CN114895875B

CN114895875B - Zero-code visual information system metadata production application method and system

Info

Publication number: CN114895875B
Application number: CN202210550959.7A
Authority: CN
Inventors: 杨云波
Original assignee: Zhuhai Wodeer Software Technology Co ltd
Current assignee: Zhuhai Wodeer Software Technology Co ltd
Priority date: 2022-05-20
Filing date: 2022-05-20
Publication date: 2023-03-24
Anticipated expiration: 2042-05-20
Also published as: CN114895875A

Abstract

The invention discloses a production application method of zero code visual information system metadata, which comprises the following steps: establishing a data storage framework in a non-traditional form, wherein metadata stored by the framework is of a single hierarchical structure, and does not need to preset membership and logic relations of the metadata during system development, and establishing a unique label system of the method, wherein the system comprises an entity label frame, an entity label configuration component and an entity characteristic 'adding, deleting, modifying and checking' service component, the entity label frame records entities and entity characteristics in a template form, and the entity characteristics consist of a 'label name + label value' form; the method comprises the steps of establishing a metadata calling system, wherein the metadata calling system comprises a metadata reading and writing rule, a metadata four-element acquisition method and metadata result application. The invention improves the working efficiency, shortens the development period and reduces the development cost.

Description

Zero-code visual information system metadata production application method and system

Technical Field

The invention relates to the technical field of development of informatization application software, in particular to a production application method and system of zero-code visual information system metadata.

Background

The zero code is a development technology for designing a data structure, a user interaction form, setting access authority and defining a workflow in a visual mode around enterprise data and business management requirements. It can not only provide the function module at the bottom of the root, but also provide all functions required by the user to develop an information system, so that the user can develop a complete service management system without writing codes.

With the arrival of the enterprise digitalization era, from the state to the enterprise to individuals, it is realized that the perception type informatization must develop towards the digital driving type intelligentization direction, and support is provided for the enterprise development strategy. Due to the development of the leather and industrial characteristics of enterprises, the digital system has special requirements, and particularly, the digital system is very urgent in terms of industrial personalized requirements of the enterprises and unique personalized requirements of the enterprises. With the continuous increase of the application program requirements of enterprises, professional developers need to deeply communicate and learn the industry requirements due to the fact that business logics of the industry are not known, and the requirements are limited by time and cognitive ability, so that a large number of application program development tasks are overstocked, according to the prediction of Gartner, the requirements of the market for application development in 2021 are five times of the productivity of an IT company, in order to fill the yield gap, a first method cultivates cross-border talents, but the time is long, the content is more, and the feasibility is not high; the second method is a low-code and zero-code development technology, the existing non-computer industry elite autonomous configuration system is the only feasible solution at present, and more enterprises are bound to introduce the technology.

The existing popular zero-code rapid development platform is similar to the application building idea of model simulation and the application development of a native database, but is rapid because the platform abstracts common codes such as interaction, interfaces, flows, rights and the like, encapsulates various functions required by designing an information system, and provides visual pages for users to operate, so that the users can rapidly select, drag and create required functional components, a complicated code writing process is omitted, but the data still needs to be set by table division, association and the like, and the working efficiency is reduced and the cost is increased.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a method and a system for producing and applying zero-code visual information system metadata, and the technical problems that the work efficiency is reduced and the cost is increased because the existing zero-code rapid development platform still needs to perform setting such as table division, association and the like on data are solved.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a production application method of zero-code visual information system metadata comprises the following steps:

establishing a data storage architecture in a non-traditional form;

establishing a special label system of the method;

and establishing a calling system of the metadata.

Further, in the data storage architecture, the stored metadata are of a single hierarchical structure, the membership and logical relationship of the metadata do not need to be preset during system development, and all the metadata are only accumulated and stored in the form of 1+ 1; all metadata are formed in the form of 'service number + entity characteristic name + characteristic value', and the structure is called as metadata four-element; the storage structure of the metadata belongs to sparse type, is not limited by the existing quantity of service categories, entity types and feature names, and has infinite expansibility; the background database only stores metadata which comprises all four complete elements, and information such as a preset relational blank data table in a traditional development mode is not available.

Further, the establishment process of the unique label system comprises the following steps: establishing an entity label frame; establishing an entity tag configuration component; and establishing entity information 'adding, deleting, modifying and checking' service components.

Furthermore, the entity tag frame presents all entity names and all characteristics corresponding to each entity in the system in a template form; the characteristics of the entity are composed in the form of "tag name + tag value"; all the exclusive characteristics of the entity and the entity in the framework belong to a tree structure logic relationship, and the entity have a unique association relationship.

Further, the entity tag configuration component can add new entities or tags without code, the added content inherits the logical relationship of the entity tag framework; adding entity content comprising an entity name and an entity classification name; a step of designating an associated entity is required when an entity is added; adding a label comprises setting a label name and a label value model; the adding entity can add multiple adding steps, the label name and the label value model are set, combined one-time adding is carried out, and multiple groups can be added step by step; the added content is automatically stored in the entity label frame.

Furthermore, the service component of "adding, deleting, modifying and checking" adds, deletes, modifies and checks the service for the tag value in the feature tag of a specific entity; the component content comprises an entity name, all alternative characteristic tag libraries corresponding to the entity, a selected tag group capable of adding value content, and tag items of the entity with the value content; the entity alternative feature tag library is obtained from the entity corresponding feature tags recorded in the entity tag framework template; when value content is added to the selected tag group, only a value model preset when the tag is created can be called; the new content of the label updated by the component is automatically stored in the data storage architecture; the component is triggered by functional buttons of adding, viewing, modifying and the like in a system page and an application component, and automatically inherits the relevant parameters of a triggering position; the component candidate feature tag library and the tag value dictionary library can independently create new feature tags and value dictionary items, and created new contents can be used for this time and are automatically stored in the entity tag framework.

Furthermore, the metadata calling system aims at establishing a metadata reading and writing channel between each page and each service application function of the system and a background database; the content comprises the following steps: reading and writing rules of the metadata; acquiring a metadata four-element method; the resulting application of metadata.

Further, the reading and writing rules of the metadata are as follows: when each front end of the system needs to read the characteristic value content of one of the four elements of metadata in the database, a request to the background database is automatically triggered, the request comprises specific data of a service number, an entity number and an entity characteristic name, and the existing unique metadata is read in the background under the condition of the three data, so that the purpose of reading the characteristic value content of the metadata is realized; when the system needs to write certain metadata into the database, the system is automatically triggered, the entity tag configuration component automatically fills the service number, the entity number and the entity characteristic name transmitted by the context, fills the four-element median characteristic content manually or by using a specified specific interface, and writes the four-element median characteristic content into the background database for storage.

Furthermore, the method for acquiring the four elements of the metadata comprises the following steps: the data of the service number, the entity number and the entity characteristic name in the four elements are automatically obtained from the context of the position of the trigger interface, and the data of the characteristic value is manually added or automatically obtained through a specified interface; the above-described inheritance relationship between the elements and the context is established when the context is configured.

Still further, the result of the metadata applies as: after the characteristic value data of the four elements of the metadata are acquired by the acquisition method, the system can render the value to a trigger area of a page; if the characteristic value data is newly written data, synchronously sending broadcast notification to the page and the application of the system while storing in the background, and triggering various applications.

A production application system for zero-code visual information system metadata, comprising:

a metadata storage unit: for building a non-traditional form of data storage architecture;

a label generation unit: is used for establishing a label system specific to the method;

a metadata calling unit: a calling system for building metadata.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of any of the above-mentioned methods.

A production application apparatus based on zero-code visual information system metadata, comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements any of the steps of the above method when executing the program.

Compared with the prior art, the invention has the beneficial effects that:

1. the data are managed by the novel method, the delivered background database of the information system is only a storage container, and the data do not need to be arranged in a form dividing, association and the like, so that the work of code configuration of the background database is reduced, the working efficiency is improved, and the development cost is reduced;

2. in the calling process, the whole system only uses a unique standardized interface to realize the automatic calling of the data required by the interface and the application from the database, so that the development period is saved by more than half or even times.

The invention is described in further detail below with reference to the drawings and the detailed description.

Drawings

FIG. 1 is a step diagram of a method for producing and applying zero-code visual information system metadata according to the present invention.

Detailed Description

The method for producing and applying the zero-code visualized information system metadata, as shown in fig. 1, comprises the following steps:

step S1: establishing a data storage architecture in a non-traditional form;

step S2: establishing a special label system of the method;

and step S3: and establishing a calling system of the metadata.

In the step S1, in the data storage architecture, the stored metadata is a single hierarchical structure, and it is not necessary to preset membership and logical relationships of the metadata during system development, and all metadata are only accumulated in the form of 1+ 1; all metadata are formed in the form of 'service number + entity characteristic name + characteristic value', and the structure is called as metadata four-element; the storage structure of the metadata belongs to sparse type, is not limited by the existing quantity of service categories, entity types and feature names, and has infinite expansibility; the background database only stores metadata which comprises all four complete elements, and information such as a preset relational blank data table in a traditional development mode is not available.

In step S2, the specific label system is established as follows: establishing an entity label frame; establishing an entity tag configuration component; and establishing entity information 'adding, deleting, modifying and checking' service components.

The specific label system takes an entity as a starting point, a logical relation between the entity and the characteristics is formed by refining attribute classification and role classification of the entity and setting the attribute of the characteristic name and the characteristic value of the entity, the generated metadata exists in a label form of key name and key value, and the label system automatically generates the logical association between the specific entity and the characteristic label for calling the application model of the service end by calling the label name in the using process.

The entity label frame presents all entity names and all characteristics corresponding to each entity in the system in a template form; the characteristics of the entity are composed in the form of "tag name + tag value"; all the exclusive characteristics of the entity and the entity in the framework belong to tree structure logic relationship, and the entity have unique association relationship.

The entity label configuration component can add a new entity or label without code, and the added content inherits the logical relationship of the entity label framework; adding entity content comprising an entity name and an entity classification name; a step of designating an associated entity is required when an entity is added; adding labels comprises label name and label value model setting; the adding entity can add multiple adding steps, the label name and the label value model are set, combined one-time adding is carried out, and multiple groups can be added step by step; the added content is automatically stored in the entity label frame.

The service component for 'adding, deleting, modifying and checking' is used for adding, deleting, modifying and checking the label value in the characteristic label of a specific entity; the component content comprises an entity name, all alternative characteristic tag libraries corresponding to the entity, a selected tag group capable of adding value content, and tag items of the entity with the value content; the entity alternative feature tag library is obtained from the entity corresponding feature tags recorded in the entity tag framework template; when value content is added to the selected tag group, only a value model preset when the tag is created can be called; the new content of the label updated by the component is automatically stored in the data storage architecture; the component is triggered by function buttons of adding, viewing, modifying and the like in a system page and an application component, and automatically inherits the relevant parameters of a triggering position; the component candidate feature tag library and the tag value dictionary library can independently create new feature tags and value dictionary items, and created new contents can be used for this time and are automatically stored in the entity tag framework.

In the step S3, the metadata calling system aims to establish a metadata read-write channel between each page and each service application function of the system and the background database; the content comprises the following steps: reading and writing rules of the metadata; acquiring a metadata four-element method; the result of the metadata applies.

The calling system means that the whole system can complete all metadata addition, deletion, modification, searching and rendering only by establishing a standardized data interface for each requirement according to business requirements in the metadata generation and application processes of the system, wherein the calling, automatic logic processing and result generation of the digital model for the metadata are also included, and the result can be automatically stored in a new tag form of metadata.

The reading and writing rules of the metadata are as follows: when each front end of the system needs to read the characteristic value content of one of the four elements of metadata in the database, a request to the background database is automatically triggered, the request comprises specific data of a service number, an entity number and an entity characteristic name, and the existing unique metadata is read in the background under the condition of the three data, so that the purpose of reading the characteristic value content of the metadata is realized; when the system needs to write certain metadata into the database, the system automatically triggers, configures the component with the entity tag, automatically fills the service number, the entity number and the entity characteristic name transmitted by the context, manually or by using a specified specific interface fills the median characteristic content of the four elements, and writes the median characteristic content into the background database for storage.

The method for acquiring the four elements of the metadata comprises the following steps: the data of the service number, the entity number and the entity characteristic name in the four elements are automatically obtained from the context of the position of the trigger interface, and the data of the characteristic value is manually added or automatically obtained through a specified interface; the above-described inheritance relationship between the elements and the context is established when the context is configured.

The resulting application of metadata is: after the characteristic value data of the four elements of the metadata is acquired by the acquisition method, the system can render the value to a trigger area of a page; if the characteristic value data is newly written data, synchronously sending broadcast notification to the page and the application of the system while storing in the background, and triggering various applications.

The invention provides a production application system of zero-code visual information system metadata, which comprises the following steps:

a metadata calling unit: a calling system for building metadata.

The invention provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of any of the above methods.

The invention provides a zero-code visualization information system metadata-based production application device, which comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor realizes any one of the steps of the method when executing the program.

Compared with the prior art, the invention has the beneficial effects that:

2. in the calling process, the whole system only uses a unique standardized interface to realize the automatic calling of the data required by the interface and the application from the database, so that the development period is saved by more than half or even by several times and tens of times.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims

1. A production application method of zero-code visual information system metadata is characterized by comprising the following steps:

establishing a data storage architecture in a non-traditional form;

establishing a special label system of the method;

establishing a calling system of metadata;

in the data storage architecture, the stored metadata are of a single hierarchical structure, the membership and the logical relationship of the metadata do not need to be preset during system development, and all the metadata are only stacked and stored in the form of 1+ 1; all metadata are formed in the form of service number + entity characteristic name + characteristic value, and the structure is called as metadata four-element; the storage structure of the metadata belongs to sparse type, is not limited by the existing quantity of service categories, entity types and feature names, and has infinite expansibility; the background database only stores metadata with complete four elements, and does not have the information of a preset relational blank data table in the traditional development mode;

the establishment process of the special label system comprises the following steps: establishing an entity label frame; establishing an entity tag configuration component; establishing an entity information adding, deleting, modifying and checking service component; the entity label frame presents all entity names and all characteristics corresponding to each entity in the system in a template mode; the characteristics of the entity are composed in the form of tag name + tag value; all exclusive characteristics of the entity and the entity in the framework belong to tree structure logic relationship, and the entity have unique association relationship; the entity label configuration component can add a new entity or label without codes, and the added content inherits the logical relationship of the entity label framework; adding entity content comprising an entity name and an entity classification name; a step of designating an associated entity is required when an entity is added; adding labels comprises label name and label value model setting; adding a plurality of entities step by step, and setting a plurality of groups of label names and label value models in a combined type one-time adding mode or a step-by-step adding mode; the added content is automatically stored in the entity label frame; the adding, deleting, modifying and checking service component is used for adding, deleting, modifying and checking service aiming at the label value in the characteristic label of a specific entity; the component content comprises an entity name, all alternative characteristic tag libraries corresponding to the entity, a selected tag group capable of adding value content and tag items with the value content; the entity alternative feature tag library is obtained from the entity corresponding feature tags recorded in the entity tag framework template; when value content is added to the selected tag group, only a value model preset when the tag is created can be called; automatically storing the updated tag new content of the component into the data storage architecture; the component is triggered by adding, viewing and modifying function buttons in a system page and an application component, and automatically inherits the relevant parameters of a triggering position; the component candidate feature tag library and the tag value dictionary library can independently create new feature tags and value dictionary items, and created new contents can be used for this time and are automatically stored in the entity tag frame;

the metadata calling system aims at establishing a metadata reading and writing channel between each page and each service application function of the system and a background database; the content comprises the following steps: reading and writing rules of the metadata; acquiring a metadata four-element method; a resulting application of metadata; the reading and writing rules of the metadata are as follows: when each front end of the system needs to read the characteristic value content in a certain metadata four-element in the database, a request to the background database is automatically triggered, the request comprises specific data of a service number, an entity number and an entity characteristic name, and the existing unique metadata is read in the background under the condition of the three data, so that the purpose of reading the characteristic value content of the metadata is realized; when the system needs to write certain metadata into the database, the system automatically triggers the entity tag configuration component, automatically fills the service number, the entity number and the entity characteristic name transmitted by the context, manually or by using a specified specific interface fills the median characteristic content of the four elements, and writes the median characteristic content into the background database for storage; the method for acquiring the four elements of the metadata comprises the following steps: the data of the service number, the entity number and the entity characteristic name in the four elements are automatically obtained from the context of the position of the trigger interface, and the data of the characteristic value is manually added or automatically obtained through a specified interface; the inheritance relationship between the elements and the context is established when the context is configured; the resulting application of the metadata is: after the characteristic value data of the metadata four-element acquired by the acquisition method is acquired, the system can render the characteristic value data to a trigger area of a page; if the characteristic value data is newly written data, synchronously sending broadcast notification to the page and the application of the system while storing in the background, and triggering various applications.

2. A system for producing zero-code visual information system metadata, comprising:

a metadata calling unit: a calling system for establishing metadata;

the establishment process of the special label system comprises the following steps: establishing an entity label frame; establishing an entity tag configuration component; establishing an entity information adding, deleting, modifying and checking service component; the entity label frame presents all entity names and all characteristics corresponding to each entity in the system in a template mode; the characteristics of the entity are composed in the form of tag name + tag value; all exclusive characteristics of the entity and the entity in the framework belong to tree structure logic relationship, and the entity have unique association relationship; the entity tag configuration component can add new entities or tags without code, and the added content inherits the logical relationship of the entity tag framework; adding entity content comprising an entity name and an entity classification name; a step of designating an associated entity is required when an entity is added; adding labels comprises label name and label value model setting; adding a plurality of entities step by step, and setting a plurality of groups of label names and label value models in a combined type one-time adding mode or a step-by-step adding mode; the added content is automatically stored in the entity label frame; the adding, deleting, modifying and checking service component is used for adding, deleting, modifying and checking service aiming at the label value in the characteristic label of a specific entity; the component content comprises an entity name, all alternative characteristic tag libraries corresponding to the entity, a selected tag group capable of adding value content and tag items with the value content; the entity alternative feature tag library is obtained from the entity corresponding feature tags recorded in the entity tag framework template; when value content is added to the selected tag group, only a value model preset when the tag is created can be called; automatically storing the updated tag new content of the component into the data storage architecture; the component is triggered by adding, viewing and modifying function buttons in a system page and an application component, and automatically inherits the relevant parameters of a triggering position; the component candidate feature tag library and the tag value dictionary library can independently create new feature tags and value dictionary items, and created new contents can be used for the time and are automatically stored in the entity tag frame;

the metadata calling system aims at establishing a metadata reading and writing channel between each page and each service application function of the system and a background database; the content comprises the following steps: reading and writing rules of the metadata; a method for acquiring four elements of metadata; a resulting application of metadata; the reading and writing rules of the metadata are as follows: when each front end of the system needs to read the characteristic value content in a certain metadata four-element in the database, a request to the background database is automatically triggered, the request comprises specific data of a service number, an entity number and an entity characteristic name, and the existing unique metadata is read in the background under the condition of the three data, so that the purpose of reading the characteristic value content of the metadata is realized; when the system needs to write certain metadata into the database, the system automatically triggers the entity tag configuration component, automatically fills the service number, the entity number and the entity characteristic name transmitted by the context, manually or by using a specified specific interface fills the median characteristic content of the four elements, and writes the median characteristic content into the background database for storage; the method for acquiring the four elements of the metadata comprises the following steps: the data of the service number, the entity number and the entity characteristic name in the four elements are automatically obtained from the context of the position of the trigger interface, and the data of the characteristic value is manually added or automatically obtained through a specified interface; the inheritance relationship between the elements and the context is established when the context is configured; the resulting application of the metadata is: after the characteristic value data of the metadata four-element acquired by the acquisition method is acquired, the system can render the characteristic value data to a trigger area of a page; if the characteristic value data is newly written data, synchronously sending broadcast notification to the page and the application of the system while storing in the background, and triggering various applications.