CN114185518A - PAAS platform-based tool, method and process for online deployment of software system - Google Patents

Abstract

The invention discloses a tool, a method and a process for deploying a software system on line based on a PAAS platform. The learning difficulty of programming languages is greatly reduced, even business personnel of completely different programming languages can quickly learn and develop applications, developers can create products with complete functions and attractive interfaces within a few minutes, minimum feasible products (MVP) can be quickly built through a platform, the applications can be deployed in real time, and the innovations can be learned, optimized and expanded to promote continuous innovation.

Description

PAAS platform-based tool, method and process for online deployment of software system

Technical Field

The invention relates to the technical field of software system development, in particular to a tool, a method and a flow for deploying a software system on line based on a PAAS platform.

Background

With the development of internet technology, various application software in the market continuously influences work and life of people at present. The same is true for enterprise operation, and more application software plays a role in enterprise operation to help enterprises solve various problems in production and operation. In response to the above market demands, the solution is to customize a software system according to the user's demands. The method solves the user requirements to a certain extent, but the cost and the time required for developing the software system are also more. When the interface is modified or the requirement changes, the development needs to be carried out again, so that the development efficiency is difficult to improve, and the development cost is reduced. Traditional application development takes a lot of time and money, but the advent of low-code development platforms has changed this situation. The low-code development is a modular method for application development, and can effectively reduce the development time of the application. It can be developed using reusable, component-based architectures, thereby speeding up the development and lead time of applications. In building an application with reusable components, a developer will have an opportunity to use existing components in different applications, rather than just the originally developed application, where a component is a reusable object that converts a piece of code into modules that can be used in different applications with similar functionality. By adding these modules to a new application, developers can avoid duplicative coding for similar general-purpose functions. This flexibility greatly reduces the effort and time of testing and development.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a tool, a method and a flow for deploying a software system on line based on a PAAS platform, aiming at solving the problems of the traditional development process and the defects of the solution.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a PAAS platform based tool, method and flow for online deployment of software system, including: the management platform comprises a project management module, a process management module, a basic configuration module, a data source configuration module, a form field configuration module, an operation configuration module, a system generation module and a system deployment operation module. The project management module comprises project full development cycle management, including project creation, project editing and project deletion, and also includes management of system flow design, basic configuration, data source configuration and form field configuration; the flow management module comprises a system flow design and realizes the function of quickly building a system flow through the operation of a graphical interface; the basic configuration module is used for freely configuring the presentation mode of the designed flow; the data source configuration module is used for configuring a data source and related parameters for the designed process; and the form field configuration module is used for carrying out field configuration on the designed process. And the operation configuration module is used for setting the specific operation of the designed process. The system generation module generates an application system according to the designed flow and the configuration parameters; the system deployment operation module is used for acquiring the software system and operating the software system on the terminal equipment;

preferably, the process management module can freely design the system process by graphically operating the page according to the system service requirement, support new creation and deletion of the process, and support the process design requirements of sub-processes, flow distribution and flow combination. Simultaneously, the method comprises the functions of basic configuration management, data source configuration management, form field configuration management and operation configuration management in a single process node;

preferably, basic configuration management is performed, and the process name, the menu name, the display position and the like are freely set;

preferably, the data source configuration management is used for freely configuring the operation authority, the data source, the button type, the button display name, the trigger mode, the display condition, the associated field and the like of the process;

preferably, the form field configuration management is to perform custom configuration on the fields of the process, the field types are integrated with basic fields and advanced options, and the basic fields comprise common texts, data, mobile phone numbers, mailboxes, money amounts, percentages, pictures, atlas, attachments, switches, dates, regions and the like. The high-level options comprise fields of departments, personnel and the like in the system;

preferably, configuration management is operated, a user-defined button is set for a flow, and configuration items such as types, states, names, display conditions, operation authorities and the like can be set;

preferably, the system generation module generates a code according to the design of the process and the incidence relation of each module in the process configuration parameters, wherein the modules can respond to each other and the application of the event generates the code;

preferably, the system deployment and operation module is used for acquiring the software system and operating the software system on the terminal device;

the operation flow comprises the following steps:

s1: and the user logs in the project management platform by logging in the browser. Executable S2 if a maintenance project is needed, executable S3 if a development project is needed;

s2: in the project management module, a user can perform new creation, editing and deletion operations on a project by using a project management function;

s3: the user can click on the PAAS platform in the project and enter the project development step. If a new executable is needed to be added to the existing flow S4, if a modification to the existing flow is needed, S42 can be executed.

S4: the user can select to add, edit, disable, delete and design the flow in the flow management module. If a new flow is required S41 can be performed, if a modification to an existing flow is required S42 can be performed.

S41: clicking on the new addition, the sub-processes can be selected to be added, split, joined, and then executed as S5.

S42: the flow to be modified is selected, and the display position, the name and other contents of the flow can be modified by clicking and editing. And (4) clicking design, and modifying the contents of basic configuration, data source configuration, form field configuration, operation configuration and the like of the process.

S5: selecting a single flow, clicking and editing, and setting basic parameters of the flow under the basic configuration function.

S6: selecting a single flow, clicking and editing, and setting contents such as operation authority, a data source, a button type, a button name, a trigger mode, display conditions and the like under the data source configuration function.

S7: selecting a single process, clicking and editing, setting fields required in the process under the field configuration function of the form, wherein the field types are integrated with basic fields and advanced options, and the basic fields comprise commonly used texts, data, mobile phone numbers, mailboxes, money amounts, percentages, pictures, atlas, attachments, switches, dates, regions and the like. The high level options contain fields for department, personnel, etc. within the system.

S8: selecting a single flow, clicking and editing, setting some specific operations in the flow under an operation configuration function, wherein setting items of the single operation comprise configuration parameters such as button types, state fields, button names, display conditions, operation permissions and the like.

S9: generating a code according to the design of the process and the incidence relation of each module in the process configuration parameters, wherein the modules can respond to each other and the application of the event generates the code.

S10: a user deploys an application system by using a system deployment and operation module and operates the application system on terminal equipment;

(III) advantageous effects

Compared with the prior art, the invention provides a tool, a method and a flow for deploying a software system on line based on a PAAS platform, and the tool, the method and the flow have the following beneficial effects:

compared with the prior art and development mode, the tool, the method and the process for deploying the software system on line based on the PAAS platform greatly reduce the learning difficulty of the programming language, and even business personnel with completely different programming languages can quickly learn and apply and develop. Developers can also create a product with a fully functional interface that is aesthetically pleasing in a matter of minutes. These innovations can be learned and optimized and expanded to promote continued innovation by platform-rapid building of Minimally Viable Products (MVPs), deployment of these applications on-the-fly. Without writing complex code, their applications can be easily extended to more channels until they are deemed sufficiently mature. Because a large number of components and packaged interfaces are used for development, and IaaS and PaaS layer capabilities of cloud computing are integrated, the development efficiency is greatly improved; and greatly reduces the development cost. The development entrance threshold, the cost and the deployment time of the application program are reduced, and developers do not need to use professional encoders for comprehensive development. Meanwhile, simple coding training is carried out on some service experts, and the service experts can also participate in program construction. Because the development platform generates executable codes in an automatic mode, the overall quality of the codes is superior to the average level in the industry; and relatively speaking, errors (Bug) are more controllable, and the security of the code is higher. Due to the adoption of the component form and the object-oriented development mode, the code is structured to a higher degree and is generally easier to maintain. Development not only reduces the burden of software maintenance. Errors and integration problems to be handled are greatly reduced compared to the past. And by reducing maintenance time, developers can concentrate on innovative work that can bring greater business value. The communication gap between the IT and the business team is closed, so that both can solve the practical problem affecting the company. The business team can create own applications without waiting for developers, thereby improving work efficiency. New ideas can be started and iterated quickly.

Drawings

FIG. 1 is a diagram of the tool, method and process architecture for online deployment of software system based on PAAS platform according to the present invention;

FIG. 2 is a block diagram of project management modules of tools, methods and processes for online deployment of software systems based on PAAS platforms according to the present invention;

FIG. 3 is a flow management module architecture diagram of a PAAS platform-based tool, method and process for online deployment of a software system according to the present invention;

FIG. 4 is a basic configuration module architecture diagram of a PAAS platform-based tool, method and process for online deployment of a software system according to the present invention;

FIG. 5 is a diagram illustrating the architecture of a PAAS platform-based tool, method and process data source configuration module for online deployment of a software system according to the present invention;

FIG. 6 is a field configuration module architecture diagram of a PAAS platform-based tool, method and process form for online deployment of a software system according to the present invention;

FIG. 7 is a diagram illustrating the architecture of tools, methods, and process operation configuration modules for online deployment of software systems based on PAAS platforms according to the present invention;

FIG. 8 is a block diagram of a PAAS platform-based tool, method and process system for online deployment of a software system according to the present invention;

fig. 9 is a configuration diagram of a tool, a method and a process system deployment operation module for online deploying a software system based on a PAAS platform according to 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. 1-9, the present invention discloses a tool, a method and a process for online deploying a software system based on a PAAS platform, referring to fig. 1, which includes a project management module, a process management module, a basic configuration module, a data source configuration module, a form field configuration module, an operation configuration module, a system generation module and a system deployment operation module, wherein:

the project management module comprises project full development cycle management, including project creation, project editing and project deletion, and also includes management of system flow design, basic configuration, data source configuration and form field configuration;

the process management module comprises a system process design and realizes a function of quickly building a system process through the operation of a graphical interface;

the basic configuration module is used for freely configuring the presentation mode of the designed process;

the data source configuration module is used for configuring a data source and related parameters for a designed process;

the operation configuration module is used for setting specific operation of the designed process;

the system generation module generates an application system according to the designed process and the configuration parameters;

the system deployment and operation module is used for acquiring the software system and operating the software system on the terminal equipment;

the PAAS platform-based tool, the PAAS platform-based method and the PAAS platform-based flow are based on a management platform, and a user uses a project management module, a flow management module, a basic configuration module, a data source configuration module, a form field configuration module, a system generation module and a system deployment operation module as required to complete the design, construction and operation of an application system.

The method comprises the following actual operation steps:

s1: and the user logs in the project management platform by logging in the browser. Executable S2 if a maintenance project is needed, executable S3 if a development project is needed;

s2: in the project management module, a user can perform new creation, editing and deletion operations on a project by using a project management function, please refer to fig. 2;

s3: the user can click on the PAAS platform in the project and enter the project development step. If a new executable is needed to be added to the existing flow S4, if a modification to the existing flow is needed, S42 can be executed.

S4: the user can select to add, edit, disable, delete and design the flow in the flow management module. If a new flow is needed, S41 can be executed, and if a modification to the existing flow is needed, S42 can be executed, please refer to fig. 3.

S41: clicking on the new addition, the sub-processes can be selected to be added, split, joined, and then executed as S5.

S42: the flow to be modified is selected, and the display position, the name and other contents of the flow can be modified by clicking and editing. And (4) clicking design, and modifying the contents of basic configuration, data source configuration, form field configuration, operation configuration and the like of the process.

S5: select a single flow, click to edit, and set the basic parameters of the flow under the basic configuration function, please refer to fig. 4.

S6: selecting a single flow, clicking to edit, and setting the contents of operation authority, data source, button type, button name, trigger mode, display condition and the like under the data source configuration function, please refer to fig. 5.

S7: selecting a single process, clicking and editing, setting fields required in the process under the field configuration function of the form, wherein the field types are integrated with basic fields and advanced options, and the basic fields comprise commonly used texts, data, mobile phone numbers, mailboxes, money amounts, percentages, pictures, atlas, attachments, switches, dates, regions and the like. The high level options include fields for department, personnel, etc. within the system, see FIG. 6.

S8: selecting a single process, clicking and editing, setting some specific operations in the process under an operation configuration function, where setting items of the single operation include configuration parameters such as button types, status fields, button names, display conditions, operation permissions, and the like, please refer to fig. 7.

S9: generating codes according to the design of the process and the association relationship between the modules in the process configuration parameters, wherein the modules can respond to each other and the application of the event, please refer to fig. 8.

S10: the user deploys the application system by using the system deployment and operation module and operates the application system on the terminal device, please refer to fig. 9.

Compared with the prior art and development mode, the tool, the method and the process for deploying the software system on line based on the PAAS platform greatly reduce the learning difficulty of the programming language, and even business personnel with completely different programming languages can quickly learn and apply and develop. Developers can also create a product with a fully functional interface that is aesthetically pleasing in a matter of minutes. These innovations can be learned and optimized and expanded to promote continued innovation by platform-rapid building of Minimally Viable Products (MVPs), deployment of these applications on-the-fly. Without writing complex code, their applications can be easily extended to more channels until they are deemed sufficiently mature. Because a large number of components and packaged interfaces are used for development, and IaaS and PaaS layer capabilities of cloud computing are integrated, the development efficiency is greatly improved; and greatly reduces the development cost. The development entrance threshold, the cost and the deployment time of the application program are reduced, and developers do not need to use professional encoders for comprehensive development. Meanwhile, simple coding training is carried out on some service experts, and the service experts can also participate in program construction. Because the development platform generates executable codes in an automatic mode, the overall quality of the codes is superior to the average level in the industry; and relatively speaking, errors (Bug) are more controllable, and the security of the code is higher. Due to the adoption of the component form and the object-oriented development mode, the code is structured to a higher degree and is generally easier to maintain. Development not only reduces the burden of software maintenance. Errors and integration problems to be handled are greatly reduced compared to the past. And by reducing maintenance time, developers can concentrate on innovative work that can bring greater business value. The communication gap between the IT and the business team is closed, so that both can solve the practical problem affecting the company. The business team can create own applications without waiting for developers, thereby improving work efficiency. New ideas can be started and iterated quickly.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the use of the verb "comprise a" to define an element does not exclude the presence of another, same element in a process, method, article, or apparatus that comprises the element.

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 (5)

1. A PAAS platform based tool, method and flow for online deployment of software system are characterized in that: the PAAS platform comprises a project management module, a flow management module, a basic configuration module, a data source configuration module, a form field configuration module, an operation configuration module, a system generation module and a system deployment operation module;

the project management module comprises project full development cycle management, including project creation, project editing and project deletion, and also includes management of system flow design, basic configuration, data source configuration and form field configuration;

the flow management module comprises a system flow design and realizes the function of quickly building a system flow through the operation of a graphical interface;

the basic configuration module is used for freely configuring the presentation mode of the designed flow and freely setting the flow name, the menu name, the display position and the like;

the data source configuration module is used for configuring a data source and related parameters for a designed process and freely configuring the operation authority, the data source, the button type, the button display name, the trigger mode, the display condition, the associated field and the like of the process;

the form field configuration module is used for carrying out field configuration on the designed flow;

the operation configuration module is used for setting specific operation of the designed process, setting a self-defining button for the process, and setting configuration items such as types, states, names, display conditions, operation authorities and the like;

the system generation module is used for generating an application system according to the designed process and the configuration parameters, and generating application generation codes of a method and an event which can mutually respond among the modules according to the design of the process and the incidence relation of each module in the process configuration parameters;

and the system deployment and operation module is used for acquiring the software system and operating the software system on the terminal equipment.

2. The tool, method and process for PAAS platform based online deployment of software systems according to claim 1, wherein: the project management module can freely design a system flow in a graphical operation page mode according to system service requirements, supports new and deletion of the flow, supports flow design requirements of sub-flows, flow distribution and flow combination, and simultaneously comprises basic configuration management, data source configuration management, form field configuration management and operation configuration management functions in a single flow node.

3. The tool, method and process for PAAS platform based online deployment of software systems according to claim 1, wherein: the form field configuration module is also used for carrying out custom configuration on fields of the process, the field types are integrated with basic fields and advanced options, the basic fields comprise commonly used texts, data, mobile phone numbers, mailboxes, money amounts, percentages, pictures, albums, attachments, switches, dates, regions and the like, and the advanced options comprise fields of departments, personnel and the like in the system.

4. A method for deploying a software system on line based on a PAAS platform is characterized in that: the method for deploying the software system on line comprises the following steps: project management, which is used for maintaining and managing projects;

the process design and configuration are used for designing the system process, configuring the basic configuration, the data source configuration, the form field configuration and the operation configuration of the process, generating the system and generating the application system according to the designed process and the configuration parameters;

and the system deployment operation is used for acquiring the software system and operating the software system on the terminal equipment.

5. A process for online deployment of a software system based on a PAAS platform is characterized in that: the process is based on a PAAS platform, and comprises a project management step for maintaining and managing projects, a process design step for designing a system process, a process configuration step comprising basic configuration of the process, data source configuration, form field configuration and operation configuration, a system generation step for generating an application system according to the designed process and configuration parameters, and a system deployment operation step for acquiring the software system and operating the software system on terminal equipment; the steps are as follows:

s1: a user logs in a project management platform through a login browser; executable S2 if a maintenance project is needed, executable S3 if a development project is needed;

s2: in the project management module, a user can perform new creation, editing and deletion operations on a project by using a project management function;

s3: a user can click a PAAS platform in a project to enter a project development step; if the existing flow needs to be newly added, executable S4 is performed, and if the existing flow needs to be modified, executable S42 is performed;

s4: the user can select to add, edit, disable, delete and design the flow in the flow management module; if the new flow is needed, the step S41 can be executed, and if the existing flow needs to be modified, the step S42 can be executed;

s41: clicking new addition, optionally adding sub-processes, shunting and converging, and then executing S5;

s42: selecting a flow to be modified, clicking and editing, and modifying the display position, the name and other contents of the flow; click design, modifying the contents of basic configuration, data source configuration, form field configuration, operation configuration and the like of the process;

s5: selecting a single flow, clicking and editing, and setting basic parameters of the flow under the basic configuration function;

s6: selecting a single flow, clicking and editing, and setting contents such as operation authority, a data source, a button type, a button name, a trigger mode, display conditions and the like under the data source configuration function;

s7: selecting a single flow, clicking and editing, setting fields required in the flow under the configuration function of form fields, wherein the field types are integrated with basic fields and advanced options, and the basic fields comprise commonly used texts, data, mobile phone numbers, mailboxes, amounts, percentages, pictures, atlas, attachments, switches, dates, regions and the like; the high-level options comprise fields of departments, personnel and the like in the system;

s8: selecting a single flow, clicking and editing, and setting some specific operations in the flow under an operation configuration function, wherein setting items of the single operation comprise configuration parameters such as button types, state fields, button names, display conditions, operation permissions and the like;

s9: generating a method capable of responding to each other among the modules and an application generation code of an event according to the design of the process and the incidence relation of each module in the process configuration parameters;

s10: and the user deploys the application system by using the system deployment and operation module and operates the application system on the terminal equipment.

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