CN117010800A - Method and device for building commodity replenishing flow, storage medium and computer equipment - Google Patents

Abstract

According to the method, the device, the storage medium and the computer equipment for constructing the commodity supplementing flow, when a user triggers a request operation for constructing the target commodity supplementing flow, the request operation can be responded, a target commodity supplementing scene and a target commodity supplementing mode corresponding to the target commodity supplementing flow are obtained, and then common nodes and characteristic nodes in a service logic node pool are determined; therefore, after determining the common node and the characteristic node in the service logic node pool, the application can call the preset node router to connect the common node and the characteristic node in the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then form the target replenishment flow corresponding to the target replenishment scene.

Description

Method and device for building commodity replenishing flow, storage medium and computer equipment

Technical Field

The present application relates to the field of replenishment business management technologies, and in particular, to a method, an apparatus, a storage medium, and a computer device for constructing a replenishment flow Cheng Da.

Background

At present, different restocking scenes are often encountered in store restocking business, and each unlikely scene has a corresponding restocking flow. For example, there are regular restocking flows for SKUs that sell smoothly daily, and smooth or late restocking flows for SKUs that sell smoothly or late. Along with the development of business and the fine management requirement, the replenishment scenes are gradually increased, and the corresponding replenishment processes are also increased in continuous iteration, so that how to quickly construct the replenishment processes to adapt to different replenishment scenes is very important.

In the prior art, a set of replenishment flow is often redesigned according to a replenishment scene, and the mode can adapt to business when business logic is unchanged or changes very slowly, but in the age of rapid business development nowadays, the mode not only causes that the time for constructing the replenishment flow adapting to a new replenishment scene is longer, but also the workload for modifying the replenishment flow when maintaining an old replenishment scene is very large.

Disclosure of Invention

The present application aims to solve at least one of the above technical drawbacks, and in particular, the building mode of the replenishment flow Cheng Da in the prior art not only results in a longer time for building a replenishment flow adapted to a new replenishment scenario, but also results in a very large workload for modifying the replenishment flow when maintaining an old replenishment scenario.

The application provides a method for constructing a repair flow Cheng Da, which comprises the following steps:

responding to a request operation triggered by a user for building a target replenishment process, and acquiring a target replenishment scene and a target replenishment mode corresponding to the target replenishment process;

determining common nodes and characteristic nodes in a service logic node pool, wherein the common nodes are universal nodes which are adaptive to all the replenishment scenes and have independence and standardization, and the characteristic nodes are special nodes which are configured according to individual replenishment scenes and have independence and standardization;

and calling a preset node router to connect the common nodes and the characteristic nodes related to the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then forming a target replenishment flow corresponding to the target replenishment scene.

Optionally, the determining the common node and the characteristic node in the service logic node pool includes:

acquiring historical replenishment program under different replenishment scenes;

aiming at each historical replenishment flow, splitting the historical replenishment flow into a plurality of replenishment nodes according to the functional targets in the historical replenishment flow, wherein each replenishment node corresponds to one functional target;

the input and output data formats of each replenishment node in each historical replenishment flow are standardized;

according to the function targets corresponding to each standardized replenishment node, the replenishment nodes with the consistent function targets in each historical replenishment flow are used as common nodes, the replenishment nodes with inconsistent function targets are used as characteristic nodes, and each common node and each characteristic node are stored in a service logic node pool.

Optionally, the calling the preset node router to connect the common node and the characteristic node related to the service logic node pool in series according to the target replenishment scenario and the target replenishment mode includes:

invoking a preset node router, selecting related common nodes from the service logic node pool as target common nodes according to the target replenishment scene and the target replenishment mode, and selecting related characteristic nodes as target characteristic nodes;

and connecting the target common node and the target characteristic node in series by the node router according to the target replenishment scene and the target replenishment mode.

Optionally, the calling the preset node router selects a relevant common node from the service logic node pool as a target common node according to the target replenishment scene and the target replenishment mode, and selects a relevant characteristic node as a target characteristic node, including:

invoking a preset node router, and respectively matching the target replenishment scene and the target replenishment mode with the common nodes and the characteristic nodes in the service logic node pool to obtain a matching result;

and selecting related common nodes from the service logic node pool as target common nodes according to the matching result, and selecting related characteristic nodes as target characteristic nodes.

Optionally, the step of connecting the target common node and the target characteristic node in series by the node router according to the target replenishment scene and the target replenishment mode includes:

determining, by the node router, a series order among the target common nodes, among the target characteristic nodes, and among the target common nodes and the target characteristic nodes according to the target replenishment scene and the target replenishment mode;

and connecting the target common node and the target characteristic node in series according to the series order.

Optionally, before the forming the target replenishment program corresponding to the target replenishment scenario, the method further includes:

determining whether an initial replenishment process after the target common node and the target characteristic node are connected in series meets the target replenishment scene and the target replenishment mode;

if the target replenishment scenario and the target replenishment mode are not met, expanding the replenishment nodes in the initial replenishment flow and/or adjusting the target characteristic nodes in the initial replenishment flow;

if so, the replenishment node in the initial replenishment process is not required to be expanded, and/or the target characteristic node in the initial replenishment process is not required to be adjusted.

Optionally, the method further comprises:

storing the expanded replenishment nodes as characteristic nodes into the service logic node pool;

and/or storing the adjusted target characteristic nodes into the service logic node pool.

The application also provides a device for building the cargo supplementing flow Cheng Da, which comprises:

the data acquisition module is used for responding to the request operation of building the target replenishment flow triggered by the user and acquiring the target replenishment scene and the target replenishment mode corresponding to the target replenishment flow;

the node determining module is used for determining common nodes and characteristic nodes in the service logic node pool, wherein the common nodes are universal nodes which are adaptive to all the replenishment scenes and have independence and standardization, and the characteristic nodes are special nodes which are configured according to individual replenishment scenes and have independence and standardization;

and the node serial connection module is used for calling a preset node router to connect the related common nodes and characteristic nodes in the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then forming a target replenishment flow corresponding to the target replenishment scene.

The present application also provides a storage medium having stored therein computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the method of building a replenishment flow Cheng Da as in any of the previous embodiments.

The present application also provides a computer device comprising: one or more processors, and memory;

stored in the memory are computer readable instructions that, when executed by the one or more processors, perform the steps of the method of building a commodity circulation Cheng Da according to any one of the embodiments described above.

From the above technical solutions, the embodiment of the present application has the following advantages:

according to the method, the device, the storage medium and the computer equipment for constructing the commodity supplementing flow, when a user triggers a request operation for constructing the target commodity supplementing flow, the request operation can be responded, a target commodity supplementing scene and a target commodity supplementing mode corresponding to the target commodity supplementing flow are obtained, and then common nodes and characteristic nodes in a service logic node pool are determined; therefore, after determining the common node and the characteristic node in the service logic node pool, the application can call the preset node router to connect the common node and the characteristic node in the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then form the target replenishment flow corresponding to the target replenishment scene. According to the process, a set of replenishment flows are not required to be redesigned according to the target replenishment scene, and the related common nodes and characteristic nodes in the service logic node pool are connected in series through the node router, so that the corresponding replenishment flows can be quickly built, a large number of repeated and complicated development works are avoided, the construction efficiency of the replenishment flows is effectively improved, and the time consumption is reduced; in addition, the common node and the characteristic node are stored through the service logic node pool, so that the commonality and the characteristics of the commodity supplementing nodes are cleared, different commodity supplementing flows can use the same common node after the commonality node is normalized, and once parts needing to be changed and adjusted appear on the commonality node, the change can be completed quickly by only adjusting one node, and each commodity supplementing scene does not need to be adjusted one by one, so that the maintenance efficiency is effectively improved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic flow chart of a method for constructing a repair flow Cheng Da according to an embodiment of the present application;

FIG. 2 is a schematic node diagram of each restocking node in a service logical node pool according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a device for constructing a repair flow Cheng Da according to an embodiment of the present application;

fig. 4 is a schematic diagram of an internal structure of a computer device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the prior art, a set of replenishment flow is often redesigned according to a replenishment scene, and the mode can adapt to business when business logic is unchanged or changes very slowly, but in the age of rapid business development nowadays, the mode not only causes that the time for constructing the replenishment flow adapting to a new replenishment scene is longer, but also the workload for modifying the replenishment flow when maintaining an old replenishment scene is very large.

Based on the above, the application provides the following technical scheme, and the specific scheme is shown in the following:

in one embodiment, as shown in fig. 1, fig. 1 is a schematic flow chart of a method for constructing a repair flow Cheng Da according to an embodiment of the present application; the application provides a method for constructing a repair flow Cheng Da, which can comprise the following steps:

s110: responding to a request operation triggered by a user for building a target replenishment process, and acquiring a target replenishment scene and a target replenishment mode corresponding to the target replenishment process.

In this step, when a user triggers a request operation for building a target replenishment program in an ISCM (Intelligent Supply Chain Management System, intelligent supply chain center station management system), the system responds to the request operation triggered by the user and obtains a target replenishment scenario and a target replenishment mode corresponding to the target replenishment program.

It can be understood that when a user triggers a request operation of building a target replenishment program, the user needs to input a target replenishment scene and a target replenishment mode, so that the system can obtain the target replenishment scene and the target replenishment mode corresponding to the request operation, and then determine a final target replenishment program according to the target replenishment scene and the target replenishment mode.

The target replenishment scene refers to a replenishment scene of a target replenishment process to be built, and the replenishment scene comprises, but is not limited to, conventional replenishment/mass sales replenishment/stagnation replenishment and the like; the target replenishment method of the present application refers to a replenishment method of a target replenishment process to be set up, and the replenishment method includes, but is not limited to, automatic replenishment/manual replenishment/replenishment according to a delivery plan, etc. The system can determine different business processes according to different replenishment scenes and replenishment modes, and further realizes final process arrangement.

S120: and determining common nodes and characteristic nodes in the service logic node pool.

In this step, when the system responds to the request operation triggered by the user to build the target replenishment process, and obtains the target replenishment scenario and the target replenishment mode corresponding to the target replenishment process, the common node and the characteristic node in the service logic node pool can be determined, so that the common node and the characteristic node in the service logic node pool can be directly screened and arranged to form the target replenishment process.

The common node refers to a universal node which is adaptive to all the replenishment scenes and has independence and standardization, and the characteristic node refers to a special node which is configured according to individual replenishment scenes and has independence and standardization. It can be understood that the application can structure the business flow of the goods supplementing scene by splitting the nodes, and ensure that the flows of different goods supplementing scenes are connected in series through a plurality of nodes instead of being connected through a section of descriptive language like the prior art. The split nodes are divided into common nodes and characteristic nodes according to the commonalities and the characteristics of the nodes and then are stored in a service logic node pool, so that the common nodes and the characteristic nodes in the service logic node pool can be directly called when a commodity supplementing flow is built later, and node splitting operation is not needed again.

Further, in the process of splitting the nodes, the application needs to ensure the independence and the standardization of each node. The independence means that each node can independently complete a functional target, so that the functions of the nodes are ensured not to overlap; the standardization means that the data input and output of each node are standardized, and the standard data output can be obtained only by entering the nodes in the same data format, so that the nodes can be connected in series quickly.

In addition, the application aims at the node with commonality, namely the commonality node, and the logic in the node can be designed to be universal and compatible so as to adapt to all business scenes, and all the commodity supplementing flows refer to the same node, so that the unified management of the commonality node is ensured. The application aims at the node with the characteristic, namely the characteristic node, and the logic in the node can be designed to be special and configurable so as to meet the specificity of individual scenes to the greatest extent, and meanwhile, the node has certain configurability, so that when the content to be regulated aims at the characteristic node, the node can be realized by using a configurability mode as far as possible.

S130: and calling a preset node router, and connecting the common nodes and the characteristic nodes in the service logic node pool in series according to the target replenishment scene and the target replenishment mode to form a target replenishment flow corresponding to the target replenishment scene.

In this step, after the target goods-supplementing scenario and the target goods-supplementing mode corresponding to the target goods-supplementing procedure are obtained through S110, and the common node and the characteristic node in the service logic node pool are determined through S120, the present application may call the preset node router to connect the common node and the characteristic node in the service logic node pool in series according to the target goods-supplementing scenario and the target goods-supplementing mode, and then form the target goods-supplementing procedure corresponding to the target goods-supplementing scenario.

It can be understood that after the nodes are split and the commonalities and characteristics of the nodes are defined, the nodes are finally connected in series according to the requirements of different replenishment scenes to realize the corresponding business processes, that is, after the commonalities and the characteristic nodes in the business logic node pool are determined, a string of nodes are also required to be constructed in the N nodes, and the node router is called as a node router. The node router contains key factors causing different flows, such as a replenishment scenario: conventional goods replenishment/free sales goods replenishment, etc.; and (3) supplementing goods: automatic replenishment/manual replenishment/replenishment according to a delivery plan, etc.; the node router can determine skip/not skip when the process runs to different nodes, and determine the branch trend of detail logic when the logic in the node is run, so that the arrangement of the process is finally realized.

In a specific implementation manner, the method can call the preset node router to screen and connect the related common nodes and characteristic nodes in series in the service logic node pool according to the target replenishment scene and the target replenishment mode, so that a target replenishment flow corresponding to the target replenishment scene can be formed rapidly.

In the above embodiment, when the user triggers a request operation for building a target replenishment process, the request operation may be responded, a target replenishment scenario and a target replenishment mode corresponding to the target replenishment process may be obtained, and then common nodes and characteristic nodes in the service logic node pool may be determined; therefore, after determining the common node and the characteristic node in the service logic node pool, the application can call the preset node router to connect the common node and the characteristic node in the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then form the target replenishment flow corresponding to the target replenishment scene. According to the process, a set of replenishment flows are not required to be redesigned according to the target replenishment scene, and the related common nodes and characteristic nodes in the service logic node pool are connected in series through the node router, so that the corresponding replenishment flows can be quickly built, a large number of repeated and complicated development works are avoided, the construction efficiency of the replenishment flows is effectively improved, and the time consumption is reduced; in addition, the common node and the characteristic node are stored through the service logic node pool, so that the commonality and the characteristics of the commodity supplementing nodes are cleared, different commodity supplementing flows can use the same common node after the commonality node is normalized, and once parts needing to be changed and adjusted appear on the commonality node, the change can be completed quickly by only adjusting one node, and each commodity supplementing scene does not need to be adjusted one by one, so that the maintenance efficiency is effectively improved.

In one embodiment, determining the common node and the characteristic node in the service logical node pool in S120 may include:

s121: and acquiring historical replenishment flows under different replenishment scenes.

S122: aiming at each historical replenishment flow, splitting the historical replenishment flow into a plurality of replenishment nodes according to the functional targets in the historical replenishment flow, wherein each replenishment node corresponds to one functional target.

S123: and (3) standardizing the input and output data formats of each replenishment node in each historical replenishment flow.

S124: according to the function targets corresponding to each standardized replenishment node, the replenishment nodes with the consistent function targets in each historical replenishment flow are used as common nodes, the replenishment nodes with inconsistent function targets are used as characteristic nodes, and each common node and each characteristic node are stored in a service logic node pool.

In this embodiment, the present application can structure the business flow of the goods supplementing scene by splitting the nodes, so as to ensure that the flows of different goods supplementing scenes are all connected in series through a plurality of nodes, rather than being connected through a section of descriptive language as in the past. The split nodes are divided into common nodes and characteristic nodes according to the commonalities and the characteristics of the nodes and then are stored in a service logic node pool, so that the common nodes and the characteristic nodes in the service logic node pool can be directly called when a commodity supplementing flow is built later, and node splitting operation is not needed again.

Specifically, when the business process of the goods supplementing scene is structured in a node splitting mode, the historical goods supplementing process under different goods supplementing scenes can be firstly obtained, and then each historical goods supplementing process is split into a plurality of goods supplementing nodes according to the functional targets in the historical goods supplementing process, wherein each goods supplementing node corresponds to one functional target, so that each goods supplementing node has independence; then, the application can normalize the data format of the input and output of each replenishment node in each historical replenishment flow, so that each replenishment node has standardization; finally, according to the function targets corresponding to each standardized replenishment node, the application can take the replenishment node with the consistent function targets in each historical replenishment process as a common node, take the replenishment node with inconsistent function targets as a characteristic node, and store each common node and characteristic node into a service logic node pool, thereby carrying out structural operation on the service process of the replenishment scene.

Taking the conventional product replenishment as an example, the application can split the product into 7 nodes, and the specific table is as follows:

table 1 shows information about a plurality of replenishment nodes in a conventional replenishment process

Furthermore, the application splits different replenishment scenes on the basis of the structuring flow, and can quickly identify which nodes in different scenes are public and which have scene characteristics because the description modes in the different replenishment scenes are uniform, as shown in the following table:

table 2 shows nodes with commonalities or characteristics and related information

As can be seen from Table 2, the present application can use the replenishment nodes with consistent functional targets in each historical replenishment process as common nodes and the replenishment nodes with inconsistent functional targets as characteristic nodes. The application can design the logic therein as universal and compatible aiming at the nodes with commonality so as to adapt to all business scenes, and lead all processes to refer to the same node, thereby ensuring the unified management of the commonality nodes. Aiming at the nodes with characteristics, the logic in the nodes can be designed to be special and configurable, the specificity of individual scenes is met to the greatest extent, meanwhile, the nodes with characteristics have certain configurability, and when the contents to be regulated aim at the nodes with the characteristics, the nodes are realized by using a configurability mode as much as possible.

Schematically, as shown in fig. 2, fig. 2 is a node schematic diagram of each replenishment node in a service logical node pool according to an embodiment of the present application; as can be seen from fig. 2, a plurality of replenishment nodes can be stored in the service logic node pool according to the present application, each replenishment node has a corresponding functional target, such as building a sku list, obtaining commodity marking data, etc., so that when a target replenishment flow is built, a target replenishment scene and a target replenishment mode can be respectively matched with the functional targets of each replenishment node, and then the relevant common nodes and characteristic nodes are screened out and then connected in series.

In one embodiment, invoking the preset node router in S130 to connect the common node and the characteristic node related to the service logical node pool in series according to the target replenishment scenario and the target replenishment mode may include:

s131: and calling a preset node router, selecting related common nodes from the service logic node pool as target common nodes according to the target replenishment scene and the target replenishment mode, and selecting related characteristic nodes as target characteristic nodes.

S132: and connecting the target common node and the target characteristic node in series by the node router according to the target replenishment scene and the target replenishment mode.

In this embodiment, when the node router connects the relevant common node and the characteristic node in the service logical node pool in series, the node router may first select the relevant common node from the service logical node pool as the target common node according to the target replenishment scene and the target replenishment mode, select the relevant characteristic node as the target characteristic node, and then connect the target common node and the target characteristic node in series according to the target replenishment scene and the target replenishment mode.

In terms of distance, after the common node and the characteristic node in the service logic node pool are determined, the common node and the characteristic node in different goods supplementing scenes are not necessarily the same, and the arrangement sequence is also different to a certain extent, so that the node router in the service logic node pool can select the common node and the characteristic node related to the target goods supplementing scene and the target goods supplementing mode, the selected common node is used as the target common node, the selected characteristic node is used as the target characteristic node, and then the target common node and the target characteristic node are connected in series according to the target goods supplementing scene and the target goods supplementing mode through the node router, so that the final target goods supplementing flow can be formed quickly.

In one embodiment, the invoking the preset node router in S131, according to the target replenishment scenario and the target replenishment mode, selecting the relevant common node from the service logic node pool as the target common node, and selecting the relevant characteristic node as the target characteristic node may include:

s1311: and calling a preset node router, and respectively matching the target replenishment scene and the target replenishment mode with the common nodes and the characteristic nodes in the service logic node pool to obtain a matching result.

S1312: and selecting related common nodes from the service logic node pool as target common nodes according to the matching result, and selecting related characteristic nodes as target characteristic nodes.

In this embodiment, when the node router is invoked to select the target common node and the target characteristic node, the target replenishment scenario and the target replenishment mode may be first matched with the common node and the functional target of the characteristic node in the service logic node pool, so that it may be determined which nodes in the service logic node pool have functional targets that are consistent with the target replenishment scenario and the target replenishment mode, and which do not, and a corresponding matching result may be obtained.

Then, the node router can select the relevant common node as the target common node from the service logic node pool according to the matching result, and select the relevant characteristic node as the target characteristic node, so as to obtain the target common node and the target characteristic node.

In one embodiment, the step of connecting the target common node and the target characteristic node in series by the node router according to the target replenishment scenario and the target replenishment mode in S132 may include:

s1321: and determining the series sequence among the target common nodes, among the target characteristic nodes and between the target common nodes and the target characteristic nodes according to the target replenishment scene and the target replenishment mode through the node router.

S1322: and connecting the target common node and the target characteristic node in series according to the series order.

In this embodiment, when the target common node and the target characteristic node are connected in series, since there may be more than one target common node and more than one target characteristic node, and the rough business flow is defined in the target replenishment scenario and the target replenishment mode, the node router in the present application may determine the series sequence between the target common nodes, between the target characteristic nodes, and between the target common nodes and the target characteristic nodes according to the target replenishment scenario and the target replenishment mode, so that the target common node and the target characteristic node may be connected in series sequentially according to the series sequence, and thus the target replenishment flow is formed.

In one embodiment, before forming the target replenishment program corresponding to the target replenishment scenario in S130, the method may further include:

s1323: and determining whether an initial replenishment flow after the target common node and the target characteristic node are connected in series meets the target replenishment scene and the target replenishment mode.

S1324: if the target replenishment scenario and the target replenishment mode are not met, expanding the replenishment nodes in the initial replenishment flow and/or adjusting the target characteristic nodes in the initial replenishment flow according to the target replenishment scenario and the target replenishment mode.

S1325: if so, the replenishment node in the initial replenishment process is not required to be expanded, and/or the target characteristic node in the initial replenishment process is not required to be adjusted.

In this embodiment, after the target common node and the target characteristic node are connected in series, in order to ensure that the constructed target replenishment process is matched with the target replenishment scene, it may be determined whether the initial replenishment process obtained after the series connection meets the target replenishment scene and the target replenishment mode, if not, the replenishment nodes of the initial replenishment process may be expanded according to the target replenishment scene and the target replenishment mode, and/or the target characteristic nodes in the initial replenishment process may be adjusted so as to meet the target replenishment scene and the target replenishment mode; if the method meets the requirement, the initial replenishment program is not required to be modified, and the initial replenishment program is directly used as the target replenishment program.

It can be understood that the node router of the application not only can plan the goods supplementing flow of the target goods supplementing scene, but also can expand the current node according to the target goods supplementing scene and the target goods supplementing mode so as to enable the current node to meet the related requirements of the target goods supplementing scene. During expansion, a new functional target can be developed according to the characteristics of the target goods supplementing scene, and the input and the output of the functional target are standardized so as to meet the requirements of characteristic nodes. In addition, because the target characteristic node is a configurable node, the node router can also adjust the content of the target characteristic node so as to meet the requirement of a target cargo supplementing scene.

In one embodiment, the method may further comprise:

s1326: and storing the expanded replenishment nodes serving as characteristic nodes into the service logic node pool.

S1327: and/or storing the adjusted target characteristic nodes into the service logic node pool.

In this embodiment, when the node router performs node expansion on the initial replenishment process or adjusts the content of the target characteristic node in the initial replenishment process, the application may store the expanded replenishment node as the characteristic node in the service logic node pool, and/or store the adjusted target characteristic node in the service logic node pool, so as to update the service logic node pool for use in subsequently setting up a new replenishment process.

The following describes the device for building the repair flow Cheng Da provided by the embodiment of the present application, and the device for building the repair flow Cheng Da described below and the method for building the repair flow described above can be referred to correspondingly.

In one embodiment, as shown in fig. 3, fig. 3 is a schematic structural diagram of a device for constructing a repair flow Cheng Da according to an embodiment of the present application; the application also provides a device for constructing the commodity replenishment flow, which comprises a data acquisition module 210, a node determination module 220 and a node series connection module 230, and specifically comprises the following steps:

the data obtaining module 210 is configured to obtain a target replenishment scenario and a target replenishment pattern corresponding to a target replenishment process in response to a request operation triggered by a user to build the target replenishment process.

The node determining module 220 is configured to determine a common node and a characteristic node in the service logic node pool, where the common node refers to a general node adapted to all the replenishment scenarios and having independence and standardization, and the characteristic node refers to a special node configured according to individual replenishment scenarios and having independence and standardization.

The node serial module 230 is configured to invoke a preset node router to connect the common node and the characteristic node related to the service logic node pool in series according to the target replenishment scenario and the target replenishment mode, and then form a target replenishment flow corresponding to the target replenishment scenario.

In the above embodiment, when the user triggers a request operation for building a target replenishment process, the request operation may be responded, a target replenishment scenario and a target replenishment mode corresponding to the target replenishment process may be obtained, and then common nodes and characteristic nodes in the service logic node pool may be determined; therefore, after determining the common node and the characteristic node in the service logic node pool, the application can call the preset node router to connect the common node and the characteristic node in the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then form the target replenishment flow corresponding to the target replenishment scene. According to the process, a set of replenishment flows are not required to be redesigned according to the target replenishment scene, and the related common nodes and characteristic nodes in the service logic node pool are connected in series through the node router, so that the corresponding replenishment flows can be quickly built, a large number of repeated and complicated development works are avoided, the construction efficiency of the replenishment flows is effectively improved, and the time consumption is reduced; in addition, the common node and the characteristic node are stored through the service logic node pool, so that the commonality and the characteristics of the commodity supplementing nodes are cleared, different commodity supplementing flows can use the same common node after the commonality node is normalized, and once parts needing to be changed and adjusted appear on the commonality node, the change can be completed quickly by only adjusting one node, and each commodity supplementing scene does not need to be adjusted one by one, so that the maintenance efficiency is effectively improved.

In one embodiment, the present application also provides a storage medium having stored therein computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the method of building a replenishment flow Cheng Da as set forth in any one of the embodiments above.

In one embodiment, the present application also provides a computer device comprising: one or more processors, and memory.

Stored in the memory are computer readable instructions that, when executed by the one or more processors, perform the steps of the method of building a commodity circulation Cheng Da according to any one of the embodiments described above.

Schematically, as shown in fig. 4, fig. 4 is a schematic internal structure of a computer device according to an embodiment of the present application, and the computer device 300 may be provided as a server. Referring to FIG. 4, computer device 300 includes a processing component 302 that further includes one or more processors, and memory resources represented by memory 301, for storing instructions, such as applications, executable by processing component 302. The application program stored in the memory 301 may include one or more modules each corresponding to a set of instructions. In addition, the processing component 302 is configured to execute instructions to perform the method of the restocking flow Cheng Da of any of the embodiments described above.

The computer device 300 may also include a power supply component 303 configured to perform power management of the computer device 300, a wired or wireless network interface 304 configured to connect the computer device 300 to a network, and an input output (I/O) interface 305. The computer device 300 may operate based on an operating system stored in memory 301, such as Windows Server TM, mac OS XTM, unix TM, linux TM, free BSDTM, or the like.

It will be appreciated by persons skilled in the art that the architecture shown in fig. 4 is merely a block diagram of some of the architecture relevant to the present inventive arrangements and is not limiting as to the computer device to which the present inventive arrangements are applicable, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

Finally, it is further noted that 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. Moreover, 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, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In the present specification, each embodiment is described in a progressive manner, and each embodiment focuses on the difference from other embodiments, and may be combined according to needs, and the same similar parts may be referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A method of building a repair flow Cheng Da, the method comprising:

responding to a request operation triggered by a user for building a target replenishment process, and acquiring a target replenishment scene and a target replenishment mode corresponding to the target replenishment process;

determining common nodes and characteristic nodes in a service logic node pool, wherein the common nodes are universal nodes which are adaptive to all the replenishment scenes and have independence and standardization, and the characteristic nodes are special nodes which are configured according to individual replenishment scenes and have independence and standardization;

and calling a preset node router to connect the common nodes and the characteristic nodes related to the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then forming a target replenishment flow corresponding to the target replenishment scene.

2. The method of claim 1, wherein determining common nodes and characteristic nodes in the service logical node pool comprises:

acquiring historical replenishment program under different replenishment scenes;

aiming at each historical replenishment flow, splitting the historical replenishment flow into a plurality of replenishment nodes according to the functional targets in the historical replenishment flow, wherein each replenishment node corresponds to one functional target;

the input and output data formats of each replenishment node in each historical replenishment flow are standardized;

according to the function targets corresponding to each standardized replenishment node, the replenishment nodes with the consistent function targets in each historical replenishment flow are used as common nodes, the replenishment nodes with inconsistent function targets are used as characteristic nodes, and each common node and each characteristic node are stored in a service logic node pool.

3. The method of claim 1, wherein the invoking the preset node router to connect the common node and the characteristic node of the service logical node pool in series according to the target replenishment scenario and the target replenishment mode comprises:

invoking a preset node router, selecting related common nodes from the service logic node pool as target common nodes according to the target replenishment scene and the target replenishment mode, and selecting related characteristic nodes as target characteristic nodes;

and connecting the target common node and the target characteristic node in series by the node router according to the target replenishment scene and the target replenishment mode.

4. A method for constructing a commodity circulation Cheng Da according to claim 3, wherein said invoking a predetermined node router to select a relevant common node from said service logical node pool as a target common node and a relevant characteristic node as a target characteristic node according to said target commodity replenishment scenario and target commodity replenishment mode comprises:

invoking a preset node router, and respectively matching the target replenishment scene and the target replenishment mode with the common nodes and the characteristic nodes in the service logic node pool to obtain a matching result;

and selecting related common nodes from the service logic node pool as target common nodes according to the matching result, and selecting related characteristic nodes as target characteristic nodes.

5. A method of constructing a commodity circulation Cheng Da according to claim 3, wherein said connecting in series, by said node router, said target common node and said target characteristic node according to said target commodity replenishment scenario and target commodity replenishment scheme, comprises:

determining, by the node router, a series order among the target common nodes, among the target characteristic nodes, and among the target common nodes and the target characteristic nodes according to the target replenishment scene and the target replenishment mode;

and connecting the target common node and the target characteristic node in series according to the series order.

6. The method of claim 5, wherein prior to forming the target replenishment program corresponding to the target replenishment scenario, the method further comprises:

determining whether an initial replenishment process after the target common node and the target characteristic node are connected in series meets the target replenishment scene and the target replenishment mode;

if the target replenishment scenario and the target replenishment mode are not met, expanding the replenishment nodes in the initial replenishment flow and/or adjusting the target characteristic nodes in the initial replenishment flow;

if so, the replenishment node in the initial replenishment process is not required to be expanded, and/or the target characteristic node in the initial replenishment process is not required to be adjusted.

7. The method of building a commodity circulation Cheng Da according to claim 6, further comprising:

storing the expanded replenishment nodes as characteristic nodes into the service logic node pool;

and/or storing the adjusted target characteristic nodes into the service logic node pool.

8. A repair flow Cheng Da building apparatus, comprising:

the data acquisition module is used for responding to the request operation of building the target replenishment flow triggered by the user and acquiring the target replenishment scene and the target replenishment mode corresponding to the target replenishment flow;

the node determining module is used for determining common nodes and characteristic nodes in the service logic node pool, wherein the common nodes are universal nodes which are adaptive to all the replenishment scenes and have independence and standardization, and the characteristic nodes are special nodes which are configured according to individual replenishment scenes and have independence and standardization;

and the node serial connection module is used for calling a preset node router to connect the related common nodes and characteristic nodes in the service logic node pool in series according to the target replenishment scene and the target replenishment mode, and then forming a target replenishment flow corresponding to the target replenishment scene.

9. A storage medium, characterized by: stored in the storage medium are computer readable instructions which, when executed by one or more processors, cause the one or more processors to perform the steps of the method of building a replenishment flow Cheng Da as defined in any one of claims 1 to 7.

10. A computer device, comprising: one or more processors, and memory;

stored in the memory are computer readable instructions which, when executed by the one or more processors, perform the steps of the method of building a commodity circulation Cheng Da according to any one of claims 1 to 7.