the node attributes and/or node states of the destination nodes and the destination nodes of the node flow directions, when the node flow directions of the destination nodes point to multiple destination nodes, different node flow directions combine multiple service flows, and when the node flow directions point to two nodes with different priorities at the same time, the node with a higher priority is defined as a default destination node;

a role process configuration module, configured to configure the role process according to the node data, including: acquiring the logical relationship from the node data, searching the node flow direction associated with the node attribute and/or the node state of each node, and configuring the bidding service flow based on the logical relationship and the node flow direction; the configuration comprises editing and redefining nodes in the role flow, and editing and redefining the node attribute of each node, the node state of each node and the node flow direction associated with each node state.

11. A computer-readable storage medium, on which a computer program is stored, characterized in that the computer program is executed by a processor for performing the method according to any of the claims 1-8.

12. A computer device comprising a processor, an input device, an output device, and a memory connected to each other for storing a computer program, the computer program comprising program instructions that, when executed by the processor, cause the processor to perform the method of any of claims 1-8.

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