CN111796815A - Application of full-automatic visual software building platform - Google Patents
Application of full-automatic visual software building platform Download PDFInfo
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- CN111796815A CN111796815A CN202010667935.0A CN202010667935A CN111796815A CN 111796815 A CN111796815 A CN 111796815A CN 202010667935 A CN202010667935 A CN 202010667935A CN 111796815 A CN111796815 A CN 111796815A
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Abstract
The invention discloses an application of a full-automatic visual software building platform, which comprises a page engine, a logic engine, a flow engine, a report engine, a deployment engine and a test engine which are combined to perform visual assembly real software application, and specifically comprises the following steps: the method comprises the steps of project construction, project module construction, module application construction, application page design, application logic design, application interaction design, flow design, report design, deployment design, test design and running report design, so that the working efficiency can be improved, the labor cost can be reduced, and the whole life cycle of a software project can be intelligently controlled; the software project development process can be changed into visual automatic drawing; the field industry standard can be quickly formed, and an effective template which can be repeatedly applied can be quickly formed without encoding; the repeated similar productivity is liberated, technicians are enabled to be more concentrated on the bottom-level algorithm, and the bottom-level algorithm can quickly form standard application components, so that the sustainable liberation productivity is achieved.
Description
Technical Field
The invention relates to the technical field of computer software, in particular to application of a full-automatic visual software building platform.
Background
The development whole life cycle of software in the past is generally as follows: project establishment, demand analysis, overall design, summary design, detailed design, prototype design, ui design, front-end development, rear-end development, unit test, integration test, online deployment, operation and maintenance, continuous integration and project acceptance inspection; software application development does not leave program codes, traditional software development needs to master some programming languages such as C, C #, java, Javascript, Sql and the like according to user requirements, and technologies related to software development include but are not limited to databases, caches, networks, containers, services, microservices, Devops and the like; the computer field relates to a wide range of industries, the used technical solutions are more, the technical standards and specifications are more and tedious, and the related computer professional field and the cross-industry business field are complex; however, the whole life process of software development is basically not changed, in order to reduce the labor cost of multi-person cooperation of software development and improve the working efficiency of software development, the project management and control of the whole life cycle is more scientific and intelligent; an application tool of a full-automatic visual software building platform is produced. Through the full-automatic visual software building platform, not only can a program developer be quickly and flexibly integrated and applied, but also common business personnel can quickly build projects or software products through visual modeling design; the full-automatic visual software building platform can reduce the labor cost, improve the software development efficiency and control the full life cycle of software projects; the full-automatic visual software building platform is easy to use, enhances, reduces the cost, improves the productivity, can form an industry application template or an industry application framework through model accumulation in the industry business field, and can quickly realize similar software application without coding through flexible and simple construction for similar application scenes.
Disclosure of Invention
The invention aims to provide application of a full-automatic visual software building platform.
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an application of platform is built to full-automatic visual software, includes and combines page engine, logic engine, flow engine, report engine, deployment engine, test engine, carries out visual assembly real software application, specifically includes: the method comprises the steps of project construction, project module construction, module application construction, application page design, application logic design, application interaction design, flow design, report design, deployment design, test design and running report design.
Preferably, the construction project comprises a construction project architecture diagram constructed by visualization; the project building module comprises a project splitting module according to requirements, and a plurality of project modules form an integral project; the building module application comprises building module application according to the project module, and the project module is formed by multiple modules of application.
Preferably, the designing application page comprises forming a page through assembly of components, and automatically forming a business model and a data model.
Preferably, designing the application logic comprises automatically forming a business logic diagram by creation of a logic unit.
Preferably, the application interaction design comprises automatically driving the encryption interaction logic by taking an application page as a starting point and taking a logic execution sequence and a data flow sequence as guidance, and automatically forming an interaction design drawing.
Preferably, the process design includes using an organizer role as a node unit, controlling process flow permission by node permission allocation, and binding an application page or an automatically-driven logic to drive business process automation.
Preferably, the report design comprises a set which takes a page-driven business model and a data model as report presentation, and the visualization design is carried out by presenting a calculation result in a chart mode through self-defined flexible selection of a function formula of statistical analysis and a mathematical formula of scientific calculation.
Preferably, the deployment design comprises an overall deployment execution logic design and a deployment network topological graph; all nodes in the deployment network topological graph form a deployment network; each deployment node also comprises a node deployment execution logic design; the overall deployment execution logic drives the node execution logic; producing a network structure of the operating environment through the design of the network topological graph; exporting deployment packages designed in all links through a full-automatic software building development platform; then, a deployment package is led in through a deployment node; finally, automatic operation logic for designing the deployment logic and deploying the network architecture diagram is formed.
Preferably, the test design and operation report includes an automatic test model facing the project full life cycle, an application test page corresponding to the application page is constructed, test logic corresponding to the application logic, monitoring and data collection and analysis of business process flow circulation, and report data acquisition and presentation inspection corresponding to the report design; the test page is mainly used for checking whether a design page is matched with a page presentation requirement or not, and the test logic checks whether a logic design meets a service requirement logic requirement or not; the flow circulation and report data pass the logic verification of test design to determine whether the production operation requirements are met; the whole process of the test design automatically forms a detailed test report through visual modeling and testing of each link and network deployment.
Compared with the prior art, the invention has the following beneficial effects:
the invention can not only improve the working efficiency and reduce the labor cost, but also intelligently control the whole life cycle of the software project; the software project development process can be changed into visual automatic drawing, so that common service personnel can realize software development and quickly produce software projects; the field industry standard can be quickly formed, and an effective template which can be repeatedly applied can be quickly formed without encoding; the repeated similar productivity is liberated, technicians are enabled to be more concentrated on the bottom-level algorithm, and the bottom-level algorithm can quickly form standard application components, so that the sustainable liberation productivity is achieved.
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FIG. 1 is a schematic diagram of the general functional guide of the present invention;
FIG. 2 is a schematic diagram of a project operation closed loop according to the present invention;
FIG. 3 is a schematic diagram of the technical architecture of the present invention;
FIG. 4 is a schematic diagram of a project architecture of the present invention;
FIG. 5 is a schematic view of a page designer operation page of the present invention;
FIG. 6 is a schematic diagram of a logic designer operating page of the present invention;
FIG. 7 is a schematic view of an interactive designer operating page of the present invention;
FIG. 8 is a schematic diagram of a logical interface input definition operation page according to the present invention;
FIG. 9 is a schematic diagram of a logical interface variable definition and output definition operation page of the present invention;
FIG. 10 is a schematic illustration of a deployment design of the present invention;
FIG. 11 is an interaction design diagram of the present invention;
FIG. 12 is a diagram illustrating encryption rules in the interactive design of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 12, the embodiment provides an application of a full-automatic visualization software building platform, wherein the full-automatic visualization is a program-code-free development software project; the method for efficiently producing the high-quality software project by using the software building platform specifically comprises the following steps:
(1) building a project architecture diagram: the project architecture diagram is an integral architecture diagram of the project module application combination, and is automatically drawn through mouse operation; the automatic drawing of the project architecture diagram has various technical schemes, and the front end adopts the project architecture diagram effect realized by html5, css3, JS and div + table layout.
(2) Building module nodes: the module nodes classify the service of the whole project and automatically draw the service through mouse operation; the module nodes are primitives belonging to the project architecture diagram and are part of the overall project architecture diagram.
(3) Constructing an application node: the application nodes belong to the service subdivision of the module nodes and are automatically drawn through mouse operation; the application nodes are also the primitives belonging to the project architecture diagram, the application nodes belong to a part of the application module, and the application nodes can be seen in the whole project architecture diagram.
(4) Constructing a page node and designing a page: the page node is a presentation mode of a software application running state and is also a service engine for automatically driving a field service model and a data structure model; the page nodes belong to a part of application nodes and can be seen in the whole project architecture diagram; clicking on a page node through a mouse will cause a function menu item to appear, and the function menu includes but is not limited to: designing a page, acquiring a list access address, acquiring a form access address, editing a name and deleting the page; entering a universal page designer for designing by designing a page menu, wherein the universal page designer is also called a universal form designer and is divided into a control panel, a page design area, a global style attribute panel, a global service attribute panel, a style attribute panel and a service attribute panel according to functional layout; the control panel can be used for continuously upgrading the extended field components, the business components and the industry components by a software inventor or an authorized developer. Providing the components for an application developer, dragging the components by a mouse, putting the components into a design area for layout, and assembling the components into an application page; the components are divided into input components, output components and only-style components, wherein the input components can automatically form a data model of the service, such as a digital control, a single-line text, a pull-down selection, a multi-selection, a picture uploading, a department selection, a personnel selection and a role selection are input components, such as a text description, a static picture and a rotation diagram are only-style components, such as a service serial number, a current human organization, a current human department and a current role belonging to the service output components; the page design area is the presentation effect of the page in the running state, namely what you see is what you get; the global style attribute panel is used for configuring component appearance styles of all controls in the page design area, such as background color, title color, control fonts and the like; the global service attribute panel is used for expanding or upgrading the service attributes of the page, such as service ID, strategy of a service model bar, integral service description and the like; the control style attribute panel is used for configuring the appearance style of a certain control in the design area, and the default control style inherits the global control style; the service attribute panel of the control is used for expanding or upgrading the service attribute of the control, such as the service ID of the control, the data source logic configuration of the control and the logic configuration of the control value change; when the page design is stored, the page-driven business model is automatically driven to generate the business model when the Java back end is processed, and then the database table model is generated or the existing database table model is bound according to the business model binding strategy.
(5) Constructing a logic node and designing a logic: the logic node can see primitives in the project overall architecture diagram, and the logic design is an indirect input-output relation which is realized in an independent logic designer and is decoupled with a page; the design logic is the execution logic of the software application running state, and the design state comprises interface input and output parameter definition, logic unit creation, logic call selection, user-defined condition branching, variable assignment and traversal processing data; designing a logic, namely creating a logic execution unit in an independent logic designer by clicking a mouse, wherein the front end of the logic execution unit is a logic execution diagram realized by adopting an html5+ css3+ JavaScript + div + table + vue + jquery + artTemplate engine; the logic execution diagram is automatically drawn through simple mouse operation, the logic execution diagram is similar to the logic used in java, C #, C, JavaScript in the traditional development, and the only difference is that java codes are automatically generated when the logic design diagram is stored and automatically compiled into an interface which can be called in a running state; the languages of java, C #, nodjs and the like also need to be compiled through a compiling and developing tool and then deployed to complete the interface which can be called in the running state.
(6) Application interaction design: the encryption control is used for controlling the interaction of front and back end interfaces of the application software page and the transmission of a dynamic interface; for most online software applications, the safety of front-end and back-end interaction needs to be considered, and the interaction design not only considers the front-end and back-end interaction, but also designs the safety encryption control of the front-end and back-end interaction, so as to prevent the control of data falsification; the interactive design is also realized by clicking a graphic element through a mouse to automatically form an interactive design drawing; the execution logic described by the interactive design drawing is the interactive process of the front-end page and the back-end logic of the running state, the software application participants are accessed by the encrypted interface parameters automatically driven and generated by changing the interactive design drawing in the interactive process of the software running state, the interface encrypted parameters accessed by each login person in each login are different, the encrypted interface adopts short-connection fixed encryption, and the encrypted parameters adopt RSA asymmetric encryption according to the current person tokenID.
(7) Designing a flow: the business flow is a business flow process similar to the logic engine in the software application running state, and is a business flow process for connecting organizations, personnel, roles, application pages and executing logic in the software application in the running state; the design state front end adopts a service flow chart drawn by a closed-loop flow algorithm realized by html5, css3, javascript and div + table layout, and the service flow chart is automatically drawn by creating a flow node through mouse clicking; and analyzing the execution process of the closed-loop flow chart node in the software application running state, and automatically driving the circulation of the service node.
(8) Report form design: based on the calculation model encapsulation of statistical analysis, scientific calculation, big data analysis and the like, diagram components providing different presentation modes in a full-automatic software building and developing platform are formed, and a report definition model is formed by selecting field items and a calculation formula in a business model; automatically forming a business statistical report according to the report definition model in the running state; the report design state adopts a uniform layout style of a follow-on page design, a report control panel, a report design area, report style configuration and report service configuration; the design state of the report designer inherits the core function of the page designer, and comprises a component implementation mechanism, a component extension mechanism, a rendering mechanism of a component running state and a data binding mechanism of the component; and the running state performs logic execution and diagram presentation according to the design state configuration.
(9) And (3) test design: through the test design of each link in the project construction, each link can be ensured to normally run in the running state; the test design can be used as a module node in the project design, an independent test project can be independently established through the application, and the automatic test of one-to-one correspondence of the complete nodes is formed by designing according to the module, the application, the page, the logic and the flow.
(10) Deployment design: combining with test design, planning deployment, automatic deployment and automatic test of application software, and finally providing an interactive software project capable of running sustainable integration; the deployment design also comprises the steps that a node creates an automatic generation deployment architecture topological graph, and a full life cycle solution of automatic deployment automatic testing is formed by combining logic design; the front end of the deployment design state adopts a deployment architecture topological graph realized by html5, css3, javascript and div + table layout; clicking a deployment node through a mouse, and designing deployment node logic which is completely the same as the logic design process; and the running state automatically executes and automatically tests through a logic execution sequence in the deployment architecture diagram, and finally forms a complete running report and a test report.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (9)
1. The utility model provides an application of platform is built to full-automatic visual software which characterized in that: the method comprises the following steps of combining a page engine, a logic engine, a flow engine, a report engine, a deployment engine and a test engine, and carrying out visual assembly of real software application, and specifically comprises the following steps: the method comprises the steps of project construction, project module construction, module application construction, application page design, application logic design, application interaction design, flow design, report design, deployment design, test design and running report design.
2. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the construction project comprises a construction project architecture diagram constructed through visualization; the project building module comprises a project splitting module according to requirements, and a plurality of project modules form an integral project; the building module application comprises building module application according to the project module, and the project module is formed by multiple modules of application.
3. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the design application page comprises a page formed by assembling components, and a business model and a data model are automatically formed.
4. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the designing the application logic includes automatically forming a business logic diagram through creation of logic cells.
5. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the application interactive design comprises the steps of automatically driving encryption interactive logic by taking an application page as a starting point and taking a logic execution sequence and a data flow sequence as guidance, and automatically forming an interactive design drawing.
6. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the process design comprises the steps of taking an organizer role as a node unit, controlling process flow permission through node permission distribution, and binding an application page or automatically driving logic so as to drive business process automation.
7. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the report design comprises a set which takes a page-driven business model and a data model as report presentation, and the visualization design is carried out by presenting a calculation result in a chart mode through self-defined flexible selection of a function formula of statistical analysis and a mathematical formula of scientific calculation.
8. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the deployment design comprises an overall deployment execution logic design and a deployment network topological graph; all nodes in the deployment network topological graph form a deployment network; each deployment node also comprises a node deployment execution logic design; the overall deployment execution logic drives the node execution logic; producing a network structure of the operating environment through the design of the network topological graph; exporting deployment packages designed in all links through a full-automatic software building development platform; then, a deployment package is led in through a deployment node; finally, automatic operation logic for designing the deployment logic and deploying the network architecture diagram is formed.
9. The application of the full-automatic visualization software building platform according to claim 1, wherein the application comprises the following steps: the test design and operation report comprises an automatic test model facing the project full life cycle, an application test page corresponding to the application page is constructed, test logic corresponding to the application logic, monitoring and data collection and analysis of business process flow, and report data acquisition and presentation inspection corresponding to the report design; the test page is mainly used for checking whether a design page is matched with a page presentation requirement or not, and the test logic checks whether a logic design meets a service requirement logic requirement or not; the flow circulation and report data pass the logic verification of test design to determine whether the production operation requirements are met; the whole process of the test design automatically forms a detailed test report through visual modeling and testing of each link and network deployment.
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Cited By (7)
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