阅读说明：本技术 一种atm控制系统、方法、系统开发方法及存储介质 (ATM control system, method, system development method and storage medium ) 是由 刘梅霞 晏有为 于 2019-09-16 设计创作，主要内容包括：本发明涉及一种ATM控制系统、方法、系统开发方法及存储介质,其中系统包括由若干个功能模块,若干个功能模块皆设置有参数传入接口、参数传出接口及结果反馈接口；参数传入接口用于接收完成当前服务所需要的参数,以及至少一部分判断逻辑；参数传出接口用于将当前服务完成后的结果数据,通过参数的形式传出；结果反馈接口用于反馈当前服务的完成结果。本发明所提供的ATM控制系统,在业务流程需要使用底层驱动逻辑时,直接调用相应的功能模块,将参数传入、导出并接收任务完成结果即可,使业务逻辑与底层驱动逻辑之间只需要进行数据的相互调用即可,降低了二者之间对数据耦合的依赖性,改善了ATMC扩展及维护困难的问题。(The invention relates to an ATM control system, a method, a system development method and a storage medium, wherein the system comprises a plurality of functional modules, and the functional modules are provided with a parameter input interface, a parameter output interface and a result feedback interface; the parameter transmitting interface is used for receiving parameters required for completing the current service and at least part of judgment logic; the parameter transmission interface is used for transmitting the result data after the current service is finished in a parameter form; and the result feedback interface is used for feeding back the completion result of the current service. According to the ATM control system provided by the invention, when the service flow needs to use the bottom layer driving logic, the corresponding function module is directly called, the parameters are transmitted in and out, and the task completion result is received, so that only data is required to be mutually called between the service logic and the bottom layer driving logic, the dependence on data coupling between the service logic and the bottom layer driving logic is reduced, and the problem of difficulty in expanding and maintaining the ATMC is solved.)

1. An ATM control system, comprising: the method comprises the following steps of classifying and packaging a plurality of generated functional modules according to bottom layer driving logic, wherein the functional modules are respectively and independently provided with a parameter input interface, a parameter output interface and a result feedback interface;

the parameter transmitting interface is used for receiving parameters required by the completion of the current service and at least part of judgment logic; the parameter transmission interface is used for transmitting result data after the current service is finished in a parameter form; and the result feedback interface is used for feeding back the completion result of the current service.

2. An ATM control system according to claim 1, wherein the functional module is further provided with an interactive interface for feeding back a completion progress of a current service.

3. An ATM control system according to claim 2 wherein the function modules require the use of parameter ingress interfaces, parameter egress interfaces, interaction interfaces and result feedback interfaces when responding to asynchronous service calls.

4. An ATM control system according to claim 1, wherein when said functional module responds to a synchronous service call, a parameter ingress interface and a parameter egress interface are required and need only be used.

5. An ATM control method implemented based on the ATM control system according to any one of claims 1 to 4, comprising:

the parameter input interface receives parameters required for completing the current service and at least part of judgment logic;

the functional module responds to the service calling instruction according to the received parameters and the judgment logic and generates result data after the current service is finished;

and the parameter transmission interface transmits the result data in a parameter form, and the result feedback interface feeds back a completion result of the current service.

6. A system development method, characterized in that the system development method comprises:

according to the logic requirement of the ATMC service, a plurality of functional frames with different functions are predefined, and each functional frame is used for responding to an interface of a service flow;

a plurality of module developers develop each functional frame and corresponding interfaces in parallel according to a plurality of predefined functional frames and interfaces of each functional frame; and a plurality of process developers develop the parallel development of each business process according to the ATMC business logic.

7. The system development method according to claim 6, wherein the interface is provided with at least two, namely a parameter incoming interface and a parameter outgoing interface, wherein the parameter incoming interface is used for receiving parameters required for completing the current service and at least a part of judgment logic; and the parameter transmission interface is used for transmitting the result data after the current service is finished in a parameter form.

8. The system development method of claim 7, wherein the interface further comprises: the system comprises an interactive interface and a result feedback interface, wherein the interactive interface is used for feeding back the completion progress of the current service, and the result feedback interface is used for feeding back the completion result of the current service.

9. The system development method according to claim 6, wherein the parallel development of each business process by the plurality of process developers according to the ATMC business logic is specifically: and a plurality of process developers carry out parallel development of each service process and a corresponding module calling interface according to the ATMC service logic.

10. A storage medium having an ATM control program stored thereon, wherein the ATM control program, when executed by a processor, implements the steps of the ATM control method of claim 5.