CN110780859A - Service architecture based on user-defined form - Google Patents

Abstract

The invention relates to a service architecture based on a user-defined form, which comprises a form definer, a model generator, a form analysis engine, a form rendering engine and a memory, wherein the form definer is used for defining a form; aiming at the enterprise informatization process, a visual modeling tool and service are provided for the equipment, the process and the flow of the enterprise, and form self-definition is carried out on the equipment, the process and the flow of the enterprise on line, so that the system automatically creates a matched model for the equipment, the process and the flow. In another aspect, the present invention provides a management and rendering service to support automatic rendering of forms by computer Web, mobile App, wechat applets, and nailed micro applications, providing manual fill-in and sensor-based data acquisition and fill-in capabilities.

Description

Service architecture based on user-defined form

Technical Field

The invention relates to the field of application systems, in particular to a service architecture based on a user-defined form.

Background

With the progress of enterprise digital transformation and upgrading, enterprises in various industries more or less begin to research and develop digital management systems, including core mes (manufacturing Execution system), equipment operation and maintenance systems, routing inspection systems, and the like. The enterprise in multiple industry fields is analyzed and researched, and a set of system which is accurate and suitable for all four seas is difficult to develop, and the system is applied to various enterprises without modification to assist the digital transformation of the enterprises. The whole process of demand analysis, information modeling, flow reconstruction and system construction is often required to be carried out for each individual enterprise, which is time-consuming, labor-consuming and high in cost. Most importantly, because the condition of each enterprise is different, a pre-model or prototype is difficult to exist, so that a manager decision layer of the enterprise has intuitive knowledge on the digital enterprise and does not know the function, the flow and the value of the built system, thereby slowing down the decision process of the enterprise management decision layer and delaying the promotion of the digital process of the enterprise.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a service architecture based on a user-defined form, provides a visual modeling tool and service for the equipment, the process and the flow of an enterprise in the enterprise informatization process, and performs form self-definition on the equipment, the process and the flow of the enterprise on line, so that a system automatically creates a matched model for the equipment, the process and the flow. In another aspect, the present invention provides a management and rendering service to support automatic rendering of forms by computer Web, mobile App, wechat applets, and nailed micro applications, providing manual fill-in and sensor-based data acquisition and fill-in capabilities.

The purpose of the invention is realized by the following technical scheme:

a service architecture based on a self-defined form comprises a form definer, a model generator, a form analysis engine, a form rendering engine and a memory;

creating models aiming at different enterprises and storing the models in a memory;

creating a form through visualization of the form definer, and then submitting the form;

after the model generator receives the form, an enterprise business model matched with the form is automatically created from the model in the memory, and the form analysis engine generates a form script and rendering engine plug-ins aiming at different platforms;

and the form rendering engine calls the rendering engine plug-in of the corresponding platform to perform form rendering according to different platforms of the application system, so as to obtain the application system suitable for the platform.

According to the scheme, models which are in line with actual application of different enterprises are respectively created aiming at the different enterprises, when the enterprises need the application software system, the requirement form is created through the visual single definer, the system automatically matches the models for combined rendering after receiving the requirement form, and finally the application system which is in line with the client application platform is formed, so that repeated development of the same part of software is avoided, each model can be repeatedly utilized, and only the integrated rendering of each model is needed to be completed when the application system is created.

Further, the system also comprises a Restful Api interface which is unique based on an architecture, wherein the Restful Api interface is used for the ID of the incoming form;

and or, for continued integration with the application system as a data reception specification;

or, as a standard data exchange interface of the sensor and a third-party system, the data can be automatically transmitted and received and the format can be analyzed,

based on the Restful Api interface, the application system may use the form as a general input/output operation interface, where the form is a general input/output operation interface; can be used as a dynamic form for each service step of the workflow engine.

In the three modes, only the first-time form self-defining device needs to call a unique Api for integrated development, and the later applications do not need to be subjected to secondary programming but perform setting operation and connection operation through a form analysis engine of the form self-defining device.

And further, the system also comprises a data parser and a data filling window, when a scene of data filling or data receiving is involved, the system pops up a new data filling window, new data is stored in the memory through the data parser, and the form rendering engine requests the data parsing engine to obtain related object data and render the related object data and the form, and then the related object data and the form are sent to an application end to complete the data interaction process.

In addition, various simple data types, list data types, cascade data types, table data types, picture media data types and rich text document data types are supported in the implementation system of the invention. And the system has an open architecture, and can support more abundant data types through the plug-in.

Further, the memory includes a model memory, a form memory, and an object memory, which are respectively used for storing the model, the form, and the analyzed data.

Further, the system also comprises a data interface used for modifying or adding the model in real time.

Further, the model refers to a model matched with the equipment, process and flow of each enterprise, namely, a model is created for each type of equipment, process and flow.

Further, the creation and storage process of the model is as follows:

s100: respectively creating N models for each type of equipment, process and flow by a software developer;

s200: respectively endowing each class of N models with a code value, wherein the code value of each model in the initial state is the same;

s, 300: respectively creating a storage unit in a memory according to each type of equipment, process and flow, and performing storage sequencing according to code values of the models, wherein each model is stored in a parallel structure in an initial state;

s400: when matching is carried out according to the forms, after one model is selected to be successfully matched, the code value of the model is processed by +1, the model is stored in the storage unit in a pyramid structure step by step after being matched for multiple times;

s500: when the model is matched according to the form again, the system performs model matching in sequence from high to low according to the pyramid structure.

Further, after the models are matched for M times, M is larger than or equal to 3N, the code values of the models are still initial values, the models are automatically deleted, software developers select the submodel with the highest matching degree from the submodels according to the matching times of the models from high to low, secondary modeling is carried out on the basis of the submodels, a comprehensive optimal model is created, and the code value of the initial code of the optimal model is the +1 value of the highest code of the model in the storage unit.

The part is used as the core of the scheme, and the aim is to improve the applicable matching degree of each model and avoid that individual enterprises cannot find a proper model for matching in the matching process, so that the usability of the scheme is improved, and meanwhile, the usability of the system can be enhanced through continuous secondary modeling.

Further, the method also comprises application end opinion feedback, wherein the application end feedback application system improvement suggestion in the using process is used as one of reference bases of software developers during secondary modeling.

Furthermore, the service architecture also comprises a navigation module, wherein the navigation module respectively creates a navigation title according to different industries, and uploads or fills a form after entering a corresponding industry interface.

The invention has the beneficial effects that:

(1) classic models of various industries are integrated, so that system integration is performed, repeated operation in a software development process is avoided, and the burden of developers is reduced;

(2) the classical model is continuously updated, so that the matching degree of the model in practical application can be improved, the matching success rate is improved, and the scheme is suitable for various industries.

Drawings

FIG. 1 is a system architecture diagram of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail with reference to the following specific examples, but the scope of the present invention is not limited to the following.

As shown in FIG. 1, a service architecture based on a custom form includes a form definer, a model generator, a form parsing engine, a form rendering engine, and a memory.

The method comprises the following steps of establishing models aiming at different enterprises and storing the models in a memory, wherein the models refer to industry universal classical models, such as leave requests, attendance checking and the like related to personnel management;

the form creation is completed visually through a form definer, and then submission is performed;

after the model generator receives the form, an enterprise business model matched with the form is automatically created from the model in the memory, and a form analysis engine generates a form script and rendering engine plug-ins aiming at different platforms;

and calling a rendering engine plug-in of the corresponding platform by the form rendering engine according to different platforms of the application system to perform form rendering, so as to obtain the application system suitable for the platform.

As a preferred embodiment, it also includes a unique Restful Api interface for the ID of incoming forms;

and or, for continued integration with the application system as a data reception specification;

or, as a standard data exchange interface of the sensor and a third-party system, the data can be automatically transmitted and received and the format can be analyzed,

based on the Restful Api interface, the application system may use the form as a general input/output operation interface, where the form is a general input/output operation interface; can be used as a dynamic form for each service step of the workflow engine.

Namely, the system can be continuously integrated with an application system, the application system can use the form as a general input/output operation interface, can be used as a dynamic form of each service step of a workflow engine, and can be used as a standard data exchange interface of a sensor and a third-party system to realize automatic data receiving and sending and format analysis.

As a preferred embodiment, the system further comprises a data parser and a data filling window, when a scene of data filling or data receiving is involved, the system pops up a new data filling window, new data is stored in the memory through the data parser, the form rendering engine requests the data parsing engine, and after related object data and a form are obtained for rendering, the data is sent to the application end, and the data interaction process is completed.

As a preferred embodiment, the memory includes a model memory, a form memory, and an object memory, which are respectively used for storing the model, the form, and the analyzed data, and different memories are used for storing, so that the reading speed can be increased in the data addressing process, and thus the module matching and rendering can be performed quickly and accurately. In addition, as a preferable mode, the embodiment further includes a data updating interface for modifying or adding the models in real time, that is, in the present scheme, the models are not fixed, but updated in real time.

As a preferred embodiment, the model specifically refers to a model matched with the equipment, process and flow of each enterprise, that is, a model is created for each type of equipment, process and flow.

The creation and storage process of the model is as follows:

s100: software developers respectively create N models for each type of equipment, process and flow, wherein the value of N can be selectively designed according to specific conditions in the industry, for example, the models of flow and management are relatively few, the modes adopted by enterprises are different, but the equipment types are different, and the equipment assembled by different enterprises is different, so that the models for the equipment types are relatively more;

s200: respectively endowing each class of N models with a code value, wherein the code value of each model in an initial state is the same, the code can adopt a binary code, and the code of the initial value is designed to be 000000;

s, 300: respectively creating a storage unit in a memory according to each type of equipment, process and flow, and performing storage sequencing according to code values of the models, wherein each model is stored in a parallel structure in an initial state;

s400: when matching is carried out according to the forms, after one model is selected to be successfully matched, the code value of the model is processed by +1, when the code value of the model overflows, the model is permanently stored in the storage unit and only slightly modified, the storage position of the model in the storage unit is raised by one level, and after multiple times of matching, the model in the storage unit is stored step by step in a pyramid structure;

s500: when the model is matched according to the form again, the system performs model matching in sequence from high to low according to the pyramid structure.

As a preferred embodiment, after M times of matching of the model, M is more than or equal to 3N, the code value is still the initial value, then the code value is automatically deleted, a software developer selects the submodel with the highest matching degree from the models according to the matching times of the models, secondary modeling is carried out on the basis of the submodels, a comprehensive preferred model is created, and the code value of the preferred model is the highest code value of the model in the storage unit and is + 1. And finally, the service architecture also comprises a navigation module, wherein the navigation module respectively creates a navigation title according to different industries and uploads or fills a form after entering a corresponding industry interface.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A service architecture based on a self-defined form is characterized by comprising a form definer, a model generator, a form analysis engine, a form rendering engine and a memory;

creating models aiming at different enterprises and storing the models in a memory;

creating a form through visualization of the form definer, and then submitting the form;

after the model generator receives the form, an enterprise business model matched with the form is automatically created from the model in the memory, and the form analysis engine generates a form script and rendering engine plug-ins aiming at different platforms;

and the form rendering engine calls the rendering engine plug-in of the corresponding platform to perform form rendering according to different platforms of the application system, so as to obtain the application system suitable for the platform.

2. The custom form-based service architecture of claim 1, further comprising a Restful Api interface unique to the architecture, the Restful Api interface for ID of incoming forms;

and or, for continued integration with the application system as a data reception specification;

or, as a standard data exchange interface of the sensor and a third-party system, the data can be automatically transmitted and received and the format can be analyzed,

based on the Restful Api interface, the application system may use the form as a general input/output operation interface, where the form is a general input/output operation interface; can be used as a dynamic form for each service step of the workflow engine.

3. The self-defined form-based service architecture as claimed in claim 2, further comprising a data parser and a data filling window, when a scene of data filling or data receiving is involved, the system pops up a new data filling window, new data is stored in the memory through the data parser, and the form rendering engine requests the data parsing engine to obtain related object data and render the object data and the form, and then sends the object data and the form to the application end to complete the data interaction process.

4. The custom form-based service architecture of claim 3, wherein the memory comprises a model memory, a form memory, and an object memory, and is used for storing the model, the form, and the parsed data, respectively.

5. The custom form-based service framework of claim 1, further comprising a data update interface for modifying or adding said model in real-time.

6. The custom form-based service architecture of claim 1, wherein the model is a model matching the equipment, process and flow of each enterprise, i.e. a model is created for each type of equipment, process and flow.

7. The custom form-based service architecture of any of claims 1-6, wherein the model is created and stored by:

s100: respectively creating N models for each type of equipment, process and flow by a software developer;

s200: respectively endowing each class of N models with a code value, wherein the code value of each model in the initial state is the same;

s, 300: respectively creating a storage unit in a memory according to each type of equipment, process and flow, and performing storage sequencing according to code values of the models, wherein each model is stored in a parallel structure in an initial state;

s400: when matching is carried out according to the forms, after one model is selected to be successfully matched, the code value of the model is processed by +1, the model is stored in the storage unit in a pyramid structure step by step after being matched for multiple times;

s500: when the model is matched according to the form again, the system performs model matching in sequence from high to low according to the pyramid structure.

8. The service architecture based on the self-defined form as claimed in claim 7, wherein after the model is matched for M times, M is greater than or equal to 3N, the code value is still the initial value, and then the code value is automatically deleted, the software developer selects the submodel with the highest matching degree from the models according to the matching times of the models, and performs secondary modeling based on each submodel to create a comprehensive preferred model, and the initial code value of the preferred model is +1 of the highest code value of the model in the storage unit.

9. The custom form-based service framework of claim 8, further comprising an application-side opinion feedback, wherein the application-side feedback suggests improvement in the application system usage process as one of the references for software developers during secondary modeling.

10. The service architecture of claim 9, further comprising a navigation module, wherein the navigation module creates a navigation header according to different industries, and uploads or fills in the form after entering the corresponding industry interface.

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