CN113254335A

CN113254335A - Test data processing method and device, server and storage medium

Info

Publication number: CN113254335A
Application number: CN202110549914.3A
Authority: CN
Inventors: 张旭东
Original assignee: Beijing Dajia Internet Information Technology Co Ltd
Current assignee: Beijing Dajia Internet Information Technology Co Ltd
Priority date: 2021-05-20
Filing date: 2021-05-20
Publication date: 2021-08-13
Anticipated expiration: 2041-05-20
Also published as: CN113254335B

Abstract

The disclosure relates to a processing method, a device, a server and a storage medium of test data, wherein the method comprises the following steps: acquiring advertisement buried point data reported by a client to be tested in each terminal to be tested in a terminal set to be tested; each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested; obtaining an advertisement testing range of each terminal to be tested according to the advertisement burying point data reported by each terminal to be tested and a preset advertisement burying point set; the preset advertisement buried point set is a set of all buried point types on each advertisement position in the client to be tested; and generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested. The method is beneficial to improving the accuracy of determining the advertisement test range.

Description

Test data processing method and device, server and storage medium

Technical Field

The present disclosure relates to the field of computer technologies, and in particular, to a method and an apparatus for processing test data, a server, and a storage medium.

Background

With the increasing fragmentation of smart phones, the workload of client compatibility tests such as advertisement tests is increasing, and the client compatibility tests need to be completed by outsourcing personnel.

In the related technology, the statistical method of the advertisement test range of the client is generally that after an outsourcing person manually executes a test case, the test case is manually clicked to complete the statistical method, and finally the advertisement test range of the client is counted according to the completeness of the test case; however, the outsourcing personnel can not confirm whether the advertisement test is really executed after completing the manual click, so that the accuracy rate of determining the advertisement test range is low.

Disclosure of Invention

The present disclosure provides a method, an apparatus, a server, and a storage medium for processing test data, so as to at least solve the problem of low accuracy in determining an advertisement test range in the related art. The technical scheme of the disclosure is as follows:

according to a first aspect of the embodiments of the present disclosure, there is provided a method for processing test data, including:

acquiring advertisement buried point data reported by a client to be tested in each terminal to be tested in a terminal set to be tested; each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested;

obtaining an advertisement testing range of each terminal to be tested according to the advertisement burying point data reported by each terminal to be tested and a preset advertisement burying point set; the preset advertisement buried point set is a set of all buried point types on each advertisement position in the client to be tested;

and generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested.

In an exemplary embodiment, the obtaining an advertisement test range of each terminal to be tested according to the advertisement burying point data reported by each terminal to be tested and a preset advertisement burying point set includes:

determining the buried point type reported by each terminal to be tested according to the advertisement buried point data reported by each terminal to be tested;

deleting repeated buried point types in the buried point types reported by the terminals to be tested respectively to obtain target buried point types reported by the terminals to be tested;

and obtaining the advertisement test range of each terminal to be tested according to the target embedded point type reported by each terminal to be tested and all embedded point types in a preset advertisement embedded point set.

In an exemplary embodiment, before obtaining the advertisement buried point data reported by the client to be tested in each terminal to be tested in the terminal set to be tested, the method further includes:

identifying all embedded point types on each advertisement position in the client to be tested from historical embedded point data reported by the client to be tested;

acquiring the sequencing tags of all the embedded point types;

arranging all the buried point types according to the sequencing tags of all the buried point types to obtain a preset advertisement buried point set;

the acquiring of the advertisement buried point data reported by the client to be tested in each terminal to be tested in the terminal set to be tested includes:

and acquiring advertisement buried point data which are sequentially reported by the client to be tested in each terminal to be tested according to the sequencing tags of the buried point types in the preset advertisement buried point set.

In an exemplary embodiment, the obtaining the sorting labels of all the types of the burial points includes:

acquiring the priority of each advertisement position and the embedded point request quantity of all embedded point types on each advertisement position in a preset time period;

determining a first sequencing label and a second sequencing label of all embedded point types on each advertisement space according to the priority and the embedded point request quantity respectively;

and combining the first sorting labels and the second sorting labels of all the embedded point types to obtain the sorting labels of all the embedded point types.

In an exemplary embodiment, the obtaining the priority of each ad slot includes:

acquiring the historical buried point request quantity of each advertisement position;

determining the buried point request quantity range to which the historical buried point request quantity of each advertisement position belongs;

and inquiring the corresponding relation between the embedded point request quantity range and the priority according to the embedded point request quantity range to which the historical embedded point request quantity of each advertisement position belongs to obtain the priority of each advertisement position.

In an exemplary embodiment, before generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested, the method further includes:

obtaining the advertisement testing range of the advertisement position of each priority in each terminal to be tested according to the advertisement buried point data of the advertisement position of the same priority reported by each terminal to be tested and the advertisement buried point set of the advertisement position of the same priority in the preset advertisement buried point set;

the generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested includes:

and generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested and the advertisement test range of the advertisement space of each priority.

In an exemplary embodiment, the generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested further includes:

acquiring a terminal identifier of each terminal to be tested;

generating a test range report of the terminal set to be tested according to the terminal identification and the advertisement test range of each terminal to be tested; in the test range report, each terminal identification corresponds to one advertisement test range.

In an exemplary embodiment, after generating a test range report of the terminal set to be tested according to the terminal identifier and the advertisement test range of each terminal to be tested, the method further includes:

if the target terminal identification with the advertisement test range smaller than the preset range is identified in the test range report, identifying the terminal corresponding to the target terminal identification as a terminal with test failure;

and inquiring the corresponding relation between the terminal and the test account, and confirming the test account corresponding to the terminal which fails the test.

According to a second aspect of the embodiments of the present disclosure, there is provided a processing apparatus for test data, including:

the data acquisition unit is configured to acquire the advertisement buried point data reported by the client to be tested in each terminal to be tested in the terminal set to be tested; each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested;

the range determining unit is configured to execute the advertisement testing range of each terminal to be tested according to the advertisement burying point data reported by each terminal to be tested and a preset advertisement burying point set; the preset advertisement buried point set is a set of all buried point types on each advertisement position in the client to be tested;

and the report generating unit is configured to execute the generation of a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested.

In an exemplary embodiment, the range determining unit is further configured to determine a buried point type reported by each terminal to be tested according to the advertisement buried point data reported by each terminal to be tested; deleting repeated buried point types in the buried point types reported by the terminals to be tested respectively to obtain target buried point types reported by the terminals to be tested; and obtaining the advertisement test range of each terminal to be tested according to the target embedded point type reported by each terminal to be tested and all embedded point types in a preset advertisement embedded point set.

In an exemplary embodiment, the apparatus further includes a set determining unit configured to identify all embedded point types on each advertisement slot in the client to be tested from historical embedded point data reported by the client to be tested; acquiring the sequencing tags of all the embedded point types; arranging all the buried point types according to the sequencing tags of all the buried point types to obtain a preset advertisement buried point set;

the data acquisition unit is further configured to execute acquisition of advertisement buried point data sequentially reported by clients to be tested in each terminal to be tested according to the sorting labels of the buried point types in the preset advertisement buried point set.

In an exemplary embodiment, the set determining unit is further configured to perform obtaining the priority of each ad slot and the number of requests for burial points of all the burial point types on each ad slot within a preset time period; determining a first sequencing label and a second sequencing label of all embedded point types on each advertisement space according to the priority and the embedded point request quantity respectively; and combining the first sorting labels and the second sorting labels of all the embedded point types to obtain the sorting labels of all the embedded point types.

In an exemplary embodiment, the set determining unit is further configured to perform obtaining the historical buried point request number of each ad slot; determining the buried point request quantity range to which the historical buried point request quantity of each advertisement position belongs; and inquiring the corresponding relation between the embedded point request quantity range and the priority according to the embedded point request quantity range to which the historical embedded point request quantity of each advertisement position belongs to obtain the priority of each advertisement position.

In an exemplary embodiment, the apparatus further includes a test range determining unit configured to execute a test range of the advertisement position of each priority in each terminal to be tested according to the advertisement burying point data of the advertisement position of the same priority reported by each terminal to be tested and the advertisement burying point set of the advertisement position of the same priority in the preset advertisement burying point set;

the report generating unit is further configured to execute the advertisement test range of each terminal to be tested and the advertisement test range of the advertisement position of each priority, and generate the test range report of the terminal set to be tested.

In an exemplary embodiment, the report generating unit is further configured to perform obtaining a terminal identifier of each terminal to be tested; generating a test range report of the terminal set to be tested according to the terminal identification and the advertisement test range of each terminal to be tested; in the test range report, each terminal identification corresponds to one advertisement test range.

In an exemplary embodiment, the apparatus further includes an account determination unit configured to perform, if it is recognized that a target terminal identifier whose advertisement test range is smaller than a preset range exists in the test range report, identifying a terminal corresponding to the target terminal identifier as a terminal that fails in the test; and inquiring the corresponding relation between the terminal and the test account, and confirming the test account corresponding to the terminal which fails the test.

According to a third aspect of the embodiments of the present disclosure, there is provided a server, including: a processor; a memory for storing the processor-executable instructions; wherein the processor is configured to execute the instructions to implement the method of processing test data as described in any embodiment of the first aspect.

According to a fourth aspect of embodiments of the present disclosure, there is provided a computer-readable storage medium comprising: the instructions in the computer readable storage medium, when executed by a processor of a server, enable the server to perform the method of processing test data described in any one of the embodiments of the first aspect.

According to a fifth aspect of embodiments of the present disclosure, there is provided a computer program product comprising a computer program stored in a computer-readable storage medium, from which at least one processor of a device reads and executes the computer program, so that the device performs the method of processing test data described in any one of the embodiments of the first aspect.

The technical scheme provided by the embodiment of the disclosure at least brings the following beneficial effects:

acquiring advertisement buried point data reported by a client to be tested in each terminal to be tested in a terminal set to be tested; each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested; obtaining an advertisement testing range of each terminal to be tested according to the advertisement burying point data reported by each terminal to be tested and a preset advertisement burying point set; presetting an advertisement embedded point set as a set of all embedded point types on each advertisement position in a client to be tested; generating a test range report of a terminal set to be tested according to the advertisement test range of each terminal to be tested; therefore, the purpose of determining the advertisement testing range of the terminal to be tested according to the advertisement embedded point data reported by the client to be tested in the terminal to be tested and the preset advertisement embedded point set is achieved, the defect that the accuracy of the advertisement testing range obtained through counting the number of the test cases completed through manual clicking is low is overcome, the reliability of the obtained advertisement testing range is guaranteed, and the accuracy of determining the advertisement testing range is improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and, together with the description, serve to explain the principles of the disclosure and are not to be construed as limiting the disclosure.

FIG. 1 is a diagram illustrating an application environment for a method of processing test data, according to an example embodiment.

FIG. 2 is a flow chart illustrating a method of processing test data in accordance with an exemplary embodiment.

FIG. 3 is a flow chart illustrating another method of processing test data in accordance with an exemplary embodiment.

FIG. 4 is a flowchart illustrating steps for obtaining a set of pre-defined advertisement placements, according to an exemplary embodiment.

FIG. 5 is a flow chart illustrating yet another method of processing test data in accordance with an exemplary embodiment.

FIG. 6 is a block diagram illustrating a processing device for testing data according to an exemplary embodiment.

FIG. 7 is a block diagram illustrating a server in accordance with an example embodiment.

Detailed Description

In order to make the technical solutions of the present disclosure better understood by those of ordinary skill in the art, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the disclosure described herein are capable of operation in sequences other than those illustrated or otherwise described herein. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The processing method of the test data provided by the present disclosure can be applied to the application environment shown in fig. 1. The terminal set to be tested includes a plurality of terminals to be tested 110, such as a terminal to be tested 110a, a terminal to be tested 110b · · a terminal to be tested 110 n; each terminal 110 to be tested interacts with the embedded point server 120 through the network. Referring to fig. 1, the embedded point server 120 obtains advertisement embedded point data reported by a to-be-tested client in each to-be-tested terminal 110 in the to-be-tested terminal set; each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested; obtaining an advertisement test range of each terminal to be tested 110 according to the advertisement burying point data reported by each terminal to be tested 110 and a preset advertisement burying point set; presetting an advertisement embedded point set as a set of all embedded point types on each advertisement position in a client to be tested; and generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal 110 to be tested. The terminal 110 to be tested may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the embedded point server 120 may be implemented by an independent server or a server cluster formed by a plurality of servers.

Fig. 2 is a flowchart illustrating a method for processing test data according to an exemplary embodiment, where the method for processing test data is used in the embedded server shown in fig. 1, as shown in fig. 2, and includes the following steps:

in step S210, obtaining advertisement buried point data reported by a client to be tested in each terminal to be tested in the terminal set to be tested; and each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested.

The terminal set to be tested refers to a set of terminals distributed to outsourcing personnel for testing, and can be a mobile phone set to be tested. The client to be tested refers to a client needing to perform advertisement testing, such as a short video client, a video playing client, a news information client and the like; the advertisement test refers to the test of the advertisement position on the client to be tested.

The embedded point is a method for acquiring user behavior data, and specifically is a method for embedding a program at a corresponding position in an application page of a client so that when a user accesses the application page of the client, the program at the corresponding position automatically triggers and collects the corresponding user behavior data; the user behavior data collected by this method is called buried point data. The advertisement buried point data is operation behavior data of the user on the advertisement position on the client acquired through the advertisement buried point and is used for recording the advertisement position in the client to be tested and the type of the buried point triggered on the advertisement position.

The client to be tested comprises a plurality of advertisement positions, such as a pop-up window advertisement, a push advertisement, a start page advertisement, a slide show advertisement, an information flow advertisement, a detailed page bottom advertisement, a side column advertisement and the like; each advertisement slot corresponds to a plurality of buried point types, such as exposure buried points, click buried points, H5 page jump buried points and the like, and each buried point type is used for identifying one application scene of the advertisement slot.

Specifically, the terminal to be tested generates corresponding advertisement embedded point data according to the operation behavior of outsourcing personnel on the advertisement position on the client side to be tested in the terminal to be tested, uploads the advertisement embedded point data to the embedded point server in real time, and obtains the advertisement embedded point data reported by the terminal to be tested through the embedded point server; referring to the method, the embedded point server can receive the advertisement embedded point data reported by each terminal to be tested in the terminal set to be tested.

For example, when an outsourcing person clicks a pop-up window advertisement on a client to be tested, a click buried point on the pop-up window advertisement generates corresponding advertisement buried point data, and the advertisement buried point data is uploaded to a buried point server through a terminal to be tested; outsourcing personnel click the download link on the push advertisement on the client to be tested, jump to the corresponding APP download page, at the moment, the page jump on the push advertisement buries the point and can generate corresponding advertisement burial point data, and the advertisement burial point data is uploaded to a burial point server through the terminal to be tested.

In step S220, an advertisement test range of each terminal to be tested is obtained according to the advertisement buried point data reported by each terminal to be tested and a preset advertisement buried point set; the preset advertisement buried point set is a set of all buried point types on each advertisement position in the client to be tested.

The preset advertisement buried point set consists of all buried point types corresponding to all advertisement positions in the client to be tested and is used for representing a complete buried point type range; for example, the client to be tested includes 3 ad spots, which are an ad spot a, an ad spot B, and an ad spot C, where the ad spot a corresponds to a buried point type a1 and a buried point type a2, the ad spot B corresponds to a buried point type B1 and a buried point type B2, the ad spot C corresponds to a buried point type C1 and a buried point type C2, and the preset ad buried point set includes a buried point type a1, a buried point type a2, a buried point type B1, a buried point type B2, a buried point type C1, and a buried point type C2.

The advertisement testing range is used for identifying the advertisement testing coverage rate in the terminal to be tested, and specifically refers to the proportion of the number of the embedded point types reported by the terminal to be tested to the number of all the embedded point types in the preset advertisement embedded point set; for example, if the number of the buried point types reported by the terminal to be tested is 8, and the number of all the buried point types in the preset advertisement buried point set is 10, the advertisement test coverage rate in the terminal to be tested is 80%.

Specifically, the embedded point server determines the number of embedded point types reported by the terminal to be tested according to the embedded point types in the advertisement embedded point data reported by the terminal to be tested; counting the proportion of the number of the embedded point types reported by the terminal to be tested to the number of all embedded point types in a preset advertisement embedded point set to obtain the advertisement test coverage rate of the terminal to be tested; taking the advertisement test coverage rate in the terminal to be tested as the advertisement test range of the terminal to be tested; by referring to the method, the advertisement test range of each terminal to be tested can be obtained.

In step S230, a test range report of the terminal set to be tested is generated according to the advertisement test range of each terminal to be tested.

The test range report is a statistical report comprising advertisement test ranges of all the terminals to be tested; for example, in the generated test range report of the terminal set to be tested, the advertisement test range of the terminal to be tested 110a is 100%, the advertisement test range of the terminal to be tested 110b is 80%, and the advertisement test range of the terminal to be tested 110c is 60%.

Specifically, the embedded point server obtains a test range report template, and adds the advertisement test range of each terminal to be tested to the corresponding position in the test range report template to obtain a test range report of the terminal set to be tested.

The embedded point server can also send the test range report of the terminal set to be tested to the corresponding terminal, and the test range report of the terminal set to be tested is displayed through the terminal, so that corresponding workers can know the advertisement test range of each terminal to be tested in time.

According to the method for processing the test data, the purpose of determining the advertisement test range of the terminal to be tested according to the advertisement buried point data reported by the client to be tested in the terminal to be tested and the preset advertisement buried point set is achieved, the defect that the accuracy of the advertisement test range obtained through counting the number of test cases completed through manual clicking is low is overcome, the reliability of the obtained advertisement test range is guaranteed, and therefore the accuracy of determining the advertisement test range is improved.

In an exemplary embodiment, in the step S220, obtaining an advertisement test range of each terminal to be tested according to the advertisement burying point data and the preset advertisement burying point set reported by each terminal to be tested includes: determining the buried point type reported by each terminal to be tested according to the advertisement buried point data reported by each terminal to be tested; deleting repeated buried point types in the buried point types reported by each terminal to be tested respectively to obtain target buried point types reported by each terminal to be tested; and obtaining the advertisement test range of each terminal to be tested according to the target embedded point type reported by each terminal to be tested and all embedded point types in the preset advertisement embedded point set.

Specifically, the embedded point server extracts the embedded point type on the corresponding advertisement position in the advertisement embedded point data reported by the terminal to be tested, and the embedded point type is used as the embedded point type reported by the terminal to be tested; judging whether repeated buried point types exist in the buried point types reported by the terminal to be tested, if so, deleting the repeated buried point types in the buried point types reported by the terminal to be tested to obtain the rest buried point types, and using the rest buried point types as target buried point types reported by the terminal to be tested; counting the proportion of the number of the target embedded point types reported by the terminal to be tested to the total number of all embedded point types in a preset advertisement embedded point set to obtain the advertisement test coverage rate of the terminal to be tested, wherein the advertisement test coverage rate is used as the advertisement test range of the terminal to be tested; by referring to the method, the advertisement test range of each terminal to be tested can be obtained.

For example, referring to fig. 3, the terminals to be tested that the outsourcing staff needs to test are a terminal a to be tested and a terminal b. to be tested, the outsourcing staff operates the advertisement sites in the clients to be tested in the terminal a to be tested and the terminal b. to be tested. the terminal n to be tested triggers the corresponding embedded points on the advertisement sites to generate corresponding advertisement embedded point data, and uploads the corresponding advertisement embedded point data to the embedded point server through the terminal a to be tested and the terminal b. to be tested; the embedded point server identifies the embedded point types in the advertisement embedded point data reported by the terminal a to be tested as follows: a buried point type A1 corresponding to the advertisement space A, a buried point type A1 corresponding to the advertisement space A, a buried point type A2 corresponding to the advertisement space A, and a buried point type B1 corresponding to the advertisement space B, and if the buried point type A1 corresponding to the advertisement space A is repeated, the repeated buried point type A1 is deleted, and a target buried point type reported by a terminal a to be tested is obtained: a buried point type A1 corresponding to the advertising space A, a buried point type A2 corresponding to the advertising space A and a buried point type B1 corresponding to the advertising space B; the preset advertisement buried point set comprises a buried point type A1 corresponding to an advertisement position A, a buried point type A2 corresponding to the advertisement position A, a buried point type B1 corresponding to the advertisement position B, a buried point type B2 corresponding to the advertisement position B, a buried point type C1 corresponding to the advertisement position C and a buried point type C2 corresponding to the advertisement position C, and the advertisement test coverage rate in the terminal a to be tested is 3/6-50%, namely the advertisement test range of the terminal a to be tested is 50%. By referring to the method, the advertisement test range of the terminal b to be tested and the terminal c to be tested can be obtained.

According to the technical scheme provided by the embodiment, the embedded point types of the corresponding advertisement positions in the advertisement embedded point data reported by the terminal to be tested are subjected to duplicate removal processing, and all embedded point types in the preset advertisement embedded point set are combined, so that the reliability of the obtained advertisement test range of the terminal to be tested is favorably improved, and the accuracy rate of determining the advertisement test range is improved.

In an exemplary embodiment, as shown in fig. 4, in step S210, before obtaining the data of the buried advertisement points reported by the clients to be tested in each terminal to be tested in the terminal set to be tested, the method further includes a step of obtaining a preset buried advertisement point set, which specifically includes the following steps:

in step S410, all the buried point types on each advertisement slot in the client to be tested are identified from the historical buried point data reported by the client to be tested.

The historical buried point data refers to buried point data reported by the client to be tested in a historical time period, such as the buried point data reported by the client to be tested in the last quarter, the buried point data reported by the client to be tested in the last month, and the like. The historical buried point data includes various types of buried point data, such as advertisement buried point data.

Specifically, the buried point server extracts historical buried point data reported by a client to be tested from the collected buried point data; extracting advertisement buried point data reported by a client to be tested from historical buried point data reported by the client to be tested; extracting the embedded point type on the corresponding advertisement position in the advertisement embedded point data from the advertisement embedded point data reported by the client to be tested to obtain the embedded point type on the advertisement position in the client to be tested; and carrying out duplicate removal treatment on the embedded point types on the advertisement positions in the client to be tested to obtain all the embedded point types on each advertisement position in the client to be tested.

In step S420, the sorting labels of all the buried point types are acquired.

The sorting label is used for identifying the sorting position of the buried point type in all the buried point types, such as a sorting number.

Specifically, the embedded point server counts the embedded point request quantity of each embedded point type from the advertisement embedded point data in the historical embedded point data reported by the client to be tested; and determining the sorting label of the buried point request quantity of each buried point type according to the sequence of the buried point request quantity from large to small, and correspondingly taking the sorting label as the sorting label of each buried point type.

For example, the number of buried point requests of buried point type a1 is 10, the number of buried point requests of buried point type a2 is 8, the number of buried point requests of buried point type B1 is 6, the number of buried point requests of buried point type B2 is 4, the number of buried point requests of buried point type a1 is the first of all the number of buried point requests, so the sort label of buried point type a1 is the first; by analogy, the sorting label of buried point type a2 is second, the sorting label of buried point type B1 is third, and the sorting label of buried point type B2 is fourth.

In step S430, all the buried point types are arranged according to the sorting labels of all the buried point types, so as to obtain a preset advertisement buried point set.

Specifically, the embedded point server arranges the embedded point types according to the relationship among the sequencing tags of the embedded point types, and the arranged embedded point type queue is used as a preset advertisement embedded point set.

For example, if the sorting label of the buried point type a1 is first, the sorting label of the buried point type a2 is second, the sorting label of the buried point type B1 is third, and the sorting label of the buried point type B2 is fourth, then the buried point type a1 is first, the buried point type a2 is second, the buried point type B1 is third, and the buried point type B2 is fourth, so that a preset embedded advertisement point set (a1, a2, B1, B2) can be obtained.

According to the technical scheme provided by the embodiment, the preset advertisement buried point set is obtained, so that the advertisement testing range of the terminal to be tested can be automatically counted according to the advertisement buried point data reported by the terminal to be tested and the preset advertisement buried point set, whether the advertisement testing is really executed can be effectively confirmed, and the accuracy rate of determining the advertisement testing range is improved.

In an exemplary embodiment, in the step S210, the obtaining of the advertisement buried point data reported by the to-be-tested client in each to-be-tested terminal in the to-be-tested terminal set includes: and acquiring advertisement buried point data which are sequentially reported by a client to be tested in each terminal to be tested according to the sequencing tags of each buried point type in a preset advertisement buried point set.

For example, the advertisement embedded point set is preset as (a1, a2, B1, B2), the outsourcing staff first performs an operation event (such as click) corresponding to the embedded point type a1 corresponding to the advertisement position a in the client to be tested, then performs an operation event corresponding to the embedded point type a2 corresponding to the advertisement position a in the client to be tested, then performs an operation event corresponding to the embedded point type B1 corresponding to the advertisement position B in the client to be tested, and finally performs an operation event corresponding to the embedded point type B2 corresponding to the advertisement position B in the client to be tested; in the process, the embedded point corresponding to the embedded point type A1 in the client to be tested generates corresponding advertisement embedded point data, and the advertisement embedded point data is uploaded to the embedded point server through the client to be tested; then, generating corresponding advertisement buried point data by the buried point corresponding to the buried point type A2 in the client to be tested, and uploading the advertisement buried point data to the buried point server through the client to be tested; then, generating corresponding advertisement buried point data by the buried point corresponding to the buried point type B1 in the client to be tested, and uploading the advertisement buried point data to the buried point server through the client to be tested; and finally, generating corresponding advertisement buried point data by the buried point corresponding to the buried point type B2 in the client to be tested, and uploading the advertisement buried point data to the buried point server through the client to be tested.

According to the technical scheme provided by the embodiment, under the conditions of emergent edition sending and short coverage time in the whole range, the corresponding advertisement positions are tested according to the sequencing tags of all embedded point types in the preset advertisement embedded point set, and the advertisement positions with the front sequencing can be ensured to be tested firstly.

In an exemplary embodiment, the step S420 of obtaining the sorting labels of all the types of the burial points includes: acquiring the priority of each advertisement position and the embedded point request quantity of all embedded point types on each advertisement position in a preset time period; determining a first sequencing label and a second sequencing label of all embedded point types on each advertisement position according to the priority and the embedded point request quantity respectively; and combining the first sorting labels and the second sorting labels of all the embedded point types to obtain the sorting labels of all the embedded point types.

The priority of the advertisement space is used for representing the importance of the advertisement space and can be manually set; for example, the ad slot priority associated with revenue is highest. The priority of the advertisement space, a first sorting label used for determining the buried point type on the advertisement space, wherein the first sorting label is used for identifying a first sorting position of the buried point type in all the buried point types, such as a sorting number. The number of buried point requests of the buried point types on the advertisement space is used for determining a second sorting label of the buried point types on the advertisement space, and the second sorting label is used for identifying a second sorting position of the buried point types in all the buried point types, such as a sorting number.

The preset time period may be every day or every week, and is determined according to actual conditions.

Specifically, the embedded point server acquires the priority of each advertisement position in the client to be tested and the embedded point request quantity of all embedded point types on each advertisement position in a preset time period from the database; determining the sequencing tags of the advertisement positions according to the sequence of the priority from high to low, and correspondingly using the sequencing tags as the first sequencing tags of each embedded point type on each advertisement position; according to the sequence of the embedded point request quantity from large to small, determining a sequencing label of the embedded point request quantity of each embedded point type on each advertisement space, and correspondingly serving as a second sequencing label of each embedded point type on each advertisement space; and combining the first sorting label and the second sorting label of each embedded point type according to the sequence that the first sorting label is in front of the second sorting label and the second sorting label is behind the first sorting label to obtain the sorting label of each embedded point type.

For example, the priority of the ad spot a in the client to be tested is the highest, the priority of the ad spot B is the next highest, and the priority of the ad spot C is the lowest, so that the first ordering tags of the embedded point type a1 and the embedded point type a2 corresponding to the ad spot a are both 1, the first ordering tags of the embedded point type B1 and the embedded point type B2 corresponding to the ad spot B are both 2, and the first ordering tags of the embedded point type C1 and the embedded point type C2 corresponding to the ad spot C are both 3; for the advertisement space A, the number of the embedded point requests of the embedded point type A1 is the first, the number of the embedded point requests of the embedded point type A2 is the second, and then the second sorting labels corresponding to the embedded point type A1 and the embedded point type A2 are respectively 1 and 2; for the advertisement slot B, the number of the embedded point requests of the embedded point type B1 is the first, the number of the embedded point requests of the embedded point type B2 is the second, and then the second sorting labels corresponding to the embedded point type B1 and the embedded point type B2 are 1 and 2, respectively; for the ad slot C, the number of the embedded point requests of the embedded point type C1 is the first, the number of the embedded point requests of the embedded point type C2 is the second, and then the second sorting labels corresponding to the embedded point type C1 and the embedded point type C2 are 1 and 2, respectively; then the sort labels corresponding to buried point type a1, buried point type a2, buried point type B1, buried point type B2, buried point type C1 and buried point type C2 are 11, 12, 21, 22, 31 and 32, respectively.

According to the technical scheme, the sequencing tags of the embedded point types are obtained, so that each embedded point type can be arranged according to the sequencing tags of the embedded point types to obtain a preset advertisement embedded point set, the advertisement embedded point set can provide the advertisement position test sequence for outsourcing personnel, and a complete embedded point type range can be provided for counting the advertisement test range of the client to be tested.

In an exemplary embodiment, obtaining the priority of each ad slot comprises: acquiring the historical buried point request quantity of each advertisement position; determining a buried point request quantity range to which the historical buried point request quantity of each advertisement position belongs; and inquiring the corresponding relation between the embedded point request quantity range and the priority according to the embedded point request quantity range to which the historical embedded point request quantity of each advertisement position belongs to obtain the priority of each advertisement position.

The historical buried point request quantity of each advertisement position is the sum of the historical buried point request quantities of all buried point types on each advertisement position; for example, if the historical numbers of buried point requests of the buried point type a1 and the buried point type a2 on the ad spot a are 100 and 50, respectively, the historical number of buried point requests of the ad spot a is 100+50 — 150.

Wherein, there is a one-to-one correspondence relationship between the embedded point request quantity range and the priority, and different embedded point request quantity ranges correspond to different priorities, for example, the embedded point request quantity range is (401-; of course, the specific correspondence between the range of the number of the requests of the embedded points and the priority can be adjusted according to the actual situation.

Specifically, the embedded point server obtains the historical embedded point request quantity of all embedded point types on each advertisement position, and adds the historical embedded point request quantities of all embedded point types on each advertisement position to obtain the historical embedded point request quantity of each advertisement position; inquiring a preset buried point request quantity range, and determining a buried point request quantity range to which the historical buried point request quantity of each advertisement space belongs; and acquiring the corresponding relation between the embedded point request quantity range and the priority, inquiring the corresponding relation between the embedded point request quantity range and the priority according to the embedded point request quantity range to which the historical embedded point request quantity of each advertisement position belongs, acquiring the priority corresponding to the embedded point request quantity range to which the historical embedded point request quantity of each advertisement position belongs, and correspondingly taking the priority as the priority of each advertisement position.

For example, the historical number of the embedded point requests of the advertisement space a is 150, and belongs to the embedded point request number range (101-; with reference to this method, the priority of each ad slot may be derived.

According to the technical scheme provided by the embodiment, the priority of each advertisement position is obtained, so that the first sequencing tags and the second sequencing tags of all the embedded point types on each advertisement position are determined according to the priority of each advertisement position and the embedded point request quantity of all the embedded point types on each advertisement position in the preset time period, all the embedded point types on each advertisement position are sequenced, the sequencing of advertisement position testing is provided for outsourcing personnel, and the advertisement position with the highest sequencing priority is tested.

In an exemplary embodiment, before generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested, step S230 further includes: and obtaining the advertisement testing range of the advertisement position of each priority in each terminal to be tested according to the advertisement buried point data of the advertisement position of the same priority reported by each terminal to be tested and the advertisement buried point set of the advertisement position of the same priority in the preset advertisement buried point set.

Specifically, the embedded point server determines the number of embedded point types of the advertisement positions belonging to the same priority and reported by the terminal to be tested according to the embedded point types in the advertisement embedded point data of the advertisement positions belonging to the same priority and reported by the terminal to be tested; and counting the number of the embedded point types of the advertisement positions belonging to the same priority and reported by the terminal to be tested, and accounting for the proportion of the number of all the embedded point types of the advertisement positions belonging to the same priority in the preset advertisement embedded point set to obtain the advertisement test coverage rate of the advertisement positions belonging to the same priority in the terminal to be tested, wherein the advertisement test coverage rate is used as the advertisement test range of the advertisement positions belonging to the same priority in the terminal to be tested.

For example, the priorities of the ad slot a and the ad slot D in the client to be tested all belong to a first priority, the embedded point types reported by the ad slot a are a1 and a2, the embedded point type reported by the ad slot D is D1, the set of embedded points of the ad slot of the first priority is (a1, a2, D1, and D2), and then the advertisement test range of the ad slot of the first priority in the client to be tested is 3/4-75%.

In step S230, generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested, including: and generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested and the advertisement test range of the advertisement space of each priority.

Specifically, the embedded point server adds the advertisement test range of each terminal to be tested and the advertisement test range of the advertisement position of each priority to the corresponding position in the test range report template to obtain a test range report of the terminal set to be tested; for example, in the test range report, each terminal to be tested corresponds to a total advertisement test range and advertisement test ranges of advertisement spots of each priority in the terminal to be tested.

According to the technical scheme provided by the embodiment, when the test range report of the terminal set to be tested is generated, the advertisement test range of each terminal to be tested and the advertisement test range of the advertisement space of each priority are comprehensively considered, so that the multidimensional property of the information in the test range report is ensured, and workers can know the advertisement test condition of each terminal to be tested in time.

In an exemplary embodiment, the step S230 of generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested further includes: acquiring a terminal identifier of each terminal to be tested; generating a test range report of a terminal set to be tested according to the terminal identification and the advertisement test range of each terminal to be tested; in the test range report, each terminal identification corresponds to an advertisement test range.

The terminal identifier refers to unique identification information of the terminal to be tested, such as a terminal number, a terminal name, and the like.

Specifically, the advertisement embedded point data reported by the terminal to be tested comprises a terminal identifier of the terminal to be tested, and the embedded point server extracts the terminal identifier of the terminal to be tested from the advertisement embedded point data reported by the terminal to be tested; and adding the terminal identification and the advertisement test range of each terminal to be tested to the corresponding position in the test range report template, so that each terminal identification in the generated test range report corresponds to one advertisement test range.

According to the technical scheme provided by the embodiment, when the test range report of the terminal set to be tested is generated, the terminal identification and the advertisement test range of each terminal to be tested are comprehensively considered, so that the terminal to be tested corresponding to the terminal identification of which the advertisement test range does not meet the requirement can be identified according to the test range report.

In an exemplary embodiment, the step S230, after generating the test range report of the terminal set to be tested according to the terminal identifier and the advertisement test range of each terminal to be tested, further includes: if the target terminal identification with the advertisement test range smaller than the preset range exists in the test range report, identifying the terminal corresponding to the target terminal identification as a terminal which fails in the test; and inquiring the corresponding relation between the terminal and the test account, and confirming the test account corresponding to the terminal which fails in the test.

The corresponding relation between the terminal and the test account means that each outsourcing person corresponds to one test account, and a plurality of terminals to be tested are bound to one test account.

Specifically, the embedded point server compares an advertisement test range corresponding to each terminal identifier in the test range report with a preset range, and if the terminal identifiers with the advertisement test range smaller than the preset range exist in the test range report, the terminal identifiers are used as target terminal identifiers, and terminals corresponding to the target terminal identifiers are identified as terminals with test failure; and inquiring the corresponding relation between the terminal and the test account, and confirming the test account corresponding to the terminal matched with the terminal with the test failure as the test account corresponding to the terminal with the test failure.

For example, if the advertisement test range of the terminal to be tested 110a is 80% and is smaller than the preset range 100%, it indicates that the terminal to be tested 110a is a terminal that fails to test; in the corresponding relationship between the terminal and the test account, the test account a corresponds to the terminal to be tested 110a, which indicates that the test account corresponding to the terminal which fails the test is the test account a.

According to the technical scheme provided by the embodiment, the advertisement test range corresponding to each terminal identification in the test range report and the corresponding relation between the terminal and the test account can effectively find out the terminal with the advertisement test range not meeting the requirement and the test account corresponding to the terminal with the advertisement test range not meeting the requirement, so that the test account can be reminded to retest the corresponding terminal to be tested.

Fig. 5 is a flowchart illustrating another test data processing method according to an exemplary embodiment, where the test data processing method is used in the fixed point server shown in fig. 1, as shown in fig. 5, and includes the following steps:

in step S510, all the buried point types at each advertisement slot in the client to be tested are identified from the historical buried point data reported by the client to be tested.

In step S520, the priority of each advertisement slot and the number of requests for embedding all the embedding types on each advertisement slot in a preset time period are obtained; and determining a first sequencing label and a second sequencing label of all embedded point types on each advertisement space according to the priority and the embedded point request quantity.

In step S530, combining the first sorting labels and the second sorting labels of all the embedded point types to obtain sorting labels of all the embedded point types; and arranging all the buried point types according to the sequencing tags of all the buried point types to obtain a preset advertisement buried point set.

In step S540, acquiring the to-be-tested clients in each to-be-tested terminal in the to-be-tested terminal set, and sequentially reporting the advertisement embedded point data according to the sorting labels of each embedded point type in the preset advertisement embedded point set; and each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested.

In step S550, determining a buried point type reported by each terminal to be tested according to the advertisement buried point data reported by each terminal to be tested; and deleting repeated embedded point types in the embedded point types reported by the terminals to be tested respectively to obtain target embedded point types reported by the terminals to be tested.

In step S560, an advertisement test range of each terminal to be tested is obtained according to the target buried point type reported by each terminal to be tested and all the buried point types in the preset advertisement buried point set.

In step S570, the advertisement test range of the advertisement position of each priority in each terminal to be tested is obtained according to the advertisement buried point data of the advertisement position belonging to the same priority reported by each terminal to be tested and the advertisement buried point set of the advertisement position belonging to the same priority in the preset advertisement buried point set.

In step S580, a test range report of the terminal set to be tested is generated according to the advertisement test range of each terminal to be tested and the advertisement test range of the advertisement space of each priority.

In an exemplary embodiment, in order to clarify the technical solutions provided by the embodiments of the present disclosure more clearly, an application example of the processing method of test data of the present disclosure is set forth in detail below, and the specific contents of the application example are as follows:

in an actual test scenario, referring to fig. 3, the test terminals allocated to outsourcing personnel include a terminal a to be tested and a terminal b to be tested, the terminal n to be tested, and the outsourcing personnel need to test the advertisement space on the APP to be tested in the terminal a to be tested and the terminal b to be tested; for example, for a terminal a to be tested, outsourcing personnel click a pop window advertisement on an APP to be tested in the terminal a to be tested, click embedded points on the pop window advertisement generate corresponding advertisement embedded point data, and the advertisement embedded point data is uploaded to an embedded point server through the terminal a to be tested; then, outsourcing personnel click a download link on a pushed advertisement on an APP to be tested in the terminal a to be tested, skip to a corresponding APP download page, at the moment, page skip buried points on the pushed advertisement generate corresponding advertisement buried point data, the advertisement buried point data are uploaded to a buried point server through the terminal a to be tested, and each advertisement buried point data records the buried point type on the corresponding advertisement position in the APP to be tested; then, the embedded point server analyzes each advertisement embedded point data about the APP to be tested reported by the terminal a to be tested to obtain embedded point types on corresponding advertisement positions in each advertisement embedded point data reported by the terminal a to be tested, such as clicking embedded points by pop-up advertisements and skipping embedded points by pushing advertisement pages; taking the embedded point type on the corresponding advertisement position in each advertisement embedded point data reported by the terminal a to be tested as the embedded point type reported by the terminal a to be tested, namely, the embedded point type reported by the terminal a to be tested is a popup advertisement click embedded point and a push advertisement page skip embedded point; then, the embedded point server counts that the number of the embedded point types reported by the terminal a to be tested is 2, the total number of all the embedded point types in the preset advertisement embedded point set is 8, which indicates that the proportion of the number of the embedded point types reported by the terminal a to be tested to the total number of all the embedded point types in the preset advertisement embedded point set is 2/8-25%, and further indicates that the advertisement test range of the terminal a to be tested is 25%; referring to the method, the advertisement test range of the terminal to be tested a and the terminal to be tested b & cndot & gtcan be obtained, for example, the advertisement test range of the terminal to be tested a is 25%, and the advertisement test range of the terminal to be tested b is 100% & cndot & gtthe advertisement test range of the terminal to be tested n is 75%; and the embedded point server generates a test range report according to the advertisement test ranges of the terminal a to be tested and the terminal b to be tested.

According to the processing method of the test data, the defect that the accuracy of the advertisement test range obtained by counting the number of the test cases completed through manual clicking is low is overcome, the reliability of the obtained advertisement test range is guaranteed, and therefore the accuracy of determining the advertisement test range is improved.

It should be understood that although the steps in the flowcharts of fig. 2, 4 and 5 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2, 4, and 5 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed alternately or alternately with other steps or at least some of the other steps or stages.

FIG. 6 is a block diagram illustrating a processing device for testing data according to an exemplary embodiment. Referring to fig. 6, the apparatus includes a data acquisition unit 610, a range determination unit 620, and a report generation unit 630.

The data acquisition unit 610 is configured to perform acquisition of advertisement buried point data reported by a client to be tested in each terminal to be tested in the terminal set to be tested; and each advertisement buried point data comprises a buried point type on a corresponding advertisement position in the client to be tested.

The range determining unit 620 is configured to execute the advertisement buried point data and the preset advertisement buried point set according to the advertisement buried point data reported by each terminal to be tested, so as to obtain the advertisement testing range of each terminal to be tested; the preset advertisement buried point set is a set of all buried point types on each advertisement position in the client to be tested.

And a report generating unit 630 configured to execute generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested.

In an exemplary embodiment, the range determining unit 620 is further configured to determine a buried point type reported by each terminal to be tested according to the advertisement buried point data reported by each terminal to be tested; deleting repeated buried point types in the buried point types reported by each terminal to be tested respectively to obtain target buried point types reported by each terminal to be tested; and obtaining the advertisement test range of each terminal to be tested according to the target embedded point type reported by each terminal to be tested and all embedded point types in the preset advertisement embedded point set.

In an exemplary embodiment, the processing apparatus of test data further includes a set determining unit configured to identify all types of embedded points on each advertisement position in the client to be tested from historical embedded point data reported by the client to be tested; acquiring sequencing tags of all embedded point types; arranging all the buried point types according to the sequencing tags of all the buried point types to obtain a preset advertisement buried point set;

the data obtaining unit 610 is further configured to execute obtaining of advertisement embedded point data sequentially reported by clients to be tested in each terminal to be tested according to the sorting labels of each embedded point type in the preset advertisement embedded point set.

In an exemplary embodiment, the set determining unit is further configured to perform obtaining the priority of each ad slot and the number of requests for burial points of all the burial point types on each ad slot within a preset time period; determining a first sequencing label and a second sequencing label of all embedded point types on each advertisement position according to the priority and the embedded point request quantity respectively; and combining the first sorting labels and the second sorting labels of all the embedded point types to obtain the sorting labels of all the embedded point types.

In an exemplary embodiment, the set determining unit is further configured to perform obtaining the historical buried point request number of each ad slot; determining a buried point request quantity range to which the historical buried point request quantity of each advertisement position belongs; and inquiring the corresponding relation between the embedded point request quantity range and the priority according to the embedded point request quantity range to which the historical embedded point request quantity of each advertisement position belongs to obtain the priority of each advertisement position.

In an exemplary embodiment, the processing apparatus for testing data further includes a testing range determining unit configured to execute the advertisement embedded point data according to the advertisement embedded points of the advertisement slots belonging to the same priority reported by each terminal to be tested, and the advertisement embedded point set of the advertisement slots belonging to the same priority in the preset advertisement embedded point set, so as to obtain the advertisement testing range of the advertisement slots belonging to each priority in each terminal to be tested;

the report generating unit 630 is further configured to execute generating a test range report of the terminal set to be tested according to the advertisement test range of each terminal to be tested and the advertisement test range of the advertisement space of each priority.

In an exemplary embodiment, the report generating unit 630 is further configured to perform obtaining a terminal identifier of each terminal to be tested; generating a test range report of a terminal set to be tested according to the terminal identification and the advertisement test range of each terminal to be tested; in the test range report, each terminal identification corresponds to an advertisement test range.

In an exemplary embodiment, the processing apparatus of test data further includes an account determining unit configured to execute, if it is recognized that a target terminal identifier whose advertisement test range is smaller than a preset range exists in the test range report, identifying a terminal corresponding to the target terminal identifier as a terminal that fails in the test; and inquiring the corresponding relation between the terminal and the test account, and confirming the test account corresponding to the terminal which fails in the test.

With regard to the apparatus in the above-described embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and will not be elaborated here.

Fig. 7 is a block diagram illustrating an apparatus 700 for performing the above-described test data processing method according to an example embodiment. For example, device 700 may be a server. Referring to fig. 7, device 700 includes a processing component 720 that further includes one or more processors, and memory resources, represented by memory 722, for storing instructions, such as applications, that are executable by processing component 720. The application programs stored in memory 722 may include one or more modules that each correspond to a set of instructions. Further, the processing component 720 is configured to execute instructions to perform the above-described method of processing test data.

The device 700 may also include a power component 724 configured to perform power management for the device 700, a wired or wireless network interface 726 configured to connect the device 700 to a network, and an input/output (I/O) interface 728. Device 700 may operate based on an operating system stored in memory 722, such as Window 66 over, Mac O6X, Unix, Linux, FreeBSD, or the like.

In an exemplary embodiment, a computer-readable storage medium comprising instructions, such as memory 722 comprising instructions, executable by a processor of device 700 to perform the above-described method is also provided. For example, the computer readable storage medium may be a ROM, a Random Access Memory (RAM), a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like.

In an exemplary embodiment, there is also provided a computer program product comprising a computer program stored in a computer-readable storage medium, from which at least one processor of a device reads and executes the computer program, causing the device to perform the method of processing test data described in any one of the embodiments of the present disclosure.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This disclosure is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims

1. A method for processing test data, comprising:

2. The method for processing test data according to claim 1, wherein the obtaining of the advertisement test range of each terminal to be tested according to the advertisement buried point data reported by each terminal to be tested and a preset advertisement buried point set comprises:

3. The method for processing test data according to claim 1, before obtaining the data of the advertisement burying point reported by the client to be tested in each terminal to be tested in the terminal set to be tested, further comprising:

acquiring the sequencing tags of all the embedded point types;

4. The method according to claim 3, wherein the obtaining the ranking labels of all the buried point types comprises:

5. The method for processing test data according to claim 1, wherein the generating a test range report of the set of terminals to be tested according to the advertisement test range of each terminal to be tested further comprises:

acquiring a terminal identifier of each terminal to be tested;

6. The method for processing test data according to claim 5, after generating the test range report of the set of terminals to be tested according to the terminal identifier and the advertisement test range of each terminal to be tested, further comprising:

7. An apparatus for processing test data, comprising:

8. A server, comprising:

a processor;

a memory for storing the processor-executable instructions;

wherein the processor is configured to execute the instructions to implement the method of processing test data of any one of claims 1 to 6.

9. A computer-readable storage medium, wherein instructions in the computer-readable storage medium, when executed by a processor of a server, enable the server to perform a method of processing test data according to any one of claims 1 to 6.

10. A computer program product comprising a computer program, characterized in that the computer program, when being executed by a processor, implements the method of processing test data according to any one of claims 1 to 6.