CN117478443A - Data processing method, device, equipment and computer readable storage medium - Google Patents

Abstract

The embodiment of the application discloses a data processing method, a device, equipment and a computer readable storage medium, wherein the method comprises the following steps: acquiring a group data acquisition request for a group task; the group task is a task for a target group in the first application; acquiring group structure data corresponding to a target group according to a group data acquisition request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the second object is to participate in the target group through a second application; acquiring a target object identifier which participates in the group task and belongs to the second application; generating a target object information list according to the first object, the second object and the target object identification; the target object information list is displayed in a task display interface aiming at the group task; the target object information list is used for representing the participation state of the first object for the group task. By adopting the method and the device, the participation state of the first object for the group task can be accurately and efficiently determined.

Description

Data processing method, device, equipment and computer readable storage medium

Technical Field

The present disclosure relates to the field of internet technologies, and in particular, to a data processing method, apparatus, device, and computer readable storage medium.

Background

With the rapid development of mobile internet technology and various emerging technologies, social applications appear as if it were a spring bamboo shoot in the rain. With the advent of a large number of social applications, traditional offline group tasks, such as student class or student work, can be replaced with online group tasks provided by social applications.

In the prior art, when a second object participates in a target group created for a first object in a first application through a second application, the target group may display an application name of the second object in the second application. For example, a teacher creates a class group for students of a class in a first application and then lets parents participate in the class group through a second application. However, when the teacher views the objects entering the group through the first application, only the application names of the parents in the second application can be seen. According to the application name, the teacher cannot determine the parents and cannot determine the students corresponding to the parents. Further, if the teacher initiates the group task for the student (first object) through the first application, the teacher cannot determine who participates in the group task and who does not participate in the group task in the class student. Obviously, the prior art reduces query efficiency and accuracy when querying the participation status of the first object for the group task.

Disclosure of Invention

The embodiment of the application provides a data processing method, a device, equipment and a computer readable storage medium, which can accurately and efficiently determine the participation state of a first object for a group task.

In one aspect, an embodiment of the present application provides a data processing method, including:

acquiring a group data acquisition request for a group task; the group task is a task for a target group in the first application;

acquiring group structure data corresponding to a target group according to a group data acquisition request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is to participate in the target group through a second application; the first application is different from the second application;

acquiring a target object identification participating in a group task; the target object identification is attributed to the second application;

generating a target object information list according to the first object, the second object and the target object identification; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

In one aspect, an embodiment of the present application provides a data processing method, including:

displaying an object summary information list in a task display interface corresponding to the group task; the group task is a task for a target group in the first application; the target group is created for the first object, and a second object with an association relation with the first object participates in the target group through a second application; the first application is different from the second application;

displaying object summary information corresponding to the target group in an object information summary list; the object summary information comprises the participation quantity corresponding to the participation state; the participation state refers to a state that the first object participates in the group task;

if the triggering operation aiming at the object summary information is responded, displaying a target object information list in a task display interface; the target object information list is used to characterize the participation status.

An aspect of an embodiment of the present application provides a data processing apparatus, including:

the first acquisition module is used for acquiring a group data acquisition request aiming at a group task; the group task is a task for a target group in the first application;

the second acquisition module is used for acquiring group structure data corresponding to the target group according to the group data acquisition request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is to participate in the target group through a second application; the first application is different from the second application;

The third acquisition module is used for acquiring a target object identifier participating in the group task; the target object identification is attributed to the second application;

the first generation module is used for generating a target object information list according to the first object, the second object and the target object identifier; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

Wherein, the first generation module includes:

the first determining unit is used for determining a second participation object which participates in the group task in the second object according to the target object identification;

a second determining unit configured to determine, among the first objects, an object having an association relationship with the second participation object as the first participation object;

the first generation unit is used for generating a target object information list according to the first participation object, the second participation object and the target object identification.

Wherein the second object comprises object A _b B is a positive integer, and b is less than or equal to the total number of second objects;

a first determination unit including:

A first contrast subunit for aiming at the object A if the group structure data exists _b Validation object identification Z _b Then the object identification Z will be confirmed _b Comparing the target object identification with the target object identification; validation object identification Z _b For characterizing object information Y _b Through object A _b Confirming; object information Y _b Belonging to group structure data and object information Y _b With object A _b Associating;

an object determination subunit for determining the object identifier Z _b Identical to the target object identification, object A is then _b A second participating object is determined to be participating in the group task.

Wherein the first generation unit includes:

the first generation subunit is used for generating a first target object information list according to the first participation object, the second participation object and the target object identification; the first target object information list is used for representing a first participation object;

the second generation subunit is used for generating a second target object information list according to the first participation object; the second target object information list is used for representing a first object to be participated in which the group task is not participated in the first object;

and the list determining subunit is used for determining the first target object information list and the second target object information list as target object information lists.

Wherein the first generation subunit includes:

the first acquisition subunit is used for acquiring first participation object information for representing the first participation object and a first relation tag in the group structure data; the first relation tag is used for representing the association relation between the first participation object and the second participation object;

and the list generation subunit is used for generating a first target object information list according to the first participation object information, the first relation tag and the target object identifier.

Wherein the target object identification comprises an object identification C _d D is a positive integer, and d is less than or equal to the total number of target object identifications;

list generation subunit, for example, if object identifier C _d Counting a first total number of the first participation object information, and generating a first target object information list according to the first relation tag, the first participation object information and the first total number;

the list generation subunit is also specifically configured to, if the object identifier C _d If the first participation object information does not belong to the group structure data, counting the second total quantity of the first participation object information, and counting the object identification C _d A third total number of (2);

the list generation subunit is further specifically configured to obtain the object identifier C _d Target group-directed object information E to be confirmed _d According to the first participation object information, the first relation label and the object information E to be confirmed _d And a fourth total number, generating a first target object information list; the fourth total number is the sum of the second total number and the third total number.

Wherein the second generation subunit includes:

a first determination subunit configured to determine a first confirmation object among the first objects; the first participating object belongs to a first confirming object;

a second determining subunit, configured to determine an object other than the first participation object in the first confirmation object as a first object to be participated;

the second acquisition subunit is used for acquiring first to-be-participated object information for representing the first to-be-participated object in the group structure data;

the second obtaining subunit is further configured to count a fifth total number of the first object information to be participated, and generate a second target object information list according to the fifth total number and the first object information to be participated.

Wherein the second object comprises object I _g G is a positive integer and g is less than or equal to the total number of second objects;

a first determination subunit, specifically configured to, in the group structure data, if there is a target I _g Validation object identification H _g Then determine object I _g Is the second validation object; the second participating object belongs to a second confirming object;

the first determining subunit is further specifically configured to determine, among the first objects, an object that has an association relationship with the second confirmation object as the first confirmation object.

Wherein the first generation unit further includes:

the request acquisition subunit is used for acquiring a task participation prompt request, and determining an object with an association relation with the first object to be participated as a second object to be participated in according to the task participation prompt request;

the third generation subunit is used for generating task participation prompt information according to the first object to be participated and the second object to be participated;

the information sending subunit is used for sending task participation prompt information carrying group task guide information to a target group; the task participation prompt information is used for prompting the second object to participate in the group task through the group task guide information.

Wherein the third generation subunit includes:

the third acquisition subunit is used for acquiring first to-be-participated object information for representing the first to-be-participated object and a second relationship label in the group structure data; the second relation tag is used for representing the association relation between the first object to be participated and the second object to be participated;

And the information generation subunit is used for generating task participation prompt information according to the first object information to be participated and the second relation tag.

Wherein, the data processing device still includes:

a fourth acquisition module for acquiring initial object information for a target group input in the first application; the initial object information includes first object information for characterizing the first object, and second object information for characterizing the second object;

and the second generation module is used for acquiring an information confirmation request carrying the group identifier, which is sent by the second application, and generating group structure data according to the group identifier and the initial object information.

Wherein, the second generation module includes:

the information acquisition unit is used for acquiring first matching object information used for representing the first object and second matching object information used for representing the second object in the information confirmation request if the group identifier is matched with the target group;

the first comparison unit is used for comparing the first matching object information with the first object information to obtain a first comparison result;

the second comparison unit is used for comparing the second matching object information with the second object information to obtain a second comparison result;

The second generation unit is used for generating group structure data according to the first comparison result and the second comparison result.

Wherein the second generating unit includes:

the identification determining subunit is configured to determine, as a confirmation object identification, an object identification for the second object carried by the information confirmation request if the first comparison result and the second comparison result are both the same comparison result;

the second comparison subunit is used for comparing a third relationship label used for representing the association relationship between the first object and the second object in the information confirmation request with a fourth relationship label used for representing the association relationship between the first object and the second object in the initial object information;

and the information storage subunit is used for storing the third relation label, the first object information, the fourth object information and the confirmed object identifier in an associated manner if the third relation label is different from the fourth relation label, so as to obtain group structure data.

An aspect of an embodiment of the present application provides a data processing apparatus, including:

the first display module is used for displaying an object summary information list in a task display interface corresponding to the group task; the group task is a task for a target group in the first application; the target group is created for the first object, and a second object with an association relation with the first object participates in the target group through a second application; the first application is different from the second application;

The second display module is used for displaying object summary information corresponding to the target group in the object information summary list; the object summary information comprises the participation quantity corresponding to the participation state; the participation state refers to a state that the first object participates in the group task;

the third display module is used for displaying a target object information list in the task display interface if the triggering operation of the object summary information is responded; the target object information list is used to characterize the participation status.

The target object information list comprises a first target object information list;

a third display module comprising:

the first display unit is used for displaying a first target object information list in the task display interface if the triggering operation of the object summary information is responded;

the second display unit is used for displaying the first participation object information and the first relation tag in the first target object information list; the first participation object information is used for representing a first participation object which participates in the group task in the first object; the first relation tag is used for representing the association relation between the first participation object and the second participation object; the second participating object belongs to the second object; the first participation object information and the first relation tag are confirmed through the second participation object.

The first target object information list comprises a first confirmed object list and an object list to be confirmed;

a second display unit comprising:

a first display subunit, configured to display, in the first confirmation object list, first participation object information and a first relationship tag;

and the second display subunit is used for displaying the object information to be confirmed in the object list to be confirmed.

The target object information list further comprises a second target object information list;

the third display module further includes:

the third display unit is used for displaying a second target object information list in the task display interface if the trigger operation of the object control to be participated in the first target object information list is responded;

a fourth display unit, configured to display, in the second target object information list, first object information to be participated in; the first to-be-participated object information is used for representing a first to-be-participated object which does not participate in the group task in the first object; the first to-be-participated object information is confirmed through the second to-be-participated object; the second object to be participated has an association relation with the first object to be participated, and the second object to be participated belongs to the second object.

The second target object information list comprises a task participation control;

The third display module further includes:

the label acquisition unit is used for acquiring a second relation label used for representing the association relation between the first object to be participated and the second object to be participated if the trigger operation for the task participation control is responded;

the information generation unit is used for generating task participation prompt information comprising first object information to be participated and a second relation label;

the information sending unit is used for sending task participation prompt information carrying group task guide information aiming at the group task to the target group; the task participation prompt information is used for prompting the second object to be participated in, and the task participation prompt information is used for prompting the second object to be participated in the group task through the group task guidance information.

In one aspect, the present application provides a computer device comprising: a processor, a memory, a network interface;

the processor is connected to the memory and the network interface, where the network interface is used to provide a data communication function, the memory is used to store a computer program, and the processor is used to call the computer program to make the computer device execute the method in the embodiment of the present application.

In one aspect, embodiments of the present application provide a computer readable storage medium having a computer program stored therein, the computer program being adapted to be loaded by a processor and to perform a method according to embodiments of the present application.

In one aspect, the present application provides a computer program product comprising a computer program stored on a computer readable storage medium; the processor of the computer device reads the computer program from the computer-readable storage medium, and the processor executes the computer program, so that the computer device performs the method in the embodiment of the present application.

In the embodiment of the application, the target group in the first application is created for the first object, but the object participating in the target group is a second object passing through the second application and having an association relationship with the first object; the computer equipment can accurately determine the participation state of the second object in relation to the group task by acquiring the target object identification of the second application in relation to the group task, and can accurately and efficiently determine the participation state of the first object in relation to the group task by the group structure data and the participation state of the second object in relation to the group task because the group structure data corresponding to the target group is used for representing the first object and the second object.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 below, it being obvious that the drawings in the following description are only some embodiments of the present application, 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 schematic diagram of a system architecture according to an embodiment of the present application;

FIG. 2a is a schematic diagram of a scenario for data processing according to an embodiment of the present application;

FIG. 2b is a second schematic diagram of a scenario of data processing according to an embodiment of the present disclosure;

FIG. 3 is a flowchart illustrating a data processing method according to an embodiment of the present application;

fig. 4 is a third schematic view of a scenario of data processing according to an embodiment of the present application;

fig. 5 is a schematic diagram of a scenario four of data processing provided in an embodiment of the present application;

FIG. 6 is a second flow chart of a data processing method according to an embodiment of the present disclosure;

fig. 7 is a schematic view of a scenario in which a third object and a second object perform bidirectional confirmation of object information according to an embodiment of the present application;

fig. 8 is a schematic diagram fifth scenario of data processing according to an embodiment of the present application;

fig. 9 is a schematic diagram sixth scenario of data processing provided in an embodiment of the present application;

FIG. 10 is an interactive flow chart of a data processing method according to an embodiment of the present application;

FIG. 11 is a third flow chart of a data processing method according to an embodiment of the present disclosure;

FIG. 12 is a schematic diagram of a scenario seven of data processing provided in an embodiment of the present application;

FIG. 13 is a schematic diagram of a data processing apparatus according to an embodiment of the present application;

FIG. 14 is a second schematic structural diagram of a data processing apparatus according to an embodiment of the present disclosure;

fig. 15 is a schematic structural diagram of a computer device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

Referring to fig. 1, fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present application. As shown in fig. 1, the system may include a service server 100, a first terminal cluster, and a second terminal cluster. It will be appreciated that the above system may include one or more first terminals, and the number of first terminals is not limited in this application. As shown in fig. 1, the first terminal group includes a first terminal 101a, first terminals 102a, …, and a first terminal 103a. The first terminal in the embodiment of the present application refers to a terminal device on which a first application is installed. The first application may be a short video application, a live broadcast application, a social application, an instant messaging application, a game application, a music application, a shopping application, a novel application, a browser, or the like, which has an application providing a group function. The application client corresponding to the first application may be an independent client, or may be an embedded sub-client integrated in a certain client (for example, a social client, an educational client, a multimedia client, etc.), which is not limited herein.

It will be appreciated that the system described above may include one or more second terminals, and the number of second terminals is not limited in this application. As shown in fig. 1, the second terminal cluster includes a second terminal 201a, a second terminal 201b, a second terminal 202a, a second terminal 202b, second terminals 203a, …, and a second terminal 203b. The second terminal in the embodiment of the present application refers to a terminal device on which the second application is installed. The second application is different from the first application, and may be a short video application, a live broadcast application, a social application, an instant messaging application, a game application, a music application, a shopping application, a novel application, a browser, or an application with a group participation function. The application client corresponding to the second application may be an independent client, or may be an embedded sub-client integrated in a certain client (for example, a social client, an educational client, a multimedia client, etc.), which is not limited herein.

It will be appreciated that the above-described system may include one or more service servers, and the present application is not limited to the number of service servers 100. The service server 100 in the embodiment of the present application may be a set of multiple servers, such as a background server, a data processing server, and the like, corresponding to the first application.

Wherein a network connection may exist between the first terminal clusters, for example, a network connection exists between the first terminal 101a and the first terminal 102 a. Meanwhile, any first terminal in the first terminal cluster may have a network connection with the service server 100, for example, a network connection between the first terminal 101a and the service server 100. Meanwhile, any first terminal in the first terminal cluster may have a network connection with any second terminal in the second terminal cluster, for example, a network connection exists between the first terminal 101a and the second terminal 201a, for example, a network connection exists between the first terminal 102a and the second terminal 203 a.

Wherein a network connection may exist between the second terminal clusters, for example, a network connection exists between the second terminal 201a and the second terminal 201b, and a network connection exists between the second terminal 202a and the second terminal 203 a. Meanwhile, any second terminal in the second terminal cluster may have a network connection with the service server 100, for example, a network connection exists between the second terminal 201a and the service server 100, and a network connection exists between the second terminal 202b and the service server 100.

The network connection is not limited to a connection manner, and may be directly or indirectly connected through a wired communication manner, may be directly or indirectly connected through a wireless communication manner, or may be other manners, which is not limited herein.

It will be appreciated that in the specific embodiments of the present application, related data such as user information (e.g., first object information and second object information) is referred to, and when the embodiments of the present application are applied to specific products or technologies, user permission or consent is required, and collection, use and processing of related data is required to comply with related laws and regulations and standards of related countries and regions.

In this application, a first application has office properties, has the feature of communicating with an application identification (e.g., application account number) belonging to a second application, and is in an interworking group (i.e., a group of the application). For easy understanding and description, the embodiments of the present application use schools as enterprises and class groups as group examples, specifically, schools use a first application in which enterprises are established for schools. The school administrator enters school organization structure information, such as school district-grade-class-lesson teacher, into the address book of the corporation. The teacher is used as a school employee to download and use the first application, logs in and joins the enterprise created by the first application in a mode of mobile phone number or enterprise invitation two-dimension code scanning and the like.

As staff of a school, a teacher can quickly create a class group through a home address book of a first application, the class group has a basic function of interworking with a second application and carries special marks of the class group, for example, a class-by-class structure is unique for each class group, and at the moment, the teacher can efficiently determine the class group corresponding to the class managed by the teacher. It will be appreciated that a class group has a plurality of lessons teachers. And the teacher enables the application identification of the parents of the students belonging to the second application to be added to the class group by sharing class group two-dimension codes and the like. Wherein a student may be understood as a first object and a parent of the student may be understood as a second object.

Advantages of the above procedure include: the parents of the students are taken as non-school enterprise personnel, and can establish a communication channel with the school enterprise personnel (teacher) directly through the second application without downloading the first application.

During some periods, such as epidemic periods, school group events (e.g., lectures, student assignments) are often implemented in a remote manner. The first application can conveniently enable a teacher to participate in a group task through group functions (such as live lectures, health reports, student works and the like) in a mode of a home school intercommunication group (class group), and a student to participate in a group task through a second application registered by a parent. The main process is that a teacher initiates a group task, such as live broadcast, in a class group of the first application, and at this time, the class group can automatically push task participation guidance information, such as an applet, of the group task.

The parents in the class group can receive the group task initiated by the teacher through the first application through the terminal (for example, the second terminal 201a in fig. 1) logged in with the second application, and can receive the task participation prompt information, and the students can directly participate in the group task by triggering the task participation prompt information through the second application logged in by the parents. In order to support a teacher in a group (for example, a class group) in a group task under a group task scenario of a home-school intercommunication group provided by a first application, to quickly and accurately determine students to participate in the group task and prompt the students to participate in the group task, the application proposes a method for viewing the students to participate in the group task, and the method can be described as follows.

For ease of understanding and description, the embodiments of the present application will be described with reference to the first terminal 101a in the first terminal cluster. When a group data acquisition request for a group task is acquired by the first application, the first terminal 101a may transmit the group data acquisition request to the service server 100. In the embodiment of the present application, the target group includes a management object (e.g., a teacher in a class group) using a first application, and a second object, i.e., the target group, using a second application, can communicate across applications. Wherein the group task is a task for a target group in the first application.

Further, according to the group data acquisition request, the service server 100 may acquire group structure data corresponding to the target group in the group database. The group database may be regarded as an electronic file cabinet, which is a place for storing electronic files (herein referred to as group structure data), and the service server 100 may perform operations such as adding, querying, updating, deleting, etc. on the group structure data in the files. A "database" is a collection of data stored together in a manner that can be shared with multiple users, with as little redundancy as possible, independent of the application. The group structure data refers to structure data corresponding to a target group, and may include data of the target group, data of a first object in the target group, and data of a second object in the target group. The data of the first object in the target group includes first object information, such as an object name of the first object; the data of the second object in the target group includes second object information, such as an identification of the second object in the second application, including, but not limited to, a cell phone number, a mailbox. It is emphasized that the target group is created for the first object, but the second object participates in the target group through the second application, so the first object participates in the group task through the second application that the second object is logged in.

Further, the service server 100 obtains the target object identification of the participation in the group task. Wherein the target object identifier belongs to the second application, it may be understood that the target object identifier has uniqueness, which may characterize a second object in the second application, that is, the target object identifier is an identifier generated by the second application for the second object, and is used for being transmitted to the first application, so that the first terminal 101a and the service server 100 may determine, according to the target object identifier, a second participation object participating in the group task in the second object. Further, the service server 100 may generate a target object information list according to the first object, the second object, and the target object identifier, where the target object information list may characterize a participation state of the first object for the group task.

The service server 100 sends the target object information list to the first terminal 101a, and after the first terminal 101a obtains the target object information list, the target object information list can be displayed in the task display interface for the group task, so that the management object corresponding to the first terminal 101a can accurately know the participation state of the first object for the group task through the target object information list.

Optionally, if the management object allows the first object participating in the group task to view the target object information list, the service server 100 may further send the target object information list to a second terminal corresponding to a second object participating in the group task, for example, the second terminal 201a in fig. 1, where the second terminal 201a may display the target object information list in the task display interface for the group task, so that the first object participating in the group task may view the target object information list.

Optionally, the service server 100 sends the group structure data and the target object identifier to the first terminal 101a, and then the first terminal 101a generates a target object information list locally according to the group structure data and the target object identifier, and then displays the target object information list in a task display interface corresponding to the group task. In addition, the first terminal 101a may also send the target object information list to a target device that participates in the group task and has viewing authority, such as the second terminal 201a described above.

Optionally, the first terminal 101a locally stores group structure data corresponding to the target group, so after the first terminal 101a obtains the target object identifier sent by the service server 100, a target object information list may be generated locally based on the stored group structure data and the target object identifier, and the subsequent process is the same as the above-mentioned subsequent process, and therefore will not be repeated. The group configuration data local to the first terminal 101a may be generated or updated by the service server 100 and then sent to the first terminal 101 a.

The detailed implementation of the above procedure is described in the following embodiments corresponding to fig. 2a to 11, respectively.

It should be noted that, the service server 100, the first terminal in the first terminal cluster, and the second terminal in the second terminal cluster may be blockchain nodes in the blockchain network, and the data (for example, group structure data) described in full text may be stored, where the storage manner may be a manner that the blockchain nodes generate blocks according to the data and add the blocks to the blockchains for storage.

The block chain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism, an encryption algorithm and the like, and is mainly used for sorting data according to time sequence, encrypting the data into an account book, preventing the account book from being tampered and forged, and simultaneously verifying, storing and updating the data. A blockchain is essentially a de-centralized database in which each node stores an identical blockchain, and a blockchain network can distinguish nodes into core nodes, data nodes, and light nodes. The core nodes, data nodes and light nodes together form a blockchain node. The core node is responsible for the consensus of the whole blockchain network, that is to say, the core node is a consensus node in the blockchain network. The process of writing the transaction data in the blockchain network into the ledger may be that a data node or a light node in the blockchain network acquires the transaction data, transfers the transaction data in the blockchain network (that is, the node transfers in a baton manner) until the transaction data is received by a consensus node, packages the transaction data into a block, performs consensus on the block, and writes the transaction data into the ledger after the consensus is completed. Here, the transaction data is exemplified by group structure data, and after the transaction data is identified, the service server 100 (blockchain node) generates blocks according to the transaction data, and stores the blocks into the blockchain network; for reading transaction data (i.e., group structure data), a block containing the transaction data may be obtained by the blockchain node in the blockchain network, and further, the transaction data may be obtained in the block.

It may be appreciated that the method provided in the embodiments of the present application may be performed by a computer device, including but not limited to a terminal device (including the first terminal and the second terminal described above) or a service server. The service server may be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, or a cloud server providing a cloud database, cloud service, cloud computing, cloud functions, cloud storage, network service, cloud communication, middleware service, domain name service, security service, CDN, basic cloud computing service such as big data and an artificial intelligence platform. Terminal devices include, but are not limited to, cell phones, computers, intelligent voice interaction devices, intelligent home appliances, vehicle terminals, aircraft, and the like. The terminal device and the service server may be directly or indirectly connected through a wired or wireless manner, which is not limited herein.

Further, referring to fig. 2a, fig. 2a is a schematic view of a scenario of data processing according to an embodiment of the present application. The implementation process of the data processing scenario may be performed in the service server, or may be performed in the first terminal, or may be performed interactively in the first terminal and the service server, which is not limited herein. For convenience of description and understanding, the embodiment of the present application describes an example of interaction between a first terminal and a service server, where the first terminal may be any one of the first terminals in the first terminal cluster in the embodiment corresponding to fig. 1, and fig. 2a describes a first terminal 101a as an example; the service server may be the service server 100 of the embodiment corresponding to fig. 1. For ease of understanding and description, fig. 2a illustrates a first object with a student and a second object with a parent of the student, where the management object 20a may be a teacher and the target group may be a class group.

The management object 20a has a binding relationship with the first terminal 101a, and through the first terminal 101a, the management object 20a can view the first application and the interworking group provided by the first application and having a cross-application function. On the basis of the intercommunication group, the first application may provide a page for adding group member information for the management object 20a, as shown in an information adding page 201z in fig. 2a, and the management object 20a may add first object information corresponding to a first object (i.e. a student) and second object information corresponding to a second object (i.e. a parent of the student) in the information adding page 201 z. The first object information (student information) may include filling-in information and selecting-filling-in information, where the filling-in information includes a student name and a class to which the student name belongs, and it is understood that if the management object 20a selects to add a parent of the student in the class group, the information adding page 201z may display class information corresponding to the class group, such as a class one class as shown in fig. 2a, and enterprise architecture information to which the management object 20a belongs, that is, a class one 2021 of the primary school of 123. The optional fill-in information may include student contact information such as cell phone number and mailbox, etc. If the management object 20a wants to modify the class information, the setting class control 202z may be triggered, and the first terminal 101a displays a class list of the enterprise (123 primary as illustrated in fig. 2 a) in response to the triggering operation for the setting class control 202z, where the class list may include all classes of the 123 primary.

The second object information (such as the parent information of the student illustrated in fig. 2 a) may include communication information of the parent. The information adding page 201z may default to display that the parent calls as the mother, and if the parent information collected by the management object 20a is called by other parents, the selection control 203z may be triggered, and at this time, the first terminal 101a may display a call list, where the call list may include calls for representing the relationship between the student and the parent, and the content in the asymmetric call list in the embodiment of the present application is limited, and may be set according to an actual application scenario. In addition, the management object 20a may also input a parental name by itself, and it is understood that the parental name may be used as a relationship tag for representing the association relationship between the student and the parent. The communication information of the parents includes, but is not limited to, a mobile phone number, a mailbox and an application identifier of the second application. It may be understood that one student may correspond to a plurality of parents, and if the management object 20a collects a plurality of parent information for a certain student, the adding control 204z may be triggered, and at this time, the first terminal 101a adds a parent information area in response to the triggering operation for the adding control, so that the management object 20a may input a plurality of parent information through the newly added parent information area.

Through the information addition page 201z, the management object 20a makes initial entry of first object information (student information as illustrated in fig. 2 a) and second object information (parent information as illustrated in fig. 2 a). For example, a teacher inputs information such as a student name and a corresponding parental relation+a mobile phone number under a class architecture in a home address book of a first application through parental information (including a parental relation (dad/mom, etc) +mobile phone number) collected in advance. The information addition page 205z shown in fig. 2a, the management object 20a inputs the student's name (i.e., student name aa in fig. 2 a), the student's parent name (i.e., mother), and the parent contact, as 11111111111 in fig. 2 a. If the management object 20a triggers the confirmation control 206z, the first terminal 101a responds to the triggering operation for the confirmation control 206z, and sends the first object information (for example, the name of the student), the class information to which the student aa belongs, the relationship tag (i.e., the parental name) representing the association relationship between the second object and the first object, and the second object information (for example, the communication information) as initial object information to the service server 100.

It will be appreciated that students of the same name may be present in the same group (class group), but the student name is unique in combination with the parent information (communication information such as the mobile phone number). Alternatively, the initial entry of the first object information and the second object information may be performed by performing a batch rapid import.

After acquiring the initial object information (including the first object information and the second object information) sent by the first terminal 101a, the service server 100 determines whether a class exists in the initial object information in the group database, and if so, adds both the first object information and the second object information to the initial group structure data corresponding to the class. As shown in fig. 2a, the initial group structure data 20y has 3 types of nodes, the first root node is a class node 201y, and the class node 201y may include a class identifier and a class name, where the class identifier is used to identify a class name in the school architecture information, such as a class-by-class as illustrated in fig. 2 a. It should be emphasized that after the creation of the class group, three identifiers are respectively a class identifier, a first application class group identifier and a second application class group identifier; the class identifiers are used for distinguishing classes in school, and the class identifiers are stored in the initial group structure data 20 y; the first application class group identification is the identification of class groups in the first application, the second application class group identification is the identification of class groups in the second application, and the three are mapped and stored in an associated mode.

The child nodes connected to the first root node are student nodes, such as student node 202y and student node 203y illustrated in fig. 2 a. Each student node includes information such as a student identity and a student name, for example, the student node 202y includes a student identity 1 and a student name bb, it is understood that there may be multiple student names of a school that are all bb, but the student identity is unique, i.e., one student identity characterizes only one student.

Child nodes connected to the student node are parent nodes, such as parent node 204y connected to student node 202y and parent node 205y connected to student node 203y as illustrated in fig. 2 a. Each parent node includes a parent identifier, a parent name, and a parent communication, for example, parent node 204y includes parent identifier 1, a parent, and 11111111110, where parent identifier 1 uniquely identifies the parent of student bb having student identifier 1, and in the initial group structure data 20y, the parent is the parent of student bb, and the communication is 11111111110. For understanding of other parent nodes, please refer to the description of the parent node 204y, and a detailed description is omitted.

After the business server 100 adds the information of the student aa and its parents to the initial group structure data 20y, the initial group structure data 20y may have a node for the student aa, such as the student node 203y, which includes the name of the student aa and the student identification 2 for the student aa. The initial group structure data 20y may have nodes for parents of student aa, such as parent node 206y, including parent identification 3, parent title, and communication 11111111111.

As noted above, the management object 20a may enter the initial object information through a group (also referred to as an interworking group) provided by the first application. In order to ensure accuracy of initial object information, the embodiment of the application provides a method for confirming the initial object information by a second object. Referring to fig. 2b, fig. 2b is a schematic diagram of a second scenario of data processing according to an embodiment of the present application. The implementation process of the data processing scenario may be performed in the service server, or may be performed in the second terminal, or may be performed interactively in the second terminal and the service server, which is not limited herein. For convenience of description and understanding, the embodiment of the present application describes an example of interaction between a second terminal and a service server, where the second terminal may be any one of the second terminal clusters in the embodiment corresponding to fig. 1; the service server may be the service server 100 of the embodiment corresponding to fig. 1. The second object 20d has a binding relationship with the second terminal, and the second object 20d is added to the first-class group by scanning the first-class group two-dimensional code created in the first application through a second application installed in the second terminal.

After the second object 20d enters the class group for the first time, as shown in fig. 2b, a prompt message 201e sent by a class group assistant of the primary school, i.e. "@yy parents are good, welcome into the group, please fill in the following materials to facilitate the teacher to recognize and receive the school notification, please supplement the information of you and children, can be displayed in the class group of the primary school. Where yy is the application name of the second object 20d in the second application. After the second object 20d joins the class group, the prompt 201e may be triggered, and at this time, the second terminal displays the information confirmation page 202e in response to the triggering operation for the prompt 201 e. The information validation page 202e is provided by a first application, which includes the business name, such as the 123 primary school shown in FIG. 2 b; the main purpose of the page may be included, such as "parents hello, please supplement your and child's material, convenience for teacher to recognize student, receive notification, homework" as shown in fig. 2 b.

The information confirmation page 202e is used for the second object 20d (fig. 2b is used to represent a parent of a student) to fill in the information of the first object (fig. 2b is an example of a student), as well as its own information. Wherein the first matching object information may include a student name; the second matching object information may include communication information of the second object, such as a mobile phone number, an application mailbox of the second application, and the like. After the second object 20d perfects the information, the second terminal may display an information confirmation page 203e. The information confirmation page 203e may indicate that aa is a student of grade one class of 123, that the second object 20d is dad of aa, and may indicate that the communication information of the second object 20d is 11111111111. Further, when the second object 20d triggers the submit control 204e, the second terminal takes the student name aa filled in by the second object 20d as the first matching object information, and takes 11111111111 as the second matching object information. The second terminal determines the identity of the class group (i.e. a class one class group) in the second application, i.e. the second application class group identity, determines the object identity of the second object 20d in the second application, and generates the information confirmation request according to the first matching object information, the second application class group identity and the object identity for characterizing the second object 20d in the second application. Further, the second terminal sends the information confirmation request to the service server 100, and after the service server 100 obtains the information confirmation request, based on the second application class group identifier in the information confirmation request, the class identifier of the class group may be determined, and according to the class identifier, the initial group structure data 20y in fig. 2a may be determined in the group database.

Further, the service server 100 matches the first matching object information in the information confirmation request with the first object information, that is, matches the student name input by the management object 20a with the student name input by the second object 20d, matches the second matching object information with the second object information, that is, matches the communication information input by the management object 20a with the communication information input by the second object 20 d. Obviously, the first matching object information is identical to the first object information and the second matching object information is identical to the second object information, so the service server 100 can return the material confirmed information to the second terminal. After the information matching is completed, if the relationship tag input by the second object 20a is different from the relationship tag input by the management object 20a, the service server 100 may update the relationship tag stored in the initial group structure data 20y to the relationship tag input by the second object 20 d. As shown in fig. 2b, the relationship tag (i.e., dad) input by the second object 20d is not matched with the relationship tag (i.e., mom) in the initial object information input by the management object 20a in fig. 2a, but the student information is matched with the communication information, so the service server 100 updates the relationship tag in the parent node 206y in fig. 2a from "mom" to "dad", and adds the object identifier in the information confirmation request (i.e., the confirmation object identifier 3 shown in fig. 2 b) to the parent node 206y to obtain a new parent node, such as the parent node 201f shown in fig. 2b, at this time, the initial group structure data 20y in fig. 2a is updated to the group structure data 20f in fig. 2 b.

It will be appreciated that a parent may have multiple children, so in order to facilitate the parent (i.e., the second object 20 d) to fill in student information, in this embodiment of the present application, a control 205e may be displayed in the information confirmation page 203e, and when the second object 20d submits the material of the student aa, the control 205e may be triggered, at which time the second terminal may display the information confirmation page 202e. Optionally, the information confirmation page 202e may be pre-filled with the parental name and the parental cell phone number.

It can be understood that if the second object 20d does not complete the student data in time after first entering the group, the management object 20a can send the prompt information 201e in the class group in the first application, that is, prompt the second object 20d to complete the data again.

As can be seen from the foregoing, the embodiments of the present application provide a bidirectional object information confirmation method, that is, a management object performs initial entry of object information (first object information and second object information) through a target group of a first application; and subsequently, the second object perfects and confirms the object information through the target group of the second application, and in the scene of confirming that the object information is correct, the service server determines the object identification of the second object in the second application as a confirmed object identification and adds the confirmed object identification into an initial group structure corresponding to the target group to generate group structure data. And if the business server determines that the relationship label input by the second object is different from the relationship label in the initial group structure data in the process of confirming the object information, updating the relationship label in the initial group structure data into the relationship label input by the second object.

Through the confirmation object identification in the group structure data, when the management object initiates the group task aiming at the target group, the service server can compare the online object identification (namely the target object identification) with the confirmation object identification in the group structure data, so as to determine whether the confirmation object identification participates in the group task, and if the confirmation object identification participates in the group task, it can be determined that the second object participates in the group task, so as to determine that the first object participates in the group task.

It will be appreciated that the interfaces and controls illustrated in fig. 2a and 2b are merely some representations that may be referred to, and in an actual business scenario, a developer may perform related design according to product requirements, and the embodiments of the present application do not limit the specific forms of the interfaces and controls involved.

Further, referring to fig. 3, fig. 3 is a flowchart illustrating a data processing method according to an embodiment of the present application. The data processing method may be performed by a service server (e.g., the service server 100 shown in fig. 1) described above, or may be performed by a first terminal (e.g., the first terminal 101a shown in fig. 1) described above, or may be performed interactively by the service server and the first terminal. For ease of understanding, embodiments of the present application will be described with this method being performed by a service server as an example. As shown in fig. 3, the data processing method may include at least the following steps S101 to S104.

Step S101, acquiring a group data acquisition request for a group task; the group task is a task for a target group in the first application.

Specifically, referring to fig. 4, fig. 4 is a schematic diagram of a third scenario of data processing according to an embodiment of the present application. As shown in fig. 4, the third object 40a has a binding relationship with the first terminal 101a, wherein the third object 40a may be an object having management authority in the target group. The first terminal 101a may display a group session page 401b for the target group in the first application, and fig. 4 illustrates the target group with "2021 level XXX group", it being understood that "2021 level XXX group" is also a group name of the target group. The embodiment of the present application is not limited to specific applications of the target group, and may be set according to practical application scenarios, including but not limited to the class group illustrated in fig. 2a and fig. 2b. Similarly, the first object and the second object are not limited, and may be set according to an actual application scenario, and when the target group is a class group, the first object may be a student, the second object may be a parent of the student, and the third object 40a may be a teacher.

As shown in fig. 4, in the group session page 401b, a group invitation prompt message 402b, that is, "invite a second object, the second object may enter a group in the first application and invite immediately", if the third object 40a triggers the group invitation prompt message 402b, a group two-dimensional code may be displayed, or information for inviting the second object to enter the group may be displayed. If the third object 40a triggers the close control 403b, the first terminal 101a cancels the display of the group invitation prompt 402b in the group session page 401 b. If the third object 40a wants to initiate a group task in the target group, the first terminal 101a may display the group task guidance information 404b by inputting the group task in the group session page through the task function provided by the first application. The group task guidance information 404b may include a group task and a third object that initiates the group task, and it is understood that the group task is a task that the first object participates in, and the embodiment of the present application does not limit the group task, and if the first object is a student, the group task includes but is not limited to live broadcast, homework, health report, and the like. The specific content of the group task guidance information 404b can be set according to the actual application scenario. In addition, the start time of the group task, a third object 40a may be set, fig. 4 being an example of a real-time group task.

When the third object 40a transmits the group task guidance information 404b, the first terminal 101a determines a target group identification of the target group. As described above for class groups, a target group, after creation, has 3 identities, namely an identity of the target group in the enterprise (abbreviated as a first group identity), an identity of the target group in a first application (abbreviated as a second group identity), and an identity of the target group in a second application (abbreviated as a third group identity). The target group identifier may be the first group identifier or the second group identifier.

When the group task starts, the first terminal 101a sends a group data acquisition request carrying the target group identifier to the service server 100.

Fig. 4 is a diagram of a third object 40a initiating a group task in 2021 stage XXX group, so the target group is 2021 stage XXX group, where the total number of target groups is 1. In practical applications, the third object 40a may select a group from a group list provided by the first application and including at least one group, and the first terminal 101a determines at least one group selected by the third object 40a as a target group, where the total number of target groups is at least one, which is not described in detail in this step, please refer to the description of step S201 in the embodiment corresponding to fig. 6 below.

Step S102, obtaining group structure data corresponding to a target group according to a group data obtaining request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is to participate in the target group through a second application; the first application is different from the second application.

In particular, the group structure data may include a first object node (which may include first object information) for characterizing a first object, and a second object node (which may include second object information) for characterizing a second object, where the second object node is a child of the first object node, the first object node is a child of a root node, and the root node is used to characterize a target group. As illustrated in fig. 2b above, the student node may be a first object node, the parent node may be a second object node, and the class node may be a root node. The content of the first object node and the content of the second object node can be determined according to the requirements of the actual application scene.

Referring to fig. 4 again, after the service server 100 obtains the group data obtaining request carrying the target group identifier, the group structure data 40d corresponding to the target group may be obtained in the group database 40c based on the target group identifier. Specifically, if the target group identifier is the first group identifier, the service server 100 compares the first group identifier with the first group identifier in the group structure data stored in the group database 40c, and if the first group identifier is the same as the group identifier 1 in the group structure data 40d, the service server 100 obtains the group structure data 40d from the group database 100. If the target group identifier is the second group identifier, the service server 100 may obtain, according to the identifier mapping table stored for the target group, the first group identifier having a mapping relationship with the second group identifier, and further obtain, according to the first group identifier, group structure data 40d corresponding to the target group (i.e. 2021-level XXX group) in the group database 40 c. The identification mapping table is used for storing a first group identification, a second group identification and a third group identification of the target group in an associated mode.

The embodiment of the application does not limit the total number of the first objects and the total number of the second objects, and may be set according to practical applications. It will be appreciated that the target group includes a population, and typically, the first object is a plurality of objects, and the second object having an association with the first object is a plurality of objects.

As the group structure data 40d illustrated in fig. 4, the first root node is information corresponding to the target group, and may specifically include a first group identifier (illustrated by group identifier 1 in fig. 4), and a group name of the target group, illustrated by 2021-level XXX group in fig. 4. The child nodes connected to the first root node are nodes for representing the first object, such as the child node 401d and the child node 402d in fig. 4, where the child node 401d may represent the first object 1, the first object information of the first object 1 is a name 11, and the identifier of the first object 1 in the target group is an identifier 11. The child node 402d may characterize the first object 2, the first object information of the first object 2 being the name 1N, the identity of the first object 2 in the target group being the identity 1N. It will be appreciated that fig. 4 is an example with 2 first objects (i.e. the first object 1 and the first object 2), and does not represent the total number of first objects in the target group in practical application.

The child node associated with the child node corresponding to the first object is a node for representing the second object, for example, the child node 403d connected to the child node 402d in fig. 4 may represent the second object N, the second object information of the second object N is communication information N, the identifier of the second object N in the target group is an identifier 2N, the association relationship between the second object N and the first object is a relationship N, and the second object N has confirmed the first object information and the second object information, so the child node 403d further includes a confirmed object identifier N, where the confirmed object identifier N is an identifier for representing the second object N that is notified to the first application by the second application. The meanings of the child node 404d and the child node 405d are referred to as the description of the child node 403d, and are not described in detail herein.

Step S103, obtaining a target object identification participating in a group task; the target object identification is attributed to the second application.

Specifically, when the third object 40a starts the group task through the target group, for example, live broadcast, the second object in the target group may participate in the group task through the second application. Referring to fig. 4 and fig. 5, fig. 5 is a schematic diagram of a scenario of data processing according to an embodiment of the present application. As shown in fig. 5, the target group includes the second objects 50a, and the embodiment of the present application does not limit the total number of the second objects 50 a. The second object 50a may include a second object 501a having a binding relationship with the second terminal 50 b. The second application of the second terminal 50b may obtain the group task guiding information 404b sent by the third object 40a in the target group (such as 2021-level XXX group in the example) in the first application, and if the first object having an association relationship with the second object 501a triggers the group task guiding information 404b, the first object may participate in the group task of the target group through the second terminal 50 b. At this time, the second terminal 50b acquires the object identification of the second application for the second object 501b, that is, the target object identification. Further, the second terminal 50b transmits the target object identification to the service server 100. It is to be understood that the process of the second object 50a participating in the group task except the second object 501a is the same as the process of the second object 501a participating in the group task, so the description thereof will not be repeated.

It may be appreciated that the third object 40a may set a scope of the participating objects of the group task, that is, the participating objects may include the second object in the target group, or may include other objects not in the target group, which may be set according to requirements of the third object 40a in the actual application scenario, which is not limited in this embodiment of the present application.

Step S104, a target object information list is generated according to the first object, the second object and the target object identification; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

Specifically, according to the target object identification, determining a second participation object participating in the group task in the second object; determining an object with an association relation with a second participation object as a first participation object in the first object; and generating a target object information list according to the first participation object, the second participation object and the target object identification.

Wherein the second object comprises object A _b B is a positive integer, and b is less than or equal to the total number of second objects; from target object identification The specific process of determining the second participating object participating in the group task in the second object may include: if there is a target object A in the group structure data _b Validation object identification Z _b Then the object identification Z will be confirmed _b Comparing the target object identification with the target object identification; validation object identification Z _b For characterizing object information Y _b Through object A _b Confirming; object information Y _b Belonging to group structure data and object information Y _b With object A _b Associating; if confirm the object identification Z _b Identical to the target object identification, object A is then _b A second participating object is determined to be participating in the group task.

The specific process of generating the target object information list according to the first participating object, the second participating object and the target object identifier may include: generating a first target object information list according to the first participation object, the second participation object and the target object identification; the first target object information list is used for representing a first participation object; generating a second target object information list according to the first participation object; the second target object information list is used for representing a first object to be participated in which the group task is not participated in the first object; and determining the first target object information list and the second target object information list as target object information lists.

The specific process of generating the first target object information list according to the first participating object, the second participating object and the target object identifier may include: acquiring first participation object information for representing a first participation object and a first relation tag in group structure data; the first relation tag is used for representing the association relation between the first participation object and the second participation object; and generating a first target object information list according to the first participation object information, the first relation tag and the target object identification.

Wherein the target object identification comprises an object identification C _d D is a positive integer, and d is less than or equal to the total number of target object identifications; generating a specific object information list of the first target object according to the first participation object information, the first relation tag and the target object identificationThe program may include: if the object is marked C _d Counting a first total number of the first participation object information, and generating a first target object information list according to the first relation tag, the first participation object information and the first total number; if the object is marked C _d If the first participation object information does not belong to the group structure data, counting the second total quantity of the first participation object information, and counting the object identification C _d A third total number of (2); acquiring object identification C _d Target group-directed object information E to be confirmed _d According to the first participation object information, the first relation label and the object information E to be confirmed _d And a fourth total number, generating a first target object information list; the fourth total number is the sum of the second total number and the third total number.

Referring to fig. 5 again, the service server 100 obtains the target object identifier sent by the second terminal 50b, and the service server 100 matches the target object identifier with the sub-nodes for characterizing the second object stored in the group structure data 40d, that is, matches the target object identifier with the sub-node 405d, the sub-node 404d, and the sub-node 403d respectively, specifically, compares the target object identifier with the acknowledgement object identifier 1 in the sub-node 405d, compares the target object identifier with the acknowledgement object identifier 2 in the sub-node 404d, and compares the target object identifier with the acknowledgement object identifier N in the sub-node 403 d. As illustrated in fig. 5, the confirmation object identification N is the same as the target object identification, so the service server 100 may determine that the second object represented by the child node 403d is the second participation object, further, since the child node 402d is connected to the child node 403d, the service server 100 may determine that the first object represented by the child node 402d is the first participation object, and further, the service server 100 may determine that the first object information (i.e., the name 1N) is the first participation object information.

Further, the service server 100 obtains a relationship tag in the child node 403d, as illustrated in fig. 5 by a relationship N, where the relationship N may represent an association between the second object represented by the child node 403d and the first object represented by the child node 402 d.

If the same confirmed object identifier as the target object identifier does not exist in the group structure data 40d, the service server 100 cannot determine the object characterized by the target object identifier. If the third object 40a is set so that only the group member in the target group can participate in the group task, the object represented by the target object identifier (for example, the second object 501 a) belongs to the second object 50a, but the second object 501a does not perform object information confirmation, so that the confirmation object identifier corresponding to the second object 501a does not exist in the group structure data 40 d. If the third object sets any object using the second application can participate in the group task, the object represented by the target object identifier may not belong to the second object 50a. When the group structure data 40d does not have the same confirmed object identifier as the target object identifier, the service server 100 acquires the to-be-confirmed object information of the target object identifier for the target group, where the to-be-confirmed object information refers to information that the second object 501a does not confirm the object information in the target group, and the third object 40a cannot determine the second object 501a through the to-be-confirmed object information.

It may be understood that this step is to describe the participation status of the second object 501a with the target object identification example corresponding to the second terminal 50d, and the determination process of the participation status of the remaining second objects except the second object 501a in the second object 50a may be referred to as the description process of the second object 501 a.

Further, the service server 100 determines a first target object information list for describing the first participating object according to the first participating object information, the first relationship tag (e.g. relationship N in the child node 403 d) and the target object identification. The product form of the first target object information list is described in the embodiment corresponding to fig. 11 below, and is not described herein. In addition, this step temporarily does not describe the second target object information list, and please refer to the description in the embodiment corresponding to fig. 6 below.

The above-described procedure may be performed by the service server 100 in a heartbeat cycle, for example, a heartbeat cycle of 5 seconds, the service server 100 determines the first participation object information every 5 seconds, then generates a target object information list based on the first participation object information, and transmits the target object information list to the first terminal 401b. Optionally, the service server 100 sends the obtained target object identifier to the first terminal 401b according to the heartbeat cycle, so that the first terminal 401b generates the target object information list according to the target object identifier and the group structure data sent by the service server 100.

It will be appreciated that the interfaces and controls illustrated in fig. 4 and 5 are merely some representations that may be referred to, and in an actual business scenario, a developer may perform related design according to product requirements, and the embodiments of the present application do not limit the specific forms of the interfaces and controls involved.

In the embodiment of the present application, the target device has the following two conditions: 1. participate in group tasks. If one device does not participate in the group task, the target object information list cannot be displayed. 2. Has viewing rights. In fig. 4, the third object 40a has management authority for the target group, and it is understood that the object having management authority has viewing authority. For example, if the target group is a class group, the teachers in the class group have management authority, so that the first teacher initiates a group task, such as live-broadcast lesson, and when the second teacher watches live broadcast, the second teacher also has viewing authority. If the first teacher sets the students in the class group, the class state of the students in the class group can be checked, and at this time, the device (i.e., parent device) corresponding to the students in the class group belongs to the target device.

In the embodiment of the application, the target group in the first application is created for the first object, but the object participating in the target group is a second object passing through the second application and having an association relationship with the first object; the service server can accurately determine the participation state of the second object in relation to the group task by acquiring the target object identifier of the second application in relation to the group task, and the participation state of the first object in relation to the group task can be accurately and efficiently determined by the group structure data and the participation state of the second object in relation to the group task because the group structure data corresponding to the target group are used for representing the first object and the second object.

Referring to fig. 6, fig. 6 is a second flowchart of a data processing method according to an embodiment of the present application. The method may be performed by a service server (e.g., the service server 100 shown in fig. 1) described above, by a first terminal (e.g., the first terminal 101a shown in fig. 1) described above, or by both the service server and the first terminal. For ease of understanding, embodiments of the present application will be described with this method being performed by a service server as an example. As shown in fig. 6, the method may include at least the following steps.

Step S201, initial object information for a target group input in a first application is acquired; the initial object information includes first object information for characterizing the first object and second object information for characterizing the second object.

Specifically, the first terminal installs a first application, and the first application corresponds to a third object (which may also be referred to as a management object) having management authority for the target group. It will be appreciated that the third object is an employee of the enterprise and the second object is not an employee of the enterprise, so that the applications used by the third object and the second object, respectively, are different, i.e. the third object uses a first application and the second object uses a second application. When the third object creates a target group for the first object, the first terminal may create 3 identifiers for the target group, which are the first group identifier, the second group identifier, and the third group identifier, respectively. The first group identification is the identification of the target group in the enterprise, i.e. is used in the enterprise to uniquely identify the target group; the second group identifier is the identifier of the target group in the first application, namely, the identifier is used for uniquely identifying the target group in the first application; the third group identification is an identification of the target group in the second application, i.e. for uniquely identifying the target group in the second application. The first group identifier, the second group identifier and the third group identifier are associated with an identifier mapping table stored in the service server, i.e. the service server.

Referring to fig. 7, fig. 7 is a schematic diagram of a scenario in which the third object and the second object perform bidirectional confirmation of object information according to the embodiment of the present application. As shown in fig. 7, the third object inputs initial object information for the target group through the first application, the initial object information referring to object information belonging to the second application, including first object information for characterizing the first object and second object information for characterizing the second object, wherein the second object information has uniqueness and can uniquely identify the second object. In addition, the initial object information may further include a third relationship tag for characterizing an association relationship between the first object and the second object. The first object information may be a real name of the first object, and the specific information type may be defined according to an actual application scenario. The second object information may be communication information of the second object, including but not limited to a mobile phone, a mailbox or an application identifier in the second application, and the like. When the third object determines to send the initial object information, the first terminal 101a obtains a target group identifier corresponding to the target group, where the target group identifier may be the first group identifier or the second group identifier. The first terminal 101a sends the initial object information carrying the target group identifier to the service server 100 through the first application.

When the service server 100 obtains the initial object information carrying the target group identifier, it determines whether the target group identifier exists in the group database, if so, generates initial group structure data for the target group according to the first group identifier, the first object information, the second object information and the third relationship tag. It should be noted that, in real life, a first object may correspond to a plurality of second objects, for example, a student may have a plurality of parents, and a parent may also have a plurality of children as students, so that one first object information may be associated with a plurality of different second object information, and similarly, one second object information may be associated with a plurality of different first object information.

Step S202, obtaining an information confirmation request carrying a group identifier sent by a second application, and generating group structure data according to the group identifier and initial object information.

Specifically, if the group identifier is matched with the target group, acquiring first matching object information used for representing the first object and second matching object information used for representing the second object in the information confirmation request; comparing the first matching object information with the first object information to obtain a first comparison result; comparing the second matching object information with the second object information to obtain a second comparison result; and generating group structure data according to the first comparison result and the second comparison result.

The specific process of generating the group structure data according to the first comparison result and the second comparison result may include: if the first comparison result and the second comparison result are the same comparison result, determining the object identification aiming at the second object carried by the information confirmation request as a confirmation object identification; comparing a third relation tag used for representing the association relation between the first object and the second object in the information confirmation request with a fourth relation tag used for representing the association relation between the first object and the second object in the initial object information; and if the third relation tag is different from the fourth relation tag, performing association storage on the third relation tag, the first object information, the fourth object information and the confirmed object identifier to obtain group structure data.

Through the target group in the second application, the second object may view an object information validation hint, such as hint information 201e in fig. 2b above, which may be a 5 th generation hypertext markup language (Hyper Text Markup Language, abbreviated HTML) link provided by the first application. The second object is linked through h5, and inputs the first matching object information corresponding to the first object, the second matching object information of the second object, and the fourth relationship label for representing the association relationship between the first matching object and the second matching object, where when the second object sends the object information input by the second object to the service server 100 through h5, the second terminal 201a sends the third group identifier and the object identifier of the second object in the second application, along with the object information input by the second object, to the service server 100.

The service server 100 obtains the first group identifier from the identifier mapping table through the third group identifier, that is, whether the third group identifier has the first group identifier with the mapping relationship with the third group identifier. With the first group identification, the service server 100 may obtain initial group structure data including the first group identification in the group database. Further, the service server 100 matches the matching object information and the object information, specifically, matches the second matching object information with the second object information in the initial group structure data, and matches the first matching object information with the first object information in the initial group structure data. If both the two are successfully matched, the service server 100 compares the relationship tag (i.e. the fourth relationship tag) sent by the second application with the relationship tag (i.e. the third relationship tag) in the initial group structure data, if the two are the same, the third relationship tag is reserved, and if the two are different, the service server 100 updates the third relationship tag in the initial group structure data to the fourth relationship tag.

Further, the service server 100 determines the object identifier sent by the second application as a confirmation object identifier, and adds the confirmation object identifier to the sub-node used for representing the second object in the initial group structure data, so as to obtain the group structure data.

Step S203, acquiring a group data acquisition request for a group task; the group task is a task for a target group in the first application.

When the third object selects a target group in the first application of the first terminal, the first terminal sends a group data acquisition request carrying a target group identifier for the target group to the service server. Referring to fig. 8, fig. 8 is a schematic diagram of a scenario of data processing according to an embodiment of the present application. As shown in fig. 8, the third object 80a is an object having management authority in the target group, for example, the group is a class group, and the third object 80a is a teacher in the class group. The first terminal 101a may display a group selection page 80b in the first application, where the group selection page 80b may include all groups including the third object 80a having the management authority, and the embodiment of the present application includes the group including the third object 80a as examples of the group 1, the group 2, the group 3, and the group 4. The group selection page 80b may also include a group task selection prompt, such as "select group notification task illustrated in fig. 8, that will notify the second object of the task that will be participated after the selected group is sent to the group, using the first application.

The embodiment of the application does not limit the group task, but can be any task that needs to be completed by the group, including but not limited to live broadcast, job, etc. If the third object 80a selects the group 1, the group 2, and the group 3 as the target groups of the group task and triggers the determination control 801b, the first terminal 101a obtains the first group identifier corresponding to the group 1 (e.g., the first group identifier 1 illustrated in fig. 8), the first group identifier corresponding to the group 2 (e.g., the first group identifier 2 illustrated in fig. 8), and the first group identifier corresponding to the group 3 (e.g., the first group identifier 3 illustrated in fig. 8), respectively. When the group task is started, the first terminal 101a uses the first group identifier 1, the first group identifier 2 and the first group identifier 3 as target group identifiers, and sends a group data acquisition request carrying the target group identifiers to the service server 100.

Step S204, according to the group data acquisition request, acquiring group structure data corresponding to the target group; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is to participate in the target group through a second application; the first application is different from the second application.

Referring to fig. 8 again, the group database 80z corresponding to the service server 100 may include group structure data corresponding to all groups of the enterprise to which the third object 80a belongs, for example, group structure data 801a, group structure data 802a, group structure data 803a, …, and group structure data 804a. The service server 100 matches the target group identifier with the first group identifier stored in the group database 80z, as shown in fig. 8, the matching result is that the group structure data 801a includes the first group identifier 1, the group structure data 802a includes the first group identifier 2, the group structure data 803a includes the first group identifier 3, that is, the group structure data 801a corresponds to the group 1, the group structure data 802a corresponds to the group 2, and the group structure data 803a corresponds to the group 3. The group structure data 801a includes first object information and second object information corresponding to the group 1, the group structure data 802a includes first object information and second object information corresponding to the group 2, and the group structure data 803a includes first object information and second object information corresponding to the group 3.

Step S205, obtaining a target object identification participating in a group task; the target object identification is attributed to the second application.

When the group task sent by the third object in the target group is seen in the second application installed in the second terminal, the first object can participate in the group task through the second application of the second terminal. Fig. 9 is a schematic diagram of a scenario six of data processing according to an embodiment of the present application. As shown in fig. 9, the second terminal 201a transmits the target object identification 1 for characterizing the second object 1 in the second application to the service server 100, the second terminal 201b transmits the target object identification 2 for characterizing the second object 2 in the second application to the service server 100, and the second terminal 202a transmits the target object identification 3 for characterizing the second object 3 in the second application to the service server 100. The embodiment of the application does not limit the total number of the target object identifiers, and can be determined according to actual application scenes.

Optionally, referring to fig. 10, fig. 10 is an interaction flow chart of a data processing method according to an embodiment of the present application. As shown in fig. 10, the interaction steps of the data processing method may include the following: s1, a first terminal initiates a group task and sends a target group identifier aiming at a target group to a service server; s2, the service server inquires group structure data according to the target group identification; s3, the service server returns the group structure data to the first terminal; s4, the second terminal participates in the group task and sends the target object identification to the service server; s5, the service server periodically inquires the target object identification; s6, the service server returns the target object identification to the first terminal periodically. The specific implementation process of the above steps can be seen in fig. 3 and the descriptions of step S203 to step S205.

Step S206, generating a target object information list according to the first object, the second object and the target object identification; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

Specifically, a first confirmation object is determined in the first object; the first participating object belongs to a first confirming object; determining objects except the first participated object in the first confirmed object as a first object to be participated; acquiring first to-be-participated object information for representing a first to-be-participated object in the group structure data; and counting the fifth total number of the first to-be-participated object information, and generating a second target object information list according to the fifth total number and the first to-be-participated object information.

Wherein the second object comprises object I _g G is a positive integer and g is less than or equal to the total number of second objects; the specific process of determining the first confirmation object information in the first object information may include: in the group structure data, if there is a target I _g Validation object identification H _g Then determine object I _g Is the second validation object; the second participating object belongs to a second confirming object; among the first objects, an object having an association relationship with the second confirmation object is determined as the first confirmation object.

Specifically, a task participation prompt request is obtained, and according to the task participation prompt request, an object with an association relation with a first object to be participated is determined as a second object to be participated in the second object; generating task participation prompt information according to the first object to be participated and the second object to be participated; transmitting task participation prompt information carrying group task guide information to a target group; the task participation prompt information is used for prompting the second object to participate in the group task through the group task guide information.

The specific process of generating the task participation prompt information according to the first object to be participated and the second object to be participated may include: in the group structure data, acquiring first to-be-participated object information and a second relationship tag for representing a first to-be-participated object; the second relation tag is used for representing the association relation between the first object to be participated and the second object to be participated; and generating task participation prompt information according to the first object information to be participated and the second relation label.

After the service server 100 obtains 3 target object identifiers, the target object identifier 1 is compared with the confirmed object identifiers in the group structure data 801 a. If the group structure data 801a has the same confirmation object identifier as the target object identifier 1, for example, the confirmation object identifier 1 illustrated in fig. 9, the service server 100 may determine that the second object corresponding to the confirmation object identifier 1 is the second participation object, and determine the first object (such as the student 1 illustrated in fig. 9) associated with the second participation object as the first participation object. Further, the business server 100 acquires a relationship tag for characterizing the association relationship between the student 1 and the second participation object, such as the mother illustrated in fig. 9, in the group structure data 801a, that is, the second object is the mother of the first object (which is named as student 1).

If the same confirmed object identifier as the target object identifier 1 does not exist in the group structure data 801a, the service server compares the target object identifier 1 with the confirmed object identifier in the group structure data 802a, and compares the target object identifier 1 with the confirmed object identifier in the group structure data 803a, which is described in the previous section, and details of the subsequent process are omitted here. If the same confirmed object identifier as the target object identifier 1 does not exist in the group structure data 801a, the group structure data 802a, and the group structure data 803a, the service server 100 may determine that the second object corresponding to the target object identifier 1 does not perform the object information confirmation operation in the second application.

Similarly, the service server 100 compares the target object identification 2 with the validation object identification in the group structure data 801 a. If the group structure data 801a does not have the same confirmed object identifier as the target object identifier 2, the service server compares the target object identifier 2 with the confirmed object identifier in the group structure data 802a, and if the group structure data 802a has the same confirmed object identifier as the target object identifier 2, for example, the confirmed object identifier 2 shown in fig. 9, the service server 100 may determine that the second object corresponding to the confirmed object identifier 2 is a second participation object, and determine that the first object (for example, the student 2 shown in fig. 9) associated with the second participation object is the first participation object. Further, the service server 100 acquires a relationship tag for characterizing the association relationship between the student 2 and the second participation object in the group structure data 802a, as dad illustrated in fig. 9, that is, dad of the second object is the first object (which is named as student 2).

Similarly, the service server 100 compares the target object identification 3 with the validation object identification in the group structure data 801 a. If the same confirmed object identifier as the target object identifier 3 does not exist in the group structure data 801a, the service server compares the target object identifier 3 with the confirmed object identifier in the group structure data 802a, and compares the target object identifier 3 with the confirmed object identifier in the group structure data 803 a. If the same confirmed object identifier as the target object identifier 3 does not exist in the group structure data 801a, the group structure data 802a, and the group structure data 803a, the service server 100 may determine that the second object corresponding to the target object identifier 3 does not perform the object information confirmation operation in the second application. As shown in fig. 9, the service server 100 acquires application information, such as a nickname, of the target object identification 3 for the second application, such as the object information 3 to be confirmed, as illustrated in fig. 9.

In determining the participation status of the first object in each target group for the group task, the embodiment of the present application will be described by taking group 1 as an example. As illustrated in fig. 9, the group structure data 801a corresponding to the group 1 indicates that the group 1 includes 3 first objects, namely, the student 1, the student 3 and the student 4, wherein the object information corresponding to the student 1 and the student 3 is confirmed by the parents of the student (namely, the parents of the student 1 and the parents of the statement 3), but the object information corresponding to the student 4 is not confirmed by the parents of the student 4. So for group 1, the business server 100 may generate a first target object information list, which may include first participation object information in group 1, such as student 1 as illustrated in fig. 9, and may include a relationship tag "mom", and when the third object views the first target object information list, it may be known accurately that student 3 participates in the group task through its mom's terminal. Furthermore, the first target object information list may further include object information to be confirmed 3 of an uncertain object that participates in the group task. For group 1, the business server 100 may generate a second target object information list, which may include the first object information to be participated in group 1, as in student 3 illustrated in fig. 9.

Further, for the first object to be involved in the group task in the group 1, the first terminal may send task participation prompt information carrying the group task guidance information to the group 1.

As described above, the service server can generate the group configuration data corresponding to the target group by bi-directionally confirming the object information (including the first object information and the second object information) with the third object and the first object. When the third object initiates the group task, the service server can match the identification of the confirmed object in the group structure data with the identification of the target object participating in the group task, and associate the object participating in the group task to the first object and the second object represented by the group structure data, so that the third object can be helped to accurately know the participation state of the first object in relation to the group task. In addition, the target group provided by the application can help the second object communicate with the third object using the first application through the second application.

It will be appreciated that the interfaces and controls illustrated in fig. 8 are merely some representations that may be referred to, and in an actual business scenario, a developer may perform related design according to product requirements, and the embodiments of the present application do not limit the specific forms of interfaces and controls involved. As are the interfaces and controls involved in the remaining figures.

In the embodiment of the application, the target group in the first application is created for the first object, but the object participating in the target group is a second object passing through the second application and having an association relationship with the first object; the service server can accurately determine the participation state of the second object in relation to the group task by acquiring the target object identifier of the second application in relation to the group task, and the participation state of the first object in relation to the group task can be accurately and efficiently determined by the group structure data and the participation state of the second object in relation to the group task because the group structure data corresponding to the target group are used for representing the first object and the second object.

Referring to fig. 11, fig. 11 is a flowchart illustrating a data processing method according to an embodiment of the present application. The method can be executed by the service server, the first terminal and the interaction between the service server and the first terminal. For ease of understanding, the embodiments of the present application will be described with this method performed by the first terminal as an example. As shown in fig. 11, the method may include at least the following steps.

Step S301, displaying an object summary information list in a task display interface corresponding to the group task; the group task is a task for a target group in the first application; the target group is created for the first object, and a second object with an association relation with the first object participates in the target group through a second application; the first application is different from the second application.

For easy understanding and description, the embodiment of the application uses class groups to sample a group, uses students to sample a first object, uses student names to sample first object information, uses parents of the students to sample a second object, uses relationships between the students and the parents to sample relationship labels, and uses live-broadcast to sample group tasks. For a detailed process of generating the target object information list, please refer to the embodiments corresponding to fig. 2 a-10, respectively, above, and the present application describes displaying the target object information list.

Referring to fig. 12, fig. 12 is a schematic diagram of a scenario seven of data processing according to an embodiment of the present application. As shown in fig. 12, the first terminal displays a task display interface corresponding to a live broadcast in the first application, such as a live broadcast display page 90a illustrated in fig. 9, where the live broadcast is initiated by a third object 90b (may be a teacher), and the live broadcast display page 90a indicates that 19 students are in a lesson at this time. When the third object 90b triggers the view control 90c, the first terminal displays the object summary information list 90d in the live display page 90a in response to a triggering operation for the view control 90 c.

Step S302, object summary information corresponding to the target group is displayed in an object information summary list; the object summary information comprises the participation quantity corresponding to the participation state; the participation state refers to a state in which the first object participates in the group task.

Specifically, referring to fig. 12 again, the object summary information list 90d may indicate that the target groups corresponding to the live broadcast have 3 target groups, which are a first class, a second class, and a third class. The object summary information of one class is that 6 students participate in the lesson, and 3 students are to participate in the lesson; the object summary information of the second class of the first class is that 7 students participate in the lesson, and 2 students are to participate in the lesson; the object summary information of class one and class three is that 6 students participate in the lesson, and 4 students are to participate in the lesson. Obviously, the object summary information list 90d can accurately display the student participation status corresponding to each class, respectively.

As can be seen from the foregoing description, a student may correspond to multiple parents, and the policy of the present application is that only one parent is online, that means that the student is online.

If the third object 90b triggers the reminder control 90e, the first terminal responds to the triggering operation for the reminder control 90e, and sends task participation reminder information carrying group task guide information to all 3 classes, which is the same as the process of triggering the reminder control 90f (i.e., task participation control) in step S303, except that the trigger reminder control 90e sends task participation reminder information to all classes, and the trigger reminder control 90f sends task participation reminder information to three classes of a year, so that description is not expanded herein, please refer to the description of step S303.

Step S303, if the triggering operation of the object summary information is responded, a target object information list is displayed in a task display interface; the target object information list is used to characterize the participation status.

Specifically, the target object information list includes a first target object information list; if the triggering operation aiming at the object summary information is responded, a first target object information list is displayed in a task display interface; displaying first participation object information and a first relation tag in a first target object information list; the first participation object information is used for representing a first participation object which participates in the group task in the first object; the first relation tag is used for representing the association relation between the first participation object and the second participation object; the second participating object belongs to the second object; the first participation object information and the first relation tag are confirmed through the second participation object.

The first target object information list comprises a first confirmed object list and an object list to be confirmed; in the first target object information list, the specific process of displaying the first participation object information and the first relationship tag may include: displaying first participation object information and a first relation label in a first confirmation object list; and displaying the object information to be confirmed in the object list to be confirmed.

Specifically, the target object information list further includes a second target object information list; if the trigger operation of the object control to be participated in the first target object information list is responded, displaying a second target object information list in the task display interface; displaying first object information to be participated in a second target object information list; the first to-be-participated object information is used for representing a first to-be-participated object which does not participate in the group task in the first object; the first to-be-participated object information is confirmed through the second to-be-participated object; the second object to be participated has an association relation with the first object to be participated, and the second object to be participated belongs to the second object.

The second target object information list comprises a task participation control; if the trigger operation aiming at the task participation control is responded, a second relation label used for representing the association relation between the first object to be participated and the second object to be participated is obtained; generating task participation prompt information comprising first to-be-participated object information and a second relation label; transmitting task participation prompt information carrying group task guide information aiming at the group task to a target group; the task participation prompt information is used for prompting the second object to be participated in, and the task participation prompt information is used for prompting the second object to be participated in the group task through the group task guidance information.

Referring to fig. 12 again, the object summary information list 90d includes a view control corresponding to each group (fig. 12 illustrates a class group), for example, a view control 90g corresponding to a third class of one-grade, and when the first terminal responds to a trigger operation for the view control 90g, a first target object information list 90h corresponding to the third class of one-grade is displayed. As shown in fig. 12, the first target object information list 90h may include a first confirmation object list 901h for the third class of one year and a to-be-confirmed object list 902h for the third class of one year. In the first confirmation object list 901h, first participation object information and a first relationship label are displayed, and fig. 12 illustrates student names, i.e., first participation object information, at 233 and 388, it is understood that the first terminal may display the remaining first participation object information when the third object 90b triggers the slide control 901 i. The third object 90b can accurately know that the student 233 is in a lesson by his/her account number and that the student 388 is in a lesson by his/her account number through the first confirmation object list 901 h.

In the to-be-confirmed object list 902h, application nicknames of objects who are class-three through a first grade in the second application, for example, application nickname 1 and application nickname 2 illustrated in fig. 12, may be displayed, but the third object 90b cannot confirm which classmates of the first grade and the first grade the application nickname 1 participating in live broadcasting corresponds to, because the second object corresponding to the application nickname 1 does not perform object information confirmation temporarily. As is the application nickname 2. When the third object 90b triggers the slip control 902i, the first terminal may display the remaining object information to be confirmed.

When the third object 90b triggers the function control 90j, the first terminal displays a function list 90k in response to a triggering operation for the function control 90j, and the function list 90k may include the following functions: remove class, invite speech, prohibit comments, and confirm material. In addition, the student 233 and the student 388 also have corresponding function lists, except that the function list corresponding to the student 233 does not include the confirmation material function. It can be understood that different group tasks and functions included in the function list are different, so that the embodiment of the application does not limit the functions in the function list and can be set according to practical applications.

If the first terminal responds to the triggering operation for the object control to be participated 90m, a second target object information list 90n is displayed, and students who have confirmed object information for one class but are to participate in live broadcast, such as the student 655 and the student 699 illustrated in fig. 12, are displayed in the second target object information list 90 n. If the trigger operation for the reminder control 90f is responded, the first terminal displays the reminder information 90p to remind the third object 90b whether to remind the students who are not on lessons, such as "message to be sent in group @ students who are not on lessons, remind students to enter live lessons" as illustrated in fig. 12, and if the third object 90b triggers the confirmation control 901p, the first terminal sends the task participation reminder information 90q carrying the group task guide information 901q in the first class three-class group of the first application.

In the embodiment of the application, the target group in the first application is created for the first object, but the object participating in the target group is a second object passing through the second application and having an association relationship with the first object; the service server can accurately determine the participation state of the second object in relation to the group task by acquiring the target object identifier of the second application in relation to the group task, and the participation state of the first object in relation to the group task can be accurately and efficiently determined by the group structure data and the participation state of the second object in relation to the group task because the group structure data corresponding to the target group are used for representing the first object and the second object.

Further, referring to fig. 13, fig. 13 is a schematic diagram of a data processing apparatus according to an embodiment of the present application. The data processing apparatus 1 described above may be used to perform the corresponding steps in the method provided in the embodiments of the present application. As shown in fig. 13, the data processing apparatus 1 may include: the first acquisition module 11, the second acquisition module 12, the third acquisition module 13 and the first generation module 14.

A first obtaining module 11, configured to obtain a group data obtaining request for a group task; the group task is a task for a target group in the first application;

A second obtaining module 12, configured to obtain group structure data corresponding to the target group according to the group data obtaining request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is to participate in the target group through a second application; the first application is different from the second application;

a third obtaining module 13, configured to obtain a target object identifier of a group task; the target object identification is attributed to the second application;

a first generating module 14, configured to generate a target object information list according to the first object, the second object, and the target object identifier; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

The specific functional implementation manner of the first acquiring module 11, the second acquiring module 12, the third acquiring module 13, and the first generating module 14 may refer to step S101 to step S104 in the corresponding embodiment of fig. 3, and will not be described herein.

Referring again to fig. 13, the first generating module 14 may include: the first determination unit 141, the second determination unit 142, and the first generation unit 143.

A first determining unit 141, configured to determine, according to the target object identifier, a second participation object that participates in the group task in the second object;

a second determining unit 142 configured to determine, as a first participation object, an object having an association relationship with a second participation object among the first objects;

the first generating unit 143 is configured to generate a target object information list according to the first participation object, the second participation object, and the target object identifier.

The specific functional implementation manner of the first determining unit 141, the second determining unit 142, and the first generating unit 143 may refer to step S104 in the corresponding embodiment of fig. 3, which is not described herein.

Referring again to FIG. 13, the second object includes object A _b B is a positive integer, and b is less than or equal to the total number of second objects;

the first determination unit 141 may include: a first contrast subunit 1411 and an object determination subunit 1412.

A first comparing subunit 1411 for comparing the object A if the group structure data exists _b Validation object identification Z _b Then the object identification Z will be confirmed _b Comparing the target object identification with the target object identification; validation object identification Z _b For characterizing object information Y _b Through object A _b Confirming; object information Y _b Belonging to group structure data and object information Y _b With object A _b Associating;

an object determination subunit 1412 for identifying the object identifier Z if it is confirmed _b Identical to the target object identification, object A is then _b A second participating object is determined to be participating in the group task.

The specific functional implementation manner of the first comparing subunit 1411 and the object determining subunit 1412 may refer to step S104 in the corresponding embodiment of fig. 3, and will not be described herein.

Referring again to fig. 13, the first generating unit 143 may include: a first generation subunit 1431, a second generation subunit 1432, and a list determination subunit 1433.

A first generating subunit 1431 configured to generate a first target object information list according to the first participating object, the second participating object, and the target object identifier; the first target object information list is used for representing a first participation object;

a second generation subunit 1432 configured to generate a second target object information list according to the first participating object; the second target object information list is used for representing a first object to be participated in which the group task is not participated in the first object;

A list determination subunit 1433 configured to determine the first target object information list and the second target object information list as a target object information list.

The specific functional implementation manner of the first generating subunit 1431, the second generating subunit 1432, and the list determining subunit 1433 may refer to step S104 in the corresponding embodiment of fig. 3, which is not described herein.

Referring again to fig. 13, the first generating subunit 1431 may include: a first acquisition subunit 14311 and a list generation subunit 14312.

A first obtaining subunit 14311 configured to obtain, in the group structure data, first participation object information for characterizing the first participation object and a first relationship tag; the first relation tag is used for representing the association relation between the first participation object and the second participation object;

the list generating subunit 14312 is configured to generate a first target object information list according to the first participation object information, the first relationship tag, and the target object identifier.

The specific functional implementation manner of the first obtaining subunit 14311 and the list generating subunit 14312 may refer to step S104 in the corresponding embodiment of fig. 3, which is not described herein.

Referring again to FIG. 13, the target object identification includes object identification C _d D is a positive integer, and d is less than or equal to the total number of target object identifications;

list generation subunit 14312, particularly for if object identification C _d Counting a first total number of the first participation object information, and generating a first target object information list according to the first relation tag, the first participation object information and the first total number;

the list generation subunit 14312 is further specifically configured to, if object identifier C _d If the first participation object information does not belong to the group structure data, counting the second total quantity of the first participation object information, and counting the object identification C _d A third total number of (2);

the list generation subunit 14312 is further specifically configured to obtain the object identifier C _d Target group-directed object information E to be confirmed _d According to the first participation object information, the first relation label and the object information E to be confirmed _d ToAnd fourth total number, generating a first target object information list; the fourth total number is the sum of the second total number and the third total number.

The specific functional implementation of the list generating subunit 14312 may refer to step S206 in the corresponding embodiment of fig. 6, which is not described herein.

Referring again to fig. 13, the second generating sub-unit 1432 may include: a first determination subunit 14321, a second determination subunit 14322, and a second acquisition subunit 14323.

A first determination subunit 14321 configured to determine a first validation object among the first objects; the first participating object belongs to a first confirming object;

a second determining subunit 14322, configured to determine an object other than the first participating object in the first confirmation object as a first object to be participated;

a second obtaining subunit 14323 configured to obtain, in the group structure data, first to-be-participated object information for characterizing the first to-be-participated object;

the second obtaining subunit 14323 is further configured to count a fifth total number of the first object information to be participated, and generate a second target object information list according to the fifth total number and the first object information to be participated.

The specific functional implementation manner of the first determining subunit 14321, the second determining subunit 14322, and the second obtaining subunit 14323 may refer to step S206 in the corresponding embodiment of fig. 6, which is not described herein.

Referring again to FIG. 13, the second object includes object I _g G is a positive integer and g is less than or equal to the total number of second objects;

A first determination subunit 14321 is specifically configured to, in the group structure data, if there is a target object I _g Validation object identification H _g Then determine object I _g Is the second validation object; the second participating object belongs to a second confirming object;

the first determining subunit 14321 is further specifically configured to determine, among the first objects, an object that has an association relationship with the second acknowledgement object as the first acknowledgement object.

The specific functional implementation manner of the first determining subunit 14321 may refer to step S206 in the corresponding embodiment of fig. 6, which is not described herein.

Referring again to fig. 13, the first generating unit 143 may further include: a request acquisition subunit 1434, a third generation subunit 1435, and an information transmission subunit 1436.

A request acquisition subunit 1434, configured to acquire a task participation prompt request, and determine, according to the task participation prompt request, an object that has an association relationship with the first object to be participated in as a second object to be participated in the second object;

a third generating subunit 1435, configured to generate task participation prompt information according to the first object to be participated and the second object to be participated;

an information sending subunit 1436, configured to send task participation prompt information carrying group task guidance information to the target group; the task participation prompt information is used for prompting the second object to participate in the group task through the group task guide information.

The specific functional implementation manner of the request obtaining subunit 1434, the third generating subunit 1435, and the information sending subunit 1436 may refer to step S303 in the corresponding embodiment of fig. 11, which is not described herein again.

Referring again to fig. 13, the third generation subunit 1435 may include: the third acquisition subunit 14351 and the information generation subunit 14352.

A third obtaining subunit 14351, configured to obtain, in the group structure data, first to-be-participated object information for representing the first to-be-participated object and a second relationship tag; the second relation tag is used for representing the association relation between the first object to be participated and the second object to be participated;

the information generating subunit 14352 is configured to generate task participation prompt information according to the first object information to be participated and the second relationship tag.

The specific functional implementation manner of the third obtaining subunit 14351 and the information generating subunit 14352 may refer to step S303 in the corresponding embodiment of fig. 11, which is not described herein.

Referring again to fig. 13, the data processing apparatus 1 may further include: a fourth acquisition module 15 and a second generation module 16.

A fourth obtaining module 15, configured to obtain initial object information for a target group input in the first application; the initial object information includes first object information for characterizing the first object, and second object information for characterizing the second object;

The second generating module 16 is configured to obtain an information confirmation request carrying a group identifier sent by the second application, and generate group structure data according to the group identifier and the initial object information.

The specific functional implementation manner of the fourth obtaining module 15 and the second generating module 16 may refer to step S201-step S202 in the corresponding embodiment of fig. 6, which is not described herein.

Referring again to fig. 13, the second generating module 16 may include: an information acquisition unit 161, a first comparison unit 162, a second comparison unit 163, and a second generation unit 164.

An information obtaining unit 161, configured to obtain, if the group identifier matches the target group, first matching object information for characterizing the first object and second matching object information for characterizing the second object in the information confirmation request;

the first comparing unit 162 is configured to compare the first matching object information with the first object information, so as to obtain a first comparison result;

a second comparing unit 163, configured to compare the second matching object information with the second object information, so as to obtain a second comparison result;

the second generating unit 164 is configured to generate group structure data according to the first comparison result and the second comparison result.

The specific functional implementation manner of the information obtaining unit 161, the first comparing unit 162, the second comparing unit 163, and the second generating unit 164 may refer to step S202 in the corresponding embodiment of fig. 6, and will not be described herein.

Referring again to fig. 13, the second generating unit 164 may include: the identity determination subunit 1641, the second contrast subunit 1642, and the information storage subunit 1643.

The identifier determining subunit 1641 is configured to determine, if the first comparison result and the second comparison result are both the same comparison result, an object identifier for the second object carried by the information confirmation request as a confirmation object identifier;

a second comparing subunit 1642, configured to compare the third relationship tag used for representing the association relationship between the first object and the second object in the information confirmation request with the fourth relationship tag used for representing the association relationship between the first object and the second object in the initial object information;

the information storage subunit 1643 is configured to store the third relationship tag, the first object information, the fourth object information, and the confirmed object identifier in association with each other if the third relationship tag is different from the fourth relationship tag, so as to obtain group structure data.

The specific functional implementation manner of the identification determining subunit 1641, the second comparing subunit 1642 and the information storing subunit 1643 may refer to step S202 in the corresponding embodiment of fig. 6, and will not be described herein.

In the embodiment of the application, the target group in the first application is created for the first object, but the object participating in the target group is a second object passing through the second application and having an association relationship with the first object; the participation state of the second object in relation to the group task can be accurately determined by acquiring the target object identifier of the second application in relation to the group task, and the participation state of the first object in relation to the group task can be accurately and efficiently determined by the group structure data and the participation state of the second object in relation to the group task because the group structure data corresponding to the target group is used for representing the first object and the second object.

Further, referring to fig. 14, fig. 14 is a schematic structural diagram of a data processing apparatus according to an embodiment of the present application. The data processing device 2 described above may be used to perform the corresponding steps in the method provided in the embodiments of the present application. As shown in fig. 14, the data processing apparatus 2 may include: a first display module 21, a second display module 22 and a third display module 23.

A first display module 21, configured to display an object summary information list on a task display interface corresponding to the group task; the group task is a task for a target group in the first application; the target group is created for the first object, and a second object with an association relation with the first object participates in the target group through a second application; the first application is different from the second application;

a second display module 22, configured to display object summary information corresponding to the target group in the object information summary list; the object summary information comprises the participation quantity corresponding to the participation state; the participation state refers to a state that the first object participates in the group task;

a third display module 23, configured to display a target object information list in the task display interface if a trigger operation for the object summary information is responded; the target object information list is used to characterize the participation status.

The specific functional implementation manner of the first display module 21, the second display module 22, and the third display module 23 may be referred to step S301-step S303 in the corresponding embodiment of fig. 11, which is not described herein.

Referring again to fig. 14, the target object information list includes a first target object information list;

The third display module 23 may include: the first display unit 231 and the second display unit 232.

A first display unit 231 configured to display a first target object information list in the task display interface if a trigger operation for the object summary information is responded;

a second display unit 232, configured to display, in the first target object information list, first participation object information and a first relationship tag; the first participation object information is used for representing a first participation object which participates in the group task in the first object; the first relation tag is used for representing the association relation between the first participation object and the second participation object; the second participating object belongs to the second object; the first participation object information and the first relation tag are confirmed through the second participation object.

The specific functional implementation manner of the first display unit 231 and the second display unit 232 may refer to step S303 in the corresponding embodiment of fig. 11, which is not described herein.

Referring to fig. 14 again, the first target object information list includes a first confirmed object list and an object list to be confirmed;

the second display unit 232 may include: the first display sub-unit 2321 and the second display sub-unit 2322.

A first display subunit 2321 configured to display, in the first confirmation object list, first participation object information and a first relationship label;

the second display subunit 2322 is configured to display, in the object list to be confirmed, object information to be confirmed.

The specific functional implementation manner of the first display subunit 2321 and the second display subunit 2322 may refer to step S303 in the corresponding embodiment of fig. 11, which is not described herein.

Referring to fig. 14 again, the target object information list further includes a second target object information list;

the third display module 23 may further include: the third display unit 233 and the fourth display unit 234.

A third display unit 233, configured to display a second target object information list in the task display interface if a trigger operation for the object control to be participated in the first target object information list is responded;

a fourth display unit 234 for displaying the first object information to be participated in the second target object information list; the first to-be-participated object information is used for representing a first to-be-participated object which does not participate in the group task in the first object; the first to-be-participated object information is confirmed through the second to-be-participated object; the second object to be participated has an association relation with the first object to be participated, and the second object to be participated belongs to the second object.

The specific functional implementation manner of the third display unit 233 and the fourth display unit 234 may be referred to step S303 in the corresponding embodiment of fig. 11, which is not described herein.

Referring again to fig. 14, the second target object information list includes task participation controls;

the third display module 23 may further include: a tag acquisition unit 235, an information generation unit 236, and an information transmission unit 237.

The tag obtaining unit 235 is configured to obtain a second relationship tag for characterizing an association relationship between the first object to be participated and the second object to be participated if a trigger operation for the task participation control is responded;

an information generating unit 236 for generating task participation cue information including the first to-be-participated object information and the second relationship tag;

an information sending unit 237, configured to send task participation prompt information carrying group task guidance information for a group task to a target group; the task participation prompt information is used for prompting the second object to be participated in, and the task participation prompt information is used for prompting the second object to be participated in the group task through the group task guidance information.

The specific functional implementation manner of the tag obtaining unit 235, the information generating unit 236, and the information transmitting unit 237 may refer to step S303 in the corresponding embodiment of fig. 11, which is not described herein. In addition, the description of the beneficial effects of the same method is omitted.

Further, referring to fig. 15, fig. 15 is a schematic structural diagram of a computer device according to an embodiment of the present application. As shown in fig. 15, the computer device 1000 may include: at least one processor 1001, such as a CPU, at least one network interface 1004, a user interface 1003, a memory 1005, at least one communication bus 1002. Wherein the communication bus 1002 is used to enable connected communication between these components. In some embodiments, the user interface 1003 may include a Display (Display), a Keyboard (Keyboard), and the network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface), among others. The memory 1005 may be a high-speed RAM memory or a non-volatile memory (non-volatile memory), such as at least one disk memory. The memory 1005 may also optionally be at least one storage device located remotely from the aforementioned processor 1001. As shown in fig. 15, the memory 1005, which is one type of computer storage medium, may include an operating system, a network communication module, a user interface module, and a device control application.

In the computer device 1000 shown in FIG. 15, the network interface 1004 may provide network communication functions; while user interface 1003 is primarily used as an interface for providing input to a user; and the processor 1001 may be used to invoke a device control application stored in the memory 1005 to implement:

Acquiring a group data acquisition request for a group task; the group task is a task for a target group in the first application;

acquiring group structure data corresponding to a target group according to a group data acquisition request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is to participate in the target group through a second application; the first application is different from the second application;

acquiring a target object identification participating in a group task; the target object identification is attributed to the second application;

generating a target object information list according to the first object, the second object and the target object identification; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

It should be understood that the computer device 1000 described in the embodiments of the present application may perform the description of the data processing method or apparatus in the foregoing embodiments, which is not repeated herein. In addition, the description of the beneficial effects of the same method is omitted.

The embodiments of the present application further provide a computer readable storage medium, where a computer program is stored, where the computer program when executed by a processor implements the description of the data processing method or apparatus in the foregoing embodiments, and is not repeated herein. In addition, the description of the beneficial effects of the same method is omitted.

The computer readable storage medium may be the data processing apparatus provided in any one of the foregoing embodiments or an internal storage unit of the computer device, for example, a hard disk or a memory of the computer device. The computer readable storage medium may also be an external storage device of the computer device, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) card, a flash card (flash card) or the like, which are provided on the computer device. Further, the computer-readable storage medium may also include both internal storage units and external storage devices of the computer device. The computer-readable storage medium is used to store the computer program and other programs and data required by the computer device. The computer-readable storage medium may also be used to temporarily store data that has been output or is to be output.

Embodiments of the present application also provide a computer program product comprising a computer program stored in a computer readable storage medium. The processor of the computer device reads the computer program from the computer readable storage medium, and the processor executes the computer program, so that the computer device may perform the description of the data processing method or apparatus in the foregoing embodiments, which is not described herein. In addition, the description of the beneficial effects of the same method is omitted.

The terms first, second and the like in the description and in the claims and drawings of the embodiments of the present application are used for distinguishing between different objects and not for describing a particular sequential order. Furthermore, the term "include" and any variations thereof is intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or device that comprises a list of steps or elements is not limited to the list of steps or modules but may, in the alternative, include other steps or modules not listed or inherent to such process, method, apparatus, article, or device.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps described in connection with the embodiments disclosed herein may be embodied in electronic hardware, in computer software, or in a combination of the two, and that the elements and steps of the examples have been generally described in terms of function in the foregoing description 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 application.

The foregoing disclosure is only illustrative of the preferred embodiments of the present application and is not intended to limit the scope of the claims herein, as the equivalent of the claims herein shall be construed to fall within the scope of the claims herein.

Claims (23)

1. A method of data processing, comprising:

acquiring a group data acquisition request for a group task; the group task is a task for a target group in a first application;

acquiring group structure data corresponding to the target group according to the group data acquisition request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is engaged in the target group through a second application; the first application is different from the second application;

Acquiring a target object identification participating in the group task; the target object identification belongs to the second application;

generating a target object information list according to the first object, the second object and the target object identifier; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

2. The method of claim 1, wherein generating the target object information list from the first object, the second object, and the target object identification comprises:

determining a second participation object participating in the group task in the second object according to the target object identification;

determining an object with an association relation with the second participation object as a first participation object in the first object;

and generating a target object information list according to the first participation object, the second participation object and the target object identification.

3. The method of claim 2, wherein the second object comprises object a _b B is a positive integer, and b is less than or equal to the total number of second objects;

the determining, according to the target object identifier, a second participation object that participates in the group task in the second object includes:

if the group structure data exists for the object A _b Validation object identification Z _b Identifying the confirmation object Z _b Comparing with the target object identifier; the validation object identification Z _b For characterizing object information Y _b Through the object A _b Confirming; the object information Y _b Belonging to the group structure data and the object information Y _b With said object A _b Associating;

if the confirmed object mark Z _b Identical to the target object identification, then the object A is processed _b A second participation object determined to participate in the group task。

4. The method of claim 2, wherein generating the target object information list from the first participant object, the second participant object, and the target object identification comprises:

generating a first target object information list according to the first participation object, the second participation object and the target object identification; the first target object information list is used for representing the first participation object;

Generating a second target object information list according to the first participation object; the second target object information list is used for representing a first object to be participated in which the group task is not participated in the first object;

and determining the first target object information list and the second target object information list as target object information lists.

5. The method of claim 4, wherein generating a first target object information list from the first participant object, the second participant object, and the target object identification comprises:

acquiring first participation object information for representing the first participation object and a first relation tag in the group structure data; the first relation tag is used for representing the association relation between the first participation object and the second participation object;

and generating a first target object information list according to the first participation object information, the first relation tag and the target object identification.

6. The method of claim 5, wherein the target object identification comprises object identification C _d D is a positive integer, and d is less than or equal to the total number of target object identifications;

The generating a first target object information list according to the first participation object information, the first relation tag and the target object identifier includes:

if the object identifier C _d Counting a first total number of the first participation object information if the first participation object information belongs to the group structure data, and generating a first target object information list according to the first relation tag, the first participation object information and the first total number;

if the object identifier C _d If the first participation object information does not belong to the group structure data, counting a second total amount of the first participation object information, and counting the object identification C _d A third total number of (2);

acquiring the object identifier C _d Object information E to be confirmed for the target group _d According to the first participation object information, the first relation label and the object information E to be confirmed _d And the fourth total number, generating a first target object information list; the fourth total number is the sum of the second total number and the third total number.

7. The method of claim 4, wherein generating a second target object information list from the first participant object comprises:

Determining a first validation object in the first objects; the first participating object belongs to the first confirming object;

determining objects except the first participated object in the first confirmed object as the first object to be participated;

acquiring first to-be-participated object information for representing the first to-be-participated object in the group structure data;

and counting the fifth total number of the first object information to be participated, and generating a second target object information list according to the fifth total number and the first object information to be participated.

8. The method of claim 7, wherein the second object comprises object I _g G is a positive integer and g is less than or equal toThe total number of second objects;

the determining a first confirmation object in the first objects comprises:

in the group structure data, if there is a request for the object I _g Validation object identification H _g Then determine the object I _g Is the second validation object; the second participating object belongs to the second confirming object;

among the first objects, an object having an association relationship with the second confirmation object is determined as a first confirmation object.

9. The method as recited in claim 4, further comprising:

acquiring a task participation prompt request, and determining an object with an association relation with the first object to be participated as a second object to be participated in according to the task participation prompt request;

generating task participation prompt information according to the first object to be participated and the second object to be participated;

transmitting the task participation prompt information carrying group task guide information to the target group; the task participation prompt information is used for prompting the second object to participate in the group task through the group task guide information.

10. The method of claim 9, wherein generating task participation cue information according to the first object to be participated and the second object to be participated, comprises:

acquiring first to-be-participated object information and a second relationship tag for representing the first to-be-participated object in the group structure data; the second relation tag is used for representing the association relation between the first object to be participated and the second object to be participated;

And generating task participation prompt information according to the first object information to be participated and the second relation tag.

11. The method according to claim 1, wherein the method further comprises:

acquiring initial object information for the target group input in the first application; the initial object information includes first object information for characterizing the first object and second object information for characterizing the second object;

and acquiring an information confirmation request carrying a group identifier sent by the second application, and generating the group structure data according to the group identifier and the initial object information.

12. The method of claim 11, wherein generating the group structure data from the group identification and the initial object information comprises:

if the group identifier is matched with the target group, acquiring first matching object information used for representing the first object and second matching object information used for representing the second object in the information confirmation request;

comparing the first matching object information with the first object information to obtain a first comparison result;

Comparing the second matching object information with the second object information to obtain a second comparison result;

and generating the group structure data according to the first comparison result and the second comparison result.

13. The method of claim 12, wherein generating the group structure data from the first comparison result and the second comparison result comprises:

if the first comparison result and the second comparison result are the same comparison result, determining the object identification aiming at the second object carried by the information confirmation request as a confirmation object identification;

comparing a third relationship label used for representing the association relationship between the first object and the second object in the information confirmation request with a fourth relationship label used for representing the association relationship between the first object and the second object in the initial object information;

and if the third relationship tag is different from the fourth relationship tag, storing the third relationship tag, the first object information, the second object information and the confirmation object identification in an associated manner to obtain the group structure data.

14. A method of data processing, comprising:

displaying an object summary information list in a task display interface corresponding to the group task; the group task is a task for a target group in a first application; the target group is created for a first object, and a second object with an association relation with the first object participates in the target group through a second application; the first application is different from the second application;

displaying object summary information corresponding to the target group in the object information summary list; the object summary information comprises participation quantity corresponding to the participation state; the participation state refers to a state that the first object participates in the group task;

if the triggering operation aiming at the object summary information is responded, displaying a target object information list in the task display interface; the target object information list is used for representing the participation state.

15. The method of claim 14, wherein the list of target object information comprises a first list of target object information;

and if the triggering operation of gathering the information aiming at the object is responded, displaying a target object information list in the task display interface, wherein the method comprises the following steps:

If the triggering operation aiming at the object summary information is responded, displaying the first target object information list in the task display interface;

displaying first participation object information and a first relation label in the first target object information list; the first participation object information is used for representing a first participation object which participates in the group task in the first object; the first relation tag is used for representing the association relation between the first participation object and the second participation object; the second participating object belongs to the second object; the first participation object information and the first relation tag are confirmed through the second participation object.

16. The method of claim 15, wherein the first target object information list comprises a first list of validation objects and a list of objects to be validated;

the displaying the first participation object information and the first relation tag in the first target object information list includes:

displaying first participation object information and a first relation label in the first confirmation object list;

and displaying the object information to be confirmed in the object list to be confirmed.

17. The method of claim 15, wherein the list of target object information further comprises a second list of target object information;

further comprises:

if the trigger operation of the object control to be participated in the first target object information list is responded, displaying a second target object information list in the task display interface;

displaying first object information to be participated in the second target object information list; the first to-be-participated object information is used for representing a first to-be-participated object which does not participate in the group task in the first object; the first to-be-participated object information is confirmed through a second to-be-participated object; the second object to be participated has an association relation with the first object to be participated, and the second object to be participated belongs to the second object.

18. The method of claim 17, wherein the second list of target object information includes a task participation control;

further comprises:

if the trigger operation aiming at the task participation control is responded, a second relation label used for representing the association relation between the first object to be participated and the second object to be participated is obtained;

Generating task participation prompt information comprising the first to-be-participated object information and the second relation tag;

transmitting the task participation prompt information carrying the group task guide information aiming at the group task to the target group; the task participation prompt information is used for prompting the second object to be participated in, and the group task is participated in through the group task guide information.

19. A data processing apparatus, comprising:

the first acquisition module is used for acquiring a group data acquisition request aiming at a group task; the group task is a task for a target group in a first application;

the second acquisition module is used for acquiring group structure data corresponding to the target group according to the group data acquisition request; the group structure data is used for representing a first object and a second object with an association relation with the first object; the target group is created for the first object; the second object is engaged in the target group through a second application; the first application is different from the second application;

the third acquisition module is used for acquiring a target object identifier participating in the group task; the target object identification belongs to the second application;

The first generation module is used for generating a target object information list according to the first object, the second object and the target object identifier; the target object information list is displayed in a task display interface aiming at the group task in target equipment; the target object information list is used for representing the participation state of the first object for the group task; the target device includes a device that participates in the group task and has viewing rights.

20. A data processing apparatus, comprising:

the first display module is used for displaying an object summary information list in a task display interface corresponding to the group task; the group task is a task for a target group in a first application; the target group is created for a first object, and a second object with an association relation with the first object participates in the target group through a second application; the first application is different from the second application;

the second display module is used for displaying object summary information corresponding to the target group in the object information summary list; the object summary information comprises participation quantity corresponding to the participation state; the participation state refers to a state that the first object participates in the group task;

The third display module is used for displaying a target object information list in the task display interface if the triggering operation of the object summary information is responded; the target object information list is used for representing the participation state.

21. A computer device, comprising: a processor, a memory, and a network interface;

the processor is connected to the memory and the network interface, wherein the network interface is configured to provide data communication functions, the memory is configured to store a computer program, and the processor is configured to invoke the computer program to cause the computer device to perform the method of any of claims 1 to 18.

22. A computer readable storage medium, characterized in that the computer readable storage medium has stored therein a computer program adapted to be loaded and executed by a processor to cause a computer device having the processor to perform the method of any of claims 1-18.

23. A computer program product, characterized in that the computer program product comprises a computer program stored in a computer readable storage medium, the computer program being adapted to be read and executed by a processor to cause a computer device having the processor to perform the method of any of claims 1-18.