CN113051354A - Online source searching method and device based on dynamic configuration and computer equipment - Google Patents

Abstract

The application relates to a method, an apparatus, a computer device and a storage medium based on dynamic configuration. The method comprises the following steps: acquiring a fixed component in a plurality of source searching components, wherein the source searching components are formed by component metadata; classifying and storing the plurality of fixed assemblies according to the function execution types of the fixed assemblies respectively, and generating an assembly template; setting a node registry, wherein the node registry is used for storing node metadata; based on each preset source searching service flow, screening out a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from a node registry; and based on the loading rule, screening out a target component template to be loaded to each target service node from the multiple component templates, loading a target fixed component in the target component template to the corresponding target service node when the source searching service process is triggered, and outputting a source searching result after the source searching service process is finished. By adopting the method, the source searching efficiency can be improved.

Description

Online source searching method and device based on dynamic configuration and computer equipment

Technical Field

The present application relates to the field of online source finding technologies, and in particular, to an online source finding method and apparatus based on dynamic configuration, and a computer device.

Background

In a complex electronic sourcing, a plurality of sourcing scenarios are included, such as: bidding (including technical bidding), negotiation, exclusive negotiation, price comparison, electronic bidding, simple price comparison (online shopping), simple price comparison (non-online shopping), direct purchasing and variable selling, etc., different sourcing scenes, and flow nodes, information structures and control logics thereof may be greatly different. In the industry, the problem of configuration of a complex sourcing scene is generally solved by adopting service rule abstraction solidification and configurability of a limited node. However, due to the service rules (such as bibliographic check, control logic, etc.) and the solidification of the service nodes in the prior art, in actual use, the requirements of variable service scenes cannot be met, and the problem of low operation flexibility exists.

Disclosure of Invention

In view of the above, there is a need to provide a dynamic configuration-based online sourcing method, apparatus, computer device and storage medium capable of improving operational flexibility.

An online sourcing method based on dynamic configuration, the method comprising:

acquiring a fixed component in a plurality of source searching components, wherein the source searching components are formed by corresponding component metadata, and the component metadata are component description data;

classifying and storing the multiple fixed assemblies according to the function execution types of the fixed assemblies respectively, and generating corresponding assembly templates; wherein, one function execution type corresponds to one component template;

setting a node registry, wherein the node registry is used for storing node metadata, and the node metadata represents description information of service nodes;

based on each preset source searching service flow, screening out a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from the node registry;

and screening target component templates needing to be loaded to each target service node from the component templates based on a preset loading rule, synchronously loading target fixed components in the target component templates to the corresponding target service nodes when a corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

An online sourcing device based on dynamic configuration, the device comprising:

the acquisition module is used for acquiring a fixed component in a multi-item searching component, wherein the searching component is formed by corresponding component metadata, and the component metadata are component description data;

the first setting module is used for classifying and storing the plurality of fixed assemblies according to the function execution types to which the fixed assemblies belong respectively to generate corresponding assembly templates; wherein, one function execution type corresponds to one component template;

a second setting module, configured to set a node registry, where the node registry is used to store node metadata, and the node metadata represents description information of a service node;

the screening module is used for screening a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from the node registry based on each preset source searching service flow;

and the loading module is used for screening out a target component template to be loaded to each target service node from the plurality of component templates based on a preset loading rule, synchronously loading a target fixed component in the target component template to the corresponding target service node when a corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

acquiring a fixed component in a plurality of source searching components, wherein the source searching components are formed by corresponding component metadata, and the component metadata are component description data;

classifying and storing the multiple fixed assemblies according to the function execution types of the fixed assemblies respectively, and generating corresponding assembly templates; wherein, one function execution type corresponds to one component template;

setting a node registry, wherein the node registry is used for storing node metadata, and the node metadata represents description information of service nodes;

based on each preset source searching service flow, screening out a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from the node registry;

and screening target component templates needing to be loaded to each target service node from the component templates based on a preset loading rule, synchronously loading target fixed components in the target component templates to the corresponding target service nodes when a corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

acquiring a fixed component in a plurality of source searching components, wherein the source searching components are formed by corresponding component metadata, and the component metadata are component description data;

classifying and storing the multiple fixed assemblies according to the function execution types of the fixed assemblies respectively, and generating corresponding assembly templates; wherein, one function execution type corresponds to one component template;

setting a node registry, wherein the node registry is used for storing node metadata, and the node metadata represents description information of service nodes;

based on each preset source searching service flow, screening out a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from the node registry;

and screening target component templates needing to be loaded to each target service node from the component templates based on a preset loading rule, synchronously loading target fixed components in the target component templates to the corresponding target service nodes when a corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

According to the on-line source searching method, device and computer equipment based on dynamic configuration, classified storage is carried out on the obtained fixed assemblies according to the function execution types of the fixed assemblies, so that information related to the source searching service is stored in a mode of a plurality of independent assemblies, and convenience is brought to screening of the subsequent target fixed assemblies; based on a preset loading rule, screening out a corresponding target component template and a target service node, and directionally loading the target service node to a target fixed component when triggering a corresponding source searching service flow.

Drawings

FIG. 1 is a schematic flow chart illustrating a method for on-line sourcing based on dynamic configuration, according to an embodiment;

FIG. 2 is a schematic flow diagram of a flow configuration in one embodiment;

FIG. 3 is a flow diagram illustrating the configuration of components in one embodiment;

FIG. 4 is a schematic flow chart illustrating a method for on-line sourcing based on dynamic configuration in another embodiment;

FIG. 5 is a schematic diagram illustrating the flow of page configuration in one embodiment;

FIG. 6 is a flow diagram illustrating the configuration of rules in one embodiment;

FIG. 7 is a prototype diagram of a rule configuration in one embodiment;

FIG. 8 is a flow diagram illustrating privilege configuration in one embodiment;

FIG. 9 is a block diagram of an on-line sourcing device based on dynamic configuration, according to an embodiment;

FIG. 10 is a diagram showing an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Please refer to fig. 1, which is a dynamic configuration-based online sourcing method according to the present invention, and is described by taking an example that the method is applied to a computer device (the computer device may specifically be a terminal, wherein the terminal may specifically be but is not limited to various personal computers, laptops, smartphones, tablet computers, and portable wearable devices), including the following steps:

step S102, fixed components in a plurality of source searching components are obtained, the source searching components are formed by corresponding component metadata, and the component metadata are component description data.

The source searching component refers to an encapsulation object, that is, an encapsulation object formed after source searching data and a source searching method generated in a source searching service processing process are encapsulated. A fixed component refers to a directed component that is fixedly loaded to a specified service node. The component metadata is binary information, which is mainly used to describe data for finding a component, and specifically may be attribute information describing attributes of the data, and may be used to support functions such as indicating storage locations, history data, resource searching, and file recording.

Specifically, referring to fig. 2, a user may input, based on a component registration platform provided by a computer device, component registration information collected in advance into the component registration platform in an information registration manner, and after the background of the component registration platform is successfully checked, further perform fixed component registration.

In one embodiment, after the fixed components are successfully registered, the obtained fixed components can be sequentially stored in the component registry by the computer device, and the fixed components are directionally stored through the component registry, so that the data management efficiency is further centralized.

Step S104, classifying and storing a plurality of fixed assemblies according to the function execution types of the fixed assemblies respectively, and generating corresponding assembly templates; wherein one function execution type corresponds to one component template.

The components have different classifications according to different functions, for example, the classification to which each component for realizing a form belongs is a form component, the classification to which each component for realizing each basic function in a display page belongs is a basic component, and the classification to which each component for realizing data display belongs is a data component, which is not limited in the embodiment of the present application.

Specifically, referring to fig. 2, the computer device stores a plurality of fixed components into corresponding component templates in a classified manner according to the function types respectively implemented by the fixed components.

In one embodiment, please refer to fig. 2, which is specifically divided into the following stages:

(1) component and node metadata creation phase: before component registration and node registration, component metadata and node metadata are respectively created based on a component metadata base class and a node metadata base class, so that binding of the components and the nodes is realized.

(2) Component and node registration stage: the component registration stage is mainly based on a pre-created component registry to store component metadata so as to complete component registration. The node registration stage is mainly based on a node registration table created in advance, and node metadata is stored so as to complete node registration.

(3) A component template creating stage: in the stage, through a plurality of created component templates and according to the function execution type of each component, the same type of components belonging to the same type are stored in the corresponding component templates; in order to realize centralized management of a plurality of currently created component templates, each currently created component template may be centrally stored and managed by a predefined component template table.

(4) The BOTP (Business Object transformation-based data transformation platform) definition phase between nodes: in this stage, the BOTP relationships between the nodes (i.e., the association relationships between the service nodes) are predefined, where the currently defined BOTP relationships between the nodes are stored through a pre-created BOTP relationship table.

(5) A flow configuration stage: when the business process configuration is carried out, based on a preset process configuration rule, the required component template, the business node and the associated data representing the predefined BOTP relation are screened out from the business node table, the component template table and the BOTP relation table which are created in the previous steps, the configuration of the target business execution process is carried out, wherein each item of target business execution process data obtained by the configuration is directionally stored through the process configuration table, and when the process screening operation is triggered, the calling of the target business execution process is carried out based on the process configuration table.

In the above embodiment, the plurality of component templates generated by the computer device may be collectively stored in the component template table, and the generated plurality of component templates are stored by the component templates, so that the data management efficiency is further improved by a manner of data centralized storage.

In one embodiment, the plurality of component modules may be collectively stored in the same area, or a plurality of storage areas may be provided in the component template table, wherein each storage area stores at least one component template. Currently, when a plurality of component templates of similar types exist for a plurality of generated component templates, the plurality of component templates are uniformly classified in a partition storage manner, so that the data management efficiency can be improved while avoiding the excessive dispersion of data storage.

And step S106, setting a node registry, wherein the node registry is used for storing node metadata, and the node metadata represents the description information of the service node.

In particular, the node metadata is used to describe the service nodes involved in the sourcing scenario. The sourcing scene refers to a complex electronic sourcing scene, which comprises a plurality of sourcing scenes, such as: bidding (including technical bidding), negotiation, exclusive negotiation, variable selling and the like, and the flow nodes, information structures and control logics designed in different sourcing scenes can be greatly different. The service node refers to the representation form of each step expressed in the computer equipment after the step division is carried out on the complex service flow. The expression forms are collectively referred to as service nodes, such as project establishment nodes, project starting nodes, and mark sending nodes.

In one embodiment, a user inputs service node registration information collected in advance into a service node registration platform based on the service node registration platform provided by a computer device in an information registration manner, so as to register a required service node into the computer device. After the service node is successfully registered, the computer equipment can call a node registry which is created in advance, and the corresponding service node metadata is stored through the node registry. It should be noted that, currently, by directionally storing the node metadata, the data management efficiency is further improved.

And step S108, based on each preset searching service flow, screening out a plurality of target service nodes which are adaptive to the searching service flow and have corresponding flow execution sequences from the node registry.

Specifically, the computer device screens out a plurality of target service nodes adapted to the sourcing service process from the node registry based on a preset sourcing service process. The execution logic and execution sequence between the target service nodes can be further determined based on a preset source searching service flow.

In one embodiment, please refer to fig. 2, the computer device performs the screening of the target service node, that is, performs the service flow configuration, and may perform the operations of screening the service node and the like when triggering the service flow configuration.

In the above embodiment, the target service nodes are screened based on the preset source searching service flow, and based on the determined sequential logic execution sequence among the service nodes, a guarantee is provided for subsequent source searching, and the source searching efficiency is improved.

Step S110, based on the preset loading rule, selecting the target component template to be loaded to each target service node from the multiple component templates, when triggering the corresponding source searching service flow, synchronously loading the target fixed component in the target component template to the corresponding target service node, and after the source searching service flow is finished, outputting the source searching result.

The sourcing service process refers to service processes related to complex electronic sourcing, such as bidding (including technical bidding), negotiation, exclusive negotiation, price comparison, electronic bidding, simple price comparison (online shopping), simple price comparison (non-online shopping), direct purchasing, variable selling and the like, and it needs to be explained that process nodes, information structures and control logics in different sourcing scenes may have great differences, wherein when the complex service process is divided into steps, each step is respectively expressed as a service node, such as a project establishment node, a project starting node, a bid sending node and the like, and based on the control logics among the steps, each independent service node is connected in series and parallel, so that a complete service process can be obtained. The sourcing result refers to the output of the last service node in the sourcing service flow, such as qualification assessment of the provider, and the like, in order to obtain more and better purchasing sources.

Specifically, the computer device performs screening of the target component template based on a preset loading rule, and synchronously loads the corresponding target fixed component to the corresponding target service node when the corresponding source searching service flow is triggered. In other words, in the current step, according to the aggregation multiplexing principle, each item of information existing in the sourcing process is stored in a mode of independent fixed components one by one, and when operation is triggered, the currently stored fixed components are dynamically mounted to corresponding target service nodes according to user requirements.

In one embodiment, referring to fig. 2, when triggering the service flow configuration, the computer device executes the screening operation of the target component templates and the target service nodes, and determines the loading association relationship between each target component template and each target service node based on a preset loading rule. And when the operation control is triggered, screening out a corresponding target service node from the flow configuration table, and carrying out flow screening.

In the online source searching method based on dynamic configuration, classified storage is performed on the obtained fixed components according to the function execution types of the fixed components, so that information related to the source searching service is stored in a mode of a plurality of independent components and convenience is provided for screening of subsequent target fixed components; based on a preset loading rule, screening out a corresponding target component template and a target service node, and directionally loading the target service node to a target fixed component when triggering a corresponding source searching service flow.

In one embodiment, the sourcing component further includes a dynamic component, and before the step of synchronously loading the target fixed component in the target component template to the corresponding target service node when the corresponding sourcing service process is triggered in step S110, the method further includes: and screening out a target dynamic component from the dynamic components included in the source searching component and loading the target dynamic component based on a preset loading rule. When triggering the corresponding source searching service process, synchronously loading the target fixed component in the target component template to the corresponding target service node, including: and loading the target fixed component and the target dynamic component in the target component template to corresponding target service nodes, and outputting a source searching result after the source searching service flow is finished.

Due to the complexity and diversity of the types of the purchases involved in the sourcing scene, corresponding quotation templates need to be selected according to different types of the purchases, and the content of each quotation template is different between different purchasing departments and items, so that a single document cannot present a large number of templates, and the information of the purchases needs to be 'componentized'. In particular, dynamic components are a class of components suitable for dynamic selection at a business node, such as the standard purchase list and other purchase lists illustrated in FIG. 3. The fixed component is a type of component that is fixedly loaded to the service node, for example, the basic information of the project and the project bid-winning principle illustrated in fig. 3. When needing to be explained, various documents related in the source searching scene are configured with different component information according to the component template, if other documents need the information of the same component, the same component can be configured in the component template, and when triggering and opening the documents, the taken components are loaded and displayed on the current display page for dynamic display after all the components in the component template are taken out according to the configured component template.

In one embodiment, the computer device loads and filters the target dynamic component based on preset loading rules, and the loading rules can be flexibly set according to each service node involved in the sourcing scene. It should be noted that the loading rule is actually a rule of the screening component, and it may be a preset fixed rule or a dynamic setting rule set by a user through a loading rule setting page provided by the computer device. For example, the loading rule may be a service node name or other identifier that can be used to identify the service node, and the computer device may screen the target dynamic component from the target component template based on the loading rule corresponding to the identified service node name or other identifier that can be used to identify the service node.

Specifically, when the source searching business process is triggered, the computer device loads the target fixed component and the target dynamic component based on a preset loading rule, wherein the target fixed component may further be understood as "item establishment basic information", "item establishment bid information", and the like illustrated in fig. 3, and the target dynamic component may further be understood as "standard purchase list", "other purchase list", and the like.

In one embodiment, please refer to fig. 3, the computer device defines node component templates based on the obtained fixed components, and stores each currently defined node component template through a preset node component template table. Secondly, under the condition that the instantiation of the components is not involved, the obtained target fixed components and the target dynamic components are stored in a preset project component information table through computer equipment, and when a corresponding source searching business process is triggered, target objects are recorded in the project component information table. And finally, under the condition of bill-taking operation, acquiring the target object obtained by current loading through the component operation interface. It should be noted that, when the node component template table is updated, the project component information table may be updated based on a manual component refresh mode, so that the operation object can obtain the updated object in time.

In the embodiment, the components are dynamically selected in the service nodes, and when the components stored in the component template are changed, the components can be manually refreshed in the service nodes, so that the operation flexibility is greatly improved.

In one embodiment, as shown in fig. 4, the method further comprises:

step S402, aiming at each item of source searching component, an instantiation component adaptive to the source searching component is created, and the created instantiation component is stored through a preset project component information table.

Specifically, the computer device creates an instantiated component for each resource searching component, and stores the currently created instantiated component through a preset project component information table, so as to facilitate subsequent object calling.

In one embodiment, configuration information stored in the service script is loaded and a service object corresponding to the configuration information is referenced when defining the corresponding instantiated component. For example, when a map needs to be integrated in a service, the configuration information of the map may be pre-stored in a common script file, so that when an instantiated component corresponding to the map is created, the configuration information of the map is loaded from the script file, and then a map service object corresponding to the map is referenced according to the configuration information.

Step S404, based on a preset loading rule, when triggering a corresponding source searching service flow, for a target source searching component currently loaded to a corresponding target service node, screening a target instantiated component associated with the target source searching component from the project component information table, and running and displaying the target instantiated component in a preset display page.

Specifically, before the computer device runs and displays the target instance component in the preset display page, the method further includes: loading a source searching component, configuring attribute fields aiming at each loaded source searching component, and storing the configured attribute fields into a preset component page configuration table; the attribute field comprises at least one of a visible field, an editable field, a bibliographic field, a lead-in field and a lead-out field; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, screening out a target attribute field associated with the target source searching component from a component page configuration table; and setting the display mode of the target instantiation component in a preset display page according to the target attribute field obtained currently aiming at the target instantiation component obtained by screening.

In one embodiment, please refer to fig. 5, a sourcing component is loaded by a computer device, and attribute fields of the various sourcing components obtained by loading are configured based on a preset attribute field configuration rule. Illustratively, when attribute field configuration is carried out, the actual business document is dynamically configured according to the actual node data filtering component page; the filtering conditions are the same and only one piece of data is available; and matching the actual business document with the page configuration with the maximum filtering condition according to the actual data of the current document to realize the configuration of the page field. Illustratively, the initial default field is configured to be visible/editable/don't care, wherein the newly added field of metadata is refreshed when the field is "reloaded". And displaying the configured historical data of the last page each time the page is loaded. Illustratively, the scheme name and the component field are allowed to be copied, and the scheme is automatically generated according to an encoding rule when being encoded. Illustratively, the user is allowed to configure specific bibliographic verification operations, such as save/submit/audit, etc. Illustratively, the user is allowed to perform the bibliographic verification of the data again according to the new verification rule. Illustratively, when a field is visible, the default lead-in is on, allowing modification.

In the above embodiment, different scenes and different nodes are considered, the requirements on visibility and prerecordibility of information are also different, and dynamic configuration is required. Therefore, the attribute fields of the source searching components are configured before the source searching components are loaded, so that the display effect of the source searching components on the display page is effectively controlled, the verification operation of the necessary records is allowed to be configured by a user, the flexibility is higher, and the function expansion of the user is facilitated.

In one embodiment, before the target instance component is run and displayed in a preset display page, the method further comprises: loading the source searching component, configuring attribute fields aiming at each loaded source searching component, and storing the configured attribute fields into a preset component page configuration table; the attribute field comprises at least one of a visible field, an editable field, a bibliographic field, a lead-in field and a lead-out field; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, screening out a target attribute field associated with the target source searching component from the component page configuration table; and setting the display mode of the target instantiation component in a preset display page according to the target attribute field obtained currently aiming at the target instantiation component obtained by screening. The method for operating and displaying the target instance component in the preset display page comprises the following steps: and operating and displaying the target instance component in the display page based on the set display mode.

Specifically, referring to fig. 5, when configuring the attribute fields of each service component through the computer device, the attribute fields to be configured include "visible or not", "editable or not", "recordable or not", "import or not" and "export or not" and the like. When a source searching business process is triggered, component loading is required to be carried out, and a target attribute field of the component is required to be obtained. The display mode of the target instantiation component in a preset display page is set according to the currently acquired target attribute field, and the target instantiation component is operated and displayed in the display page based on the currently set display mode in the target display page.

In one embodiment, before the target instantiated component associated with the target sourcing component is screened from the project component information table, the method further comprises: acquiring check rule data input in advance, and storing the check rule data into a data check registry; the verification rule data is used for verifying at least one of the integrity and the correctness of the target source searching component; when a source searching business process is triggered, target verification rule data associated with a target source searching component is obtained from a data verification registry, and at least one of integrity and correctness of the target source searching component is verified through the target verification rule data; when the verification passes, the step of screening out the target instantiation component associated with the target source searching component from the project component information table is executed.

Specifically, referring to fig. 6, in addition to the rules preset by the computer device, the user may perform configuration of the verification rules through a data verification configuration page provided by the computer device, where the verification rule data acquired by the computer device may be understood as verification plug-in registration information input in advance through the computer device, which includes the developed verification plug-ins. It should be noted that, the core idea of data verification in the present application is: and uploading the developed verification plug-in to computer equipment by a user, and carrying out data verification based on the verification logic provided by the verification plug-in when a source searching business process is triggered. In addition, in case of a successful check, other business logic may continue to be executed. And under the condition of failed verification, displaying the current verification result or terminating the operation.

In one embodiment, referring to fig. 7, the content of the data verification configuration page provided by the computer device includes: the service object, the operation type, the uploading path of the data verification plug-in and the description of the verification result. Illustratively, when the data of the price comparison scheme is checked, the finally displayed check result is "please set the price comparison scheme, if the sections are checked, all the sections are set with the price comparison scheme".

In the above embodiment, in addition to the rules preset by the computer device, the user may develop new data verification rules according to the needs of the user, and based on the extension mechanism provided by the computer device, that is, the cross-component and fine-grained verification processing is provided, and it is also convenient to enable, disable, and register new verification logic, so as to implement the integrity or correctness of the service data.

In one embodiment, the method further comprises: acquiring user information input in a role creation page in advance, and creating a service role according to the acquired user information; the user information comprises user identity identification information and the association range of the service node; configuring corresponding operation authority aiming at each created service role; the operation authority comprises the access authority to the corresponding service node determined according to the association range and the viewing authority to the loaded service execution data.

Specifically, referring to fig. 8, the user identification information acquired by the computer device includes the affiliated project team, the responsible sourcing project, and the association range of the service node. And configuring data authority (namely contained nodes) and function authority (namely operation of the nodes) of each service role, wherein project data control is filtered according to the currently configured service nodes, and project operation is controlled according to the configured function authority.

In one embodiment, in the management of the source searching item, corresponding node responsible persons need to be authorized according to different service nodes related to the item, so as to perform corresponding operation authority and data authority management. Illustratively, for the evaluation separation scene, the evaluation node is managed and controlled by the purchasing department, and the calibration node is managed and controlled by the person in charge of the demand department. Among them, it should be noted that:

1. and loading the viewing permission of the obtained service execution data: and controlling the viewing authority of partial line fields of the business role, such as allowing an auditor to view only the calibrated and audited data.

2. And allowing the user to fill the service roles in batch when the service roles are created according to the acquired user information.

In one embodiment, when there is a target sourcing component to be loaded among a plurality of target service nodes that is the same, loading the target sourcing component in the target component template to the corresponding target service node includes the following steps: selecting one service node from a plurality of target service nodes optionally, and taking the selected service node as a first service node; loading a target source searching component in the target component template to a first service node based on a preset loading rule; based on a pushing mechanism, a first service node pushes a target source searching component obtained by current loading to a second service node; the second service node is the rest of the plurality of target service nodes except the first service node.

It should be understood that although the various steps in the flowcharts of fig. 1-5, 6 and 8 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 1-5, 6 and 8 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 9, an on-line sourcing device 900 based on dynamic configuration, the on-line sourcing device 900 includes:

an obtaining module 901, configured to obtain a fixed component in multiple source finding components, where a source finding component is formed by corresponding component metadata, and the component metadata is component description data.

The first setting module 902 is configured to classify and store multiple fixed components according to the function execution types to which the fixed components belong, and generate corresponding component templates; wherein one function execution type corresponds to one component template.

A second setting module 903, configured to set a node registry, where the node registry is used to store node metadata, and the node metadata represents description information of a service node.

And a screening module 904, configured to screen, based on each preset sourcing service flow, a plurality of target service nodes that are adapted to the sourcing service flow and have a corresponding flow execution sequence from the node registry.

The loading module 905 is configured to screen out, from the multiple component templates, a target component template that needs to be loaded to each target service node based on a preset loading rule, and when a corresponding sourcing service flow is triggered, synchronously load a target fixed component in the target component template to the corresponding target service node, and after the sourcing service flow is ended, output a sourcing result.

In one embodiment, the online source searching apparatus 900 further includes a dynamic loading module, where the dynamic loading module is configured to screen and load a target dynamic component from the dynamic components included in the source searching component based on a preset loading rule.

It should be noted that the loading module 905 is further configured to load the target fixed component and the target dynamic component in the target component template to the corresponding target service node, and output the sourcing result after the sourcing service process is finished.

In one embodiment, the online source finding device 900 further includes an instantiation module, where the instantiation module is configured to create, for each source finding component, an instantiation component adapted to the source finding component, and store the created instantiation component through a preset project component information table; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, a target instantiation component associated with the target source searching component is screened from a project component information table, and the target instantiation component is operated and displayed in a preset display page.

In one embodiment, the online source finding device 900 further includes an attribute configuration module, where the attribute configuration module is configured to load a source finding component, configure attribute fields for each source finding component obtained by loading, and store the configured attribute fields in a preset component page configuration table; the attribute field comprises at least one of a visible field, an editable field, a bibliographic field, a lead-in field and a lead-out field; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, screening out a target attribute field associated with the target source searching component from a component page configuration table; and setting the display mode of the target instantiation component in a preset display page according to the target attribute field obtained currently aiming at the target instantiation component obtained by screening.

It should be noted that the instantiation module is further configured to run and display the target instance component in the display page based on the set display mode.

In one embodiment, the online source searching apparatus 900 further includes a checking module, wherein the checking module is configured to obtain checking rule data input in advance, and store the checking rule data in a data checking registry; the verification rule data is used for verifying at least one of the integrity and the correctness of the target source searching component; when a source searching business process is triggered, target verification rule data associated with a target source searching component is obtained from a data verification registry, and at least one of integrity and correctness of the target source searching component is verified through the target verification rule data; when the verification passes, the step of screening out the target instantiation component associated with the target source searching component from the project component information table is executed.

In one embodiment, the online source searching device 900 further includes a permission configuration module, where the permission configuration module is configured to obtain user information input in a role creation page in advance, and create a service role according to the obtained user information; the user information comprises user identity identification information and the association range of the service node; configuring corresponding operation authority aiming at each created service role; the operation authority comprises the access authority to the corresponding service node determined according to the association range and the viewing authority to the loaded service execution data.

In one embodiment, the loading module 905 is further configured to select one service node from the multiple target service nodes, and use the selected service node as the first service node; loading a target source searching component in the target component template to a first service node based on a preset loading rule; based on a pushing mechanism, a first service node pushes a target source searching component obtained by current loading to a second service node; the second service node is the rest of the plurality of target service nodes except the first service node.

The on-line source searching device based on dynamic configuration performs classified storage on the obtained fixed components according to the function execution types of the fixed components, realizes storage of information related to the source searching service in a mode of a plurality of independent components, and provides convenience for screening of subsequent target fixed components; based on a preset loading rule, screening out a corresponding target component template and a target service node, and directionally loading the target service node to a target fixed component when triggering a corresponding source searching service flow.

For the specific definition of the dynamically configured on-line sourcing device, reference may be made to the above definition of the dynamically configured on-line sourcing method, which is not described herein again. The various modules in the above-described dynamically-configured online sourcing device may be implemented in whole or in part by software, hardware, and combinations thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a terminal, and its internal structure diagram may be as shown in fig. 10. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The communication interface of the computer device is used for carrying out wired or wireless communication with external computer devices, and the wireless communication can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program is executed by a processor to implement a dynamically configured on-line sourcing method. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell of the computer equipment, an external keyboard, a touch pad or a mouse and the like.

Those skilled in the art will appreciate that the architecture shown in fig. 10 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program: acquiring a fixed component in a plurality of source searching components, wherein the source searching components are formed by corresponding component metadata, and the component metadata is component description data; classifying and storing the plurality of fixed components according to the function execution types of the fixed components respectively, and generating corresponding component templates; wherein, one function execution type corresponds to one component template; setting a node registry, wherein the node registry is used for storing node metadata, and the node metadata represents description information of service nodes; based on each preset source searching service flow, screening out a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from a node registry; and based on a preset loading rule, screening target component templates needing to be loaded to each target service node from the multiple component templates, synchronously loading target fixed components in the target component templates to the corresponding target service nodes when the corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

In one embodiment, the processor, when executing the computer program, further performs the steps of: screening a target dynamic component from the dynamic components included in the source searching component and loading the target dynamic component based on a preset loading rule; when the corresponding source searching service process is triggered and the target fixed component in the target component template is synchronously loaded to the corresponding target service node, the target fixed component and the target dynamic component in the target component template are specifically loaded to the corresponding target service node, and the source searching result is output after the source searching service process is finished.

In one embodiment, the processor, when executing the computer program, further performs the steps of: aiming at each resource searching component, creating an instantiation component adaptive to the resource searching component, and storing the created instantiation component through a preset project component information table; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, a target instantiation component associated with the target source searching component is screened from a project component information table, and the target instantiation component is operated and displayed in a preset display page.

In one embodiment, the processor, when executing the computer program, further performs the steps of: loading a source searching component, configuring attribute fields aiming at each loaded source searching component, and storing the configured attribute fields into a preset component page configuration table; the attribute field comprises at least one of a visible field, an editable field, a bibliographic field, a lead-in field and a lead-out field; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, screening out a target attribute field associated with the target source searching component from a component page configuration table; and setting the display mode of the target instantiation component in a preset display page according to the target attribute field obtained currently aiming at the target instantiation component obtained by screening. When the target instance component is operated and displayed in the preset display page, the target instance component is operated and displayed in the display page based on the set display mode.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring check rule data input in advance, and storing the check rule data into a data check registry; the verification rule data is used for verifying at least one of the integrity and the correctness of the target source searching component; when a source searching business process is triggered, target verification rule data associated with a target source searching component is obtained from a data verification registry, and at least one of integrity and correctness of the target source searching component is verified through the target verification rule data; when the verification passes, the step of screening out the target instantiation component associated with the target source searching component from the project component information table is executed.

In one embodiment, the processor, when executing the computer program, further performs the steps of: acquiring user information input in a role creation page in advance, and creating a service role according to the acquired user information; the user information comprises user identity identification information and the association range of the service node; configuring corresponding operation authority aiming at each created service role; the operation authority comprises the access authority to the corresponding service node determined according to the association range and the viewing authority to the loaded service execution data.

In one embodiment, the processor, when executing the computer program, further performs the steps of: when the target searching components required to be loaded among a plurality of target service nodes are the same, the step of loading the target searching components in the target component template to the corresponding target service nodes comprises the following steps: selecting one service node from a plurality of target service nodes optionally, and taking the selected service node as a first service node; loading a target source searching component in the target component template to a first service node based on a preset loading rule; based on a pushing mechanism, a first service node pushes a target source searching component obtained by current loading to a second service node; the second service node is the rest of the plurality of target service nodes except the first service node.

The computer equipment performs classified storage on the obtained fixed components according to the function execution types of the fixed components, realizes storage of information related to the source searching service in a mode of a plurality of independent components, and provides convenience for screening of subsequent target fixed components; based on a preset loading rule, screening out a corresponding target component template and a target service node, and directionally loading the target service node to a target fixed component when triggering a corresponding source searching service flow.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of: acquiring a fixed component in a plurality of source searching components, wherein the source searching components are formed by corresponding component metadata, and the component metadata is component description data; classifying and storing the plurality of fixed components according to the function execution types of the fixed components respectively, and generating corresponding component templates; wherein, one function execution type corresponds to one component template; setting a node registry, wherein the node registry is used for storing node metadata, and the node metadata represents description information of service nodes; based on each preset source searching service flow, screening out a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from a node registry; and based on a preset loading rule, screening target component templates needing to be loaded to each target service node from the multiple component templates, synchronously loading target fixed components in the target component templates to the corresponding target service nodes when the corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

In one embodiment, the computer program when executed by the processor further performs the steps of: screening a target dynamic component from the dynamic components included in the source searching component and loading the target dynamic component based on a preset loading rule; when the corresponding source searching service process is triggered and the target fixed component in the target component template is synchronously loaded to the corresponding target service node, the target fixed component and the target dynamic component in the target component template are specifically loaded to the corresponding target service node, and the source searching result is output after the source searching service process is finished.

In one embodiment, the computer program when executed by the processor further performs the steps of: aiming at each resource searching component, creating an instantiation component adaptive to the resource searching component, and storing the created instantiation component through a preset project component information table; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, a target instantiation component associated with the target source searching component is screened from a project component information table, and the target instantiation component is operated and displayed in a preset display page.

In one embodiment, the computer program when executed by the processor further performs the steps of: loading a source searching component, configuring attribute fields aiming at each loaded source searching component, and storing the configured attribute fields into a preset component page configuration table; the attribute field comprises at least one of a visible field, an editable field, a bibliographic field, a lead-in field and a lead-out field; based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, screening out a target attribute field associated with the target source searching component from a component page configuration table; and setting the display mode of the target instantiation component in a preset display page according to the target attribute field obtained currently aiming at the target instantiation component obtained by screening. When the target instance component is operated and displayed in the preset display page, the target instance component is operated and displayed in the display page based on the set display mode.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring check rule data input in advance, and storing the check rule data into a data check registry; the verification rule data is used for verifying at least one of the integrity and the correctness of the target source searching component; when a source searching business process is triggered, target verification rule data associated with a target source searching component is obtained from a data verification registry, and at least one of integrity and correctness of the target source searching component is verified through the target verification rule data; when the verification passes, the step of screening out the target instantiation component associated with the target source searching component from the project component information table is executed.

In one embodiment, the computer program when executed by the processor further performs the steps of: acquiring user information input in a role creation page in advance, and creating a service role according to the acquired user information; the user information comprises user identity identification information and the association range of the service node; configuring corresponding operation authority aiming at each created service role; the operation authority comprises the access authority to the corresponding service node determined according to the association range and the viewing authority to the loaded service execution data.

In one embodiment, the computer program when executed by the processor further performs the steps of: when the target searching components required to be loaded among a plurality of target service nodes are the same, the step of loading the target searching components in the target component template to the corresponding target service nodes comprises the following steps: selecting one service node from a plurality of target service nodes optionally, and taking the selected service node as a first service node; loading a target source searching component in the target component template to a first service node based on a preset loading rule; based on a pushing mechanism, a first service node pushes a target source searching component obtained by current loading to a second service node; the second service node is the rest of the plurality of target service nodes except the first service node.

The storage medium is used for classifying and storing the obtained fixed assemblies according to the function execution types of the fixed assemblies, so that the information related to the source searching service is stored and stored in a mode of a plurality of independent assemblies, and convenience is provided for screening of subsequent target fixed assemblies; based on a preset loading rule, screening out a corresponding target component template and a target service node, and directionally loading the target service node to a target fixed component when triggering a corresponding source searching service flow.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An on-line source finding method based on dynamic configuration, the method comprising:

acquiring a fixed component in a plurality of source searching components, wherein the source searching components are formed by corresponding component metadata, and the component metadata are component description data;

classifying and storing the multiple fixed assemblies according to the function execution types of the fixed assemblies respectively, and generating corresponding assembly templates; wherein, one function execution type corresponds to one component template;

setting a node registry, wherein the node registry is used for storing node metadata, and the node metadata represents description information of service nodes;

based on each preset source searching service flow, screening out a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from the node registry;

and screening target component templates needing to be loaded to each target service node from the component templates based on a preset loading rule, synchronously loading target fixed components in the target component templates to the corresponding target service nodes when a corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

2. The method of claim 1, wherein the sourcing component further comprises a dynamic component, and wherein before synchronously loading the target fixed component in the target component template to the corresponding target service node when the corresponding sourcing service process is triggered, the method further comprises:

screening out a target dynamic component from the dynamic components included in the source searching component and loading the target dynamic component based on the preset loading rule;

when triggering the corresponding source searching service process, synchronously loading the target fixed component in the target component template to the corresponding target service node, including:

and loading the target fixed component and the target dynamic component in the target component template to corresponding target service nodes, and outputting a source searching result after the source searching service flow is finished.

3. The method of claim 2, further comprising:

aiming at each resource searching component, creating an instantiation component adapted to the resource searching component, and storing the created instantiation component through a preset project component information table;

based on a preset loading rule, when a corresponding source searching service process is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, a target instantiation component associated with the target source searching component is screened from the project component information table, and the target instantiation component is operated and displayed in a preset display page.

4. The method of claim 3, wherein before the running and presenting the target instance component in a preset display page, the method further comprises:

loading the source searching component, configuring attribute fields aiming at each loaded source searching component, and storing the configured attribute fields into a preset component page configuration table; the attribute field comprises at least one of a visible field, an editable field, a bibliographic field, a lead-in field and a lead-out field;

based on a preset loading rule, when a corresponding source searching service flow is triggered, aiming at a target source searching component currently loaded to a corresponding target service node, screening out a target attribute field associated with the target source searching component from the component page configuration table;

setting a display mode of the target instantiation component in a preset display page according to the target attribute field obtained currently aiming at the target instantiation component obtained by screening;

the running and displaying of the target instance component in a preset display page comprises:

and running and displaying the target instance component in the display page based on the set display mode.

5. The method of claim 3, wherein prior to the screening of the target instantiated component associated with the target sourcing component from the project component information table, the method further comprises:

acquiring check rule data input in advance, and storing the check rule data in a data check registry; the verification rule data is used for verifying at least one of integrity and correctness of the target source seeking component;

when a source searching business process is triggered, target verification rule data associated with the target source searching component is obtained from the data verification registry, and at least one of the integrity and the correctness of the target source searching component is verified through the target verification rule data;

and when the verification is passed, executing the step of screening out the target instantiated component associated with the target source searching component from the project component information table.

6. The method according to any one of claims 1-5, further comprising:

acquiring user information input in a role creation page in advance, and creating a service role according to the acquired user information; the user information comprises user identity identification information and the association range of the service node;

configuring corresponding operation authority aiming at each created service role; the operation authority comprises the access authority to the corresponding service node determined according to the association range and the viewing authority to the loaded service execution data.

7. The method according to any of claims 1-5, wherein when there is a target sourcing component that needs to be loaded among a plurality of target service nodes, loading the target sourcing component in the target component template to the corresponding target service node comprises the following steps:

selecting one service node from the target service nodes optionally, and taking the selected service node as a first service node;

loading a target source searching component in the target component template to the first service node based on a preset loading rule;

based on a pushing mechanism, the first service node pushes the target source searching component obtained by current loading to a second service node; wherein the second service node is the rest of the plurality of target service nodes except the first service node.

8. An on-line sourcing device based on dynamic configuration, the device comprising:

the acquisition module is used for acquiring a fixed component in a multi-item searching component, wherein the searching component is formed by corresponding component metadata, and the component metadata are component description data;

the first setting module is used for classifying and storing the plurality of fixed assemblies according to the function execution types to which the fixed assemblies belong respectively to generate corresponding assembly templates; wherein, one function execution type corresponds to one component template;

a second setting module, configured to set a node registry, where the node registry is used to store node metadata, and the node metadata represents description information of a service node;

the screening module is used for screening a plurality of target service nodes which are adaptive to the source searching service flow and have corresponding flow execution sequences from the node registry based on each preset source searching service flow;

and the loading module is used for screening out a target component template to be loaded to each target service node from the plurality of component templates based on a preset loading rule, synchronously loading a target fixed component in the target component template to the corresponding target service node when a corresponding source searching service flow is triggered, and outputting a source searching result after the source searching service flow is finished.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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