CN110633077B - Quick development system and method based on modularization - Google Patents

Abstract

The invention provides a rapid development system and a rapid development method based on modularization, wherein the system comprises original codes of functional modules of a plurality of cores: B/S architecture, SOAP, web service engine, java framework, database load connection technique, etc. can meet the needs in development. The system can support electronic commerce (E-Business), internet (Internet), enterprise internal resource network (Intranet), external resource network (Extranet) and the like by utilizing own interfaces, so as to realize dynamic monitoring of the enterprise and integrate and optimize various resources.

Description

Quick development system and method based on modularization

Technical Field

The invention belongs to the technical field of website development and small project development, and particularly relates to a rapid development system and method based on modularization.

Background

With the enrichment and development of network applications, many projects need to be developed rapidly, and traditional coding, compiling, testing, generating and executing often cannot follow the development speed of a system and the steps of changing a business mode rapidly, so that a lot of time, manpower and material resources are required to process the update and maintenance work of the projects; when the function expansion is encountered, the work of integrating the functions of the internal and external networks and the expansion functions becomes more complex, and even the system needs to be redesigned; in this way, the system is always upgraded and integrated in a high-cost and low-efficiency cycle. Therefore, a modularized rapid development system and method are developed to effectively solve the common problems and requirements in project design construction and information release.

Disclosure of Invention

In order to solve the above problems, the present invention provides a rapid development system and method based on modularization, the system comprising:

the development terminal is used for carrying out combination packaging on the modules with different functions in a mode of dragging a graphical interface;

the cloud server is used for providing module programs with different functions operated by the development terminal and performing system construction on the modules or module groups after the development terminal is combined and packaged;

the development end is in communication connection with the cloud server;

1. further, the development end comprises a module packaging unit, a module selecting unit, a module combining unit and a module testing unit;

the module packaging unit packages the module with the programming content in the cloud server and presents the module in a visual mode;

the module selection unit sequentially performs type selection and module selection according to the specific content of the project or the software;

the module combination unit is used for combining the selected type and the selected module in a mode of dragging a graphical interface;

the module testing unit is used for performing combined execution test on the combined modules or the combined module groups;

the module packaging unit, the module selecting unit, the module combining unit and the module testing unit are sequentially connected;

further, a system introducing unit and a system checking and accepting unit are arranged on the cloud server;

the system introducing unit is used for generating static pages and caching pages through a 3-layer architecture of the Java framework to complete website development or project development by using modules or module groups with correct execution results in the module testing unit;

the system acceptance unit is used for accepting websites or projects which are developed completely;

further, the system also comprises an optimizing and upgrading module, wherein the optimizing and upgrading module is used for connecting a system acceptance unit and a module selection unit and carrying out module optimization on the accepted websites or projects;

further, the communication connection between the development terminal and the cloud server includes, but is not limited to, 2G, 3G, 4G, 5G, WIFI, bluetooth and infrared transmission;

further, the cloud server also interfaces electronic commerce, the Internet, an enterprise internal resource network and an external resource network at the same time;

further, a rapid development method based on modularization, the method comprising:

s1: the loading data module is used for loading the class module files and specifically comprises a tool class library in a class library, a loading Script and a CSS module;

s2: analyzing the hierarchical dependency relationship among the modules loaded in the S1;

s3: adding an event mechanism through the hierarchical dependency relationship in the S2, then deconstructing the relationship, and analyzing a module to be loaded;

s4: module combination: each required module is placed at a designated position according to the specific requirements of service logic, the modules are distributed on a server for testing after finishing, and after testing and acceptance, the development of a modularized rapid development system is completed;

further, the loading of various tool class libraries in the class library in S1 adopts a java class internal direct import class file, which specifically includes:

import com.platform. A// cache module;

import com.platform. A// database connection;

import com.platform. A// anomaly module;

import com.platform.log; a// log module;

import com.platform.net; a// network module;

import com.platform.ui; a// page effect module;

import com.platform.util; a// tool class module;

import com.plan. A// verification module;

import com.platform.web.; a// page display module;

further, in the S1, the Script and CSS module loads and implements UI switching by using an AJAX technology, and HTML5+css implements automatic adjustment of a display effect of a page according to a browser, which specifically includes:

< link type= "text/css" rel= "stylesheet" href= "/css/common. Css"/>// load style

< Script src= "/js/common. Js" >/Script >// Script loading;

further, the hierarchical dependency relationship of the parsing module in S2 specifically includes: obtaining a series of dependency relationships from index. Html by utilizing common. Js, wherein a regular matching mode is adopted;

further, an application of a modular-based rapid development system, the application comprising the steps of;

1: project planning: the user determines the type of the finished project and the required module through the functions to be realized and the use requirements;

2: type selection: the user connects the development terminal through the communication equipment, and selects the item type provided by the development terminal by the instruction sent by the communication equipment;

a) Display type: product, information, introduction;

b) Transaction type: malls, marketing, members;

c) Interaction type: forum, encyclopedia, leave a message;

3: and (3) module selection: the user connects the development terminal through the communication equipment, after selecting the type, the module provided by the development terminal is selected by the instruction sent by the communication equipment;

4: function acceptance: the system combines the selected types and the modules to generate and cache a static page;

the beneficial effects of the invention are as follows:

1) Defining service requirements in a data definition mode, and realizing logic flow in a code writing mode;

2) The system has high performance, well solves the bottleneck of low IO access efficiency by a distributed multi-level cache technology, and the modularized system adopts a 3-layer architecture based on a JavaEE frame, supports static page generation and page cache, and provides excellent running performance;

3) The function of a named database connection pool can be realized, and the problem that one service needs multiple database accesses is solved;

4) The hierarchical log recording function solves the performance problem between program development, debugging and production deployment;

5) Convenient for secondary development and providing an implementation interface with common functions

6) Safety: providing a secure operating environment from an application level to a server kernel using a secure enterprise-level Java application server, using a role-based security authentication mechanism;

7) High efficiency: the deployment and implementation of different project systems can be rapidly and efficiently carried out for development;

8) Stabilization: the system can realize 365 days/year, 24x 7/week uninterrupted operation;

9) The method comprises the following steps of: the enterprise informatization integrated management system can carry out template customization and theme replacement, and can easily realize secondary development by means of module expansion.

Drawings

Fig. 1 is a flow chart of the system of the present invention when applied.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. On the contrary, the invention is intended to cover any alternatives, modifications, equivalents, and variations as may be included within the spirit and scope of the invention as defined by the appended claims. Further, in the following detailed description of the present invention, certain specific details are set forth in order to provide a better understanding of the present invention. The present invention will be fully understood by those skilled in the art without the details described herein.

The invention will now be further described with reference to the drawings and specific examples, which are not intended to limit the invention. The following are preferred embodiments of the invention:

as shown in fig. 1, with the rapid development of the internet, the demand for solutions based on modular rapid development is increasing, and the present project aims to provide a rapid development system and method based on modularization: the system comprises: the cloud server comprises a development end, an optimization upgrading module and a cloud server;

the development terminal performs combined encapsulation on the modules with different functions in a mode of dragging a graphical interface;

the development terminal comprises a module packaging unit, a module selecting unit, a module combining unit and a module testing unit;

the module packaging unit packages the module with the programming content in the cloud server and presents the module in a visual mode;

the module selection unit is used for selecting types and modules according to the specific content of the project or the software;

the module combination unit is used for combining the selected type and the selected module in a mode of dragging a graphical interface;

the module testing unit is used for performing combined execution test on the combined modules or the combined module groups;

the module packaging unit, the module selecting unit, the module combining unit and the module testing unit are connected in sequence

The cloud server is used for providing module programs with different functions operated by the development terminal and performing system construction on the modules or module groups after the development terminal is combined and packaged;

the cloud server is provided with a system introduction unit and a system acceptance unit;

the system introducing unit is used for generating static pages and caching pages through a 3-layer architecture of the Java framework to complete website development or project development by using modules or module groups with correct execution results in the module testing unit;

a system acceptance unit for accepting the developed website or project

The optimizing and upgrading module is used for connecting the system acceptance unit and the module selection unit and carrying out module optimization on the accepted websites or projects;

the development end and the cloud server are in communication connection, and the communication connection mode comprises but is not limited to 2G, 3G, 4G, 5G, WIFI, bluetooth and infrared transmission.

The working principle of the system of the invention is as follows:

based on the modularized rapid development system, programmers only need to package the modularity, and do not need to program the implementation inside the module; the horizontal and vertical combined functional modules are adopted, so that the development mode and the application of the existing project are met; introducing an automatic test technology to realize automatic test of the module; adopting a visual technology, carrying out drag development on a graphical interface, and reducing development difficulty and learning cost; the Java mature architecture comprehensively supports WebService, and has no limit in cross-platform and expansion; providing module selection according to different levels of projects, wherein the module setting is simple and flexible, and the development speed is ensured; based on the management thought of project life process, the management of project from coding, compiling, testing, generating, executing and complete development period is truly realized, so that the development and management of websites are straddled by a development system which is reliable, practical and perfect. The system is introduced into a cloud server, and the module is put into the cloud end, so that the system can be developed and modified at any time.

The specific process of modularized development is as follows:

1. loading of data modules

The class module file is loaded, and various tool class libraries in the class library are mainly loaded, and a java class internal direct import class file is adopted, for example:

import com.platform. A// cache module

import com.platform. Database connection

import com.platform. Abnormality module

import com.platform.log; logging module

import com.platform.net; a// network module

import com.platform.ui; per page effect module

import com.platform.util; tool class module

import com.plan. /(and verification module

import com.platform.web.; page display module

Script and CSS modules are loaded, UI switching is achieved by adopting an AJAX technology, and pages are automatically adjusted to show effects according to a browser through HTML5+CSS, for example:

< link type= "text/css" rel= "stylesheet" href= "/css/common. Css"/>// load style

< Script src= "/js/common. Js" >/Script loading >// Script loading

2. Resolving hierarchical dependencies of modules

The dependency of the series is obtained from index. Html using common. Js, typically in the form of regular matching. The following are provided: the code of the function is fetched first, then the dependency relationship of the first layer is matched regularly, then the code matched to the relationship is loaded, and the matching is continued. The entry of the whole function is start, and the regular expression is:

3. adding event mechanisms

The responseText is cached first, if the file is not cached, the responseText code obtained by direct eval is trapped in the dead loop, and the code is continuously loaded by the start and the request. Therefore, we need to take the dependency and then deconstruct the relationship to analyze which modules we need to load.

4. Module combination

All the modules required are placed at the designated positions according to the specific requirements of the business logic, so that the basic functions are completed, and the modules can be issued to a server after finishing the modules, so that the test can be performed.

By the method, the programmers of the development module and the members of the development system are separated, the members of the development module are only responsible for the test module, and most programmers can realize development, test and packaging of the program by only calling the interface.

Compared with the existing system development method, the method provided by the invention has the following differences:

1) Defining service requirements in a data definition mode, and realizing logic flow in a code writing mode;

2) The bottleneck of low IO access efficiency is well solved through the high performance and distributed multi-level cache technology;

3) The function of a named database connection pool can be realized, and the problem that one service needs multiple database accesses is solved;

4) The hierarchical log recording function solves the performance problem between program development, debugging and production deployment;

5) The secondary development is convenient, and the realization interface of the common functions is provided.

The organization mode is as follows: the invention develops a set of basic development platform with universality aiming at the existing service model and user requirements.

The implementation steps are as follows: planning an overall scheme; research on existing solutions; platform development; testing and acceptance of products; and optimizing and upgrading the product.

And in addition, with the importance of program development by large internet companies, the number of developers is increasing, thereby causing a lot of problems such as optimization of module performance, code specification, and the like. The problems are successfully solved based on the modularized technology in an advanced development idea and a good design mode.

1) The configuration interface based on the XML file is convenient for system migration, transformation and upgrading and the like;

2) The simple programming interface, the basic function implementation is kept within two lines of codes;

3) The code is automatically generated, and the code from the business logic to the final program can be automatically generated, and the business object model can be updated in real time;

4) Based on the SNA architecture, the expansion of the website is facilitated, and the safety and data tightness of the website are improved;

5) The adoption of the open source technology is completely free and completely cross-platform.

In the present invention,

1, DCS module: adopting a distributed multi-level cache technology;

2, mip module: a named multi-interface database connection pool implementation technique;

3, sni module: concise and efficient FTP and HTTP protocol access interfaces;

4, mll module: a multi-level logging system;

5, mpm module: a multi-channel high-performance email and mobile phone short message mass-sending system;

6, STE module: a multi-task multi-scheduling model manager;

7, MDM module: a highly configurable code auto-generation system based on the platform;

when the system is manufactured, interface test is needed;

1. the first interface to be tested is the interface of the browser to the server. The transaction is committed and then the server record is reviewed and verified that what is seen on the browser happens to be on the server. The database may also be queried to confirm that the transaction data has been properly saved.

2. And (5) testing an external interface. The network transaction verifies the credit card data in real time to reduce the occurrence of fraud. During testing, the web interface is used to send transaction data to verify the valid credit card, the invalid credit card and the stolen credit card respectively. If the store uses only Visa and Mastercard cards, data using Discover cards may be attempted. (simple client script can identify code before committing a transaction, e.g., 3 for American Express,4 for Visa,5 for Mastercard,6 for discover.) it is necessary to confirm that the software can handle all possible messages returned by the external server.

3. Interface error handling. The system of the present invention is able to handle most errors but not all possible errors of the system are anticipated. Attempts to interrupt transactions during processing and attempts to interrupt the user's network connection to the server. An attempt is made to break the web server connection to the credit card verification server.

The system is applied to a self-help station building system, upgrades an HTTP module, solves the problem of online website production of members, is applied to user registration real-name verification on the basis of upgrading a mail verification module, upgrades a data integrated management module to solve the problem of client management in the personnel management record function, and upgrades a three-dimensional display module of a product in order to realize the purchase of the product by a client.

The above embodiment is only one of the preferred embodiments of the present invention, and the ordinary changes and substitutions made by those skilled in the art within the scope of the present invention should be included in the scope of the present invention.

Claims (6)

1. A modular-based rapid development system, the system comprising:

the development terminal is used for carrying out combination packaging on the modules with different functions in a mode of dragging a graphical interface;

the cloud server is used for providing module programs with different functions operated by the development terminal and performing system construction on the modules or module groups after the development terminal is combined and packaged;

the development end is in communication connection with the cloud server;

the development terminal comprises a module packaging unit, a module selecting unit, a module combining unit and a module testing unit;

the module packaging unit packages the module with the programming content in the cloud server and presents the module in a visual mode;

the module selection unit sequentially performs type selection and module selection according to the specific content of the project or the software;

the module combination unit is used for combining the selected type and the selected module in a mode of dragging a graphical interface;

the module testing unit is used for performing combined execution test on the combined modules or the combined module groups;

the module packaging unit, the module selecting unit, the module combining unit and the module testing unit are sequentially connected;

the cloud server is provided with a system introduction unit and a system acceptance unit;

the system introducing unit is used for generating static pages and caching pages through a 3-layer architecture of the Java framework to complete website development or project development by using modules or module groups with correct execution results in the module testing unit;

the system acceptance unit is used for accepting websites or projects which are developed completely;

the system also comprises an optimizing and upgrading module, wherein the optimizing and upgrading module is used for connecting a system acceptance unit and a module selection unit and carrying out module optimization on websites or projects which are accepted;

the system also comprises a rapid development module which realizes rapid development by the following method, wherein the method comprises the following steps:

s1: the loading data module is used for loading the class module files and specifically comprises a tool class library in a class library, a loading Script and a CSS module;

s2: analyzing the hierarchical dependency relationship among the modules loaded in the S1;

s3: adding an event mechanism through the hierarchical dependency relationship in the S2, then deconstructing the relationship, and analyzing a module to be loaded;

s4: combining the modules analyzed in S3: and placing all required modules at specified positions according to specific requirements of service logic, after finishing the modules, releasing the modules to a server for testing, and after testing and acceptance, completing the development of the modularized rapid development system.

2. The system of claim 1, wherein the communication connection between the development terminal and the cloud server comprises 2G, 3G, 4G, 5G, WIFI, bluetooth and infrared transmission, and the cloud server is further configured to interface with e-commerce, internet, enterprise internal resource network and external resource network.

3. The system according to claim 1, wherein the various tool class libraries in the loading class library in S1 use java class internal direct import class files.

4. The system of claim 1, wherein the Script and CSS module loads in S1 to implement UI switching by using AJAX technology, and HTML5+css implements automatic adjustment of a presentation effect according to a browser.

5. The system of claim 1, wherein the hierarchical dependency of the parsing module in S2 is specifically: and acquiring a series of dependency relations from index. Html by utilizing common. Js in a regular matching mode.

6. Use of a fast developing system based on modularization, based on the system according to one of the preceding claims 1-5, characterized in that the use comprises the following steps:

1: project planning: the user determines the type of the finished project and the required module through the functions to be realized and the use requirements;

2: type selection: the user connects the development terminal through the communication equipment, and selects the item type provided by the development terminal by the instruction sent by the communication equipment;

3: and (3) module selection: the user connects the development terminal through the communication equipment, after selecting the type, the module provided by the development terminal is selected by the instruction sent by the communication equipment; 4: function acceptance: and combining the selected types and modules to generate and cache the static page.

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