CN110531964B

CN110531964B - Personalized intelligent software development method

Info

Publication number: CN110531964B
Application number: CN201910818477.3A
Authority: CN
Inventors: 彭超洪; 郑维中
Original assignee: Suzhou Zhonghong Software Technology Co ltd
Current assignee: Suzhou Zhonghong Software Technology Co ltd
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2023-03-14
Anticipated expiration: 2039-08-30
Also published as: CN110531964A

Abstract

The invention discloses a personalized intelligent software development method. The invention discloses a software personalized intelligent development method, which comprises the following steps: project creation: inputting a project name; creating a post project; the main function of creating the project comprises: the method comprises the steps that (menu) default input Chinese can automatically generate pinyin shorthand, and the pinyin shorthand can be manually modified into any software basic function module which is established and needs to establish a specific form; and automatically generating the pinyin shorthand. The invention has the beneficial effects that: an intelligent and visual platform is built by utilizing a complex technology, and various different types of software systems are rapidly developed through a simple and rapid operation mode. 90% of the code-free development system can be achieved, and the remaining 10% is particularly complex to adjust by hand. The simple system can complete 100% code-free configuration.

Description

Personalized intelligent software development method

Technical Field

The invention relates to the field of software development, in particular to a personalized intelligent software development method.

Background

The development platform is a platform for assisting developers in software development and is a 'production line' for software production.

With the popularization and development of informatization, domestic enterprises divide business requirements of used software more and more finely when performing self informatization construction, and in the self development and growth process of the enterprises, the business requirements of the used software are wider and wider, and the business requirements change more and more frequently.

Disclosure of Invention

The invention aims to provide a personalized intelligent software development method.

In order to solve the technical problem, the invention provides a software personalized intelligent development method, which comprises the following steps:

project creation: inputting a project name; creating a post project; the main function of creating the project comprises: the method comprises (menu) default Chinese input can automatically generate pinyin shorthand, and can be manually modified into any software basic function module which is already established and needs to establish a specific form; automatically generating pinyin shorthand;

form data circulation: the data flow selects 2 different modules to click the connecting line of the toolbar, and then the following interface is popped up to be set at a high level by increasing the detailed information of the flow: whether to print or not, whether to save the cache preview, may be set: the configured preview interface can be viewed, and the operation function descriptions such as contents and the like can be input: 1. original: selecting original document information and a customizable sql statement to finish a complex calculation target: automatically displaying the documents to be bound and then storing the documents after confirmation, automatically converting the data into a form B after the data can be audited through the form A after the software is generated, or converting the data into a diagram of the configured purchasing data flow in other conditions

And (3) view creation: selecting a view specifically comprises increasing fields required by the view, and automatically generating an sql code after selection; selecting an expression; multiple columns of views can be added, and a corresponding form can be automatically generated after the views are stored, so that the forms can be previewed and viewed; a view function; viewing the view structure to select an existing view; clicking on the view structure reveals the relationship graph replication view form associated with the view as operating the same.

In one embodiment, the creating of the form and the selecting of the "new module" module type mainly include: 1. an entity module: form 2, view module: view 3, node module: node 4, data dictionary: yes/no (if dictionary other forms can reference this data source, no) 5, module code.

In one embodiment, the form creation function introduces 1, creates and binds 2, binds existing forms 3, modifies bound forms 4, unbinds 5, adjusts up and down 6, refreshes: the designed form fields are updated.

In one embodiment, form content description 1, property code: software front-end display information (user sees field) 2, binding field: a database form script is automatically generated, and the field name is 3 of the database form name and the page display type: various options are available such as: text, date, reference dictionary, time, etc. 4, data dictionary values: the field information 5 corresponding to the referred data dictionary, list: the default is that the user terminal can display the default result when the user terminal is checked, and if the user terminal only stores the field information in the database when the user terminal cancels the check, the user terminal cannot see the field information. 6. The levels of adding, deleting, modifying and deleting frames are automatically brought out, and the frames can be manually configured 7, and the pages are disclosed: some complex algorithms may be involved here, a data dictionary editor 8: the simulation operation function can be performed on the developed form.

In one embodiment, the form editing interface introduces 1, adds fields: corresponding fields can be added or deleted 2, field types can be added or deleted: the common data types int, varchar, data, etc. can also be customized. 3. A main key: setting the form field as a main key 4, and setting the form column attribute as whether the sequence number is increased in a self-increment mode or a self-defining mode 5, or not null: determine if this field can be saved into the database 6 as empty, default value: setting a default value of 7, and generating a mode: setting a common form mode such as purchase order number: CG201906030018, U1: it is determined that one or more items in the form determine uniqueness (the setting UI automatically generates U2 and so on) 9, and the relationship refers to the information that the above form fields refer to the dictionary.

In one embodiment, form detail 1, detail column are created: the method comprises the following steps of (1) making a check 2, binding details 3, canceling binding 4, creating a form and binding 5 if no binding form exists, creating the form as a main form 6, and taking notice: the relationship between the main table and the sub-table needs to be established, otherwise the sub-table has no relationship with the main table and is operated with the red box.

In one embodiment, the view functions include: views can be directly created in the view module and referenced later; existing view structures can also be viewed; the view can be quickly copied, edited and deleted.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of any of the methods when the program is executed.

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

A processor for running a program, wherein the program when running performs any of the methods.

The invention has the beneficial effects that:

an intelligent and visual platform is built by utilizing a complex technology, and various different types of software systems are rapidly developed through a simple and rapid operation mode. 90% of the code-free development system can be achieved, and the remaining 10% is particularly complex to adjust by hand. The simple system can complete 100% code-free configuration.

The most basic commonality of the writing objective software management system is that the platform manages application data, application processes and business logic based on the commonalities, standardized data, processes and logic processing modes are designed, and a software product production assembly line is set up.

The platform is mainly used by software development enterprises, a popular platform of a standardized management platform which is beneficial to software project development uses a simple and rapid graphical operation mode to configure a software management system, and can be operated by ordinary personnel with certain computer foundation, so that technical implementation difficulties and details of the profession are hidden, and the software development complexity is reduced. The industrial standardization extracts a data model structure and a flow processing mode according to the existing project experience, and performs custom configuration of a software management system in an optimal mode, so that the simplest software system can also have the most professional design, and the software reliability and the standard are improved. On the basis of adapting to individual personalized requirements of various industries and units, the approach to the direction of a management standardization mode is guided. Development rapidness: through the maintenance of the code generation template, developers are relieved from boring code development labor, and the codes are truly recycled, so that the software development period is shortened; the system stabilizes a production line type automatic code generation mode, reduces a series of artificial coding errors caused by repeated development of developers in the past, and the optimal code generation template comprises a strong guiding and fault-tolerant mechanism, so that the stability of a software system is greatly improved. The use of the personnel structured platform clearly defines each step of software development, and is convenient for managers to carry out more reasonable personnel arrangement.

Drawings

FIG. 1 is a main interface diagram of a platform in the software personalized intelligent development method.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

Referring to fig. 1, a personalized intelligent development method for software includes:

form data circulation: the data flow selects 2 different modules to click the connecting line of the toolbar, and then the following interface is popped up to be set at a high level by increasing the detailed information of the flow: whether to print or not, whether to save the cache preview, may be set: the configured preview interface can be viewed, and the operation function descriptions such as contents and the like can be input: 1. original: selecting original document information and customizing sql sentences to complete a complex calculation target: automatically displaying the documents to be bound and then storing the documents after confirmation, automatically converting the data into a form B after the data can be audited through the form A after the software is generated, or converting the data into a diagram of the configured purchasing data flow in other conditions

And (3) view creation: selecting a view specifically comprises increasing fields required by the view, and automatically generating an sql code after selection; selecting an expression; multiple columns of views can be added for storage, and then corresponding forms can be automatically generated and can be previewed for viewing; a view function; selecting an existing view by viewing the view structure; clicking on the view structure will reveal the relationship graph associated with the view-copy view form operates the same as the view.

In one embodiment, form content description 1, property code: software front-end display information (user sees field) 2, binding field: a database form script is automatically generated, and the field name is 3 of the database form name and the page display type: can be selected from various choices such as: text, date, reference dictionary, time, etc. several 4, data dictionary values: the field information 5 corresponding to the referred data dictionary, list: if the default is that the check is made, the check is displayed on the user side, and if the check is canceled and only exists in the database, the user side cannot see the field information. 6. The frame levels of adding, deleting, modifying and deleting are automatically brought out, and the frame levels can be manually configured 7 and are disclosed on a page: some complex algorithms may be involved here, where 8, a data dictionary editor: the simulation operation function can be performed on the developed form.

In one embodiment, the form editing interface introduces 1, adds fields: corresponding fields can be added or deleted 2, field types can be added or deleted: the quick selection of the types of commonly used data int, varchar, data and the like can also be self-defined. 3. A main key: setting the form field as a main key 4, self-increment, setting the form column attribute as a self-increment mode to increase the sequence number or a self-defining mode 5, and non-null: determine if this field can be saved into the database 6 as empty, default value: setting a default value of 7, and generating a mode: setting a common form mode such as purchase order number: CG201906030018, U1: it is determined that one or more items in the form determine uniqueness (the setting UI automatically generates U2 and so on) 9, and the relationship refers to the information that the above form fields refer to the dictionary.

In one embodiment, form detail 1, detail column are created: the method comprises the following steps of (1) making a check 2, binding details 3, canceling binding 4, creating a form and binding 5 if no binding form exists, creating the form as a main form 6, and taking notice: the relationship between the main table and the sub-table needs to be established, otherwise, the sub-table and the main table have no relationship and operate with the red frame.

In one embodiment, the view functions include: the view can be directly created in the view module and referenced later; existing view structures can also be viewed; the view can be quickly copied, edited and deleted.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of any of the methods when executing the program.

The invention has the beneficial effects that:

an intelligent and visual platform is built by using a complex technology, and various different types of software systems are rapidly developed through a simple and rapid operation mode. It is possible to achieve 90% code-free development systems, the remaining 10% being particularly complex to adjust by hand. The simple system can complete 100% code-free configuration.

The platform is mainly used by software development enterprises, a popular platform of a standardized management platform which is beneficial to software project development uses a simple and rapid graphical operation mode to configure a software management system, and can be operated by ordinary personnel with certain computer foundation, so that technical implementation difficulties and details of the profession are hidden, and the software development complexity is reduced. The industrial standardization extracts a data model structure and a flow processing mode according to the existing project experience, and performs custom configuration of a software management system in an optimal mode, so that the simplest software system can also have the most professional design, and the software reliability and the standard are improved. On the basis of adapting to individual personalized requirements of various industries and units, the approach to the direction of a management standardization mode is guided. Development and rapidness: through the maintenance of the code generation template, developers are relieved from boring code development labor, and the codes are truly recycled, so that the software development period is shortened; the system stabilization production line type automatic code generation mode reduces a series of artificial coding errors caused by repeated development of developers in the past, and the optimal code generation template comprises a strong guiding and fault-tolerant mechanism, so that the stability of a software system is improved to a great extent. The use of the personnel structured platform clearly defines each step of software development, and is convenient for managers to carry out more reasonable personnel arrangement.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitutions or changes made by the person skilled in the art on the basis of the present invention are all within the protection scope of the present invention. The protection scope of the invention is subject to the claims.

Claims

1. A software personalized intelligent development method is characterized by comprising the following steps:

project creation: inputting a project name; creating a project; the functions of creating a project include: the default input Chinese can automatically generate pinyin shorthand, the pinyin shorthand can be manually modified into any software, and after the basic function module is established, a specific form needs to be established; form data circulation: the data flow selects 2 different modules, clicks the connecting line of the toolbar, then pops up the interface, and carries out advanced setting by adding the detailed information of the flow, namely: setting whether to print or not and whether to save the cache preview or not; viewing the configured preview interface, and inputting contents, wherein the operation functions of the method are as follows: (1) Selecting original document information and a custom sql statement to complete a complex calculation target; (2) Automatically displaying the document to be bound, storing after confirmation, and automatically streaming to a form B after the data is audited by the form A after software is generated;

view creation: selecting a view specifically includes: (1) Adding fields required by the view, and automatically generating an sql code after selection; (2) selecting an expression; (3) Adding a plurality of columns of views, automatically generating a corresponding form after storage, and previewing and viewing; view function: (1) viewing a view structure and selecting an existing view; (2) Clicking on the view structure reveals the relationship graph associated with the view, wherein the copy view form operates the same as the view.

2. The software personalized intelligent development method of claim 1, wherein creating a form selection "new module" comprises: 1. an entity module: a form; 2. a view module: a view; 3. a node module: a node; 4. a data dictionary: if not, other forms refer to the data source, otherwise, the data source cannot be referred to; 5. and (5) module codes.

3. The software personalized intelligence development method of claim 1, wherein the form creation function comprises: 1. creating and binding; 2. binding the existing forms; 3. modifying the binding form; 4. canceling the binding; 5. adjusting up and down; 6. refreshing: the designed form fields are updated.

4. The software personalized intelligence development method of claim 1, wherein the form content comprises: 1. attribute code: the software front end displays information, namely, a user can see fields; 2. a binding field: a database form script is automatically generated, and the field name is the database form name; 3. the page display type is as follows: text, date, reference dictionary, time; 4. data dictionary values: the field information corresponding to the referred data dictionary; 5. list: if the default is to check, the field information is displayed on the user side, and if the check is cancelled, the field information only exists in the database, and the user side cannot see the field information; 6. the frame levels are added, modified and deleted, and are automatically brought out, and manual configuration can be performed; 7. page announcement: some complex algorithms may be involved here; 8. data dictionary editor: the simulation operation function can be performed on the developed form.

5. The software personalized intelligent development method of claim 1, wherein the form editing interface functions comprise: 1. and (4) adding a field: adding or deleting corresponding fields randomly; 2. the field type: common data types int, varchar, data; 3. a main key: setting the form field as a primary key; 4. self-increasing: setting whether the form list attribute is in a self-increment mode to increase the serial number or a self-defining mode; 5. non-empty: determining whether the field can be empty and storing the field in a database; 6. default values are: setting a default value; 7. the generation mode is as follows: setting a common form mode; 9. the relationship is as follows: refers to information for which the above form fields reference a dictionary.

6. The software personalized intelligence development method of claim 1, wherein the creating form detail: 1. the detailed description is as follows: hooking; 2. binding details; 3. canceling the binding; 4. if the form is not bound, creating a form and binding; 5. the operation of creating the form is the same as that of the main form; 6. note that: the relationship between the main table and the sub-table needs to be established, otherwise the sub-table has no relationship with the main table.

7. The software personalized intelligence development method of claim 1, wherein the view functions comprise: the view can be directly created in the view module and referenced later; existing view structures can also be viewed; views can be quickly copied, edited, and deleted.

8. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the method of any of claims 1 to 7 are implemented when the program is executed by the processor.

9. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 7.

10. A processor, characterized in that the processor is configured to run a program, wherein the program when running performs the method of any of claims 1 to 7.