CN115826923B - PaaS platform low-code development operation and maintenance method and system - Google Patents

Abstract

The invention provides a low-code development operation and maintenance method and system for a PaaS platform, which relate to the technical field of application development and construction, wherein the development operation and maintenance feature is acquired by a service flow information and demand function module based on a development user and is compared with an operation and maintenance constraint condition generated by an API (application program interface) based on a code resource library and a code operation and maintenance environment, and if the development operation and maintenance feature meets the operation and maintenance constraint condition, a plurality of source code components are configured according to the development operation and maintenance feature and a real-time development environment is generated on the PaaS platform to be supplied for the development user to operate. The method solves the technical problems that in the prior art, a simple service function program developed by a user based on a low-code platform is not high in adaptation degree with actual demands of the user, and normal service application of the user cannot be met. The method and the device have the advantages of improving the adaptation degree of the application system constructed based on the low-code open platform and the requirements of the user business process, improving the office efficiency of the user based on the business process, and reducing the economic cost of the construction of the application system.

Description

PaaS platform low-code development operation and maintenance method and system

Technical Field

The invention relates to the technical field of application development and construction, in particular to a PaaS platform low-code development operation and maintenance method and system.

Background

The low-code open platform is highly favored because of the high-efficiency characteristic of assisting application system tools which can be used in a company in a short time, and the low-code is essentially a technology of packaging basic function codes such as forms, processes, approval and the like into components so that users without code knowledge or with little code knowledge can develop the business process application system by adopting dragging.

In practical application, the low-code development platform is not as good as the low-code development platform product description, and because of the fixity of code encapsulation, the business process application system actually developed and obtained by a user is inconsistent with the actual business process information of a company enterprise, and the multi-process transaction processing efficiency inside the company enterprise is not really improved.

In the prior art, the adaptation degree between a simple service function program developed by a user based on a low-code platform and the actual demand of the user is not high, and the technical problem that the normal service application of the user cannot be met is solved.

Disclosure of Invention

The application provides a PaaS platform low-code development operation and maintenance method and system, which are used for solving the technical problems that in the prior art, a simple service function program developed by a user based on a low-code platform is not high in adaptation degree with actual requirements of the user, and normal service application of the user cannot be met.

In view of the above problems, the present application provides a PaaS platform low code development operation and maintenance method and system.

In a first aspect of the present application, a PaaS platform low code development operation and maintenance method is provided, where the method includes: based on the PaaS platform, an API call interface, a code resource library and a code operation and maintenance environment are obtained; performing development threshold evaluation according to the API call interface, the code resource library and the code operation environment to obtain a development threshold index; generating operation and maintenance constraint conditions according to the development threshold index; acquiring a user management system of the Pass platform, and acquiring a first development user; performing development characteristic analysis by using the business process information and the demand function module of the first development user to obtain development operation and maintenance characteristics; judging whether the operation and maintenance constraint condition is met based on the development operation and maintenance characteristics, and if the development operation and maintenance characteristics meet the operation and maintenance constraint condition, configuring a plurality of source code components according to the development operation and maintenance characteristics; and generating a real-time development environment by utilizing the PaaS platform to enable the plurality of source code components to be used for providing the first development user with operation.

In a second aspect of the present application, there is provided a PaaS platform low code development and operation system, the system comprising: the platform information acquisition module is used for acquiring an API call interface, a code resource library and a code operation and maintenance environment based on the PaaS platform; the development threshold evaluation module is used for carrying out development threshold evaluation according to the API call interface, the code resource library and the code operation and maintenance environment to obtain a development threshold index; the operation and maintenance constraint generation module is used for generating operation and maintenance constraint conditions according to the development threshold index; the development user obtaining module is used for obtaining a user management system of the Pass platform and obtaining a first development user; the operation and maintenance feature acquisition module is used for carrying out development feature analysis by using the business process information and the requirement function module of the first development user to acquire development operation and maintenance features; the operation and maintenance feature judging module is used for judging whether the operation and maintenance constraint conditions are met based on the development operation and maintenance feature, and if the development operation and maintenance feature meets the operation and maintenance constraint conditions, configuring a plurality of source code components according to the development operation and maintenance feature; and the development environment generation module is used for generating a real-time development environment for the first development user to operate by utilizing the PaaS platform to generate the plurality of source code components.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

the method provided by the embodiment of the application obtains an API call interface, a code resource library and a code operation and maintenance environment based on the PaaS platform; performing development threshold evaluation according to the API call interface, the code resource library and the code operation environment to obtain a development threshold index; generating operation and maintenance constraint conditions according to the development threshold index, and providing references for the follow-up judgment of whether the application system construction of a development user can be met; acquiring a user management system of the Pass platform, and acquiring a first development user; performing development characteristic analysis by using the business process information and the demand function module of the first development user to obtain development operation and maintenance characteristics; judging whether the operation and maintenance constraint condition is met based on the development operation and maintenance characteristics, and if the development operation and maintenance characteristics meet the operation and maintenance constraint condition, configuring a plurality of source code components according to the development operation and maintenance characteristics; and generating a real-time development environment by utilizing the PaaS platform to enable the plurality of source code components to be used for providing the first development user with operation. The method and the device have the advantages of improving the adaptation degree of the application system constructed based on the low-code open platform and the requirements of the user business process, improving the office efficiency of the user based on the business process, and reducing the economic cost of the construction of the application system.

Drawings

Fig. 1 is a schematic flow chart of a PaaS platform low-code development operation and maintenance method provided in the present application;

fig. 2 is a schematic flow chart of acquiring a development operation and maintenance feature in a PaaS platform low-code development operation and maintenance method provided in the present application;

fig. 3 is a schematic flow chart of performing authority management and control of a source code component in a PaaS platform low-code development operation and maintenance method provided in the present application;

fig. 4 is a schematic structural diagram of a PaaS platform low-code development operation and maintenance system provided in the present application.

Reference numerals illustrate: the system comprises a platform information acquisition module 11, a development threshold evaluation module 12, an operation and maintenance constraint generation module 13, a development user acquisition module 14, an operation and maintenance feature acquisition module 15, an operation and maintenance feature judgment module 16 and a development environment generation module 17.

Detailed Description

The application provides a PaaS platform low-code development operation and maintenance method and system, which are used for solving the technical problems that in the prior art, a simple service function program developed by a user based on a low-code platform is not high in adaptation degree with actual requirements of the user, and normal service application of the user cannot be met. The method and the device have the advantages of improving the adaptation degree of the application system constructed based on the low-code open platform and the requirements of the user business process, improving the office efficiency of the user based on the business process, and reducing the economic cost of the construction of the application system.

The technical scheme of the invention obtains, stores, uses, processes and the like the data, which all meet the relevant regulations of national laws and regulations.

In the following, the technical solutions of the present invention will be clearly and completely described with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments of the present invention, and that the present invention is not limited by the exemplary embodiments described herein. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention. It should be further noted that, for convenience of description, only some, but not all of the drawings related to the present invention are shown.

Example 1

As shown in fig. 1, the present application provides a PaaS platform low-code development and maintenance method, where the method is applied to a low-code development and maintenance system, and the system is communicatively connected to the PaaS platform, and the method includes:

s100, acquiring an API call interface, a code resource library and a code operation and maintenance environment based on the PaaS platform;

specifically, the PaaS platform is a wide set of application infrastructures, and serves resources of the internet as a programmable interface, so that resources and service platforms with commercial value are provided for third parties, namely development users in the embodiment, and based on support of the PaaS platform, the development users can obtain programmable elements with business logic to perform software program development, and the software development work efficiency of the development users is improved.

The API call interface is an application program interface which is developed and built through source code components of various back-end languages including C++, java and the like and has functions of data storage, communication, business service and the like, and a development user can directly use the API call interface for programming development to realize low-code development software generation without accessing source codes or writing codes.

The code resource library is a data resource library which stores various business function codes without limiting development language, and is the basis for realizing low-code development software programs. It should be understood that the programming environments used in different programming languages are different, and the code operation environment is a programming environment of a code program language, including but not limited to a Java language operation environment and a Scala language operation environment.

In this embodiment, an API call interface, a code resource library and a code operation environment that can be provided by the PaaS platform are obtained, so as to provide an evaluation reference for subsequently evaluating the performance of the PaaS platform that can satisfy the implementation function of the development user.

S200, carrying out development threshold evaluation according to the API call interface, the code resource library and the code operation and maintenance environment to obtain a development threshold index;

s300, generating operation and maintenance constraint conditions according to the development threshold index;

in particular, it should be appreciated that the low-code platform component directly enables the development of simple functional software, such as simple business process software, based on existing various functional code components, without actually performing code programming, to reduce the cost of business process optimization for small businesses. Based on the low code characteristics without code programming or with only fine adjustments of code parameters, the PaaS platform has an upper limit of development functionality, i.e. there are some functional scenarios that cannot be realized.

In this embodiment, the development threshold refers to an upper limit of a development function of a program software product that is not required to be programmed by code, such as a business process, based on the PaaS platform by a development user. Acquiring functional projects which can be realized by the PaaS platform according to the API call interface, integrating the API call interfaces with the same function through similarity analysis, performing development threshold evaluation, acquiring an API call interface threshold index, performing development threshold evaluation according to the functional code information stored by the PaaS platform acquired by the code resource library, acquiring a code resource storage threshold index, acquiring a programming language environment which can be programmed by the PaaS platform according to the code operation and maintenance environment, and performing development threshold evaluation to acquire a code operation and maintenance environment threshold index.

The development threshold index is generated based on an API call interface threshold index, a code resource storage threshold index and a code operation and maintenance environment threshold index, and the development threshold index characterizes the limit that the PaaS platform can develop business process function software. And generating operation and maintenance constraint conditions according to the development threshold indexes, and judging whether the business process application system which is intended to be realized by a development user can be realized based on the PaaS platform conveniently and rapidly based on the operation and maintenance constraint conditions, so that the situation that the development user blindly selects the PaaS platform to develop low codes of the application system, and the development failure of the application system and the time waste are caused is avoided.

S400, acquiring a user management system of the PaaS platform, and acquiring a first development user;

specifically, the development user is a user who uses the PaaS platform to develop a low-code application system. The user management system is used for connecting the development user with the middleware of the PaaS platform. In this embodiment, the first development user is any development user, and the first development user uses PaaS platform functions based on the user management system.

S500, carrying out development characteristic analysis by using the business process information and the demand function module of the first development user to obtain development operation and maintenance characteristics;

specifically, in this embodiment, the business process refers to a series of business activities that are respectively and jointly completed by different people to achieve a specific objective, and the business process information includes the sequence of the active nodes, the content, the manner and the responsibility of each active node, and the action of switching hands of the active node. The demand functional module is determined based on the business process information and is used for realizing functional modules required by circulation management of all active nodes in the business process.

And carrying out development characteristic analysis based on the business process information of the first development user and a module for realizing the business process full-node circulation management function, so as to obtain the open operation and maintenance characteristics for evaluating whether the current PaaS platform can meet the development of the business process information. The development operation and maintenance features comprise API call interface feature indexes, code resource feature indexes and functional code operation and maintenance environment requirements.

S600, judging whether the operation and maintenance constraint condition is met based on the development operation and maintenance feature, and if the development operation and maintenance feature meets the operation and maintenance constraint condition, configuring a plurality of source code components according to the development operation and maintenance feature;

further, as shown in fig. 3, after the plurality of source code components are configured according to the development operation and maintenance feature, a method step S600 provided in the present application further includes:

s610, generating component operation authorities according to the plurality of source code components;

s620, performing authority personnel deployment on the plurality of source code components according to the component operation authorities, acquiring authority deployment results, and performing authority management and control on the plurality of source code components according to the authority deployment results.

Specifically, in this embodiment, the open operation and maintenance feature is compared with the operation and maintenance constraint condition to determine whether the development operation and maintenance feature meets the operation and maintenance constraint condition, if the development operation and maintenance feature meets the operation and maintenance constraint condition, a plurality of source code components are configured according to the development operation and maintenance feature, and the plurality of source code components can meet all service function requirements in the service flow of the first development user, including but not limited to service scene functions such as registration, task management, performance management, work circulation, task approval, and the like.

It should be understood that in the business flow, the identities of the processors corresponding to different business nodes are different, and the authorities of the business nodes are also different, for example, the leave-check node only has personnel and the HR has authority to agree to check. Therefore, in this embodiment, according to the plurality of source code components, the service scenario function corresponding to each source code component is different and the service node corresponding to the service scenario function is different, setting of the component operation authority of the source code component is correspondingly performed.

And performing authority personnel deployment on the plurality of source code components by using the component operation authorities, acquiring an authority deployment result, and performing authority management and control on the plurality of source code components according to the authority deployment result.

According to the embodiment, the service scene function specifically realized by the source code component is obtained, and the component operation authority of the source code component, namely the staff authority corresponding to different service nodes in the service flow, is set, so that the technical effect of setting the service node authority in the service flow application program without special programming based on programmers is realized, and the service flow type simple application system construction is realized at low cost.

And S700, utilizing the PaaS platform to generate a real-time development environment for the first development user to operate.

Specifically, in this embodiment, a code programming language is determined based on the plurality of source code components, that is, the code operation and maintenance environment, the scope of the traversal of the required code in the code resource library of the PaaS platform is narrowed based on the code operation and maintenance environment, the real-time development environment is generated based on the traversal of the plurality of source code components in the code resource library, and the business process application system of the first development user can be implemented by performing code operation based on the real-time development environment.

The first development user performs drag operation of code resources based on business process information in the real-time development environment to generate a business process application system, and the first development user can construct the business process application system without writing codes in the real-time development environment.

The method provided by the embodiment obtains an API call interface, a code resource library and a code operation and maintenance environment based on the PaaS platform; performing development threshold evaluation according to the API call interface, the code resource library and the code operation environment to obtain a development threshold index; generating operation and maintenance constraint conditions according to the development threshold index, and providing references for the follow-up judgment of whether the application system construction of a development user can be met; acquiring a user management system of the Pass platform, and acquiring a first development user; performing development characteristic analysis by using the business process information and the demand function module of the first development user to obtain development operation and maintenance characteristics; judging whether the operation and maintenance constraint condition is met based on the development operation and maintenance characteristics, and if the development operation and maintenance characteristics meet the operation and maintenance constraint condition, configuring a plurality of source code components according to the development operation and maintenance characteristics; and generating a real-time development environment by utilizing the PaaS platform to enable the plurality of source code components to be used for providing the first development user with operation. The method and the device have the advantages of improving the adaptation degree of the application system constructed based on the low-code open platform and the requirements of the user business process, improving the office efficiency of the user based on the business process, and reducing the economic cost of the construction of the application system.

Further, after the generating the real-time development environment by using the PaaS platform to generate the plurality of source code components, the method steps provided in the present application further include:

s810, calling a test code sample according to the code resource library;

s820, testing in the real-time development environment based on the test code sample to obtain a code running result;

s830, performing multi-index self-checking according to the code running result, and acquiring an issuing instruction if the multi-index self-checking result is that the self-checking is passed;

and S840, controlling the Pass platform to issue the real-time development environment to the first development user according to the issuing instruction.

Specifically, the test code samples with consistency of function and source code components are matched from the code resource library based on the source code components in the embodiment. The test code sample is an original code, and the basic program function of code operation meets the functional requirement of the business process node, but has the defect of not meeting the functional limitation of the business process node.

The present embodiment thus generates the test code samples based on the plurality of source code components, invoking a plurality of codes from the code repository that are functionally consistent with the plurality of source code components.

And testing in the real-time development environment based on the test code sample to obtain a code running result, wherein the code running result comprises code running time complexity and code environment dimensional stability, and multi-index self-checking is carried out according to the code running result, and the multi-index self-checking is preferably used for carrying out service data introduction capability indexes and connecting other office software stability degree indexes in the code running process. If the multi-index self-test result is that the self-test passes, the PaaS platform low-code development operation and maintenance system generates a issuing instruction, and the issuing instruction is used for controlling the Pass platform to issue the real-time development environment to the first development user.

According to the embodiment, on the basis of performing function code calling selection by traversing the code resource library based on the plurality of source code components, the operation test is executed on the selected test code samples, so that the technical effect of ensuring that the business process application system obtained by the first development user based on the low code system generation mode meets the business process office requirements of the first development user is achieved.

Further, performing multi-index self-checking according to the code running result, the method provided in the present application further includes:

s831, the code operation result is obtained, wherein the code operation result comprises code operation time complexity and code environment dimensional stability;

s832, calculating the operation quality according to the time complexity and the code environment dimensional stability to obtain an operation quality index;

s833, when the running quality index meets the preset running quality index, obtaining a self-checking passing result.

Further, the method step S832 further includes:

s832-1, performing connector analysis and data access capability analysis on the real-time development environment to obtain environment external capability;

s832-2, performing weight configuration according to the environment external connection capability, the time complexity and the code environment dimensional stability to obtain a first weight index, a second weight index and a third weight index;

s832-3, according to the first weight index, the second weight index and the third weight index, the operation quality index is obtained through operation quality calculation.

Specifically, in this embodiment, based on the test code sample, testing is performed in the real-time development environment, service flow data is substituted, so that a code simulates service flow to operate, a real-time monitoring is performed on an operation test process, and a code operation result is obtained, where the code operation result includes a code operation time complexity and a code environment dimensional stability, the code operation time complexity is a time length of maintaining normal operation of a code in the real-time development environment, and the code environment dimensional stability refers to accuracy of the code simulating service flow to operate in a process of continuously accessing service data.

And according to the connection condition of the connector provided by the code and office application programs such as office software, office mailbox and the like of an enterprise, performing connector analysis on the real-time development environment, and performing data access capability analysis on the processing capability of the code on the continuously accessed business data to obtain environment external capability, wherein the environment external capability reflects the butting dimensional stability of the code and other office systems and the processing capability of the code on the business data in the running process of the simulated business flow.

The weight configuration is performed according to the environment external connection capability, the time complexity and the code environment dimensional stability, a first weight index, a second weight index and a third weight index are obtained, the weight index is high and low, the importance degree of different enterprises on the business process is reflected, the specific weight distribution of the environment external connection capability, the time complexity and the code environment dimensional stability is not limited, and a first development user can set according to the importance degree of the business process which is intended to be developed in offices. And according to the first weight index, the second weight index and the third weight index, operating quality calculation is carried out, and the operating quality index is obtained.

Likewise, the setting of the preset operation quality index is not limited, the setting is still performed according to the importance degree of the business process application system which is intended to be developed by the first development user in the office, the operation quality index and the preset operation quality index are compared, when the operation quality index meets the preset operation quality index, the code which is operated in the real-time operation environment at present can meet the requirement of the business process application system which is constructed by the first development user without the need of adaptively adjusting code parameters, and the PaaS platform low-code development operation and maintenance system generates a self-checking passing result.

According to the embodiment, the test code sample is operated in the real-time operation environment, the test code sample is detected by the service flow data and the access of the external connector, so that whether the test code sample meets the operation requirement of the service flow application program planned and developed by the first development user is detected, and the technical effect of building the service flow application system meeting the development and use requirements of the first development user is achieved, so that the schedule office service flow of the first development user is assisted to operate efficiently.

Further, the method provided by the present application further includes:

s834, when the operation quality index does not meet the preset operation quality index, carrying out error recognition on the real-time development environment to obtain recognition features;

s835, optimizing configuration is carried out on the real-time development environment by taking the identification feature as an optimizing condition, and an optimizing configuration component is output;

s836, optimizing the plurality of source code components by the optimizing configuration component to obtain an optimized development environment;

and S837, the optimized development environment is issued to the first development user.

Specifically, in this embodiment, the test code sample is a code set that satisfies basic functions of all business process nodes in the business process information of the first development user, and there is a situation that the business process node business processing efficiency is not adapted, and code adjustment needs to be performed so that the code functions are in accordance with the business process node functions.

Therefore, in this embodiment, the setting of the preset operation quality index is performed based on the requirements of the first developer, and it is determined whether the operation quality index meets the preset operation quality index. When the running quality index does not meet the preset running quality index, indicating that partial codes which are not matched with the functions of the business process nodes exist in the current codes, carrying out error recognition on the partial codes which are not matched in the real-time development environment, and obtaining recognition features, wherein the recognition features comprise one or two of excessively high code running time complexity and excessively low code environment dimensional stability.

And carrying out optimal configuration on the corresponding codes in the real-time development environment by taking the identification features as optimization conditions, outputting an optimal configuration component, wherein the optimal configuration component is a better code capable of realizing the business process node function, carrying out optimal replacement on the plurality of source code components by using the optimal configuration component, acquiring an optimal development environment, and issuing the optimal development environment to the first development user. And the first development user builds a business process application system based on the optimized development environment.

According to the embodiment, after the comparison determines that the operation quality index does not meet the preset operation quality index, error identification is carried out on the real-time development environment, so that the real-time development environment is optimally configured, the plurality of source code components are optimized based on the optimal configuration component, the optimal development environment is obtained, and the technical effect that the real-time development environment is optimized is achieved, so that the business process application program developed based on the PaaS platform meets the business process requirements of a first development user is achieved.

Further, as shown in fig. 2, the method step S500 provided in the present application further includes:

s510, acquiring a newly added demand function module;

s520, acquiring the business process information and a visual framework of the demand functional module;

s530, carrying out frame reservation and secondary component configuration on the visual frame by using the newly added demand functional module, and obtaining a reserved frame and secondary component configuration result;

s540, generating a secondary development environment based on the newly-added demand functional module according to the reserved frame and the secondary component configuration result;

and S550, updating the secondary development environment to the port of the first development user.

In particular, it should be understood that, to achieve normal operation of the enterprise and meet the development requirement of the enterprise, the business process of the enterprise is not constant, for example, after a new department or a new leader, the business process will also have a new approval node and a function department to adapt to the current development situation of the enterprise.

In this embodiment, the service flow node is correspondingly acquired to have a new requirement function module corresponding to the same function code.

And acquiring the service flow information and the visual framework of the requirement function module, acquiring the component configuration corresponding to the newly-increased requirement function module by using the newly-increased requirement function module, and carrying out framework reservation and secondary component configuration on the visual framework to acquire a reserved framework and secondary component configuration result. Generating a secondary development environment based on the newly-added demand functional module according to the reserved frame and the secondary component configuration result; and updating the secondary development environment to the port of the first development user.

According to the embodiment, the newly-added business process node and the newly-added demand function module of the first development user are obtained, the newly-added demand function module is used for carrying out frame reservation and secondary component configuration on the visual frame, the reserved frame and secondary component configuration result is obtained, a secondary development environment based on the newly-added demand function module is generated, the generation of a business process application system with the newly-added business process node can be carried out without the need of the first development user to carry out development environment generation based on the business process again when the demand function module is increased, and therefore the technical effect of complexity of the user in carrying out business process application system generation is reduced.

Example two

Based on the same inventive concept as the PaaS platform low-code development operation and maintenance method in the foregoing embodiment, as shown in fig. 4, the present application provides a PaaS platform low-code development operation and maintenance system, where the system includes:

the platform information acquisition module 11 is used for acquiring an API call interface, a code resource library and a code operation and maintenance environment based on the PaaS platform;

the development threshold evaluation module 12 is configured to perform development threshold evaluation according to the API call interface, the code resource library and the code operation and maintenance environment, and obtain a development threshold index;

an operation and maintenance constraint generating module 13, configured to generate operation and maintenance constraint conditions according to the development threshold index;

a development user obtaining module 14, configured to obtain a user management system of the Pass platform, and obtain a first development user;

the operation and maintenance feature acquisition module 15 is configured to perform development feature analysis by using the business process information and the requirement function module of the first development user to acquire development operation and maintenance features;

an operation and maintenance feature judging module 16, configured to judge whether the operation and maintenance constraint condition is satisfied based on the development operation and maintenance feature, and if the development operation and maintenance feature satisfies the operation and maintenance constraint condition, configure a plurality of source code components according to the development operation and maintenance feature;

the development environment generating module 17 is configured to generate a real-time development environment for the first development user to operate by using the PaaS platform to generate the plurality of source code components.

Further, the system further comprises:

a test code calling unit for calling a test code sample according to the code resource library;

the code test execution unit is used for testing in the real-time development environment based on the test code sample to obtain a code running result;

the running result self-checking unit is used for carrying out multi-index self-checking according to the code running result, and acquiring an issuing instruction if the multi-index self-checking result is that the self-checking is passed;

and the issuing instruction execution unit is used for controlling the Pass platform to issue the real-time development environment to the first development user by the issuing instruction.

Further, the operation result self-checking unit further includes:

the code running result obtaining unit is used for obtaining the code running result, wherein the code running result comprises code running time complexity and code environment dimensional stability;

the operation quality calculation unit is used for calculating the operation quality according to the time complexity and the code environment dimensional stability to acquire an operation quality index;

and the operation quality judging unit is used for acquiring a self-checking passing result when the operation quality index meets a preset operation quality index.

Further, the system further comprises:

the identification feature obtaining unit is used for carrying out error identification on the real-time development environment when the operation quality index does not meet the preset operation quality index, and obtaining identification features;

the optimizing configuration execution unit is used for optimizing configuration of the real-time development environment by taking the identification characteristic as an optimizing condition and outputting an optimizing configuration component;

the development environment optimizing unit is used for optimizing the plurality of source code components by the optimizing configuration component to obtain an optimized development environment;

and the optimization environment issuing unit is used for issuing the optimization development environment to the first development user.

Further, the operation and maintenance feature obtaining module 15 further includes:

the newly added demand obtaining unit is used for obtaining a newly added demand functional module;

the visual framework obtaining unit is used for obtaining the visual framework of the business process information and the requirement function module;

the newly-added demand assembly unit is used for carrying out frame reservation and secondary component configuration on the visual frame by using the newly-added demand functional module, and obtaining a reserved frame and secondary component configuration result;

the development environment generation unit is used for generating a secondary development environment based on the newly-added demand functional module according to the configuration results of the reserved frame and the secondary components;

and the development environment updating unit is used for updating the secondary development environment to the port of the first development user.

Further, the operation and maintenance feature determining module 16 further includes:

the operation authority generation unit is used for generating component operation authorities according to the plurality of source code components;

and the authority deployment execution unit is used for performing authority personnel deployment on the plurality of source code components according to the component operation authority, acquiring an authority deployment result, and performing authority management and control on the plurality of source code components according to the authority deployment result.

Further, the operation quality calculation unit further includes:

the external capability obtaining unit is used for carrying out connector analysis and data access capability analysis on the real-time development environment to obtain environment external capability;

the weight configuration processing unit is used for carrying out weight configuration according to the environment external connection capability, the time complexity and the code environment dimensional stability to obtain a first weight index, a second weight index and a third weight index;

and the operation quality calculation unit is used for obtaining the operation quality index according to the operation quality calculation of the first weight index, the second weight index and the third weight index.

Any of the methods or steps described above may be stored as computer instructions or programs in various non-limiting types of computer memories, and identified by various non-limiting types of computer processors, thereby implementing any of the methods or steps described above.

Based on the above-mentioned embodiments of the present invention, any improvements and modifications to the present invention without departing from the principles of the present invention should fall within the scope of the present invention.

Claims (8)

1. A PaaS platform low-code development and maintenance method, wherein the method is applied to a low-code development and maintenance system, the system is in communication connection with the PaaS platform, and the method comprises:

based on the PaaS platform, an API call interface, a code resource library and a code operation and maintenance environment are obtained;

performing development threshold evaluation according to the API call interface, the code resource library and the code operation environment to obtain a development threshold index;

generating operation and maintenance constraint conditions according to the development threshold index;

acquiring a user management system of the Pass platform, and acquiring a first development user;

performing development characteristic analysis by using the business process information and the demand function module of the first development user to obtain development operation and maintenance characteristics;

judging whether the operation and maintenance constraint condition is met based on the development operation and maintenance characteristics, and if the development operation and maintenance characteristics meet the operation and maintenance constraint condition, configuring a plurality of source code components according to the development operation and maintenance characteristics;

generating a real-time development environment by utilizing the PaaS platform to enable the plurality of source code components to be used for providing the first development user with operation;

the method comprises the steps of carrying out development threshold evaluation according to the API call interface, the code resource library and the code operation and maintenance environment to obtain a development threshold index, and comprising the following steps: acquiring functional items which can be realized by the PaaS platform according to the API call interface, integrating the API call interfaces with the same function through similarity analysis, performing development threshold evaluation, acquiring an API call interface threshold index, performing development threshold evaluation according to the functional code information stored by the PaaS platform acquired by the code resource library, acquiring a code resource storage threshold index, acquiring a programming language environment which can be programmed by the PaaS platform according to the code operation and maintenance environment, and performing development threshold evaluation to acquire a code operation and maintenance environment threshold index; the development threshold index is generated based on an API call interface threshold index, a code resource storage threshold index, and a code operational environment threshold index.

2. The method of claim 1, wherein after generating a real-time development environment from the plurality of source code components using the PaaS platform, the method comprises:

calling a test code sample according to the code resource library;

testing in the real-time development environment based on the test code sample to obtain a code running result;

performing multi-index self-checking according to the code running result, and acquiring an issuing instruction if the multi-index self-checking result is that the self-checking is passed;

and controlling the Pass platform to issue the real-time development environment to the first development user according to the issuing instruction.

3. The method of claim 2, wherein multi-index self-test is performed based on the code running results, the method further comprising:

acquiring the code running result, wherein the code running result comprises code running time complexity and code environment dimensional stability;

performing operation quality calculation according to the time complexity and the code environment dimensional stability to obtain an operation quality index;

and when the running quality index meets the preset running quality index, obtaining a self-checking passing result.

4. A method as claimed in claim 3, wherein the method further comprises:

when the running quality index does not meet the preset running quality index, carrying out error identification on the real-time development environment to obtain identification characteristics;

taking the identification characteristics as optimization conditions, carrying out optimization configuration on the real-time development environment, and outputting an optimization configuration component;

optimizing the plurality of source code components by using the optimizing configuration component to obtain an optimized development environment;

and issuing the optimized development environment to the first development user.

5. The method of claim 1, wherein the development feature analysis is performed with the business process information and the demand function module of the first development user to obtain the development operation and maintenance feature, the method further comprising:

acquiring a newly added demand function module;

acquiring the business process information and a visual framework of the demand functional module;

performing frame reservation and secondary component configuration on the visual frame by using the newly added demand functional module, and obtaining a reserved frame and secondary component configuration result;

generating a secondary development environment based on the newly-added demand functional module according to the reserved frame and the secondary component configuration result;

and updating the secondary development environment to the port of the first development user.

6. The method of claim 1, wherein after configuring the plurality of source code components according to the development operational characteristics, the method further comprises:

generating component operation authorities according to the plurality of source code components;

and performing authority personnel deployment on the plurality of source code components by using the component operation authorities, acquiring an authority deployment result, and performing authority management and control on the plurality of source code components according to the authority deployment result.

7. The method of claim 3, wherein the obtaining an operation quality indicator, the method further comprising:

performing connector analysis and data access capability analysis on the real-time development environment to obtain environment external capability;

performing weight configuration according to the environment external connection capability, the time complexity and the code environment dimensional stability to obtain a first weight index, a second weight index and a third weight index;

and according to the first weight index, the second weight index and the third weight index, operating quality calculation is carried out, and the operating quality index is obtained.

8. A PaaS platform low code development and operation system, the system comprising:

the platform information acquisition module is used for acquiring an API call interface, a code resource library and a code operation and maintenance environment based on the PaaS platform;

the development threshold evaluation module is used for carrying out development threshold evaluation according to the API call interface, the code resource library and the code operation and maintenance environment to obtain a development threshold index;

the operation and maintenance constraint generation module is used for generating operation and maintenance constraint conditions according to the development threshold index;

the development user obtaining module is used for obtaining a user management system of the Pass platform and obtaining a first development user;

the operation and maintenance feature acquisition module is used for carrying out development feature analysis by using the business process information and the requirement function module of the first development user to acquire development operation and maintenance features;

the operation and maintenance feature judging module is used for judging whether the operation and maintenance constraint conditions are met based on the development operation and maintenance feature, and if the development operation and maintenance feature meets the operation and maintenance constraint conditions, configuring a plurality of source code components according to the development operation and maintenance feature;

the development environment generation module is used for generating a real-time development environment for the first development user to operate by utilizing the PaaS platform to enable the plurality of source code components;

the development threshold evaluation module is further configured to perform development threshold evaluation according to the API call interface, the code resource library and the code operation and maintenance environment, and obtain a development threshold index, where the development threshold evaluation module includes: acquiring functional items which can be realized by the PaaS platform according to the API call interface, integrating the API call interfaces with the same function through similarity analysis, performing development threshold evaluation, acquiring an API call interface threshold index, performing development threshold evaluation according to the functional code information stored by the PaaS platform acquired by the code resource library, acquiring a code resource storage threshold index, acquiring a programming language environment which can be programmed by the PaaS platform according to the code operation and maintenance environment, and performing development threshold evaluation to acquire a code operation and maintenance environment threshold index; the development threshold index is generated based on an API call interface threshold index, a code resource storage threshold index, and a code operational environment threshold index.