CN112527250A - Software development platform based on visualization - Google Patents

Abstract

The invention discloses a visualization-based software development platform, which adopts the technical scheme that the visualization-based software development platform comprises the following main points: the system comprises a login module, a user interface, a configuration module and a database, wherein the login module is used for entering the user interface, the user interface is used for configuring the system, the configuration module comprises a form configuration module, an operation configuration module, an inquiry configuration module, an authority configuration module, a process configuration module, a data visualization module, a data configuration module and a VDT module, the form configuration module is used for establishing a system form in a dragging and pulling manner, the process configuration module is used for establishing an approval process for the system form, the data visualization module is used for establishing a visualization large screen by a user, the data configuration module is used for processing and operating data in the system form, and the VDT module is used for configuring a program by the user, the software development platform can be used for autonomously configuring a set of platform suitable for an enterprise operation management system of a user, configuring an Internet of things system by connecting equipment and matching with personalized programs.

Description

Software development platform based on visualization

Technical Field

The invention relates to the technical field of enterprise operation, in particular to a visualization-based software development platform.

Background

At present, 4000 thousands of small and medium-sized enterprises in China account for 99 percent of the total number of the enterprises. The annual rate of 28% is increasing, contributing 60% of GDP, 50% of tax and 80% of urban employment in china. The intelligent monitoring requirement of the industrial industry is increasing, and the system, the equipment connection and the Internet of things are developing into a trend. The internet of things relates to almost every aspect of our lives. Simply connecting "things" that have never been connected before will bring new data awareness, turning into a meaningful revolution. Since new networking things can reach billions, a new wave of data must be triggered, enterprises want to better master the expected ROI, cost and scalability, while IT managers try to deal with integration, interoperability and management issues.

At present, the enterprise system has the following defects: 1. management cannot keep up with the development of enterprises, value, habit and practice cannot keep up with the development of enterprises, and managers have no management concept. 2. The enterprise management system is selected, each enterprise has own independent service, and the existing systems on the market are single and have incompletely matched functions; custom development costs are high (personnel investment, capital investment). 3. The system has weak informatization consciousness, poor enterprise information management and weak enterprise management foundation. The enterprise management has no scientific and clear standard, no perfect statistics and metering system and a large amount of data confusion. 4. The large personnel flow causes the difficult business handover, all factors cause the large personnel flow of enterprises, the nonstandard and complicated business and management thereof cause the difficult business handover, the handover information is faulted, and the business is restricted by staff.

Moreover, how the enterprise is rapidly intelligentized with own product, the enterprise has the function of the Internet of things, the process is very complicated, and the cost is also extremely high. Equipment manufacturers need to define functional attributes, develop APP and panels, develop equipment control codes, firmware and other embedded developments; meanwhile, the APP development cost of Android and iOS, the equipment end embedded development cost, the cloud service development cost and the like are required to be invested, with the wide application of technologies such as artificial intelligence and cloud computing and the like and the promotion of the enterprise digital intelligence transformation requirement, the penetration degree of the Internet of things in each vertical industry is deepened, and the Internet of things is distributed in dispute, such as Internet science and technology enterprises, communication enterprises, IT service enterprises and leading enterprises in the traditional industry.

In summary, the present enterprise needs a system that can be customized for itself, which not only facilitates the employees and managers to quickly get the best of themselves, but also can make the interface requirements that meet the image of the enterprise itself, and can customize the personalized exclusive program. The system and the monitoring equipment of the enterprise customized Internet of things are provided, and a high-efficiency and convenient development tool is provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a visualization-based software development platform which can assist a user to autonomously configure a set of platform suitable for the enterprise operation management system of the user according to actual requirements and a connecting device to configure an internet of things system and match personalized programs.

In order to achieve the purpose, the invention provides the following technical scheme: a visualization-based software development platform comprises: the system comprises a login module, a user interface, a configuration module and a database;

the login module is used for entering a user interface;

the user interface is used for presenting user configuration;

the configuration module is connected with the database and used for configuring a user interface, and comprises a form configuration module, an operation configuration module, an inquiry configuration module, an authority configuration module, a process configuration module, a data visualization module, a data configuration module and a VDT module;

the form configuration module is used for establishing a system form in a dragging mode;

the operation configuration module is used for processing operation configuration on data in the system form;

the query configuration module is used for a user to perform query operation configuration;

the authority configuration module is used for establishing authority management configuration by a user;

the process configuration module is used for establishing an approval process for the system form;

the data visualization module is used for a user to establish a visualization large screen;

the data configuration module is used for processing the data in the system form;

and the VDT module is used for configuring a program by a user.

The invention is further configured to: the form configuration module comprises an assembly module, a design submodule and an attribute configuration submodule;

the component module is used for configuring the form into the design sub-module and comprises a basic component unit, a layout component unit, a high-level component unit and a system component unit;

the basic component unit comprises a plurality of basic components and is used for dragging and configuring the basic components into the design sub-module;

the layout component unit is used for carrying out layout configuration on the basic components in the design sub-module;

the high-level component unit is used for associating other system forms;

the system component unit is used for automatically generating information of a system form, such as new building time, new building people, updating time, updating people, responsible people, departments and the like;

the design submodule is used for providing a configuration area for the form configuration;

the attribute configuration submodule is used for configuring the self attribute of the basic component in the design submodule.

The invention is further configured to: the process configuration module comprises a start node submodule, a fill node submodule, an approval node submodule, a copy node submodule, a sub-process submodule and an end node submodule;

the starting node submodule is used as the start of the process;

the end node submodule is used as the end of the process;

the filling node submodule is used for adding a flow step;

the examination and approval node submodule is used for adding a process step needing examination and approval in the process;

the copying node submodule is used for adding a process step which needs copying more in the process;

and the sub-process sub-module is used for nesting the processes of other forms in the process.

The invention is further configured to: the data configuration module is respectively connected with the form configuration module, the process configuration module and the VDT module and is used for providing data support.

The invention is further configured to: the configuration module further comprises a payment unit, a C interface unit, a D interface unit, a pushing unit and a collecting unit.

The invention is further configured to: the VDT module comprises a program module and a generation module connected with the program module, wherein the program module comprises a data source sub-module, an assembly sub-module, a style presentation sub-module, a global method sub-module, an event sub-module and a platform service;

the module sub-module is respectively connected with the style presenting sub-module, the event sub-module and the data source sub-module;

the event submodule is connected with the global method submodule;

the global method sub-module is connected with the platform service;

the data source sub-module is connected with the platform service;

the style presentation submodule is used for constructing a program interface style;

the component submodule comprises a plurality of different program components and is used for a user to pull and configure a program interface for the program components;

the event submodule is used for binding event information of a program component in the program interface;

the data source submodule is used for binding data of program components in the program interface and generating a form and submitting the form to transmit data to the platform service for data storage;

the event submodule is also used for calling a corresponding method to the global method submodule according to event information required by the program assembly, and realizing functional correspondence between data in the program assembly and the event information through the corresponding method;

the global method submodule is used for carrying out interface calling on the platform service;

the generating module is used for generating a program application end according to the configured program module.

The invention is further configured to: the generation module comprises a two-dimension code generation submodule, the program application end comprises a PC end and a mobile end, and the two-dimension code generation submodule is used for generating a corresponding program two-dimension code.

The invention is further configured to: the sub-module of the component comprises buttons, text, input boxes and … …. (ii) a

The style presentation submodule comprises a layout, an interface, a style border and … …. (ii) a

The event sub-modules include click event, binding value change event, initialization event, … …. (ii) a

The global method sub-modules comprise program native methods, functions, interface requests, route hops and … …. (ii) a

The data source submodule comprises static data, application data, interface data, form data, data source mapping and … …. .

In conclusion, the invention has the following beneficial effects: the user only needs to log in a configuration interface through a login module through a designated platform, and clicks to create a new application through the data support of the form configuration module, the operation configuration module, the query configuration module, the permission configuration module, the flow configuration module, the data visualization module and the data configuration module, and then a normal form design link is started, wherein a form design page is divided into three parts from left to right, and the three parts are respectively: the device comprises a component area, a design area and an attribute configuration area. Clicking on a component from the left component area or dragging a component from the component area to the design area may add a component; in designing the component in the area, the attribute of the component can be configured in the rightmost component attribute; form properties may configure the properties of the form.

And after the form design is finished, entering a 'process design' page to carry out process design. Not all forms need flow, so the flow is not opened during the initialization of the forms, and the 'open' opening flow needs to be clicked. After the process is started, the basic process is configured by default: start- > launch node- > examine and approve node- > end.

After the 'process design' is completed, list design is started, and the list design is used for various configurations of form presentation in the application. Including configurations with user default modes, query conditions, data ranges, statistics settings, list settings, calendar settings, and card settings.

The extension setup is the last step of the configuration, typically used for special processing of data. The expansion setting comprises operation design, data range, printing template, submission and verification, business rule and many-to-many relationship.

And in the whole process, the configuration module provides support on methods and data for the user interface, and a user only needs to configure event information, corresponding relations, flow relations and layouts and the user belongs to in the configuration process, so that the operation experience of what you see is what you get can be formed, the user experience is improved, the system is not limited to the forms of ERP, CRM, OA and the like, and the system which is complete in configuration continuously is quickly built in a configuration mode. In short, the system is a system for configuring the personalized demand system.

Moreover, can also carry out swift simple configuration procedure through the VDT module, this procedure can be applicable to the hardware equipment of multiple difference, can satisfy most user demand, even if the user who does not understand the code, also can easily get one's hand, the configuration is fast, it is fast to generate the procedure, simple to operate, for the software developer who is everywhere provides the superstrong software middle counter service support of flexibility, help the developer to reduce the development degree of difficulty, practice thrift the development human cost, improve development efficiency and profit.

With the mode that building blocks were built, drag the visual interface who draws and present, the threshold of entrying is low, and non-software technology is gone out and can all easily be operated, increases substantially all kinds of managerial ability of enterprise, promotes the business demand, reduces the cost in business, and helping hand enterprise informatization provides high-efficient facility for enterprise's customization thing networking systems, supervisory equipment.

Drawings

FIG. 1 is a functional block diagram of a software development platform;

FIG. 2 is a functional block diagram of a VDT module;

FIG. 3 is a flow chart of a method of configuring a program.

Reference numerals: 1. a login module; 2. a user interface; 3. a configuration module; 31. a form configuration module; 32. An operation configuration module; 33. a query configuration module; 34. an authority configuration module; 35. a flow configuration module; 36. a data visualization module; 37. a data configuration module; 38. a VDT module; 4. a database; 5. a generation module; 51. a two-dimensional code generation submodule; 6. a program module; 61. a data source submodule; 62. an assembly sub-module; 63. a style presentation sub-module; 64. a global method sub-module; 65. an event submodule; 66. and (4) platform service.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 3, in order to achieve the above object, the present invention provides the following technical solutions: a visualization-based software development platform comprises: the system comprises a login module 1, a user interface 2, a configuration module 3 and a database 4;

the login module 1 is used for entering the user interface 2;

a user interface 2 for presenting user configurations; the user interface serves as a service system for the configured user and also as an entrance for entering the configuration.

The configuration module 3 is connected with the database 4, and the configuration module 3 comprises a form configuration module 31, an operation configuration module 32, an inquiry configuration module 33, an authority configuration module 34, a flow configuration module 35, a data visualization module 36, a data configuration module 37 and a VDT module 38;

the form configuration module 31 is used for establishing a system form in a dragging mode;

the operation configuration module 32 is used for performing processing operation configuration on data in the system form;

the query configuration module 33 is used for configuring query operation for a user;

a permission configuration module 34, configured to enable a user to establish a permission management configuration;

the process configuration module 35 is configured to establish an approval process for the system form;

a data visualization module 36 for a user to establish a large visualization screen; the large screen is composed of various statistical charts, such as bar charts, line charts, tables, and the like.

The design of the invention only needs a user to log in a configuration interface through a login module 1 through a specified platform, click to create a new application through the data support of the form configuration module 31, the operation configuration module 32, the query configuration module 33, the authority configuration module 34, the process configuration module 35, the data visualization module 36 and the data configuration module 37, and then start a normal form design link, wherein a form design page is divided into three parts from left to right, which are respectively: the device comprises a component area, a design area and an attribute configuration area. Clicking on a component from the left component area or dragging a component from the component area to the design area may add a component; in designing the component in the area, the attribute of the component can be configured in the rightmost component attribute; form properties may configure the properties of the form.

And after the form design is finished, entering a 'process design' page to carry out process design. Not all forms need flow, so the flow is not opened during the initialization of the forms, and the 'open' opening flow needs to be clicked. After the process is started, the basic process is configured by default: start- > launch node- > examine and approve node- > end.

After the 'process design' is completed, list design is started, and the list design is used for various configurations of form presentation in the application. Including configurations with user default modes, query conditions, data ranges, statistics settings, list settings, calendar settings, and card settings.

The extension setup is the last step of the configuration, typically used for special processing of data. The expansion setting comprises operation design, data range, printing template, submission and verification, business rule and many-to-many relationship.

And in the whole process, the configuration module 3 provides support on methods and data for the user interface 2, and a user only needs to configure event information, corresponding relations, process relations and layout in the configuration process, so that the operation experience of what you see is what you get can be formed, the user experience is improved, the system is not limited to forms of ERP, CRM, OA and the like, and the system which is complete in configuration can be quickly built and continuously in a configuration mode. In short, the system is a system for configuring the personalized demand system.

Moreover, can also carry out swift simple configuration procedure through VDT module 38, this procedure can be applicable to the hardware equipment of multiple difference, can satisfy most user demand, even if the user of not understanding the code, also can easily get one's hand, the configuration is fast, it is fast to generate the procedure, simple to operate, for the software developer who is everywhere provides flexible superstrong software middle counter service support, help the developer to reduce the development degree of difficulty, practice thrift the development human cost, improve development efficiency and profit.

With the mode that building blocks were built, drag the visual interface who draws and present, the threshold of entrying is low, and non-software technology is gone out and can all easily be operated, increases substantially all kinds of managerial ability of enterprise, promotes the business demand, reduces the cost in business, and helping hand enterprise informatization provides high-efficient facility for enterprise's customization thing networking systems, supervisory equipment.

The large screen design interface is integrally divided into four regions.

The upper part is a control type area used for selecting the type of the control;

the left side is a control area, and a corresponding control is displayed according to the selection of the control type area;

the right side is an attribute setting area which displays the layer attributes of the drawing area and displays the corresponding style attributes and data source attribute setting items according to the selected control;

the middle is a canvas area which is used for the operations of layout, display, selection and the like of the control.

And the user displays statistical data, a data list, analysis data and the like according to the needs of the user.

And the user does not need to manually collect data, and the data binding operation is carried out according to the selected data source type by dragging the required control.

The data configuration module 37 is used for processing the data in the system form;

a VDT module 38 for a user to configure the program.

The form configuration module 31 comprises an assembly module, a design submodule and an attribute configuration submodule;

the component module is used for configuring the form in the design sub-module and comprises a basic component unit, a layout component unit, a high-level component unit and a system component unit;

the basic component unit comprises a plurality of basic components and is used for dragging and configuring the basic components into the design sub-module; the basic component is a main component of the form, and the correlation of the form content can be completed by the basic component.

The layout component unit is used for carrying out layout configuration on the basic components in the design sub-module; the layout component is used for performing layout configuration on other components. The grouping header is used for classifying and grouping the components in the form; note that adding a table and two columns in a row and then dragging components in the row can only drag components from the component area into the table or two columns in a row.

The high-level component unit is used for associating other system forms; the related form of the high-level component can be set and related to other forms, the form and the field to be related can be configured in the component attribute, the tab of the form is also configured in the component attribute, and data filling, data range, data constraint and the like are configured in the attribute; the association attribute, namely the reference mapping, is to map the association form back by referring to other fields in a certain piece of data, so the association attribute is configured on the premise that the association form is configured; the formula field is used for calculating the number field in the form, and a function in the system can be added for calculation.

The system component unit is used for automatically generating information of a system form, such as new building time, new building personnel, updating time, updating personnel, responsible personnel, departments and the like; the system components have new creation time, new creator, update time, updater, principal and department by default, and the system fields are unique, i.e. can be added only once. If the process is started, the system component adds a component of the process node to record the state of the process.

The design submodule is used for providing a configuration area for the form configuration; the presentation of the design area is the final presentation style of the form, and the what we see of our system is not perfectly reflected. If one row and two columns of elements are used, the row of the finally designed form is two columns. The components of the design area can be dragged up and down to perform the sorting operation. And selecting the component, and copying and deleting the component.

And the attribute configuration submodule is used for configuring the self attribute of the basic component in the design submodule. The attribute configuration area is divided into two parts: component properties and form properties. The component attribute is used for configuring the self attribute of the currently selected component, and the attribute is different according to the difference of the components; the form attribute is the attribute configuration of the whole form, the operation of changing the form name and adding the icon of the form can be carried out, and when the check display is a tree interface, the 'upper-level' field can be automatically added at the top.

The process configuration module 35 includes a start node sub-module, a fill node sub-module, an approval node sub-module, a copy node sub-module, a sub-process sub-module, and an end node sub-module;

a start node submodule for starting the process; the start node is used for starting the process, the node is selected, and the name of the node can be changed in the right basic setting.

The end node submodule is used as the end of the process; and the ending node is used for ending the flow, the node is selected in the same way, and the name of the node can be changed in the right basic setting.

Filling in a node submodule for adding a flow step; a filling node may be understood as a basic node. In filling in the basic settings of the nodes, the node names, the sponsors and the operating rights can be changed. The operation authority can configure the authority for all the fields added in the form design. Deleting the node is also in the base set-up. The advanced settings for filling out the nodes are function buttons, node flow rules and others. The function buttons are used for turning on and off each operation button with function property on the node; the node circulation rule is used for controlling the condition of the node flow direction and is generally used for multiple processes; in other configurations, it is basically an extended conditional option of the node.

The examination and approval node submodule is used for adding a process step needing examination and approval in the process; the basic setting of the examination and approval nodes is basically the same as that of the filling nodes, namely, an administrator of the filling nodes is an examination and approval person at the examination and approval nodes and is used for setting the person needing examination and approval for changing the nodes, and the rest of the settings are the same as those of the filling nodes.

The high-level settings of the approval nodes are filled in similarly to the high-level settings of the nodes.

The copying node submodule is used for adding a process step which needs copying more in the process; the basic setting of the copying node is basically the same as the basic setting of the filling node and the examining and approving node, namely, an operator of the filling node is the copying operator at the copying node, and the other settings are the same as the filling nodes. The advanced settings of the carbon copy node are used to set the notification of carbon copy messages. The notification may be provided with system default information or the user may customize the content of the notification message.

And the sub-process sub-module is used for nesting the processes of other forms in the process. The names of the nodes can be changed in the basic setting of the sub-processes; selecting a flow of a form to be nested, provided that the form already has a flow; the delete node is also in the base set-up. The high-level setting of the sub-process is used for setting the flow of the triggering and ending of the sub-process.

The list design comprises a user default mode sub-module, a query condition sub-module, a data range sub-module, a statistics setting sub-module, a list setting sub-module, a card setting sub-module, a calendar setting sub-module and a time axis setting sub-module;

the user default mode submodule is used for switching a form mode, and the form mode comprises a list mode, a card mode, a calendar mode and a time axis mode; the mode can be understood as the style of form presentation, including a list, a card, a calendar and a time axis, and a user can set a default mode according to business requirements, wherein the default mode is used for setting the form initial presentation and is presented in the list mode by default. At the upper right side of the configured form, the mode can be switched by the user.

The query condition submodule is used for setting query conditions for the card mode; the inquiry condition configuration is for the card mode only. Clicking 'add query condition', displaying all fields added in 'form design', and checking to add. After the fields are added, the fields can be dragged up and down to be sorted.

The data range submodule is used for screening the data of the form; the data range in the list design is used for filtering the data of the form.

And adding a data range, selecting a popup frame according to the occurrence condition, and creating a new data range.

The statistic setting submodule is used for carrying out data statistics on the list mode; the statistics setting is used for statistics of data in the list mode. The counted data is shown above the list. The statistical settings may perform maximum, minimum, average, and aggregate calculations on the datatype field. The text-type field may be counted and deduplicated.

The list setting submodule is used for carrying out layout setting on the list mode; the list setting is used for configuring various attributes presented by the list in the list mode of the form. Clicking on 'list set', also under 'user default mode', a list attribute configuration item appears. The fields added subsequently need to be checked under the list fields to be presented in the form, and the fields can be sorted by dragging up and down.

The card setting submodule is used for carrying out layout setting on the card mode; the card is set for the configuration of various attributes presented by the card in the card mode. Click on 'card settings', again under 'user default mode', card property configuration items appear. The selected fields in the 'content field' drop-down box are fields presented on the form in card mode, and the fields added below can be dragged up and down to perform sorting operations on the fields.

The calendar setting submodule is used for carrying out layout setting on a calendar mode; the calendar settings are used to configure the various attributes of the calendar presentation of the form in calendar mode. Clicking on 'calendar settings', also under 'user default mode', a calendar attribute configuration item appears. A time field for selecting a calendar arrangement in the 'time field' drop-down box, and if there is no time field created by the user, a time field of the system, such as a new time or an update time of the form, can be selected; the fields selected in the 'content field' drop-down box are fields presented on the calendar, and the fields added below can also be dragged up and down to perform sorting operations on the fields.

And the time axis setting submodule is used for carrying out layout setting in a time axis mode. The timeline sets the configuration of the various attributes that the timeline presents in the timeline mode for the form. Clicking on 'timeline settings', also under 'user default mode', a timeline property profile appears. Similarly, a time field used for selecting calendar arrangement in the 'time field' drop-down box, such as a time field created by no user, and a time field of a selectable system, such as a new time or an update time of a form; the fields selected in the 'content field' drop-down box are fields presented on the timeline, and the fields that have been added below can also be dragged to perform sorting operations on the fields.

The expansion setting comprises an operation design sub-module, a global data sub-module, a printing template sub-module, a submission checking sub-module and a business rule sub-module;

the operation design submodule is used for setting authority configuration of form operation; the operation design is primarily configured with the permissions for the form operation. The operation of the form is realized by buttons, and the basic operation buttons are as follows: viewing, creating, importing, exporting, editing, deleting and printing.

The global data submodule is used for screening global data;

the printing template submodule is used for providing a printing template for the form; the printing template is used for a template required by the form printing. The macro variables provided in the template are convenient for a user to operate the macro variables to edit the template.

The submission checking submodule is used for detecting whether the form conforms to the rule or not; the submission check is used to determine the numeric field and check for compliance with the rules before the form is submitted. Formulas may be added for the determination. And when the verification is unsuccessful, giving an information prompt.

And the business rule submodule is used for logically processing the data. The business rules are not used generally, and when the data needs logic processing or the common configuration of the system cannot complete the realization of the functions, the business rules are needed to realize the data.

The data configuration module 37 is connected to the form configuration module 31, the process configuration module 35, and the VDT module 38, respectively, and is configured to provide data support.

The configuration module 3 further comprises a payment unit, a C interface unit, a D interface unit, a pushing unit and a collecting unit.

The VDT module 38 includes a program module 6 and a generation module 5 connected to the program module 6, where the program module 6 includes a data source sub-module 61, an assembly sub-module 62, a style presentation sub-module 63, a global method sub-module 64, an event sub-module 65, and a platform service 66;

the assembly submodule 62 is respectively connected with the style presenting submodule 63, the event submodule 65 and the data source submodule 61;

the event submodule 65 is connected with the global method submodule 64;

the global methods submodule 64 is connected to the platform service 66;

the data source submodule 61 is connected with the platform service 66;

the style presentation submodule 63 is used for constructing a program interface style;

the component submodule 62 contains a plurality of different program components, and the component submodule 62 is used for a user to drag and configure a program interface for the plurality of program components;

the event submodule 65 is used for binding event information to program components in the program interface;

the data source submodule 61 is used for performing data binding on program components in the program interface, and is used for generating a form and delivering data to the platform service 66 through form submission for data storage;

the event submodule 65 is further configured to call a corresponding method to the global method submodule 64 according to event information required by the program component, and implement functional correspondence between data in the program component and the event information through the corresponding method;

the global method submodule 64 is used to make interface calls to the platform service 66;

the generating module 5 is used for generating a program application end according to the program module 6 which completes the configuration.

The generating module 5 includes a two-dimensional code generating submodule 51, the program application terminal includes a PC terminal and a mobile terminal, and the two-dimensional code generating submodule 51 is configured to generate a corresponding program two-dimensional code.

The assembly sub-module 62 includes buttons, text, input boxes, … …. (ii) a

The style presentation submodule 63 includes a layout, an interface, a style border, … …. (ii) a

The events sub-module 65 includes click events, binding value change events, initialization events, … …. (ii) a

The global methods sub-module 64 includes program native methods, functions, interface requests, route hops, … …. (ii) a

The data source submodule 61 includes static data, application data, interface data, form data, data source mapping, … …. .

Firstly, a user logs in a designated platform to build an autonomous program, firstly, components required to be used in a component submodule 62 are pulled to a program interface pattern in a dragging mode, then, the pattern configuration is carried out on the basis of the building of the components through a pattern presentation submodule 63, and the position, the size, the angle, the name and the color of the components are adjusted, so that the seen and obtained effect is achieved;

then, event binding is performed on the adjusted components, and the event sub-module 65: 1. clicking an event; 2. Binding value change events; 3. an event is initiated.

Then, data binding is performed on the event-bound component, and first, the data source sub-module 61 obtains various types of data from the platform service 66, including: static data, application data, interface data, form data and data source mapping; calling corresponding data according to corresponding event information for binding, calling a corresponding global method from a global method submodule 64 through an event submodule 65, calling an interface from the global method submodule 64 to a platform service 66, and finally realizing data interaction through the corresponding method, besides, the data source submodule 61 and the component submodule 62 are in bidirectional binding, the data source submodule 61 can transmit data information to the component submodule 62, the component submodule 62 can also transmit information to the data source submodule 61, and the event submodule 65 can also transmit information to the data source submodule 61 through the component submodule 62, so that real-time updating and one-to-one correspondence of the data are realized.

And then the data source sub-module 61 generates a form and submits the form to the platform service 66, and the platform service 66 stores the form, so that the corresponding program can be conveniently updated after the data is updated.

And finally, generating an application program which can be used by the PC end and the mobile end through a generating module 5, wherein the user can download corresponding program software according to the actual requirements of the user.

To sum up, can carry out swift simple configuration procedure, even if the user that does not understand the code, also can easily get one's hand, the configuration is fast, and it is fast to generate the procedure, and simple to operate provides flexible superstrong software middle counter service support for ubiquitous software developer, helps the developer to reduce the development degree of difficulty, practices thrift development human cost, improves development efficiency and profit.

The system development method for the running program comprises the following specific steps:

s1: the user drags the visual configuration program interface through the component submodule 62;

s2: the user selects a configuration style according to the style presentation submodule 63;

s3: the user configures the functions of the components in the program interface through the event submodule 65 and/or the data source submodule 61;

s4: the user continues to configure the program and returns to S1 or generates an executable program after configuration is complete.

The method has clear steps, simple and convenient process, is suitable for users with different experiences, and can be used for users with zero experience quickly.

Step S3 specifically includes:

s31: the user event-binds the components in the program interface through the event sub-module 65;

or S32: the user performs data binding on the components in the program interface through the data source submodule 61;

or S33: the user proceeds to S31 and S32 together.

Step S31 specifically includes:

s311: a configuration event submodule 65;

s312: binding a value change event by the event submodule 65;

s313: the event submodule 65 calls the global method to the global method submodule 64;

s314: the global method submodule 64 makes an interface call to the platform service 66;

s315: the event submodule 65 feeds back the calling component method to the component submodule 62.

Step S32 specifically includes:

s321: the data source obtains various types of data from the platform service 66;

s322: calling corresponding data in a data source according to the event information in the component to perform data binding;

s323: the data and event function correspondence is realized through a component method.

And calling the corresponding component method through the event information, and enabling the event and the data in the component to realize the corresponding setting of the function according to the component method. The operation method has the advantages that the events and the data are simply and conveniently corresponded with each other, and 1, the background establishment speed is high; 2. the event and the data are accurately corresponding, the program is ensured to be established stably, and the data are not easy to make mistakes.

Further comprising step S6: and issuing the program and generating the two-dimension code.

Step S2 specifically includes performing size adjustment, angle adjustment, position adjustment, and color adjustment on the components through the style configuration in the style rendering sub-module 63. The method can realize the what you see is what you get effect, so that a user can clearly know the layout of the whole program in the configuration process, and the configuration is more random.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (8)

1. A visualization-based software development platform is characterized by comprising: the system comprises a login module (1), a user interface (2), a configuration module (3) and a database (4);

the login module (1) is used for entering a user interface (2);

the user interface (2) for presenting a user configuration;

the configuration module (3) is connected with the database (4) and is used for configuring the user interface (2), and the configuration module (3) comprises a form configuration module (31), an operation configuration module (32), an inquiry configuration module (33), an authority configuration module (34), a process configuration module (35), a data visualization module (36), a data configuration module (37) and a VDT module (38);

the form configuration module (31) is used for establishing a system form in a dragging mode;

the operation configuration module (32) is used for processing operation configuration on data in the system form;

the query configuration module (33) is used for configuring query operation for a user;

the authority configuration module (34) is used for establishing authority management configuration by a user;

the process configuration module (35) is used for establishing an approval process for the system form;

the data visualization module (36) is used for establishing a visualization large screen by a user;

the data configuration module (37) is used for processing the data in the system form;

the VDT module (38) is used for configuring programs by users.

2. The visualization-based software development platform of claim 1, wherein: the form configuration module (31) comprises an assembly module, a design submodule and an attribute configuration submodule;

the component module is used for configuring the form into the design sub-module and comprises a basic component unit, a layout component unit, a high-level component unit and a system component unit;

the basic component unit comprises a plurality of basic components and is used for dragging and configuring the basic components into the design sub-module;

the layout component unit is used for carrying out layout configuration on the basic components in the design sub-module;

the high-level component unit is used for associating other system forms;

the system component unit is used for automatically generating information of a system form, such as new building time, new building people, updating time, updating people, responsible people, departments and the like;

the design submodule is used for providing a configuration area for the form configuration;

the attribute configuration submodule is used for configuring the self attribute of the basic component in the design submodule.

3. The visualization-based software development platform of claim 1, wherein: the process configuration module (35) comprises a start node sub-module, a fill node sub-module, an approval node sub-module, a copy node sub-module, a sub-process sub-module and an end node sub-module;

the starting node submodule is used as the start of the process;

the end node submodule is used as the end of the process;

the filling node submodule is used for adding a flow step;

the examination and approval node submodule is used for adding a process step needing examination and approval in the process;

the copying node submodule is used for adding a process step which needs copying more in the process;

and the sub-process sub-module is used for nesting the processes of other forms in the process.

4. The visualization-based software development platform of claim 1, wherein: the data configuration module (37) is respectively connected with the form configuration module (31), the process configuration module (35) and the VDT module (38) and is used for providing data support.

5. The visualization-based software development platform of claim 1, wherein: the configuration module (3) further comprises a payment unit, a C interface unit, a D interface unit, a pushing unit and a collecting unit.

6. The visualization-based software development platform of claim 1, wherein: the VDT module (38) comprises a program module (6) and a generation module (5) connected with the program module (6), wherein the program module (6) comprises a data source sub-module (61), an assembly sub-module (62), a style presentation sub-module (63), a global method sub-module (64), an event sub-module (65) and a platform service (66);

the assembly submodule (62) is respectively connected with the style presentation submodule (63), the event submodule (65) and the data source submodule (61);

the event submodule (65) is connected with a global method submodule (64);

the global method submodule (64) is connected with a platform service (66);

the data source submodule (61) is connected with a platform service (66);

the style presentation submodule (63) is used for constructing a program interface style;

the component submodule (62) comprises a plurality of different program components, and the component submodule (62) is used for a user to drag and draw the program components to configure a program interface;

the event submodule (65) is used for binding event information of program components in the program interface;

the data source submodule (61) is used for binding data of program components in the program interface and generating a form and delivering the data to the platform service (66) for data storage through form submission;

the event submodule (65) is also used for calling a corresponding method to the global method submodule (64) according to event information required by the program assembly, and realizing functional correspondence between data in the program assembly and the event information through the corresponding method;

the global method submodule (64) is used for making interface calls to a platform service (66);

the generating module (5) is used for generating a program application end according to the program module (6) which completes configuration.

7. The visualization-based software development platform of claim 6, wherein: the generation module (5) comprises a two-dimensional code generation submodule (51), the program application end comprises a PC end and a mobile end, and the two-dimensional code generation submodule (51) is used for generating a corresponding program two-dimensional code.

8. A system development platform for directly generating a runnable program from a prototype design according to claim 6, characterized by: the component submodule (62) comprises buttons, texts and input boxes;

the style presentation submodule (63) comprises a layout, an interface and a style frame;

the event submodule (65) comprises a click event, a binding value change event and an initialization event;

the global method submodule (64) comprises a program native method, a function, an interface request and a route skip;

the data source submodule (61) comprises static data, application data, interface data, form data and data source mapping.

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