CN116302380A - Resource calling method and system based on experimental resource comprehensive integration - Google Patents

Abstract

The invention provides a resource calling method based on experimental resource comprehensive integration, which comprises the following steps: deploying an installation environment; in an installation environment, storing system data resources in a data resource pool for integrated management, wherein the data resource pool is provided with an integrated data interface; configuring a user role and a user interface; and calling the software application matched with the service requirement in the data resource pool through the user interface according to the service requirement of the user role. The advantages of the invention include at least: the problem of data sharing among multiple software is solved. The data used by the system are subjected to global standard specification management through disassembling and packaging the customized requirements, so that the required data are fished out and stored from a data resource pool. And the software resource platform sharing is realized while the unified specification management is performed on the data resource pool.

Description

Resource calling method and system based on experimental resource comprehensive integration

Technical Field

The invention relates to the technical field of comprehensive integration of information systems, in particular to a resource calling method and system based on comprehensive integration of experimental resources.

Background

With the development of modern digital systems, more and more experimental simulation systems exhibit a stepwise growth process for digital information requirements and integration requirements. At present, system terminal software is mainly a customized software program for executing a certain task or related tasks, but many times, the system needs to integrate a plurality of software programs together to form a systematic framework capable of being invoked in a centralized way. With the increasing user depth understanding and positioning extension of the used frameworks, there is an urgent need for moderate optimization based on interface or underlying business, providing custom remodelling tailored to specific needs and contexts.

Aiming at the phenomena of large data demand of an integrated framework, strong logic relevance, complex service function, poor consistency of interface styles, low resource utilization rate, information transmission blockage, weak service aggregation degree and the like of a software program, certain difficulty is brought to the software data exchange, data maintenance, development management and the like of the traditional experimental simulation system, and the specific problems are as follows:

(1) The data maintenance efficiency is low, the existing common integrated framework has multiple and disordered functional points, the data structures of all software are not uniform, when the data interaction is complex and the relation coupling degree is high, the data redundancy is often caused, and the centralized efficient management is difficult.

(2) The integration flexibility is not high, each application software is independent of other software, and the sharing function extraction is lacking, so that the service aggregation degree is low. When the number of application modules increases, the system maintenance is difficult, and the unnecessary development cost is increased.

(3) The interface style difference is large, and the existing experimental simulation system integration framework can integrate various types of plug-ins such as executable programs, dynamic libraries and the like, but has the defects in the aspects of interface display style, display effect, information prompt and the like. When the system is used by a user, the style and the display interface of each software program are lack of unified standard constraint for frequently switching among different software programs, so that the learning cost of the user is high, and the use error rate is high.

Disclosure of Invention

The invention aims to solve the technical problems that the existing integrated framework has low data maintenance efficiency, low integrated flexibility and large interface style difference, and in this way, the invention provides a resource calling method and a resource calling system based on experimental resource comprehensive integration.

The technical scheme adopted by the invention is that the resource calling method based on experimental resource comprehensive integration comprises the following steps:

deploying an installation environment;

in the installation environment, storing system data resources in a data resource pool for integrated management, wherein the data resource pool is provided with an integrated data interface;

configuring a user role and a user interface;

and calling a software application matched with the service requirement in the data resource pool through the user interface according to the service requirement of the user role.

In one embodiment, the deployment installation environment comprises at least one of:

configuring a C++ development environment;

configuring a Java development environment;

and configuring a QT development environment.

In one embodiment, in the installation environment, the system data resources are stored in a data resource pool for integrated management, wherein the data resource pool has an integrated data interface, and the method comprises the following steps:

packaging various application programs or services into a customized software application integration installation package; releasing the software application integrated installation package under the corresponding installation environment, acquiring a source path and storing the source path in the data resource pool.

In one embodiment, the configuring the user roles and the user interface includes:

configuring personal information of a user, wherein the personal information comprises a corresponding user seat and user permission corresponding to the user seat, integrating the software application in the data resource pool into an installation package, and matching the software application with the user role according to the user permission;

and forming a graphic resource library based on the installation environment, and loading the resource library through a target view component in the graphic resource library to form an interface image identifier, wherein the interface image identifier is used for binding language characters with the graphic resource library.

The invention also provides a resource calling system based on experimental resource comprehensive integration, which comprises,

a universal development environment module configured to deploy an installation environment;

the data management module is configured to store system data resources in the installation environment for integrated management in a data resource pool, wherein the data resource pool is provided with an integrated data interface; the data management module is further configured to: configuring a user role;

an interface management module configured to configure a user interface; and the application management module is configured to call the software application matched with the service requirement in the data resource pool through the user interface according to the service requirement of the user role.

In one embodiment, the generic development environment module is further configured to: configuring the installation environment to be at least one of:

configuring a C++ development environment;

configuring a Java development environment;

and configuring a QT development environment.

In one embodiment, the data management module is further configured to:

packaging various application programs or services into a customized software application integration installation package; releasing the software application integrated installation package under the corresponding installation environment, acquiring a source path and storing the source path in the data resource pool.

In one embodiment, the data management module is further configured to: configuring personal information of a user, wherein the personal information comprises a corresponding user seat and user permission corresponding to the user seat, integrating the software application in the data resource pool into an installation package, and matching the software application with the user role according to the user permission;

the interface management module is further configured to: and forming a graphic resource library based on the installation environment, and loading the resource library through a target view component in the graphic resource library to form an interface image identifier, wherein the interface image identifier is used for binding language characters with the graphic resource library.

Another aspect of the present invention also provides an electronic device, including: memory, a processor and a computer program stored on the memory and executable on the processor, which when executed by the processor performs the steps of the method as claimed in any one of the preceding claims.

Another aspect of the invention also provides a computer storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the method as described in any of the above.

By adopting the technical scheme, the invention has at least the following advantages:

(1) The problem of data sharing among multiple software is solved. The data used by the system are subjected to global standard specification management through disassembling and packaging the customized requirements, so that the required data are fished out and stored from a data resource pool. And the software resource platform sharing is realized while the unified specification management is performed on the data resource pool.

(2) The problem of low flexibility of software application is solved. By adopting a module flexible integration framework technology and combining a visual flexible framework through an integration concept of service datamation and data mixed compiling, each software application can be integrated together at an application end by simple configuration, so that dynamic binding, free combination and flexible cutting of software are realized.

(3) The problem of poor consistency of interface integration styles is solved. Aiming at the problems of multiple functions, unclear hierarchy, weak user interaction and the like of the existing software program, through standardizing visual view windows such as icon design, color collocation, interaction modes and the like, an interface integration style with flexible operation, strong visual experience and friendly interaction is constructed, and the high matching of software interface interaction and user use requirements is realized.

Drawings

FIG. 1 is a flow chart of a resource calling method based on experimental resource comprehensive integration according to an embodiment of the invention;

FIG. 2 is a schematic diagram of a resource calling system based on experimental resource comprehensive integration according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an application example of a resource calling method system based on experimental resource comprehensive integration according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a technical architecture of an application example of a resource calling method system based on comprehensive integration of experimental resources according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

In order to further describe the technical means and effects adopted by the present invention for achieving the intended purpose, the following detailed description of the present invention is given with reference to the accompanying drawings and preferred embodiments.

The steps of the method flow described in the specification and the flow chart shown in the drawings of the specification are not necessarily strictly executed according to step numbers, and the execution order of the steps of the method may be changed. Moreover, some steps may be omitted, multiple steps may be combined into one step to be performed, and/or one step may be decomposed into multiple steps to be performed.

In a first embodiment of the present invention, as shown in fig. 1, a resource calling method based on comprehensive integration of experimental resources includes the following specific steps:

step S1, deploying an installation environment;

step S2, in the installation environment, storing system data resources in a data resource pool for integrated management, wherein the data resource pool is provided with an integrated data interface;

step S3, configuring a user role and a user interface;

and S4, calling a software application matched with the service requirement in the data resource pool through a user interface according to the service requirement of the user role.

The method provided in this embodiment will be described in detail in steps.

Step S1, deploying an installation environment.

In this embodiment, a relevant development environment such as a c++ development environment, a Java development environment, a QT development environment, etc. may be built, which will not be limited herein.

And step S2, in the installation environment, storing the system data resources in a data resource pool for integrated management, wherein the data resource pool is provided with an integrated data interface.

In this embodiment, programs or services such as EXE and DLL with various extensions may be packaged into a customized software application integration installation package, and then the software installation package to be integrated is released in a corresponding installation environment, so as to obtain a source path and store the source path in a data resource pool, so that subsequent operation integration is facilitated.

And S3, configuring a user role and a user interface.

In this embodiment, the personal information of the user is configured, including the corresponding user seat and the user authority corresponding to the user seat, and the software application in the data resource pool is integrated into an installation package, and is matched with the user role according to the user authority.

In this embodiment, the user roles may be configured in the data resource pool, with the user seats being, for example, normal users, advanced users, and the like. It will be appreciated that the user permissions corresponding to the individual user seats are also different, that is, the current user role may invoke a corresponding different software application integration installation package in the data resource pool, depending on the user permissions.

In this embodiment, the data resource pool may be accessed through an integrated interface, and when the user invokes the software integrated installation package, the environment variable is configured and started through a standard start request and a data analysis interface, so as to start the application software program in the software integrated installation package.

In this embodiment, a graphic resource library may be formed based on an installation environment, and an interface image identifier is formed by loading the resource library through a target view component in the graphic resource library, where the interface image identifier is used to bind language characters with the graphic resource library.

Specifically, the method can perform centralized management on the running state of the started software, and perform QSS (Quick security settings, quick safety setting) constraint on the style of the software interface, and monitor the information such as the overall CPU occupancy rate, the memory occupancy rate, the network use port and the like of the system in real time.

And S4, calling a software application matched with the service requirement in the data resource pool through a user interface according to the service requirement of the user role.

In this embodiment, the software application integration installation package matched with the service requirement can be matched and invoked according to the service requirement of the user role and the range of the user authority corresponding to the user seat.

Specifically, when an external user accesses a data resource pool, the external user needs to perform a data access function through a network terminal interface service, and establishes channel communication between an application program and a database through a data source ODBC (open database interconnection) service, so that the external user is supported to perform data access, and user access permission is established. Wherein the ODBC builds a set of standard APIs that can support data access, and the sql statement is operable by accessing the database through the data source.

Further, when the data is accessed, an external port opened by the data resource pool can be called to perform access operation, and the data obtained by processing the data resource pool is returned to obtain target data required by the service integration module.

Compared with the prior art, the embodiment has at least the following advantages:

(1) The system resource management system and the method thereof perform unified storage maintenance management on the system resource, provide access service and data support for each module, provide data input such as account number, basic information and the like for user access, and maximize integrated common resources while the data resources are mutually independent, thereby improving the efficiency of system operation and resource calling.

(2) The invention presents the unified interface style and operation mode to operators through the unified development control, display style and operation logic, and realizes the consistency of the interface style, the convenience of man-machine interaction and the accuracy of the operation mode.

(3) For experiment designers, when multi-system resources are fused and jointly mobilized, the service requirements of the system are enriched. The method solves the blocking of system intercommunication for module developers and provides an effective joint scheduling method for multi-system fusion. Through flexible integration of framework software functions, different experiment special functions and data requirements are designed according to the requirements of different tasks, and application function modularized configuration and calling are supported.

The second embodiment of the present invention, corresponding to the first embodiment, introduces a resource calling system based on comprehensive integration of experimental resources, as shown in fig. 2, including the following components:

a universal development environment module configured to deploy an installation environment;

the data management module is configured to store system data resources in a data resource pool for integrated management in an installation environment, wherein the data resource pool is provided with an integrated data interface; the data management module is further configured to: configuring a user role;

an interface management module configured to configure a user interface;

and the application management module is configured to call the software application matched with the service requirement in the data resource pool through the user interface according to the service requirement of the user role.

In this embodiment, the generic development environment module is further configured to: the installation environment is configured to be at least one of: configuring a C++ development environment; configuring a Java development environment; and configuring a QT development environment.

In this embodiment, the data management module is further configured to: packaging various application programs or services into a customized software application integration installation package; releasing the software application integrated installation package under a corresponding installation environment, acquiring a source path and storing the source path in a data resource pool; configuring personal information of a user, including corresponding user seats and user authorities corresponding to the user seats, integrating software applications in a data resource pool into an installation package, and matching with user roles according to the user authorities.

In this embodiment, the interface management module is further configured to: and forming a graphic resource library based on the installation environment, loading the resource library through a target view component in the graphic resource library to form an interface image identifier, wherein the interface image identifier is used for binding language characters with the graphic resource library.

In some possible implementations of the present embodiment, the system may further include a standard specification module for formulating a standard specification for implementation of the software function. Through data management, application management and interface management of the software experimental process, each sub-module system is integrated into a practical and efficient experimental simulation system, and the on-demand configuration, flexible assembly and dynamic adjustment are realized through an integrated framework, so that system users can organize, implement and manage the system conveniently.

The third embodiment of the present invention, corresponding to the first embodiment and the second embodiment, introduces an application example of a resource calling system based on comprehensive integration of experimental resources, as shown in fig. 3, and includes the following components:

the data management module is used for managing and editing system data, user seat configuration and the like;

the interface management module provides means for a user to use an interface and feeds effective information back to the user;

the application management module provides comprehensive integration of each software program for a user, is responsible for software start-stop, maintenance and monitoring, and can support multi-user on-demand configuration;

the general development environment is an actual software development environment for developers;

standard specifications are established for the implementation of software functions. The data management, application management and interface management of the software experimental process follow the following of decoupling from software products, decoupling from module functions and decoupling from typical processes, and the sub-module systems are integrated into a practical and efficient experimental simulation system, so that the on-demand configuration, flexible assembly and dynamic adjustment are realized through an integrated framework, and the system is convenient for system users to organize, implement and manage.

In the process of constructing the system, referring to fig. 4, firstly, an installation environment is deployed, system data resources are stored in a data resource pool for integrated management, and convenience of access is realized by carrying out integrated management on interfaces; and secondly, accessing a system interface by establishing user roles, application management, parameter configuration and the like. The interface theme is managed in a centralized way, and a good man-machine interaction interface is realized by adopting the standard design of interface elements such as buttons, status bars, tool bars and the like and timely feeding back information and prompt information; and finally, installing the required software application according to the service functions described by the software required by various users, binding the application associated data of the users, and realizing the use of the software according to the needs.

Specifically, the working steps are as follows:

(1) Packaging various EXE, DLL and other programs or services into a customized integrated installation package;

(2) And releasing the software installation package to be integrated under the corresponding installation environment, acquiring a source path and storing the source path in a data resource pool so as to facilitate subsequent operation integration.

(3) Creating a user, registering personal information, associating the user with a seat, seat with permission, permission with an application to form external access data, and storing the data in a data resource pool to serve as historical data information, so that the next direct access is facilitated. In addition, the data can be added, deleted and checked in the data resource pool;

(4) Accessing system data through an interface, and configuring a starting environment variable through a standard starting request and data analysis interface when a user starts a software program so as to start the application software program;

(5) And (3) carrying out centralized management on the running state of the started software, carrying out QSS constraint on the style of the software interface, and carrying out real-time monitoring on the information such as the overall CPU occupancy rate, the memory occupancy rate, the network use port and the like of the system.

In the embodiment, database inquiry and configuration file access are supported, and the flexibility of data requirements is high; the data of the data resource pool can be updated in real time when the system data is modified in the implementation process, and the updating result can be checked in the database after the updating operation is obtained; when the data flows in each application system, the data can be ensured to be converted into the data which can be identified by the system; in order to ensure the privacy of the data during the data flow, the data can be encrypted; when the data in the data association module is managed, unbinding during association is not needed, and deletion from a data resource pool is not needed.

In this embodiment, the data management module may be configured to: data access, data query, data association, data call, data conversion.

And (3) data access: when an external user accesses a data resource pool, the external user needs to access data through a network terminal interface service, and establishes channel communication between an application program and a database through a data source ODBC (open database interconnection) service, so that the external user is supported to access the data, and user access authority is established. Wherein the ODBC builds a set of standard APIs that can support data access, and the sql statement is operable by accessing the database through the data source.

And (3) data query: the data query includes an add-drop-check operation of the data by an external user, and warning information is prompted for an irregular input operation to warn the user of proper operation of the data information.

And (3) data association: the data is associated to satisfy rights management for the user to access the target system. The target program is accessed through a "terminal-system-seat-application". The data resource pool is mainly used for inputting the compiling information between a system user and a seat and between the seat and an application, and providing authority support for the user to log in and access a target application.

And (3) data calling: when the data is accessed, an external port with an open data resource pool can be called to perform access operation, and the data obtained by processing the data resource pool is returned to obtain target data required by the service integration module.

Data conversion: the data fetched from the resource pool needs to be subjected to data-service conversion processing to meet the use requirement of the service integration module. And when the service integration module needs to deposit and store the requirements, service digital conversion is needed. The business integration module and the data resource pool module complement each other to form a closed-loop data flow, so that the data conversion of the system is realized, and the construction capacity is formed.

In this embodiment, for large-scale project development design, different design developers are required to perform development work, and each system becomes an information island due to development language differences, different system architectures and different data storage forms, so that information fusion cannot be performed. By constructing an integrated standardization method, the development, packaging, deployment, configuration, application and maintenance processes of the system are restrained, the functions of interface customization, software integration, operation integration, system monitoring and the like are provided, and unified management of the system integration is realized.

And (3) interface customization: and forming a graphic resource library based on the development system, and loading the resource library through a target view component to form an interface image identifier. And realizing bidirectional binding through the markup language words and the graphic resource library, constructing an image display interface (such as QSS and other constraint patterns) with unified management of views and layout modes and consistent styles. Code binding is achieved through the interface component associated slot function. And through the menu, search bar and other entrance icons provided by the interface integration frame and the operation control of the integration frame on the positions, sizes and overlapping of various display windows, the unification of human-computer interaction is realized.

Software integration: the system can support the development of user terminal software in three unified forms of exe, dll and web pages, acquire software installation packages required by the operation of a unified management and storage system, install required software by one key, flexibly edit each piece of software according to task requirements and use requirements, control each piece of software information configuration and train different software functions.

Running and integrating: unified development environment, following standard specification, making the software constraint (data description constraint, software use constraint, software environment variable, etc.), facilitating and constraining the development of applications in various forms such as desktop application, web application, etc., and integrating with existing system, forming high efficiency and coherence, and convenient maintenance.

And (3) system monitoring: the system software running state (not started, unresponsive and the like) is subjected to centralized management, so that the information such as the overall CPU occupancy rate, the memory occupancy rate, the network use ports and the like of the system is monitored in real time, and the use efficiency and the efficiency of the system application software are improved.

In this embodiment, first, a modularized data request method is provided. And creating a project file of the underlying data interaction service for data modular processing, packaging functions and methods related to the request database into the project file, and exposing an interface module accessed by the background outside for calling. When the background performs data access, the data access request is performed through the interface function. And secondly, a modularized man-machine interaction interface. And the independent interface access is carried out through the created menu bar, tool bar, status bar, buttons and the like, and the secondary development and modification of the program can be carried out through the reserved interface function. Finally, a modular application software interface. Aiming at the multi-user and multi-system demand management, necessary interface functions are reserved for the started application programs, so that different application software can be opened by the user, resource sharing is realized, and service is customized.

Data request: and acquiring the data table name, field name and access data of the current data request, inquiring to obtain a required data format by generating a corresponding SQL inquiry statement, and returning to a corresponding API interface to form target data.

Man-machine interaction: the current user transmits information to an interface API interface through external input operations such as text information input, mouse click and the like, and the user can realize the input, namely the output, rapid access requirement of the user through interface access.

And (3) starting software: by flexibly building the software in the application interface, the association relation data of the user-seat-application is bound, and different software functions are trained. Specifically, the present invention relates to a method for manufacturing a semiconductor device. Installing and deploying the software, wherein a user firstly submits task request data at an application end to search a software program meeting the self requirement; and secondly, analyzing the submitted detailed data information. And finally, identifying analysis data in the execution task, and starting the program.

A fourth embodiment of the present invention, an electronic device, as can be understood as a physical device with reference to fig. 5, includes a processor and a memory storing instructions executable by the processor, which when executed by the processor, perform the following operations:

step S1, deploying an installation environment;

step S2, in the installation environment, storing system data resources in a data resource pool for integrated management, wherein the data resource pool is provided with an integrated data interface;

step S3, configuring a user role and a user interface;

and S4, calling a software application matched with the service requirement in the data resource pool through a user interface according to the service requirement of the user role.

In the fifth embodiment of the present invention, the flow of the resource calling method based on comprehensive integration of experimental resources in this embodiment is the same as that in the first, second or third embodiments, except that in engineering implementation, this embodiment may be implemented by means of software plus a necessary general hardware platform, and certainly may also be implemented by hardware, but in many cases, the former is a better implementation. Based on such understanding, the method of the present invention may be embodied in the form of a computer software product stored on a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) comprising instructions for causing a device (which may be a network device such as a base station) to perform the method of the embodiments of the present invention.

In summary, compared with the prior art, the invention has at least the following advantages:

(1) The system resource management system and the method thereof perform unified storage maintenance management on the system resource, provide access service and data support for each module, provide data input such as account number, basic information and the like for user access, and maximize integrated common resources while the data resources are mutually independent, thereby improving the efficiency of system operation and resource calling.

(2) The invention presents the unified interface style and operation mode to operators through the unified development control, display style and operation logic, and realizes the consistency of the interface style, the convenience of man-machine interaction and the accuracy of the operation mode.

(3) For experiment designers, when multi-system resources are fused and jointly mobilized, the service requirements of the system are enriched. The method solves the blocking of system intercommunication for module developers and provides an effective joint scheduling method for multi-system fusion. Through flexible integration of framework software functions, different experiment special functions and data requirements are designed according to the requirements of different tasks, and application function modularized configuration and calling are supported.

While the invention has been described in connection with specific embodiments thereof, it is to be understood that these drawings are included in the spirit and scope of the invention, it is not to be limited thereto.

Claims (10)

1. The resource calling method based on the comprehensive integration of experimental resources is characterized by comprising the following steps:

deploying an installation environment;

in the installation environment, storing system data resources in a data resource pool for integrated management, wherein the data resource pool is provided with an integrated data interface;

configuring a user role and a user interface;

and calling a software application matched with the service requirement in the data resource pool through the user interface according to the service requirement of the user role.

2. The resource calling method based on experimental resource comprehensive integration according to claim 1, wherein the deployment installation environment comprises at least one of the following:

configuring a C++ development environment;

configuring a Java development environment;

and configuring a QT development environment.

3. The resource calling method based on comprehensive integration of experimental resources according to claim 1, wherein in the installation environment, system data resources are stored in a data resource pool for integrated management, wherein the data resource pool has an integrated data interface, and the method comprises:

packaging various application programs or services into a customized software application integration installation package;

releasing the software application integrated installation package under the corresponding installation environment, acquiring a source path and storing the source path in the data resource pool.

4. The resource calling method based on experimental resource comprehensive integration according to claim 3, wherein the configuring the user roles and the user interface comprises:

configuring personal information of a user, wherein the personal information comprises a corresponding user seat and user permission corresponding to the user seat, integrating the software application in the data resource pool into an installation package, and matching the software application with the user role according to the user permission;

and forming a graphic resource library based on the installation environment, and loading the resource library through a target view component in the graphic resource library to form an interface image identifier, wherein the interface image identifier is used for binding language characters with the graphic resource library.

5. A resource calling system based on experimental resource comprehensive integration is characterized by comprising,

a universal development environment module configured to deploy an installation environment;

the data management module is configured to store system data resources in the installation environment for integrated management in a data resource pool, wherein the data resource pool is provided with an integrated data interface; the data management module is further configured to: configuring a user role;

an interface management module configured to configure a user interface;

and the application management module is configured to call the software application matched with the service requirement in the data resource pool through the user interface according to the service requirement of the user role.

6. The experimental resource integration-based resource call system of claim 5, wherein the generic development environment module is further configured to: configuring the installation environment to be at least one of:

configuring a C++ development environment;

configuring a Java development environment;

and configuring a QT development environment.

7. The resource call system based on experimental resource comprehensive integration of claim 5, wherein the data management module is further configured to:

packaging various application programs or services into a customized software application integration installation package;

releasing the software application integrated installation package in the corresponding installation environment, acquiring a source path and storing the source path in the data resource pool;

configuring personal information of a user, wherein the personal information comprises a corresponding user seat and user permission corresponding to the user seat, integrating the software application in the data resource pool into an installation package, and matching the software application with the user role according to the user permission.

8. The experimental resource integration-based resource call system of claim 5, wherein the interface management module is further configured to: and forming a graphic resource library based on the installation environment, and loading the resource library through a target view component in the graphic resource library to form an interface image identifier, wherein the interface image identifier is used for binding language characters with the graphic resource library.

9. An electronic device, comprising: memory, a processor and a computer program stored on the memory and executable on the processor, which when executed by the processor, performs the steps of the method according to any one of claims 1 to 4.

10. A computer storage medium, characterized in that it has stored thereon a computer program which, when executed by a processor, implements the steps of the method according to any of claims 1 to 4.

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