CN111695882B - Dotting test method and platform - Google Patents
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- 238000000034 method Methods 0.000 claims abstract description 31
- 238000012360 testing method Methods 0.000 claims abstract description 19
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/36—Preventing errors by testing or debugging software
- G06F11/362—Software debugging
- G06F11/3624—Software debugging by performing operations on the source code, e.g. via a compiler
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- G—PHYSICS
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- G06F—ELECTRIC DIGITAL DATA PROCESSING
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Abstract
The invention discloses a dotting test method and a dotting test platform, wherein the method comprises the following steps: configuring flow auditing nodes, and determining information required to be audited by each node and a corresponding auditor based on the auditing state; sending an audit notice to auditors, wherein the audit notice is used for informing the auditors corresponding to the information to be audited of each node to audit the information to be audited of each node; after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released; developing work is carried out based on the released new version of software development kit; after development work is completed, each piece of point location data is automatically checked in real time. The method and the system can ensure the integrity of the whole dotting process, effectively improve the execution efficiency of each link, and can intensively archive and manage all dotting services so as to improve the user experience.
Description
Technical Field
The present invention relates to the field of data processing technologies, and in particular, to a dotting test method and a platform.
Background
At present, enterprises cannot have the meaning of a uniformly dotted data structure and a field because various business lines are discrete, and can only manage own point location data respectively, and no uniform entrance can acquire the whole amount of information, so that the completion of a dotted process is required to be completed on a plurality of platforms or documents, the information is seriously discretized, and the user experience is poor.
Therefore, how to effectively perform dotting test is a problem to be solved.
Disclosure of Invention
In view of the above, the invention provides a dotting test method, which can ensure the integrity of the whole dotting process, effectively improve the execution efficiency of each link, and can intensively archive and manage all dotting services so as to improve the user experience.
The invention provides a dotting test method, which comprises the following steps:
configuring a flow auditing node;
determining information to be audited of each node and a corresponding auditor based on the auditing state;
sending an audit notice to auditors, wherein the audit notice is used for notifying the auditors corresponding to the information to be audited of each node to audit the information to be audited of each node;
after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released;
developing work is carried out based on the released new version of software development kit;
after development work is completed, each piece of point location data is automatically checked in real time.
Preferably, the development work is performed based on the software development kit of the new release, including:
defining code templates of different terminal types;
identifying the terminal type to which the point location belongs;
acquiring a corresponding code template based on the terminal type of the point location;
transmitting the dotting service parameters to a code template to generate a final code;
and returning the generated final code to the front-end page for display.
Preferably, the sending the audit notification to the auditor includes:
and calling an enterprise WeChat interface, and sending an audit notification to an auditor through the enterprise WeChat interface.
Preferably, the sending the audit notification to the auditor includes:
and calling a mailbox sending interface, and sending the audit notification to an auditor through the mailbox sending interface.
Preferably, after the development work is completed, the automatic verification is performed on each piece of point location data in real time, including:
and after the development work is finished, automatically checking each point location data based on the rule engine in real time.
A dotting test platform, comprising:
the configuration module is used for configuring the flow auditing node;
the determining module is used for determining information to be audited of each node and a corresponding auditor based on the auditing state;
the system comprises a sending module, a verification module and a verification module, wherein the sending module is used for sending verification notices to auditors, and the verification notices are used for informing the auditors corresponding to the information to be verified of each node to verify the information to be verified of each node;
the building module is used for calling an automatic building task interface to complete automatic building after the auditing is completed and releasing a new version of software development kit;
the development module is used for carrying out development work based on the released new version of software development kit;
and the verification module is used for automatically verifying each point location data in real time after the development work is completed.
Preferably, the development module includes:
the definition unit is used for defining code templates of different terminal types;
the identifying unit is used for identifying the terminal type to which the point location belongs;
the acquisition unit is used for acquiring a corresponding code template based on the terminal type of the point location;
the generating unit is used for transmitting the dotting service parameters to the code template to generate a final code;
and the display unit is used for returning the generated final code to the front-end page for display.
Preferably, the sending module is specifically configured to:
and calling an enterprise WeChat interface, and sending an audit notification to an auditor through the enterprise WeChat interface.
Preferably, the sending module is specifically configured to:
and calling a mailbox sending interface, and sending the audit notification to an auditor through the mailbox sending interface.
Preferably, the verification module is specifically configured to:
and after the development work is finished, automatically checking each point location data based on the rule engine in real time.
In summary, the invention discloses a dotting test method, which comprises the steps of firstly configuring flow auditing nodes, and then determining information required to be audited by each node and corresponding auditors based on auditing states; sending an audit notice to auditors, wherein the audit notice is used for informing the auditors corresponding to the information to be audited of each node to audit the information to be audited of each node; after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released; the development work is carried out based on the released new version of software development kit, and after the development work is completed, each piece of point location data is automatically checked in real time. The method and the system can ensure the integrity of the whole dotting process, effectively improve the execution efficiency of each link, and can intensively archive and manage all dotting services so as to improve the user experience.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a flow chart of a method of embodiment 1 of a dotting test method of the present disclosure;
FIG. 2 is a flow chart of a method of embodiment 2 of a dotting test method of the present disclosure;
FIG. 3 is a flow chart of a method of embodiment 3 of a dotting test method of the present disclosure;
FIG. 4 is a schematic structural diagram of an embodiment 1 of a dotting test platform disclosed in the present invention;
FIG. 5 is a schematic structural diagram of an embodiment 2 of a dotting test platform disclosed in the present invention;
fig. 6 is a schematic structural diagram of an embodiment 3 of a dotting test platform disclosed in the invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.
As shown in fig. 1, a flowchart of a method of embodiment 1 of a dotting test method disclosed in the present invention may include the following steps:
s101, configuring a flow auditing node;
in the dotting test process, firstly, auditing nodes of each flow are configured.
S102, determining information to be audited of each node and a corresponding auditor based on the auditing state;
after the auditing nodes of the flow are configured, the information required to be audited by each node and the corresponding auditors are further judged according to the auditing state.
S103, sending an audit notice to auditors, wherein the audit notice is used for informing the auditors corresponding to the information to be audited of each node to audit the information to be audited of each node;
after the information required to be audited by each node and the corresponding auditor are determined, an audit notice is sent to the determined auditor. And after receiving the auditing notification, the auditing person audits the information required to be audited by the corresponding node.
S104, after the auditing is finished, calling an automatic construction task interface to finish automatic construction and releasing a new version of software development kit;
after the auditor completes the audit, an automatic construction task interface (Jenkinsjob interface) is called to complete the automatic construction, a new version of the SDK (Software Development Kit ) is released, and the version number of the SDK is updated.
S105, performing development work based on the released new version of software development kit;
after the new version of software development kit is released, development work is effectively performed by acquiring the new version of software development kit through a developer.
And S106, automatically checking each point location data in real time after the development work is completed.
After development work is completed, pushing large-point data in real time, and confirming whether each piece of point location data meets requirements or not in a pushing page, namely automatically checking each piece of point location data in real time.
In summary, in the above embodiment, the process audit node is configured first, and then, the information that each node needs to audit and the corresponding auditor are determined based on the audit state; sending an audit notice to auditors, wherein the audit notice is used for informing the auditors corresponding to the information to be audited of each node to audit the information to be audited of each node; after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released; the development work is carried out based on the released new version of software development kit, and after the development work is completed, each piece of point location data is automatically checked in real time. The method and the system can ensure the integrity of the whole dotting process, effectively improve the execution efficiency of each link, and can intensively archive and manage all dotting services so as to improve the user experience.
As shown in fig. 2, a flowchart of a method of embodiment 2 of a dotting test method disclosed in the present invention may include the following steps:
s201, configuring a flow auditing node;
in the dotting test process, firstly, auditing nodes of each flow are configured.
S202, determining information to be audited of each node and corresponding auditors based on the auditing state;
after the auditing nodes of the flow are configured, the information required to be audited by each node and the corresponding auditors are further judged according to the auditing state.
S203, calling an enterprise WeChat interface or a mailbox sending interface, and sending an audit notice to an auditor through the enterprise WeChat interface or the mailbox sending interface, wherein the audit notice is used for informing the auditor corresponding to the information to be audited of each node to audit the information to be audited of each node;
after the information required to be audited by each node and the corresponding auditor are determined, an audit notice is sent to the determined auditor. And after receiving the auditing notification, the auditing person audits the information required to be audited by the corresponding node.
Specifically, when the audit notification is sent, the enterprise micro-communication interface can be called, the audit notification is sent to the auditor through the enterprise micro-communication interface, or the mailbox sending interface is called, and the audit notification is sent to the auditor through the mailbox sending interface.
S204, after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released;
after the auditor completes the audit, an automatic construction task interface (Jenkinsjob interface) is called to complete the automatic construction, a new version of the SDK (Software Development Kit ) is released, and the version number of the SDK is updated.
S205, performing development work based on a released new version of software development kit;
after the new version of software development kit is released, development work is effectively performed by acquiring the new version of software development kit through a developer.
S206, after development work is completed, automatically checking each point location data in real time.
After development work is completed, pushing large-point data in real time, and confirming whether each piece of point location data meets requirements or not in a pushing page, namely automatically checking each piece of point location data in real time.
In summary, on the basis of the foregoing embodiments, when sending the audit notification to the auditor, the embodiment may be implemented by calling the enterprise micro-communication interface and sending the audit notification to the auditor through the enterprise micro-communication interface, or may be implemented by calling the mailbox sending interface and sending the audit notification to the auditor through the mailbox sending interface.
As shown in fig. 3, a flowchart of a method of embodiment 3 of a dotting test method disclosed in the present invention may include the following steps:
s301, configuring a flow auditing node;
in the dotting test process, firstly, auditing nodes of each flow are configured.
S302, determining information to be audited of each node and corresponding auditors based on the auditing state;
after the auditing nodes of the flow are configured, the information required to be audited by each node and the corresponding auditors are further judged according to the auditing state.
S303, calling an enterprise WeChat interface or a mailbox sending interface, and sending an audit notice to an auditor through the enterprise WeChat interface or the mailbox sending interface, wherein the audit notice is used for informing the auditor corresponding to the information required to be audited by each node to audit the information required to be audited by each node;
after the information required to be audited by each node and the corresponding auditor are determined, an audit notice is sent to the determined auditor. And after receiving the auditing notification, the auditing person audits the information required to be audited by the corresponding node.
Specifically, when the audit notification is sent, the enterprise micro-communication interface can be called, the audit notification is sent to the auditor through the enterprise micro-communication interface, or the mailbox sending interface is called, and the audit notification is sent to the auditor through the mailbox sending interface.
S304, after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released;
after the auditor completes the audit, an automatic construction task interface (Jenkinsjob interface) is called to complete the automatic construction, a new version of the SDK (Software Development Kit ) is released, and the version number of the SDK is updated.
S305, defining code templates of different terminal types;
after the new version of software development kit is released, development work is effectively performed by acquiring the new version of software development kit through a developer.
Specifically, corresponding code templates are defined according to different terminal types.
S306, identifying the terminal type to which the point location belongs;
then, the point is identified, and the type of the terminal to which the point belongs is determined.
S307, acquiring a corresponding code template based on the terminal type to which the point location belongs;
after the terminal type of the point location is identified, further acquiring a code template corresponding to the terminal type.
S308, transmitting the dotting service parameters to a code template to generate a final code;
and then, transmitting the dotting service parameters to the acquired code template to generate a final code.
S309, returning the generated final code to the front-end page for display;
after the final code is generated, the generated final code is returned to the front-end page for display, and development is completed.
And S310, automatically checking each piece of point location data based on the rule engine in real time after the development work is completed.
After development work is completed, pushing large-point data in real time, and confirming whether each piece of point location data meets requirements or not in a pushing page, namely automatically checking each piece of point location data in real time. And when the push data is processed, automatically checking each piece of point location data in real time, wherein the checking rule is derived from a rule engine.
In summary, in this embodiment, on the basis of the foregoing embodiment, when development is performed based on the released new version of the software development kit, code templates of different terminal types are first defined, then the terminal type to which the point location belongs is identified, and based on the terminal type to which the point location belongs, a corresponding code template is obtained; transmitting the dotting service parameters to a code template to generate a final code, and returning the generated final code to a front-end page for display to complete development work; when each piece of point location data is automatically checked in real time, each piece of point location data can be automatically checked in real time based on a rule engine.
As shown in fig. 4, a schematic structural diagram of an embodiment 1 of a dotting test platform disclosed in the present invention may include:
a configuration module 401, configured to configure a flow audit node;
in the dotting test process, firstly, auditing nodes of each flow are configured.
A determining module 402, configured to determine, based on the auditing status, information that each node needs to audit and a corresponding auditor;
after the auditing nodes of the flow are configured, the information required to be audited by each node and the corresponding auditors are further judged according to the auditing state.
The sending module 403 is configured to send an audit notification to an auditor, where the audit notification is configured to notify the auditor corresponding to the information that needs to be audited by each node to audit the information that needs to be audited by each node;
after the information required to be audited by each node and the corresponding auditor are determined, an audit notice is sent to the determined auditor. And after receiving the auditing notification, the auditing person audits the information required to be audited by the corresponding node.
The building module 404 is configured to invoke the automatic building task interface to complete automatic building and release a new version of software development kit after the auditing is completed;
after the auditor completes the audit, an automatic construction task interface (Jenkinsjob interface) is called to complete the automatic construction, a new version of the SDK (Software Development Kit ) is released, and the version number of the SDK is updated.
A development module 405, configured to perform development work based on the released new version of the software development kit;
after the new version of software development kit is released, development work is effectively performed by acquiring the new version of software development kit through a developer.
And the verification module 406 is configured to automatically verify each piece of point location data in real time after the development work is completed.
After development work is completed, pushing large-point data in real time, and confirming whether each piece of point location data meets requirements or not in a pushing page, namely automatically checking each piece of point location data in real time.
In summary, in the above embodiment, the process audit node is configured first, and then, the information that each node needs to audit and the corresponding auditor are determined based on the audit state; sending an audit notice to auditors, wherein the audit notice is used for informing the auditors corresponding to the information to be audited of each node to audit the information to be audited of each node; after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released; the development work is carried out based on the released new version of software development kit, and after the development work is completed, each piece of point location data is automatically checked in real time. The method and the system can ensure the integrity of the whole dotting process, effectively improve the execution efficiency of each link, and can intensively archive and manage all dotting services so as to improve the user experience.
As shown in fig. 5, a schematic structural diagram of embodiment 2 of a dotting test platform disclosed in the present invention may include:
a configuration module 501, configured to configure a flow audit node;
in the dotting test process, firstly, auditing nodes of each flow are configured.
The determining module 502 is configured to determine, based on the auditing status, information that each node needs to audit and a corresponding auditor;
after the auditing nodes of the flow are configured, the information required to be audited by each node and the corresponding auditors are further judged according to the auditing state.
The sending module 503 is configured to invoke an enterprise micro-communication interface or a mailbox sending interface, and send an audit notification to an auditor through the enterprise micro-communication interface or the mailbox sending interface, where the audit notification is used to notify the auditor corresponding to the information that needs to be audited by each node to audit the information that needs to be audited by each node;
after the information required to be audited by each node and the corresponding auditor are determined, an audit notice is sent to the determined auditor. And after receiving the auditing notification, the auditing person audits the information required to be audited by the corresponding node.
Specifically, when the audit notification is sent, the enterprise micro-communication interface can be called, the audit notification is sent to the auditor through the enterprise micro-communication interface, or the mailbox sending interface is called, and the audit notification is sent to the auditor through the mailbox sending interface.
The building module 504 is configured to invoke the automatic building task interface to complete automatic building and release a new version of software development kit after the auditing is completed;
after the auditor completes the audit, an automatic construction task interface (Jenkinsjob interface) is called to complete the automatic construction, a new version of the SDK (Software Development Kit ) is released, and the version number of the SDK is updated.
A development module 505, configured to perform development work based on the released new version of the software development kit;
after the new version of software development kit is released, development work is effectively performed by acquiring the new version of software development kit through a developer.
And the verification module 506 is configured to automatically verify each piece of point location data in real time after the development work is completed.
After development work is completed, pushing large-point data in real time, and confirming whether each piece of point location data meets requirements or not in a pushing page, namely automatically checking each piece of point location data in real time.
In summary, on the basis of the foregoing embodiments, when sending the audit notification to the auditor, the embodiment may be implemented by calling the enterprise micro-communication interface and sending the audit notification to the auditor through the enterprise micro-communication interface, or may be implemented by calling the mailbox sending interface and sending the audit notification to the auditor through the mailbox sending interface.
As shown in fig. 6, a schematic structural diagram of embodiment 3 of a dotting test platform disclosed in the present invention may include:
a configuration module 601, configured to configure a flow audit node;
in the dotting test process, firstly, auditing nodes of each flow are configured.
The determining module 602 is configured to determine, based on the auditing status, information that each node needs to audit and a corresponding auditor;
after the auditing nodes of the flow are configured, the information required to be audited by each node and the corresponding auditors are further judged according to the auditing state.
The sending module 603 is configured to invoke an enterprise micro-communication interface or a mailbox sending interface, and send an audit notification to an auditor through the enterprise micro-communication interface or the mailbox sending interface, where the audit notification is used to notify the auditor corresponding to the information that needs to be audited by each node to audit the information that needs to be audited by each node;
after the information required to be audited by each node and the corresponding auditor are determined, an audit notice is sent to the determined auditor. And after receiving the auditing notification, the auditing person audits the information required to be audited by the corresponding node.
Specifically, when the audit notification is sent, the enterprise micro-communication interface can be called, the audit notification is sent to the auditor through the enterprise micro-communication interface, or the mailbox sending interface is called, and the audit notification is sent to the auditor through the mailbox sending interface.
The construction module 604 is configured to invoke the automatic construction task interface to complete automatic construction and release a new version of software development kit after the auditing is completed;
after the auditor completes the audit, an automatic construction task interface (Jenkinsjob interface) is called to complete the automatic construction, a new version of the SDK (Software Development Kit ) is released, and the version number of the SDK is updated.
A defining unit 605 for defining code templates of different terminal types;
after the new version of software development kit is released, development work is effectively performed by acquiring the new version of software development kit through a developer.
Specifically, corresponding code templates are defined according to different terminal types.
An identifying unit 606, configured to identify a terminal type to which the point location belongs;
then, the point is identified, and the type of the terminal to which the point belongs is determined.
An obtaining unit 607, configured to obtain a corresponding code template based on a terminal type to which the point location belongs;
after the terminal type of the point location is identified, further acquiring a code template corresponding to the terminal type.
The generating unit 608 is configured to transmit the dotting service parameter to a code template, and generate a final code;
and then, transmitting the dotting service parameters to the acquired code template to generate a final code.
The display unit 609 is configured to return the generated final code to the front end page for display;
after the final code is generated, the generated final code is returned to the front-end page for display, and development is completed.
And the verification module 610 is used for automatically verifying each piece of point location data in real time based on the rule engine after the development work is completed.
After development work is completed, pushing large-point data in real time, and confirming whether each piece of point location data meets requirements or not in a pushing page, namely automatically checking each piece of point location data in real time. And when the push data is processed, automatically checking each piece of point location data in real time, wherein the checking rule is derived from a rule engine.
In summary, in this embodiment, on the basis of the foregoing embodiment, when development is performed based on the released new version of the software development kit, code templates of different terminal types are first defined, then the terminal type to which the point location belongs is identified, and based on the terminal type to which the point location belongs, a corresponding code template is obtained; transmitting the dotting service parameters to a code template to generate a final code, and returning the generated final code to a front-end page for display to complete development work; when each piece of point location data is automatically checked in real time, each piece of point location data can be automatically checked in real time based on a rule engine.
In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.
Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of functionality in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.
The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (8)
1. A dotting test method, comprising:
configuring a flow auditing node;
determining information to be audited of each node and a corresponding auditor based on the auditing state;
sending an audit notice to auditors, wherein the audit notice is used for notifying the auditors corresponding to the information to be audited of each node to audit the information to be audited of each node;
after the auditing is finished, an automatic construction task interface is called to finish automatic construction, and a new version of software development kit is released;
developing work is carried out based on the released new version of software development kit;
after development work is completed, automatically checking each piece of point location data in real time;
the development work is carried out on the software development kit based on the released new version, and the development work comprises the following steps:
defining code templates of different terminal types;
identifying the terminal type to which the point location belongs;
acquiring a corresponding code template based on the terminal type of the point location;
transmitting the dotting service parameters to a code template to generate a final code;
and returning the generated final code to the front-end page for display.
2. The method of claim 1, wherein the sending an audit notification to an auditor comprises:
and calling an enterprise WeChat interface, and sending an audit notification to an auditor through the enterprise WeChat interface.
3. The method of claim 1, wherein the sending an audit notification to an auditor comprises:
and calling a mailbox sending interface, and sending the audit notification to an auditor through the mailbox sending interface.
4. The method of claim 1, wherein automatically verifying each piece of point location data in real time after the development work is completed comprises:
and after the development work is finished, automatically checking each point location data based on the rule engine in real time.
5. A dotting test platform, comprising:
the configuration module is used for configuring the flow auditing node;
the determining module is used for determining information to be audited of each node and a corresponding auditor based on the auditing state;
the system comprises a sending module, a verification module and a verification module, wherein the sending module is used for sending verification notices to auditors, and the verification notices are used for informing the auditors corresponding to the information to be verified of each node to verify the information to be verified of each node;
the building module is used for calling an automatic building task interface to complete automatic building after the auditing is completed and releasing a new version of software development kit;
the development module is used for carrying out development work based on the released new version of software development kit;
the verification module is used for automatically verifying each point location data in real time after development work is completed;
the development module includes:
the definition unit is used for defining code templates of different terminal types;
the identifying unit is used for identifying the terminal type to which the point location belongs;
the acquisition unit is used for acquiring a corresponding code template based on the terminal type of the point location;
the generating unit is used for transmitting the dotting service parameters to the code template to generate a final code;
and the display unit is used for returning the generated final code to the front-end page for display.
6. The dotting test platform of claim 5, wherein the sending module is specifically configured to:
and calling an enterprise WeChat interface, and sending an audit notification to an auditor through the enterprise WeChat interface.
7. The dotting test platform of claim 5, wherein the sending module is specifically configured to:
and calling a mailbox sending interface, and sending the audit notification to an auditor through the mailbox sending interface.
8. The dotting test platform of claim 5, wherein the verification module is specifically configured to:
and after the development work is finished, automatically checking each point location data based on the rule engine in real time.
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