CN117035636A - Workflow sub-process dynamic generation method, device, equipment and storage medium - Google Patents

Abstract

The application discloses a workflow sub-process dynamic generation method, a device, equipment and a storage medium, and relates to the technical field of business process management systems. When the trigger condition of the workflow sub-process is judged to be met, the required initial business data of the sub-process is extracted from the form data, and finally, the workflow sub-process is generated for each creator determined by applying the required initial business data, so that the method is not only applicable to complex business scenes containing a plurality of transactions, but also can assign the business data of the current transaction process to a new transaction process, achieve the purpose of flexibly coping with large-scale complex business, and facilitate practical application and popularization.

Description

Workflow sub-process dynamic generation method, device, equipment and storage medium

Technical Field

The application belongs to the technical field of business process management systems, and particularly relates to a workflow sub-process dynamic generation method, device and equipment and a storage medium.

Background

In modern organization management activities, organization and process operations form a vertical management line and a horizontal management line inside a modern enterprise, wherein the vertical management line defines division of organization members (including strategic targets, functions and post responsibilities of departments of the enterprise, and the like), and the horizontal management line defines collaboration of organization members, and the division and collaboration mode forms a transverse and longitudinal combined management and management mode of the enterprise. The business process management (Business Process Management, BPMS) system normalizes, standardizes and processes automatically through the technical means of modern workflow software, thereby effectively improving the business operation efficiency, reducing the cost and providing guarantee for realizing the strategic targets of enterprises.

When the office mode of an enterprise is changed from traditional paper to electronic informatization, the BPMS system helps the enterprise to accelerate informatization, so that corresponding processes (such as leave-out processes, reimbursement processes and the like) can be built in an office automation (Office Automation, OA) system by finding and leading transactions in face-to-face approval in the past, and further, the processing efficiency can be greatly improved by on-line approval of the processes.

However, in the OA system, the workflow generally belongs to a business flow, and in the actual business of an enterprise, one business often includes one or more transactions, and there is a parallel or front-to-back bearing relationship between the multiple transactions, so that the business flow is implemented as a link in the business, and the requirement of the business cannot be completely met, that is, the existing business flow management system technology has at least the following drawbacks: (1) The method is only suitable for a single transaction scene, and cannot meet special requirements of complex business scenes containing a plurality of transactions; (2) When a new transaction flow starts from the current transaction flow, the data of the current transaction flow cannot be assigned to the new transaction flow; (3) The multiple transaction flows in the same business flow cannot be mutually dependent and associated, so that a certain transaction flow is finished, and another transaction flow which is mutually dependent and associated is still in process; (4) When the current transaction flow is processed, the processing result and the archive data information of the transaction flow cannot be summarized to another dependent transaction flow.

In view of the above drawbacks, it is a urgent task for those skilled in the art to provide a more flexible and complete technical solution of a business process management system to cope with large complex business.

Disclosure of Invention

The application aims to provide a workflow sub-process dynamic generation method, a workflow sub-process dynamic generation device, a workflow sub-process dynamic generation computer device and a workflow sub-process dynamic generation computer readable storage medium, which are used for solving the problems that the conventional business process management system technology cannot be suitable for complex business scenes containing a plurality of transactions and business data of a current business process cannot be assigned to a new business process.

In order to achieve the above purpose, the present application adopts the following technical scheme:

in a first aspect, a workflow sub-process dynamic generation method is provided, including:

when a workflow main flow flows to/flows from a certain main flow node, sub-flow generation configuration information preset on the certain main flow node is acquired, wherein the sub-flow generation configuration information comprises a trigger operation type and trigger data conditions of a workflow sub-flow to be triggered and generated;

judging whether the current operation type of the workflow main flow is consistent with the triggering operation type of the workflow sub-flow;

if the trigger data conditions are consistent, further judging whether the trigger data conditions of the workflow sub-processes are met according to the main flow business form data acquired from the certain main flow node;

if so, extracting the required initial service data of the workflow sub-process from the main flow service form data;

the workflow sub-process is generated for each creator determined using the required initial business data.

Based on the above summary, a new scheme for dynamically generating a workflow sub-flow based on main flow business form data and pre-configuration information is provided, that is, when a workflow main flow flows to/flows out of a certain main flow node, the pre-configured sub-flow generation configuration information on the node is firstly obtained, then according to the configuration information and the main flow business form data obtained at the node, when the trigger condition of the workflow sub-flow is determined to be met, the required initial business data of the sub-flow is extracted from the form data, and finally, the required initial business data is applied to each creator to generate the workflow sub-flow for the determined purpose of flexibly coping with large complex business is achieved, so that the workflow sub-flow is applicable to complex business scenes comprising a plurality of transactions, and the business data of the current business flow can be assigned to the new business flow.

In one possible design, after the workflow sub-process is generated for each creator determined by applying the required initial business data, the method further comprises:

and when all the workflow sub-processes are processed and archived, summarizing the archived data of all the workflow sub-processes, and submitting the archived data to the next main flow node which is positioned behind the certain main flow node in the workflow main flow as new business data generated by the certain main flow node.

In one possible design, when the sub-flow generation configuration information further includes a distinguishable field of the workflow sub-flow for indicating different sub-flow transactions, generating the workflow sub-flow for each creator determined using the required initial business data includes:

the workflow sub-process of generating a corresponding transaction for each creator determined applies the required initial business data for each field value in the distinguishable fields.

In one possible design, when the sub-process generation configuration information further includes a create sub-process field for each person of the workflow sub-process for indicating different sub-process processors, generating the workflow sub-process for each creator determined using the required initial business data, including:

for each field value in the individual create sub-flow field per person, applying the required initial business data to generate a corresponding workflow sub-flow for each creator determined.

In one possible design, when the main flow service form data is a detail table, extracting the required initial service data of the workflow sub-flow from the main flow service form data includes:

for each row of data in the detail table, extracting required initial business data of the workflow sub-process from the corresponding data so as to apply the required initial business data to generate the corresponding workflow sub-process for each determined creator.

In one possible design, when the sub-process generating configuration information further includes a designated person field of the workflow sub-process and indicating a different sub-process creator or the main flow service form data includes a designated person field indicating a different sub-process creator, generating the workflow sub-process for each determined creator using the required initial service data, including:

the workflow sub-process is generated for the corresponding creator by applying the required initial business data for each field value in the specified personnel field.

In one possible design, applying the desired initial business data generates the workflow sub-process for each creator determined, including:

and taking the processor of the certain main flow node as a determined creator, and applying the required initial business data to generate the workflow sub-flow for the creator.

In a second aspect, a workflow sub-process dynamic generation device is provided, which comprises an information acquisition module, a first judgment module, a second judgment module, a data extraction module and a sub-process generation module which are connected in sequence in a communication way;

the information acquisition module is used for acquiring sub-flow generation configuration information preset on a certain main flow node when the workflow main flow flows to/from the certain main flow node, wherein the sub-flow generation configuration information comprises a trigger operation type and a trigger data condition of the workflow sub-flow to be triggered and generated;

the first judging module is used for judging whether the current operation type of the workflow main flow is consistent with the triggering operation type of the workflow sub-flow;

the second judging module is used for judging whether the trigger data condition of the workflow sub-process is met or not according to the main flow business form data acquired from the certain main flow node when the trigger data condition is consistent;

the data extraction module is used for extracting the required initial service data of the workflow sub-process from the main flow service form data when the data is established;

the sub-process generating module is used for generating the workflow sub-process for each determined creator by applying the required initial business data.

In one possible design, the system further comprises a main flow submitting module which is in communication connection with the sub-flow generating module;

and the main flow submitting module is used for summarizing the archiving data of all the workflow sub-flows when all the workflow sub-flows are processed and archived, and submitting the archiving data to the next main flow node which is in the workflow main flow and is positioned behind the certain main flow node under the current flow direction as new business data generated by the certain main flow node.

In a third aspect, the present application provides a computer device, comprising a memory, a processor and a transceiver, which are in communication connection in turn, wherein the memory is configured to store a computer program, the transceiver is configured to send and receive a message, and the processor is configured to read the computer program, and execute the workflow sub-flow dynamic generation method according to the first aspect or any possible design of the first aspect.

In a fourth aspect, the present application provides a computer readable storage medium having instructions stored thereon which, when executed on a computer, perform a workflow sub-flow dynamic generation method as described in the first aspect or any of the possible designs of the first aspect.

In a fifth aspect, the present application provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the workflow sub-flow dynamic generation method as described in the first aspect or any of the possible designs of the first aspect.

The beneficial effect of above-mentioned scheme:

(1) The application creatively provides a new scheme for dynamically generating workflow sub-flows based on main flow business form data and pre-configuration information, namely when the workflow main flow flows to/flows to turn over a certain main flow node, the pre-set sub-flow generation configuration information on the node is firstly obtained, then according to the configuration information and the main flow business form data obtained at the node, when the trigger condition of the workflow sub-flows is judged to be established, the required initial business data of the sub-flows are extracted from the form data, and finally, each creator who determines the required initial business data is applied to generate the workflow sub-flows, so that the method is not only applicable to complex business scenes containing a plurality of transactions, but also can assign the business data of the current transaction flow to the new transaction flow, and realize the purpose of flexibly coping with large-scale complex businesses;

(2) The method can also enable a plurality of transaction flows to be mutually dependent and associated in the same business flow, and further can collect the processing result and the archive data information of the transaction flow to another dependent transaction flow when the current transaction flow is processed, thereby being further beneficial to flexibly coping with large-scale complex business;

(3) The accuracy of the transaction flow processing result can be improved through cooperative work among different transaction flows in the same business scene;

(4) The operation can be simplified, the operation convenience is enhanced, the operation efficiency is improved, the effort of personnel is reduced, the service scene is fully covered, and the service requirements under different scenes are met.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flow diagram of a workflow sub-flow dynamic generation method according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a workflow sub-process dynamic generation device according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a computer device according to an embodiment of the present application.

Detailed Description

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the present application will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present application, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present application, but is not intended to limit the present application.

It should be understood that although the terms first and second, etc. may be used herein to describe various objects, these objects should not be limited by these terms. These terms are only used to distinguish one object from another. For example, a first object may be referred to as a second object, and similarly a second object may be referred to as a first object, without departing from the scope of example embodiments of the application.

It should be understood that for the term "and/or" that may appear herein, it is merely one association relationship that describes an associated object, meaning that there may be three relationships, e.g., a and/or B, may represent: three cases of A alone, B alone or both A and B exist; as another example, A, B and/or C, can represent the presence of any one of A, B and C or any combination thereof; for the term "/and" that may appear herein, which is descriptive of another associative object relationship, it means that there may be two relationships, e.g., a/and B, it may be expressed that: the two cases of A and B exist independently or simultaneously; in addition, for the character "/" that may appear herein, it is generally indicated that the context associated object is an "or" relationship.

Examples:

as shown in fig. 1, the workflow sub-process dynamic generation method provided in the first aspect of the present embodiment may be performed by, but not limited to, a computer device with a certain computing resource, for example, a platform server, a personal computer (Personal Computer, PC, refer to a multipurpose computer with a size, price and performance suitable for personal use, a desktop computer, a notebook computer, a small notebook computer, a tablet computer, an ultrabook, etc. all belong to a personal computer), a smart phone, a personal digital assistant (Personal Digital Assistant, PDA) or an electronic device such as a wearable device. As shown in fig. 1, the workflow sub-process dynamic generation method may include, but is not limited to, the following steps S1 to S6.

S1, when a workflow main flow flows to/flows from a certain main flow node, sub-flow generation configuration information preset on the certain main flow node is obtained, wherein the sub-flow generation configuration information comprises, but is not limited to, a trigger operation type, trigger data conditions and the like of a workflow sub-flow to be triggered and generated.

In the step S1, the workflow main process and the workflow sub-process are a pair of two transaction processes having an interdependent relationship, for example, the generation of the workflow sub-process needs to depend on the business data of the workflow main process, and the processing of the workflow main process needs to depend on the archiving data of the workflow sub-process; the number of workflow sub-processes may be one or more. The parent-child relationship between the workflow main flow and the workflow sub-flow is relatively speaking, that is, when the workflow sub-flow flows to a certain sub-flow node, the workflow sub-flow can be used as another workflow main flow, the certain sub-flow node can be used as another main flow node, and then another sub-flow generating configuration information preset on the other main flow node is acquired, so that another workflow sub-flow corresponding to the other workflow main flow is generated on the other main flow node. The sub-process generation configuration information is preset by a user, wherein the trigger operation type can be, but is not limited to, an approval operation type, a withdrawal operation type or an intervention operation type, so that the trigger condition is generated as a sub-process; the trigger data condition is used as another sub-process to generate a trigger condition, which may be, but is not limited to, conventionally designed based on service data that may be available at the certain main process node. In addition, the configuration information generated by the sub-process may further include, but is not limited to, a distinguishable field of the workflow sub-process for indicating different sub-process transactions, a separate sub-process field for indicating each person of different sub-process processors, a designated person field for indicating different sub-process creators, a process merging trigger condition and/or a process distribution trigger condition, etc., so as to preset richer content and meet the requirement of improving application flexibility.

S2, judging whether the current operation type of the workflow main flow is consistent with the triggering operation type of the workflow sub-flow.

In the step S2, considering that the current operation type of the workflow main flow may be an operation type such as approval, return or intervention, the objective of triggering different workflow sub-flows (for example, triggering a first workflow sub-flow when the current operation type is approval and triggering a second workflow sub-flow when other conditions) or triggering a specific workflow sub-flow (for example, triggering a specific workflow sub-flow only when the current operation type is approval and not triggering when other conditions) for different specific operation types may be achieved through the judging action of the step S2. For example, the workflow main flow has three nodes, namely a main flow node A, a main flow node B, a main flow node C and the like, if a certain workflow sub-flow needs to be triggered when leaving the main flow node B, the certain workflow sub-flow is triggered when the business is advanced, usually from B- > C, and if the operation type is not judged, the certain workflow sub-flow is triggered when B returns to A, so that the problem of business abnormality exists; meanwhile, in some scenarios, when B returns to a, another workflow sub-flow may need to be triggered, so that the actual requirement of the customer can be more satisfied through the operation type control of step S2.

S3, if the trigger data conditions are consistent, judging whether the trigger data conditions of the workflow sub-flows are met or not according to the main flow business form data acquired at the certain main flow node.

In the step S3, for example, when the trigger data condition is an over-period processing trigger condition based on the preset time information, it may be determined whether the over-period processing trigger condition is satisfied according to a comparison result between the current time information in the main flow service form data and the preset time information, so as to trigger generation of an over-period processing workflow sub-flow when the over-period processing trigger condition is satisfied. In addition, when the number of workflow sub-processes is plural, it is necessary to determine whether the trigger data condition of each workflow sub-process is satisfied by traversing according to the main flow business form data acquired at the certain main flow node.

S4, if so, extracting the required initial service data of the workflow sub-process from the main flow service form data.

In step S4, the required initial service data is the data for assigning a value to the transaction flow corresponding to the workflow sub-flow, including but not limited to, the processing deadline information and/or the trigger event information, and the specific extraction mode is the existing mode that can be conventionally selected according to the requirement of the workflow sub-flow. Specifically, when the main flow service form data is a main table, the required initial service data of the workflow sub-process can be extracted from all row and column data of the main table, so that the required initial service data is applied to generate the workflow sub-process corresponding to the main table for each creator determined; and when the main flow business form data is a detail table, extracting required initial business data of the workflow sub-flow from corresponding data aiming at each row of data in the detail table so as to generate the corresponding workflow sub-flow for each determined creator by applying the required initial business data. In addition, if the workflow sub-flows are inconsistent or not established, the generation of the workflow sub-flows is terminated, and when the number of established workflow sub-flows is a plurality of, the required initial business data of each workflow sub-flow is extracted from the main flow business form data in a traversing manner.

S5, generating the workflow sub-flow for each determined creator by applying the required initial business data.

In the step S5, the creator may specifically be a handler of the certain main flow node, specifically including: and taking the processor of the certain main flow node as a determined creator, and applying the required initial business data to generate the workflow sub-flow for the creator. In addition, the creator may also be set in the configuration information for generating the sub-process or extracted from the data of the main process business form, that is, when the configuration information for generating the sub-process further includes a designated personnel field for indicating different sub-process creators in the workflow sub-process or the data of the main process business form includes a designated personnel field for indicating different sub-process creators, the workflow sub-process is generated for each determined creator by applying the required initial business data, including but not limited to: the workflow sub-process is generated for the corresponding creator by applying the required initial business data for each field value in the specified personnel field. Different field values in the aforementioned specifier field represent different flow creators, for example, when the field values in the specifier field have: when Zhang san, li four and Wang five are performed, three workflow sub-flows corresponding to Zhang san, li four and Wang five one by one can be generated by applying the required initial business data.

In the step S5, when the sub-flow generation configuration information further includes a distinguishable field of the workflow sub-flow for indicating different sub-flow transactions, the workflow sub-flow is generated for each creator determined by applying the required initial business data, including but not limited to: the workflow sub-process of generating a corresponding transaction for each creator determined applies the required initial business data for each field value in the distinguishable fields. The different field values in the distinguishable fields represent different transaction requirements, for example, a company has a main business of purchasing, three employees are arranged to purchase three types of goods, and the purchasing process of each type of goods is different, so that different purchasing business processes of the goods can be triggered according to the employee fields (namely, the distinguishable fields): the value 1 of the employee field=employee 1, the value 2=employee 2 and the value 3=employee 3 triggers the first-class cargo purchasing process by setting the value 1, the value 2 triggers the second-class cargo purchasing process, and so on, so that different sub-processes can be triggered and generated.

In the step S5, when the sub-process generation configuration information further includes a separate creation sub-process field for each person of the workflow sub-process and is used to instruct different sub-process processors, the workflow sub-process is generated for each creator determined by applying the required initial business data, including but not limited to: for each field value in the individual create sub-flow field per person, applying the required initial business data to generate a corresponding workflow sub-flow for each creator determined. The foregoing individual creation of different field values in the sub-flow field per person represents different flow processing personnel, for example, when the distinguishable field is a browsing field and the field value has a department browsing transaction, a plurality of field values corresponding to a plurality of department personnel one by one may be configured in the individual creation sub-flow field per person, so as to generate the workflow sub-flow requiring processing by the department personnel for each determined creator by applying the required initial business data.

Based on the foregoing steps S4 to S5, the trigger generation number of the workflow sub-flow finally obtained will be a cartesian product as follows: the data source N is assigned (n=1 when the main flow service form data is the main table, n=number of detail table when the detail table is the list) × [ number of field values of distinguishable fields ] mx [ number of field values of individual creation sub-flow fields per person ] k×number of sub-flow creator C, the foregoing "[ ]" represents a setting item that may or may not be present.

S6, when all the workflow sub-processes are processed and archived, the archived data of all the workflow sub-processes are summarized, and the archived data are used as new business data generated at a certain main process node and submitted to a next main process node which is positioned behind the certain main process node in the workflow main process stream and is positioned in the current flow direction.

The method for dynamically generating the workflow sub-process based on the workflow business form data and the pre-configuration information described in the steps S1 to S6 provides a new scheme for dynamically generating the workflow sub-process based on the main flow business form data and the pre-configuration information, namely, when the workflow main flow is transferred to/from a certain main flow node, the pre-configuration information of the sub-process is firstly obtained, then the configuration information and the main flow business form data obtained at the node are used for obtaining the required initial business data of the sub-process from the form data when the trigger condition of the workflow sub-process is judged to be met, and finally, the required initial business data is applied to generate the workflow sub-process for each established creator, so that the method is not only applicable to complex business scenes containing a plurality of transactions, but also can assign the business data of the current business process to the new business process, and achieves the purpose of flexibly coping with large complex businesses. In addition, the multiple transaction flows can be mutually dependent and associated in the same business flow, so that when the current transaction flow is processed, the processing result and the archive data information of the transaction flow can be summarized to another dependent transaction flow, and the method is further beneficial to flexibly coping with large-scale complex business.

As shown in fig. 2, in a second aspect of the present embodiment, a virtual device for implementing the workflow sub-process dynamic generation method according to the first aspect is provided, where the virtual device includes an information acquisition module, a first judgment module, a second judgment module, a data extraction module, and a sub-process generation module that are sequentially connected in communication;

the information acquisition module is used for acquiring sub-flow generation configuration information preset on a certain main flow node when the workflow main flow flows to/from the certain main flow node, wherein the sub-flow generation configuration information comprises a trigger operation type and a trigger data condition of the workflow sub-flow to be triggered and generated;

the first judging module is used for judging whether the current operation type of the workflow main flow is consistent with the triggering operation type of the workflow sub-flow;

the second judging module is used for judging whether the trigger data condition of the workflow sub-process is met or not according to the main flow business form data acquired from the certain main flow node when the trigger data condition is consistent;

the data extraction module is used for extracting the required initial service data of the workflow sub-process from the main flow service form data when the data is established;

the sub-process generating module is used for generating the workflow sub-process for each determined creator by applying the required initial business data.

In one possible design, the system further comprises a main flow submitting module which is in communication connection with the sub-flow generating module;

and the main flow submitting module is used for summarizing the archiving data of all the workflow sub-flows when all the workflow sub-flows are processed and archived, and submitting the archiving data to the next main flow node which is in the workflow main flow and is positioned behind the certain main flow node under the current flow direction as new business data generated by the certain main flow node.

The working process, working details and technical effects of the foregoing apparatus provided in the second aspect of the present embodiment may refer to the workflow sub-flow dynamic generation method described in the first aspect, which are not described herein again.

As shown in fig. 3, a third aspect of the present embodiment provides a computer device for executing the workflow sub-flow dynamic generation method according to the first aspect, which includes a memory, a processor and a transceiver that are sequentially communicatively connected, where the memory is configured to store a computer program, the transceiver is configured to send and receive a message, and the processor is configured to read the computer program and execute the workflow sub-flow dynamic generation method according to the first aspect. By way of specific example, the Memory may include, but is not limited to, random-Access Memory (RAM), read-Only Memory (ROM), flash Memory (Flash Memory), first-in first-out Memory (First Input First Output, FIFO), and/or first-in last-out Memory (First Input Last Output, FILO), etc.; the processor may be, but is not limited to, a microprocessor of the type STM32F105 family. In addition, the computer device may include, but is not limited to, a power module, a display screen, and other necessary components.

The working process, working details and technical effects of the foregoing computer device provided in the third aspect of the present embodiment may refer to the workflow sub-flow dynamic generation method described in the first aspect, which are not described herein again.

A fourth aspect of the present embodiment provides a computer-readable storage medium storing instructions containing the workflow sub-flow dynamic generation method according to the first aspect, i.e. the computer-readable storage medium has instructions stored thereon, which when executed on a computer, perform the workflow sub-flow dynamic generation method according to the first aspect. The computer readable storage medium refers to a carrier for storing data, and may include, but is not limited to, a floppy disk, an optical disk, a hard disk, a flash Memory, and/or a Memory Stick (Memory Stick), where the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable devices.

The working process, working details and technical effects of the foregoing computer readable storage medium provided in the fourth aspect of the present embodiment may refer to the workflow sub-flow dynamic generation method as described in the first aspect, which are not described herein again.

A fifth aspect of the present embodiment provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the workflow sub-flow dynamic generation method according to the first aspect. Wherein the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus.

Finally, it should be noted that: the foregoing description is only of the preferred embodiments of the application and is not intended to limit the scope of the application. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A workflow sub-process dynamic generation method, comprising:

when a workflow main flow flows to/flows from a certain main flow node, sub-flow generation configuration information preset on the certain main flow node is acquired, wherein the sub-flow generation configuration information comprises a trigger operation type and trigger data conditions of a workflow sub-flow to be triggered and generated;

judging whether the current operation type of the workflow main flow is consistent with the triggering operation type of the workflow sub-flow;

if the trigger data conditions are consistent, further judging whether the trigger data conditions of the workflow sub-processes are met according to the main flow business form data acquired from the certain main flow node;

if so, extracting the required initial service data of the workflow sub-process from the main flow service form data;

the workflow sub-process is generated for each creator determined using the required initial business data.

2. The workflow sub-process dynamic generation method of claim 1, wherein after generating the workflow sub-process for each creator determined by applying the required initial business data, the method further comprises:

and when all the workflow sub-processes are processed and archived, summarizing the archived data of all the workflow sub-processes, and submitting the archived data to the next main flow node which is positioned behind the certain main flow node in the workflow main flow as new business data generated by the certain main flow node.

3. The workflow sub-process dynamic generation method of claim 1, wherein when the sub-process generation configuration information further includes distinguishable fields of the workflow sub-process for indicating different sub-process transactions, generating the workflow sub-process for each creator determined using the required initial business data, comprising:

the workflow sub-process of generating a corresponding transaction for each creator determined applies the required initial business data for each field value in the distinguishable fields.

4. A workflow sub-process dynamic generation method in accordance with claim 1 or 3, wherein when the sub-process generation configuration information further contains a sub-process field of the workflow sub-process for indicating each person who is different sub-process processors to create separately, generating the workflow sub-process for each creator determined by applying the required initial business data, comprising:

for each field value in the individual create sub-flow field per person, applying the required initial business data to generate a corresponding workflow sub-flow for each creator determined.

5. The workflow sub-process dynamic generation method of claim 1, wherein when the main flow business form data is a list, extracting the required initial business data of the workflow sub-process from the main flow business form data comprises:

for each row of data in the detail table, extracting required initial business data of the workflow sub-process from the corresponding data so as to apply the required initial business data to generate the corresponding workflow sub-process for each determined creator.

6. The workflow sub-process dynamic generation method of claim 1, wherein when the sub-process generation configuration information further includes a designated person field of the workflow sub-process for indicating a different sub-process creator or the main flow service form data includes a designated person field for indicating a different sub-process creator, generating the workflow sub-process for each determined creator by applying the required initial service data, comprising:

the workflow sub-process is generated for the corresponding creator by applying the required initial business data for each field value in the specified personnel field.

7. The workflow sub-process dynamic generation method of claim 1, wherein generating the workflow sub-process for each creator determined by applying the required initial business data comprises:

and taking the processor of the certain main flow node as a determined creator, and applying the required initial business data to generate the workflow sub-flow for the creator.

8. The workflow sub-process dynamic generation device is characterized by comprising an information acquisition module, a first judgment module, a second judgment module, a data extraction module and a sub-process generation module which are sequentially connected in a communication mode;

the information acquisition module is used for acquiring sub-flow generation configuration information preset on a certain main flow node when the workflow main flow flows to/from the certain main flow node, wherein the sub-flow generation configuration information comprises a trigger operation type and a trigger data condition of the workflow sub-flow to be triggered and generated;

the first judging module is used for judging whether the current operation type of the workflow main flow is consistent with the triggering operation type of the workflow sub-flow;

the second judging module is used for judging whether the trigger data condition of the workflow sub-process is met or not according to the main flow business form data acquired from the certain main flow node when the trigger data condition is consistent;

the data extraction module is used for extracting the required initial service data of the workflow sub-process from the main flow service form data when the data is established;

the sub-process generating module is used for generating the workflow sub-process for each determined creator by applying the required initial business data.

9. A computer device comprising a memory, a processor and a transceiver in communication connection in sequence, wherein the memory is configured to store a computer program, the transceiver is configured to send and receive messages, and the processor is configured to read the computer program and perform the workflow sub-flow dynamic generation method according to any one of claims 1 to 7.

10. A computer readable storage medium having instructions stored thereon which, when executed on a computer, perform the workflow sub-flow dynamic generation method of any of claims 1 to 7.