CN114356472A - System interface differential dynamic rendering method - Google Patents

Abstract

The invention discloses a system interface differential dynamic rendering method, which comprises the following steps: s1, according to the implementation logic, confirming the interface rendering scene needing to be supported, and setting and confirming the needed metadata in a preset metadata management module, wherein the preset metadata management module comprises a data management service terminal connecting metadata module, the metadata module is connected with an Oracle database and a GIS platform through a metadata service interface, and the data management service terminal adopts an SOA-based architecture; and S2, the data organization and processing module is used for carrying out preliminary organization and combing on the preset and collected metadata, and the data organization and processing module comprises a central processing unit. The invention has the beneficial effects that: more autonomy control is returned to the user, the requirement of differential dynamic rendering is minimized to the individual of the user, the maintenance management of the information system interface is maximized to be global and universal, and the advancement, flexibility and convenience of the information system are integrally improved.

Description

System interface differential dynamic rendering method

Technical Field

The invention relates to the technical field of page dynamic layout rendering, in particular to a system interface differential dynamic rendering method.

Background

For an information system put into operation and maintenance use, due to different user role authorities and service requirements, corresponding service information interfaces need to be managed in an individualized mode, and if no proper intelligent and automatic layout rendering function exists, great resource loss can be brought to a construction team and an operation and maintenance team.

When the traditional information system interface management meets different role authorities or service scenes, in order to meet the use requirements of users, the traditional development mode of 'system setting item + front-end interface compatible maintenance' is generally adopted for performing required function iteration. However, the development and maintenance amount is large, compatible development often needs to trace back original functions and change the mode of uniformly adjusting front and back end codes aiming at a system with wide project distribution region and multiple users, and the method has the condition of incompatibility, is difficult to be flexibly compatible aiming at the conditions of uniform functions and different user requirements, and needs to perform uniform regression testing on all related functions because the implementation mode of the method relates to the adjustment of code layers, so that the workload and the progress cannot be guaranteed.

Disclosure of Invention

The invention mainly aims to provide a system interface differential dynamic rendering method, which can effectively solve the problems that development and maintenance amount in the background technology is large, the original functions of a system are often required to be traced for compatible development aiming at a system with wide project distribution regions and multiple users, the mode of uniformly adjusting front and back end codes is changed, the situation that the system cannot be compatible exists, the system is difficult to flexibly compatible aiming at the conditions that the functions are unified and different user requirements are different, and the workload and the progress cannot be guaranteed because the implementation mode of the method relates to the adjustment of a code layer, so that the unified regression test needs to be carried out on all related functions.

In order to achieve the purpose, the invention adopts the technical scheme that:

a system interface differential dynamic rendering method comprises the following steps:

s1, according to the implementation logic, confirming the interface rendering scene needing to be supported, and setting and confirming the needed metadata in a preset metadata management module, wherein the preset metadata management module comprises a data management service terminal connecting metadata module, the metadata module is connected with an Oracle database and a GIS platform through a metadata service interface, and the data management service terminal adopts an SOA-based architecture;

s2, the data organization and processing module conducts preliminary organization and combing on preset and collected metadata, the data organization and processing module comprises a central processing unit, the central processing unit is used for processing data and instructions in the data organization and processing module, and rendering data needed by the current front-end page are preliminarily formed in the background rule compiling module through rule operation;

s3, outputting according to rules generated in the differential rendering result output module, dynamically rendering a corresponding front-end page by adopting a proper front-end script language, building a front-end rendering module, and preliminarily forming a front-end interface frame required by a current user, wherein the front-end rendering module comprises a vGPU front-end module, the vGPU front-end module receives an application rendering request, and the vGPU front-end module sends a rendering instruction according to the application rendering request;

s4, comprehensively integrating various metadata and service data through a rendering data integration module based on a frame formed by a front-end rendering module to finally form a front-end page required by a user and carrying various personalized and differentiated service scene data, wherein the rendering data integration module comprises a data storage module, a data display module, a data diagnosis and analysis module and a diagnosis result output module, the data storage module is used for storing digital signals obtained by conversion of the data conversion module, and the data display module is used for displaying the digital signals obtained by conversion of the data conversion module;

s5, users with different requirements and properties can use the personalized page of the complete data after logging in the same information system through the user application module to perform subsequent data operation.

Preferably, the preset metadata management module in step S1 includes, but is not limited to, metadata such as user, authority, category, service content, and user usage memory.

Preferably, in the metadata management module preset in step S1, a database matching the corresponding production environment is selected, and a suitable database table and table field name are selected for classification management.

Preferably, in the background rule compiling module in step S2, rule operation is implemented in a big data analysis manner, so as to improve data calculation efficiency.

Preferably, in the front end rendering module in step S4, any one of VUE and Angular front end script language should be selected, so as to make the execution efficient.

Preferably, the rendering data integration module in step S4 includes a plurality of data and a data type corresponding to each data.

Compared with the prior art, the invention has the following beneficial effects: the system comprises a preset metadata management module, a background rule compiling module, a front-end rendering module and a user application module. After all the functional modules are combined and realized, the method can be efficiently and uniformly applied to all management interfaces related to data acquisition, data query, data display and data editing of a business system. The functional modules can be respectively realized in a single set or a plurality of sets of information systems, but the information of the modules can be read and identified back and forth, the dynamic rendering parameters and the requirements of a target interface are combined by means of intelligent memory two-way combination of preset configuration of personalized requirements and user use preferences, the management requirements of providing different system interfaces for different users are thoroughly realized, namely if 1000 users exist, corresponding to 1000 personalized requirements, the method can differentially and dynamically render 1000 interface effects for use without influencing each other, the development and maintenance cost of a builder is reduced, the rendering efficiency of the system interface reaches the 'noninductive' level of the user, namely generally only about 0.3-0.5 second is needed, in order to reduce the development and maintenance amount of a team, more autonomy control is returned to the user, and the requirement of the differential dynamic rendering is minimized to the individual of the user, the maintenance management of the information system interface is maximized to be global and universal, and the advancement, flexibility and convenience of the information system are integrally improved.

Drawings

FIG. 1: the invention discloses a logic schematic diagram for realizing differentiated dynamic rendering of a system interface;

FIG. 2: the invention is a schematic diagram of application effect.

In the figure: 1. presetting a metadata management module; 2. a data organization and processing module; 3. a background rule compiling module; 4. a differential rendering result output module; 5. a front-end rendering module; 6. a rendering data integration module; 7. and a user application module.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example 1

A system interface differential dynamic rendering method comprises the following steps:

s1, according to the implementation logic, confirming the interface rendering scene needing to be supported, and setting and confirming the needed metadata in a preset metadata management module 1, wherein the preset metadata management module 1 comprises a data management service terminal connecting metadata module, the metadata module is connected with an Oracle database and a GIS platform through a metadata service interface, and the data management service terminal adopts an SOA-based architecture;

s2, the data organization and processing module 2 conducts preliminary organization and combing on preset and collected metadata, the data organization and processing module 2 comprises a central processing unit, the central processing unit is used for processing data and instructions in the data organization and processing module 2, and rendering data required by the current front-end page are preliminarily formed in the background rule compiling module 3 through rule operation;

s3, outputting according to rules generated in the differential rendering result output module 4, dynamically rendering a corresponding front-end page by adopting a proper front-end script language, building a front-end rendering module 5, and preliminarily forming a front-end interface frame required by a current user, wherein the front-end rendering module 5 comprises a vGPU front-end module, the vGPU front-end module receives an application rendering request, and the vGPU front-end module sends a rendering instruction according to the application rendering request;

s4, comprehensively integrating various metadata and service data through a rendering data integration module 6 based on a frame formed by a front-end rendering module 5 to finally form a front-end page required by a user and carrying various personalized and differentiated service scene data, wherein the rendering data integration module 6 comprises a data storage module, a data display module, a data diagnosis and analysis module and a diagnosis result output module, the data storage module is used for storing digital signals obtained by conversion of the data conversion module, and the data display module is used for displaying the digital signals obtained by conversion of the data conversion module;

s5, users with different requirements and properties can use the personalized page of the complete data after logging in the same information system through the user application module 7 to perform subsequent data operation.

In this embodiment, the preset metadata management module 1 in step S1 includes, but is not limited to, metadata such as user, authority, category, service content, and user usage memory.

In this embodiment, in the preset metadata management module 1 in step S1, a database matching the corresponding production environment is selected, and a suitable database table and table field name are selected for classification management.

In this embodiment, in the background rule compiling module 3 in step S2, rule operation is implemented in a big data analysis manner, so as to improve data calculation efficiency.

In this embodiment, in the front-end rendering module 5 in step S4, any one of VUE and Angular front-end script language should be selected, so as to make the execution efficient.

In this embodiment, the rendering data integration module 6 in step S4 includes a plurality of data and a data type corresponding to each data.

The invention relates to a system interface differential dynamic rendering method, which comprises a preset metadata management module 1, a background rule compiling module 3, a front-end rendering module 5 and a user application module 7. After all the functional modules are combined and realized, the method can be efficiently and uniformly applied to all management interfaces related to data acquisition, data query, data display and data editing of a business system. The functional modules can be respectively realized in a single set or a plurality of sets of information systems, but the information of the modules can be read and identified back and forth, the dynamic rendering parameters and the requirements of a target interface are combined by means of intelligent memory two-way combination of preset configuration of personalized requirements and user use preferences, the management requirements of providing different system interfaces for different users are thoroughly realized, namely if 1000 users exist, corresponding to 1000 personalized requirements, the method can differentially and dynamically render 1000 interface effects for use without influencing each other, the development and maintenance cost of a builder is reduced, the rendering efficiency of the system interface reaches the 'noninductive' level of the user, namely generally only about 0.3-0.5 second is needed, in order to reduce the development and maintenance amount of a team, more autonomy control is returned to the user, and the requirement of the differential dynamic rendering is minimized to the individual of the user, the maintenance management of the information system interface is maximized to be global and universal, and the advancement, flexibility and convenience of the information system are integrally improved.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (6)

1. A method for differentiated dynamic rendering of a system interface is characterized by comprising the following steps:

s1, according to the implementation logic, confirming the interface rendering scene needing to be supported, and setting and confirming the needed metadata in a preset metadata management module (1), wherein the preset metadata management module (1) comprises a data management service terminal connected metadata module, the metadata module is connected with an Oracle database and a GIS platform through a metadata service interface, and the data management service terminal adopts an SOA-based architecture;

s2, the data organization and processing module (2) conducts preliminary organization and combing on preset and collected metadata, the data organization and processing module (2) comprises a central processing unit, the central processing unit is used for processing data and instructions in the data organization and processing module (2), and rendering data required by the current front-end page are preliminarily formed in the background rule compiling module (3) through rule operation;

s3, outputting according to rules generated in the differential rendering result output module (4), dynamically rendering a corresponding front-end page by adopting a proper front-end script language, building a front-end rendering module (5), and preliminarily forming a front-end interface frame required by a current user, wherein the front-end rendering module (5) comprises a vGPU front-end module, the vGPU front-end module receives an application rendering request, and the vGPU front-end module sends a rendering instruction according to the application rendering request;

s4, comprehensively integrating various metadata and service data through a rendering data integration module (6) based on a frame formed by a front-end rendering module (5) to finally form a front-end page required by a user and having various personalized and differentiated service scene data, wherein the rendering data integration module (6) comprises a data storage module, a data display module, a data diagnosis and analysis module and a diagnosis result output module, the data storage module is used for storing digital signals obtained by conversion of the data conversion module, and the data display module is used for displaying the digital signals obtained by conversion of the data conversion module;

s5, users with different requirements and properties can use the personalized page of the complete data after logging in the same information system through the user application module (7) to perform subsequent data operation.

2. The method for differentiated dynamic rendering of system interface as claimed in claim 1, wherein the preset metadata management module (1) in step S1 contains metadata including but not limited to user, authority, category, business content and user usage memory.

3. The method for differentiated dynamic rendering of a system interface as claimed in claim 1, wherein in the metadata management module (1) preset in step S1, a database matching the corresponding production environment is selected, and a suitable database table and table field name are selected for classification management.

4. The system interface differential dynamic rendering method according to claim 1, wherein in the background rule compiling module (3) in step S2, rule operation is implemented in a big data analysis manner, so as to improve data calculation efficiency.

5. The method for differentiated dynamic rendering of system interface as claimed in claim 1, wherein in the front end rendering module (5) in step S4, any front end scripting language of VUE and Angular should be selected, so as to make the execution efficient.

6. The method for system interface differentiated dynamic rendering of claim 1, wherein the rendering data integration module (6) in step S4 comprises a plurality of data and a data type corresponding to each data.

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