CN112099617A

CN112099617A - Data processing method and device and computer readable storage medium

Info

Publication number: CN112099617A
Application number: CN201910527257.5A
Authority: CN
Inventors: 刘立强; 何丹; 李光; 曹寿刚; 柳欲浚
Original assignee: Tencent Technology Shenzhen Co Ltd
Current assignee: Tencent Technology Shenzhen Co Ltd
Priority date: 2019-06-18
Filing date: 2019-06-18
Publication date: 2020-12-18

Abstract

The application discloses a data processing method, a device and a computer readable storage medium, wherein the method comprises the following steps: responding to a trigger operation in a main window in a target application, and acquiring service data of a plurality of service objects in the target application; acquiring sub-windows corresponding to each business object; each sub-window is used for browsing the service data of the service object; and switching the page where the main window is positioned into a multi-window page, and synchronously displaying each sub-window in the multi-window page in a multi-window mode. By the aid of the method and the device, browsing modes of the business data are enriched, and browsing efficiency of the business data is improved.

Description

Data processing method and device and computer readable storage medium

Technical Field

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

Background

With the continuous development of computer networks, users tend to communicate with others through instant messaging applications, and more friends are accumulated in the users as time goes on. Therefore, a higher requirement is put on how to quickly communicate with multiple friends through the instant messaging application. The method and the device have the advantages that the efficiency of the user in checking the messages of the friends can be effectively improved, and the efficiency of communication between the user and the friends can be greatly improved.

At present, a user is supported to enter a conversation window with a friend a first and then check a message sent by the friend a to the user, and when the user wants to check a message sent by a friend B to the user, the user needs to exit the conversation window with the friend a first and enter the conversation window with the friend B again to check the message sent by the friend B to the user.

Therefore, when a user needs to check messages sent by a plurality of friends to the user, the user needs to continuously switch session windows with different friends, so that the message browsing efficiency is low, and the message browsing mode is single.

Disclosure of Invention

The application provides a data processing method, a data processing device and a computer readable storage medium, which can enrich browsing modes of service data and improve browsing efficiency of the service data.

One aspect of the present application provides a data processing method, including:

responding to a trigger operation in a main window in a target application, and acquiring service data of a plurality of service objects in the target application;

acquiring sub-windows corresponding to each business object; each sub-window is used for browsing the service data of the service object;

and switching the page where the main window is positioned into a multi-window page, and synchronously displaying each sub-window in the multi-window page in a multi-window mode.

One aspect of the present application provides a data processing apparatus, including:

the first acquisition module is used for responding to trigger operation in a main window in a target application and acquiring service data of a plurality of service objects in the target application;

the second acquisition module is used for acquiring the sub-windows corresponding to the business objects respectively; each sub-window is used for browsing the service data of the service object;

and the switching display module is used for switching the page where the main window is positioned into a multi-window page and synchronously displaying each sub-window in the multi-window page in a multi-window mode.

Wherein the second obtaining module includes:

a first obtaining unit, configured to obtain a child window template; the child window template is used for generating the child window;

the adding unit is used for respectively adding the service data corresponding to each service object into the sub-window template and obtaining a service window corresponding to each service object according to the sub-window template added with the service data;

and the setting unit is used for respectively setting browsing permission for each business window and determining the business window with the browsing permission as a sub-window corresponding to the business object.

Wherein, the first obtaining module comprises:

the detection unit is used for responding to the trigger operation in the main window in the target application and detecting the object states of all business objects in the target application; the object state comprises a message unread state and a message read state;

and the second obtaining unit is used for obtaining the service data of the service object of which the object state is the message unread state.

Wherein, the switching display module comprises:

the sequence determining unit is used for acquiring the message receiving time stamp of each service object and determining the arrangement sequence of the sub-windows corresponding to each service object according to the message receiving time stamp;

an array adding unit, configured to add the child window corresponding to each service object to the first object array according to the arrangement order;

and the output unit is used for sequentially outputting each sub-window in the first object array to the multi-window page, and performing multi-window synchronous display on each sub-window in the first object array in the multi-window page.

Wherein the business object further comprises an attention object;

the output unit includes:

a priority subunit, configured to set a ranking priority of the sub-window corresponding to the attention object as a first priority, and set a ranking priority of the sub-window corresponding to the remaining service objects as a second priority; the rest service objects refer to the service objects except the concerned object in the service objects with the object state being the unread message state;

the array updating subunit is used for updating the arrangement sequence of each sub-window in the first object array according to the first priority and the second priority to obtain a second object array;

and the output subunit is used for sequentially outputting each sub-window in the second object array to the multi-window page, and performing multi-window synchronous display on each sub-window in the second object array in the multi-window page.

The multi-window page comprises a first display area and a second display area; the first display area is used for displaying a sub-window of a selected state; the second display area is used for displaying the sub-window of the state to be selected; the data processing apparatus further includes:

and the first area switching module is used for responding to the switching operation aiming at the multi-window page, skipping and switching the sub-windows in the first display area to be displayed in the second display area, acquiring the sub-windows selected based on the switching operation, and skipping and switching the selected sub-windows from the second display area to be displayed in the first display area.

Wherein the switching operation comprises a slide switching operation; the first area switching module includes:

the sliding response unit is used for responding to the sliding switching operation aiming at the multi-window page, acquiring a sliding track corresponding to the sliding switching operation and acquiring sliding information corresponding to the sliding track; the sliding information comprises a sliding distance, a sliding speed and a sliding direction;

the parameter determining unit is used for determining animation switching parameters aiming at the sub-windows according to the sliding information;

the first area switching unit is used for switching and displaying the sub-window in the first display area to the second display area in a sliding manner according to the animation switching parameter;

and the second area switching unit is used for acquiring the selected sub-window based on the sliding track, and sliding, switching and displaying the selected sub-window from the second display area to the first display area according to the animation switching parameter.

Wherein, the data processing device further comprises:

the setting module is used for respectively setting the object identification of the business object corresponding to each sub-window;

the association module is used for carrying out state association on each object identifier and the child window to which the object identifier belongs; the object identification after the state association is consistent with the selection state of the sub-window to which the object identification belongs; the selection state comprises a selection state and a to-be-selected state;

and the identification display module is used for respectively displaying the object identifications subjected to state association in the identification display area corresponding to the sub-window to which each object identification belongs in the multi-window page.

the mark selection module is used for responding to the selection operation aiming at the object mark and skipping and switching the sub-window in the first display area to display the sub-window in the second display area;

the second area switching module is used for acquiring the sub-window selected based on the selection operation and skipping, switching and displaying the selected sub-window from the second display area to the first display area;

and the return switching module is used for responding to the return switching operation aiming at the child window in the first display area, and displaying the multi-window page jump switching as the page where the conversation window of the business object corresponding to the child window in the first display area is located.

Wherein, the object identification comprises the number of unread messages; the number of the unread messages is the number of the unread messages in the service data corresponding to the service object; the sub-window in the first display area is a target sub-window;

the data processing apparatus further includes:

the browsing response module is used for responding to the message browsing operation aiming at the target sub-window and scrolling and displaying the message in the target sub-window;

the first identification updating module is used for updating the message state of each message in the target sub-window according to the rolling display result and updating the number of unread messages in the object identification corresponding to the target sub-window based on the updated message state; the message states include a read state and an unread state.

Wherein, the data processing device further comprises:

the message acquisition module is used for acquiring the update message corresponding to each business object when the business object is positioned on the multi-window page; the message states of the update messages are all unread states;

and the second identifier updating module is used for outputting the updating messages to the sub-windows to which the updating messages belong respectively, and updating the number of unread messages in the object identifiers to which the updating messages belong according to the number of the messages of the updating messages.

One aspect of the present invention provides a data processing apparatus, including: a processor and a memory;

the processor is connected to a memory, wherein the memory is used for storing a computer program, and the processor is used for calling the computer program to execute the method according to one aspect of the application.

An aspect of the application provides a computer-readable storage medium having stored thereon a computer program comprising program instructions which, when executed by a processor, cause the processor to perform the method of the above-mentioned aspect.

The method comprises the steps that the business data of a plurality of business objects in the target application are obtained by responding to the trigger operation in a main window in the target application; acquiring sub-windows corresponding to each business object; each sub-window is used for browsing the service data of the service object; and switching the page where the main window is positioned into a multi-window page, and synchronously displaying each sub-window in the multi-window page in a multi-window mode. Therefore, the method provided by the application can realize that a plurality of sub-windows are simultaneously displayed on a multi-window page under one target application, and supports a user to simultaneously browse the service data in the plurality of sub-windows, namely simultaneously browse the service data of a plurality of service objects, thereby enriching the browsing modes of the service data and improving the browsing efficiency of the service data.

Drawings

In order to more clearly illustrate the technical solutions in the present application or the prior art, the drawings needed for the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of a system architecture provided herein;

FIG. 2 is a schematic flow chart diagram of a data processing method provided herein;

FIG. 3a is a schematic diagram of a page jump interface provided in the present application;

FIG. 3b is a schematic diagram of another terminal page jump interface provided in the present application;

FIG. 3c is a schematic diagram of another terminal page jump interface provided in the present application;

FIG. 4 is a schematic flow chart diagram of another data processing method provided herein;

FIG. 5 is a schematic flow chart diagram illustrating a method for setting a logo according to the present application;

FIG. 6 is a schematic diagram of a scenario for generating a sub-window provided in the present application;

FIG. 7 is a schematic flow chart diagram illustrating a method for operating an interface provided herein;

FIG. 8 is a schematic flow chart diagram of another method of interface operation provided herein;

FIG. 9a is a schematic interface diagram of a multi-window page provided herein;

FIG. 9b is a schematic interface diagram of another multi-window page provided herein;

FIG. 9c is a schematic interface diagram of another multi-window page provided herein;

FIG. 10 is a schematic diagram of a data processing apparatus provided in the present application;

fig. 11 is a schematic structural diagram of another data processing apparatus provided in the present application.

Detailed Description

The technical solutions in the present application will be described clearly and completely with reference to the accompanying drawings in the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1, which is a schematic diagram of a system architecture provided in the present application. As shown in fig. 1, the terminal includes a server 100, a terminal 200a, a terminal 200b, and a terminal 200 c. Among them, the server 100 can communicate with the

terminals

200a, 200b, and 200 c. The description of the present application is made here taking as an example communication between the terminal 200a and the server 100. When the server 100 acquires an acquisition request for a multi-window page in a target application, which is sent by the terminal 200a, the server 100 may acquire service data of a service object in the target application according to the acquisition request, generate a sub-window of the service object according to the acquired service data, and send the generated sub-window of the service object to the terminal 200 a. The sub-window generated by the server 100 is used for the user to browse the business data of the business object. The terminal 200a may switch and display the original page where the main window is located in the target application into a multi-window page, and perform multi-window synchronous display on the received sub-window sent by the server 100 in the multi-window page, that is, simultaneously display the received multiple sub-windows on the multi-window page. For example, when the target application is an instant messaging application corresponding to the first user, the obtained service object may be a friend whose message status of a message sent by the friend is unread among all friends of the first user in the instant messaging application. The sub-window generated by the server 100 may be a session sub-window respectively corresponding to the first user and each obtained friend, and the terminal 200a displays the obtained session sub-window of each friend on the multi-window page of the target application at the same time, so that the first user can quickly browse unread messages and history messages sent to the first user by a plurality of friends on the multi-window page at the same time, and the efficiency of the first user in checking the messages sent to the first user by the plurality of friends is improved.

Optionally, the sub-window of the service object may be generated by the server 100 according to the acquired service data, or the server 100 sends the acquired service data of the service object to the terminal 200a, and the terminal 200a generates the sub-window according to the received service data of the service object. The specific generation manner of the sub-window is determined according to the actual application scenario, and is not limited herein. The sub-window (e.g., session sub-window) may be created based on AIO (all in one). Among other things, the main idea of AIO is to allow a process to initiate many I/O operations (referring to operations on the interface circuitry of a device connected to a central processor) without blocking or waiting for any operations to complete. By combining the application, the service data corresponding to a plurality of service objects can be simultaneously acquired, the sub-window corresponding to each service object is obtained based on the acquired service data, and then multi-window synchronous display is carried out on each sub-window.

By the method, a plurality of sub-windows corresponding to various service data in the target application can be displayed simultaneously under one target application. The method and the device support the user to browse the service data in the plurality of sub-windows simultaneously on the multi-window page of the target application, and improve the efficiency of browsing the service data of a plurality of service objects by the user. Meanwhile, a plurality of sub-windows containing the business data are synchronously displayed in a multi-window page in a multi-window mode, so that the display modes of the business data corresponding to a plurality of business objects are enriched, and the browsing modes of a user for browsing the business data of the plurality of business objects are enriched.

Please refer to fig. 2, which is a schematic flow chart of a data processing method provided in the present application, and as shown in fig. 2, the method may include:

step S101, responding to a trigger operation in a main window in a target application, and acquiring service data of a plurality of service objects in the target application;

specifically, the business data of a plurality of business objects in the target application is acquired in response to a trigger operation in a main window in the target application. The triggering operation is the operation of the acquired request for displaying the multi-window page. The target application may be an instant messaging application corresponding to the first user, the obtained service objects may be friends corresponding to the first user, and the service data of the service objects may be messages sent to the first user by the obtained friends. The target application may be a reading application, the obtained business objects may be books in the reading application, and the business data of the business objects may be chapter contents of the obtained books. The target application may be a game application, the acquired business objects may be games in the game application, and the business data of the business objects may be game data of the acquired games. The target application may be a video application, the obtained business objects may be videos in a game application, and the business data of the business objects may be video data of the obtained videos. The target application may be an application including a plurality of applets, the acquired business objects may be a plurality of applets in the target application, and the business data of the business objects may be applet data of the acquired applets.

Step S102, acquiring sub-windows corresponding to each business object; each sub-window is used for browsing the service data of the service object;

specifically, a sub-window corresponding to each service object is obtained, where the sub-window may be a sub-window generated by the server and obtained by the terminal, or a sub-window generated by the terminal itself. The sub-window is used for browsing the service data of the service object, that is, the service data of the service object is displayed in the sub-window. When the target application is an instant messaging application corresponding to the first user, the sub-window of the business object may be a session sub-window for browsing friend messages. When the target application is a reading application, the sub-window of the business object may be a reading sub-window for reading a book. When the target application is a game application, the sub-window of the business object may be a game sub-window for playing a game. When the target application is a video application, the sub-window of the business object may be a video sub-window for viewing a video. When the target application is an application including a plurality of applets, the sub-window of the business object may be an applet sub-window for using the applet. The applet can be used without downloading and installing, the dream of 'being reachable by a touch hand' of the application is realized, and the application can be opened by scanning or searching by a user. The concept of 'running after running' is also embodied, and a user does not need to be concerned about whether too many applications are installed. The application will be ubiquitous and readily available without installation and uninstallation.

Step S103, switching the page where the main window is located into a multi-window page, and performing multi-window synchronous display on each sub-window in the multi-window page;

specifically, the current page of the main window of the target application is switched and displayed as a multi-window page, and the acquired sub-windows are synchronously displayed on the multi-window page in a multi-window mode, that is, the acquired sub-windows are simultaneously displayed on the multi-window page. The method and the device support the user to browse and operate the service data in the plurality of sub-windows simultaneously in the same application page.

Please refer to fig. 3a, which is a schematic diagram of a page jump interface provided in the present application. The above target application is taken as an example of the instant messaging application corresponding to the first user. As shown in fig. 3a, a page a1 is a page where a main window in a target application is located, and a page a1 includes a message bar list formed by message bars of 3 buddies of a first user, including a buddy "one-to-one" message bar, a buddy "two" message bar, and a buddy "three-to-three" message bar. The friend one-to-one message column includes a region b1, the region b1 includes a time of receiving the latest friend one-to-one message of 9:01, the region b1 further includes a number 2 of messages that are sent by the friend one-to-one to the first user and are not yet read by the first user. Correspondingly, the message column of the friend's' two 'and the message column of the friend's 'three' also include the same type of area as the area b 1. The time that the first user receives the latest message of the friend second is 9:02, and the number of unread messages of the first user for the friend second is 3. The time that the first user receives the latest messages of the third and fourth friends is 9:03, and the number of unread messages of the first user for the third and fourth friends is 4. The friend one-to-one message column, the friend two-to-two message column and the friend three-to-three message column respectively comprise a friend one-to-one head portrait, a friend two-to-two head portrait and a friend three-to-three head portrait. The page in which the list of message columns in page a1 is located also includes a message button b2 by which the user can enter a trigger action into the terminal through b 2. The acquisition mode of the trigger operation may be double-clicking the message button b2, long-pressing the message button b2, or pressing the slide message button b2, and the specific acquisition mode of the trigger operation is determined according to the actual application scenario and is not limited herein. When the terminal acquires the trigger operation on the message button b2, the page a1 where the main window of the message list is located can be switched and displayed as a multi-window page a 2. The service object acquired by the terminal may be a friend corresponding to the unread message of the first user, and here, the example of friends with unread messages is described, namely friends with unread messages, and friends with unread messages. Page a2 includes a buddy "one-to-one" session sub-window b4, buddy "two" session sub-window b5, and buddy "three-to-three" session sub-window, where buddy "three-to-three" session sub-window is hidden in page a 2. The page a2 also includes an object identifier corresponding to each sub-window, i.e., an object identifier corresponding to each sub-window in the area b 3. Here, the object identifier corresponding to each sub-window is the avatar of the business object to which the sub-window belongs, that is, the object identifier of the sub-window b4 is the avatar of the friend "one by one", the object identifier of the sub-window b5 is the avatar of the friend "two", and the object identifier of the sub-window corresponding to the friend "three" is the avatar of the friend "three". Each avatar in the area b3 in the page a2 further includes the unread message number of the buddy corresponding to each child window, that is, the unread message number 2 of the buddy "one by one", the unread message number 3 of the buddy "two", and the unread message number 4 of the buddy "three by three". When the trigger operation is obtained through the message button b2, the arrangement order of the sub-windows in the page a2 is the arrangement order of the message columns in the message column list in the page a1, and is the one-to-one friend sub-window b4, the two-to-two friend sub-window b5 and the three-to-three friend sub-window in sequence, and the arrangement order of the object identifiers in the region b3 is consistent with the arrangement order of the sub-windows in the page a 2.

Please refer to fig. 3b, which is a schematic diagram of another terminal page jump interface provided by the present application. As shown in FIG. 3b, page a3 is page a1 in FIG. 3 a. Page a3 includes a buddy "two" message column b6, through which message column b6 the user may enter a trigger operation into the terminal. The acquiring mode of the trigger operation may be double-clicking the message column b6, long-pressing the message column b6, or pressing the sliding message column b6, and the specific acquiring mode of the trigger operation is determined according to the actual application scenario and is not limited herein. When the terminal acquires the trigger operation on the message column b6, the page a3 where the main window of the message list is located can be switched and displayed as a multi-window page a 4. When the trigger operation is acquired through the message column b6, the arrangement sequence of the child windows in the page a4 is as follows: the first sub-window is a sub-window of a friend's' second 'in the message column b6 for obtaining the trigger operation, the arrangement sequence of the sub-windows except the first sub-window is the arrangement sequence of the message column in the page a3, the sub-windows are the sub-window b7 of the friend's 'second', the sub-window b8 of the friend's' one-to-one ', and the sub-window of the friend's 'third', and the arrangement sequence of the object identifiers in the area b9 is consistent with the arrangement sequence of the sub-windows in the page a 4. Where the child window of buddy "three" is hidden in page a 4.

Please refer to fig. 3c, which is a schematic diagram of another terminal page jump interface provided by the present application. As shown in FIG. 3c, page a5 is the page where another home window in the target application is located, and page a5 is the home window for the first user's session with buddy "three". The user may enter the above trigger operation in the page a5, and the trigger operation may be obtained by pressing a blank position in the page a5 for a long time. Trigger operations may also be acquired by the edge of page a5, sliding at the edge of page a5 toward the center of the page, for example, by the direction indicated in region b 13. The trigger operation can also be obtained by long pressing and then sliding up or down at a blank position in the page a5, and the processes of long pressing and sliding are not interrupted. The specific acquiring mode of the trigger operation is determined according to the actual application scenario, and is not limited herein. When the terminal acquires the trigger operation in the page a5, the page a5 where the session main window of the first user and the friend's "three" is located can be switched and displayed as a multi-window page a 6. When the trigger operation is acquired through the page a5 where the main window of the conversation with the friend's three' is located, the arrangement sequence of the sub-windows in the page a6 is as follows: the first sub-window is the sub-window b11 corresponding to the friend 'three' in the session main window for acquiring the trigger operation, other sub-windows can be arranged according to the sequence in the message bar list, the sub-windows are the sub-window b11 of the friend 'three' in sequence, the sub-window b12 of the friend 'one-to-one' and the sub-window of the friend 'two' in sequence, and the arrangement sequence of the object identifiers in the area b10 is consistent with the arrangement sequence of the sub-windows in the page a 6.

Fig. 3a, fig. 3b, and fig. 3c respectively describe three methods for switching and displaying a page where a main window is located to a multi-window page, and specifically, the switching and displaying of the multi-window page according to which method is determined according to an actual application scenario, which is not limited herein. When the return instruction is acquired from the multi-window page, the corresponding application page can be jumped and displayed according to the acquisition mode of the trigger operation. For example, when the trigger operation is acquired by the method described in fig. 3a and 3b, the page where the message bar list is located may be jumped to display by the "return" instruction, and when the trigger operation is acquired by the method described in fig. 3c, the page where the conversation home window with the friend "three" is located may be jumped to display by the "return" instruction.

Please refer to fig. 4, which is a flowchart illustrating another data processing method provided in the present application. The data processing method provided in fig. 4 is described by taking the target application as the instant messaging application corresponding to the first user as an example. As shown in fig. 4, the method may include:

step S201, responding to a trigger operation in a main window in a target application, and detecting object states of all business objects in the target application; the object state comprises a message unread state and a message read state;

for a specific implementation process of step S201, reference may be made to the description of step S101 in the embodiment corresponding to fig. 2, which is not described herein again.

Step S202, acquiring the service data of the service object of which the object state is the unread message state;

specifically, friends (or strangers having permission to send new messages to the first user) who send new messages to the first user in the target application are filtered out, and the first user has unread messages for the filtered friends. Each service object (which may refer to all friends of the first user in the target application) in the target application has an object state, the object state of the service object with the unread message is determined as the message unread state, and the object state of the service object without the unread message is determined as the message read state. And acquiring the service data of the service object of which the object state in the target application is the unread message state, and filtering the service data of the service object which is set as a blacklist by the first user when acquiring the service data of the service object. The obtained service data of the service object may include an avatar of the service object, an account name (e.g., a nickname of a user), an account number, device information (e.g., a device name), an account status (including an online status, a stealth status, and an offline status of an account), and the like.

Step S203, acquiring a sub-window template; the child window template is used for generating the child window;

specifically, a child window template is obtained, where the child window template includes frame information for generating a child window, and the child window template is used for generating the child window. Namely, the child window template is a window structure which is uniformly owned by child windows of different business objects.

Optionally, different types of child window templates may be used for the first user according to the user identity level of the first user. For example, when the user identity level of the first user is a noble identity level, a sub-window template conforming to the noble identity level or a plurality of high-level sub-window templates for the first user to select may be configured for the first user. The child window template corresponding to the noble identity grade can be added with some cool and dazzling special effects or special pendants, or the frame of the child window can be a plurality of photo frames and the like. When the identity level of the first user is a common identity level, a child window template conforming to the common identity level, for example, a common child window template, may be configured for the first user.

Step S204, adding the service data corresponding to each service object into the sub-window template respectively, and obtaining a service window corresponding to each service object according to the sub-window template added with the service data;

specifically, the acquired service data corresponding to each service object is added to the sub-window template, for example, if the acquired service data of the service object is a head portrait, an account name, an account number, device information, and an account status corresponding to a plurality of friends, a head portrait display position, an account name display position, a device information display position, and an account status display position may correspond to the sub-window template. Each business object may correspond to one child window template, and the avatar of the business object may be added to the avatar display position, the account name of the business object may be added to the account name display position, the device information of the business object may be added to the device information display position, and the account status of the business object may be added to the account status display position. And respectively taking the child window templates added with the business data of the business objects as the business windows of the business objects to which the child window templates belong.

Step S205, respectively setting browsing authority for each business window, and determining the business window with the browsing authority as a sub-window corresponding to the business object;

specifically, a browsing right is set for each service window corresponding to each service object, and the service window with the browsing right can acquire and display a new message sent by the service object to the first user in real time. Meanwhile, the service window with the set browsing authority supports the first user to browse the service data (for example, browse the messages sent by the friends to the service window, including new messages and historical messages) to which the service window belongs in the service window. The business window with the set browsing authority is called a sub-window of the business object.

Step S206, obtaining the message receiving time stamp of each service object, and determining the arrangement sequence of the sub-windows corresponding to each service object according to the message receiving time stamp;

specifically, a message receiving timestamp of each service object is obtained, where the message receiving timestamp may be a receiving time of a latest message sent by a received friend to a first user, that is, a latest receiving time of the message. And sequencing the sub-windows corresponding to the business objects according to the message receiving time stamps, and sequencing the sub-windows corresponding to the business objects according to the time sequence of the receiving time from morning to evening, namely the sequence of the sub-windows corresponding to the business objects is the same as the time sequence of the latest receiving time of the message.

Step S207, adding the sub-window corresponding to each business object into a first object array according to the arrangement sequence;

specifically, according to the obtained arrangement order of the sub-windows, the sub-window corresponding to each business object is added to the first object array, that is, the first object array includes the arrangement order of the sub-windows corresponding to each business object. Based on the steps, the process of encapsulating the service data of each service object is realized, namely the service data of each service object is encapsulated in the sub-window, and then the sub-window subjected to data encapsulation is assembled into the first object array.

Step S208, sequentially outputting each sub-window in the first object array to the multi-window page, and performing multi-window synchronous display on each sub-window in the first object array in the multi-window page;

specifically, each sub-window in the first object array is sequentially output to the multi-window page, that is, the sub-window corresponding to each business object is output to the multi-window page according to the arrangement sequence of the sub-windows corresponding to each business object included in the first object array. And performing multi-window synchronous display on each sub-window in the first object array in a multi-window page according to the arrangement sequence of the sub-windows, namely simultaneously displaying the sub-windows corresponding to each business object on the multi-window page. The method and the device support the first user to browse the messages sent by the friends to the first user at the same time and quickly, improve the browsing efficiency of the first user for the new messages sent by the friends to the first user, and enrich the display modes of the new messages of the friends. The sub-window may be a session sub-window between the first user and the friend, and the session sub-window includes all session data between the first user and the friend.

Step S209, when the business object comprises the concerned object, setting the arrangement priority of the sub-window corresponding to the concerned object as a first priority, and setting the arrangement priority of the sub-windows corresponding to the rest business objects as a second priority;

specifically, a first user is supported to set special attention to a friend, the friend with the special attention is called an attention friend (a business object with the special attention is set, namely an attention object), when business data of the business object are obtained, the object state of the attention object is not concerned, the business data of the attention object are obtained each time, and a sub-window corresponding to the attention object is generated. The arrangement priority of the sub-windows corresponding to the attention object may be set as a first priority, and the arrangement priority of the sub-windows corresponding to other business objects except the attention object among the obtained business objects may be set as a second priority. The first priority is better than the second priority.

Step S210, updating the arrangement sequence of each sub-window in the first object array according to the first priority and the second priority to obtain a second object array;

specifically, the arrangement sequence of each child window in the first object array is updated according to the first priority and the second priority. Since the first priority is the second priority, when determining the arrangement order of the sub-windows, the sub-window corresponding to the first priority may be arranged in front of the position of the sub-window corresponding to the second priority. When the first priority corresponds to a plurality of sub-windows, the arrangement sequence of each sub-window in the plurality of sub-windows corresponding to the first priority can be determined according to the intimacy between the concerned friends to which the sub-windows belong and the first user. The intimacy degree may be the frequency of the dialog between the first user and the concerned friends, or the intimacy degree set by the first user for each concerned friend. The ranking order of each sub-window in the plurality of sub-windows corresponding to the second priority may be determined according to the sequence of the latest receiving time of each received service object message. And updating the arrangement sequence of each sub-window in the first object array according to the arrangement sequence of the sub-windows determined by the process to obtain a second object array. The second object array comprises the arrangement sequence of the sub-windows corresponding to the first priority and the sub-windows corresponding to the second priority.

Step S211, sequentially outputting each sub-window in the second object array to the multi-window page, and performing multi-window synchronous display on each sub-window in the second object array in the multi-window page;

specifically, each sub-window in the second object array is sequentially output to the multi-window page, that is, the sub-window corresponding to each service object is output to the multi-window page according to the arrangement sequence of the sub-windows corresponding to each service object included in the second object array. And performing multi-window synchronous display on each sub-window in the second object array in a multi-window page according to the arrangement sequence of the sub-windows, namely simultaneously displaying the sub-windows corresponding to each business object on the multi-window page.

Please refer to fig. 5, which is a schematic flow chart of an identifier setting method provided in the present application, and as shown in fig. 5, the method may include:

step S301, respectively setting the object identification of the business object corresponding to each sub-window;

specifically, the object identifier of the service object corresponding to each sub-window is respectively set, that is, when the target application is an instant messaging application, the object identifier of the service object corresponding to the sub-window can be set as the avatar of the user; when the target application is a video application, the object identifier of the business object corresponding to the child window can be set as a cover of the video; when the target application is a reading application, the object identifier of the business object corresponding to the child window can be set as a cover or a name of the book; when the target application is a game application, the object identifier of the business object corresponding to the child window can be set as an icon of the game; when the target application is an application containing a plurality of applets, the object identifier of the business object corresponding to the child window can be set as an icon of the applet.

Step S302, carrying out state association on each object identifier and the sub-window to which the object identifier belongs; the object identification after the state association is consistent with the selection state of the sub-window to which the object identification belongs; the selection state comprises a selection state and a to-be-selected state;

specifically, each object identifier is state-associated with the corresponding child window, and the object identifier after the state association is consistent with the selection state of the corresponding child window. Namely, the object identifier after state association is selected as the selected state or the candidate state of the child window to which the object identifier belongs.

Step S303, respectively displaying the object identifiers subjected to state association in an identifier display area corresponding to a child window to which each object identifier belongs in the multi-window page;

specifically, the object identifiers subjected to state association are respectively displayed in the identifier display area corresponding to the child window to which each object identifier belongs in the multi-window page. When the sub-window is in sliding display or switching display, the object identifier corresponding to the sub-window is also in sliding display or switching display, namely the sub-window and the object identifier corresponding to the sub-window are linked.

Please refer to fig. 6, which is a schematic view of a scene for generating a sub-window provided in the present application. The target application is taken as an instant messaging application for illustration. As shown in fig. 6, first, data encapsulation is performed, and specific content of the data encapsulation includes an avatar, a user status, and an account number corresponding to a business object. And loading the message corresponding to the business object in a local message database through the account number of the business object. When the message corresponding to the service object is loaded, message preloading can be performed, and for the child window of the friend to be presented in the multi-window page, the message of the friend is preloaded in the local database through the account number corresponding to the friend. The child window of the friend to be presented in the multi-window page may be a child window corresponding to the friend having the new message. And a time period can be set, and the messages of all friends or a plurality of friends with higher intimacy in the target application are loaded in the local data in advance according to the time period. By preloading the messages, the message display performance in the multi-window page can be optimized, and the message display rate in the multi-window page is improved. After message preloading, a message list of each loaded business object can be obtained. The business data corresponding to the business object obtained by the encapsulation and the loaded message list can be used for drawing the sub-window corresponding to the business object, namely the display of the interface of the sub-window is realized. When the sub-windows are displayed on the multi-window page, the arrangement sequence of the sub-windows corresponding to each business object needs to be determined. The sequence of each service object for data encapsulation can be determined. The sequence of each service object is used for determining the arrangement sequence of the sub-windows corresponding to each subsequent service object, and the sequence of each service object can be determined according to the latest sending time of the sending message corresponding to each service object. According to the obtained arrangement order of the sub-windows corresponding to each business object, the business data of each business object (or directly the sub-windows corresponding to each business object) can be assembled into an array, and the array includes the arrangement order of the sub-windows corresponding to each business object. Based on this, the drawing of the sub-windows corresponding to each business object and the arrangement sequence of each drawn sub-window are realized. A window list can be obtained according to the arrangement order of each sub-window, and the window list includes the arrangement order of the sub-windows. And performing gesture detection on a page where a main window of the target application is located, calling back through a sensor of the terminal after detecting a corresponding gesture, and triggering to enter a multi-window page, wherein the detected gesture can comprise a long-press gesture and a 3D Touch (click) heavy-press gesture. And outputting the sub-windows in the window list to a multi-window page in sequence, and displaying the sub-windows. Meanwhile, corresponding gesture information can be obtained from the multi-window page, the obtained gesture information is recalled, and the moving distance and speed of the gesture can be obtained according to the gesture information. And performing window animation processing on the child window in the multi-window page through the obtained distance and speed of the gesture movement, namely the window moves along with the gesture and the like.

Please refer to fig. 7, which is a flowchart illustrating an interface operation method provided in the present application. Taking the target application as the instant messaging application corresponding to the first user as an example for explanation, the instant messaging application corresponding to fig. 7 is the instant messaging application corresponding to fig. 3a to 3c, as shown in fig. 7, the method may include:

step S401, responding to the switching operation aiming at the multi-window page, skipping, switching and displaying the sub-windows in the first display area to the second display area, acquiring the sub-windows selected based on the switching operation, skipping, switching and displaying the selected sub-windows from the second display area to the first display area;

specifically, the first display area is used for displaying the sub-window with the selection state being the selected state, and the second display area is used for displaying the sub-window with the selection state being the candidate state. Here, the sub-window in the selected state in the page c1 is a sub-window corresponding to the friend "two" of the first user, and the sub-windows in the to-be-selected state are sub-windows corresponding to the friend "one-to-one" of the first user and sub-windows corresponding to the friend "three" of the first user. The sub-window of each friend is also corresponding to the head portrait of the friend (namely, the object identifier corresponding to the sub-window), and the sub-window of each friend is consistent with the selection state of the head portrait of the friend to which the sub-window belongs, namely, the sub-window is in the selected state or in the candidate state. In response to a switching operation for the multi-window page, for example, in response to a slide left-right switching operation (operation shown in the area d 3) for the multi-window page, the sub-window jump in the first presentation area is switched and displayed into the second presentation area, for example, the sub-window jump in the first presentation area is switched and displayed into an area hidden or partially hidden in the multi-window page. Obtaining the sub-window selected based on the switching operation, and jumping, switching, and displaying the selected sub-window from the second display area to the first display area, where the selected sub-window obtained based on the sliding operation for the page c1 is a sub-window corresponding to the friend "one to one", and then displaying the page c1 as a page c2, as shown in fig. 7, in the page c2, the sub-window corresponding to the selected friend "one to one" has been jumped, switched, and displayed from the second display area to the first display area, at this time, the sub-window in the selected state in the page c2 is a sub-friend window corresponding to the friend "one to one" of the first user, and the sub-window in the to-be-selected state is a sub-window corresponding to the friend "two" of the first user and a sub-window corresponding to the friend "three" of the first user.

Here, the corresponding slide track for the slide switching operation in the page c1, which is the track slid by the gesture, may be obtained. The sliding information corresponding to the sliding track and the selected sub-windows can be obtained, wherein the selected sub-windows are sub-windows corresponding to friends one to one. The sliding information includes a sliding distance, a sliding rate and a sliding direction, and animation switching parameters for the sub-windows can be determined according to the acquired sliding information. And according to the animation switching parameters, switching and displaying the sub-windows corresponding to the second friends originally in the first display area into the second display area in a sliding manner, and switching and displaying the selected sub-windows corresponding to the one-to-one friends originally in the second display area into the first display area in a sliding manner, wherein the speed, distance and direction during sliding switching are consistent with the sliding speed, sliding distance and sliding direction in the acquired sliding information. The sliding information can be obtained according to the gesture information, and then moving and zooming animation is carried out on the child window according to the sliding information. The size of the sub-window in the first display area can be slightly larger than that of the sub-window in the second display area, when the sub-window in the first display area is switched into the second display area in a sliding mode, an animation effect that the size of the sub-window gradually decreases can be achieved, when the sub-window in the second display area is switched into the first display area in a sliding mode, an animation effect that the size of the sub-window gradually increases can be achieved, and therefore the effect that the sub-window slides and scales along with the gesture is achieved. The sliding switching process of switching the sub-window corresponding to the friend's' two 'into the sub-window corresponding to the friend's 'two' is a coherent process without interruption. When the sub-window is in sliding switching display, the friend head portrait corresponding to the sub-window slides along with the sub-window, and the sub-window and the friend head portrait to which the sub-window belongs are kept in the selected state or the candidate state.

Step S402, responding to the selection operation aiming at the object identification, and skipping and switching the sub-window in the first display area to display the sub-window in the second display area; acquiring a selected sub-window based on the selection operation, and skipping, switching and displaying the selected sub-window from the second display area to the first display area;

specifically, in response to a selection operation for the object identifier, for example, in response to a click operation for the head portrait of the friend "one to one" in the page c1, a sub-window selected by the click operation is obtained, where the selected sub-window is a sub-window corresponding to the friend "one to one". And skipping and switching the child windows corresponding to the second friends in the first display area to display the second display area, skipping and switching the child windows corresponding to the one-to-one friends in the second display area to display the first display area, namely skipping and switching the child windows corresponding to the second friends to display the child windows corresponding to the one-to-one friends. When the friend head portrait is clicked to switch and display the sub-windows, sliding switching can be performed in the sub-window list, namely, the selected sub-windows are switched in a sliding mode, and jumping switching can be performed, namely, the selected sub-windows are directly jumped and displayed. The same can be displayed to page c2 by a click operation on the head portrait of the friend "one-to-one" in page c 1.

Step S403, responding to the return switching operation aiming at the child window in the first display area, and displaying the multi-window page jump switching as the page where the conversation window of the business object corresponding to the child window in the first display area is located;

specifically, in response to the return switching operation for the child window in the first display area, the multi-window page jump switching may be displayed as the page where the session window of the service object corresponding to the child window in the first display area is located. For example, in response to a click operation for the conversation box d1 in the page c2, the multi-window page c2 may jump to the page c3 where the conversation window displayed as "one-to-one" of the buddies in the selected state is located. Due to the return switching operation acquired in the session box d1, correspondingly, an input box d2 can pop up in the page c3, so that the first user can quickly enter a message for replying to friends one by one.

Optionally, when the click operation of the head portrait of the friend "one to one" in the page c1 is obtained, the page c3 where the conversation window of the friend "one to one" is located may be directly skipped to, and at this time, the input box d2 may be popped up, or the input box d2 may not be popped up. In addition, when the click operation on the dialog box d1 in the page c2 is acquired, the reply message can be directly entered into the child window corresponding to the friend in the multi-window page one-to-one, and the reply message is sent, and the process can be completed in the multi-window page all the time.

Please refer to fig. 8, which is a schematic flow chart of another interface operation method provided in the present application, and as shown in fig. 8, the method may include:

step S404, responding to the message browsing operation aiming at the target sub-window, and scrolling and displaying the message in the target sub-window; updating the message state of each message in the target sub-window according to the rolling display result, and updating the number of unread messages in the object identifier corresponding to the target sub-window based on the updated message state;

specifically, the sub-window in the first display area is referred to as a target sub-window, and the message browsing operation for the target sub-window may be responded, for example, the target sub-window is a sub-window corresponding to friend "two", and the message in the sub-window corresponding to friend "two" may be scroll-displayed according to the up-down sliding operation in response to the up-down sliding operation for the sub-window corresponding to friend "two" shown in the area d 6. The message status of each message in the target sub-window may be updated according to the scrolling result, for example, when the up-down sliding operation is performed, the message status of the new message that is scrolled and displayed in the sub-window is set to be the read status, and the message status of the new message that is not scrolled and displayed in the sub-window is set to be the unread status. The number of messages with the unread state in the new message is obtained in real time, and the number of the obtained messages with the unread state is used for updating the number of the unread messages in the object identifier corresponding to the target sub-window, that is, the messages in the sub-window corresponding to the friend "two" are displayed in a rolling manner by sliding up and down in the page c4, since 3 new messages "cheela", "hip-hop" and "haha" are all displayed in a rolling manner, the number of the messages with the unread state in the sub-window corresponding to the friend "two" is 0, the unread messages in the head portrait of the friend "two" in the page c5 are 0, and the unread messages can not be displayed when the number of the unread messages is 0.

Optionally, when the message browsing operation in the target sub-window (the sub-window corresponding to the buddy "two" in the page c 4) is obtained, timing is started, for example, when the sub-window corresponding to the buddy "two" in the c4 is slid up and down, timing is started, and a timing duration is obtained. When the timing duration reaches the timing duration threshold, the number of unread messages in the object identifier corresponding to the target sub-window may be cancelled, that is, when the message browsing operation is acquired, after a certain time, the states of the new messages are all directly set to the read state, at this time, the number of messages in the new messages whose message states are unread states is 0, and the messages may be displayed differently and cancelled directly, as shown in fig. 8, the object identifier in the area d3 is changed into the object identifier in the area d 4.

Step S405, when the page is in the multi-window page, obtaining the update message corresponding to each business object; the message states of the update messages are all unread states; respectively outputting the updating messages to the sub-windows to which the updating messages belong, and updating the number of unread messages in the object identification to which the updating messages belong according to the number of the messages of the updating messages;

specifically, when the mobile terminal is in the multi-window page, a new message corresponding to each service, for example, a new message of each friend, may be obtained in real time, and the new message is referred to as an update message. The message states of the obtained update messages are all unread states, and the obtained update messages can be output to the sub-windows to which the update messages belong. And updating the unread message number in the object identifier according to the number of the updated messages output to the child window. For example, at this time, in the page c5, the update message "current" sent by the friend "two" to the first user is acquired, then the page c6 may be displayed, and the update message "current" sent by the friend "two" to the first user is already output and displayed in the sub-window corresponding to the friend "two" in the page c 6. Furthermore, since 1 update message sent by the friend "two" to the first user is received, the number of unread messages in the avatar of the friend "two" of the page c6 changes from 0 to 1, and the number of unread messages 1 can be eliminated by the browsing operation of the first user in the sub-window corresponding to the friend "two". In addition, in the page c6, the friend "one to one" also sends 1 update message to the first user, and correspondingly, the number of unread messages in the head portrait of the friend "one to one" is also changed from 2 to 3. Meanwhile, in the page c6, the friend "three" also sends 2 update messages to the first user, and correspondingly, the number of unread messages in the head portrait of the friend "three" is changed from 4 to 6, as shown in fig. 8, the object identifier in the area d4 is changed to the object identifier in the area d 5. By acquiring the new message sent by the friend to the first user in real time in the multi-window interface and displaying the acquired new message in the sub-window to which the new message belongs, the first user can check the new message sent by the friend to the first user in real time even in a multi-window page without delaying the time for checking the new message. In the whole process of displaying the multi-window page, the multi-window page is dynamic, dynamically acquires the new message and displays the new message in real time.

Step S406, responding to a return switching operation aiming at the child window in the first display area, and skipping and switching the multi-window page to display the multi-window page as a page where a conversation window of a business object corresponding to the child window in the first display area is located;

specifically, in response to a return switching operation for a target sub-window (i.e., a sub-window displayed in the first display region), the multi-window page is switched and displayed as a page where a session window of a service object corresponding to the target sub-window is located. For example, in response to the return switching operation in the child window corresponding to the friend "two" in the page c6, the obtaining manner may be a blank position in the child window corresponding to the friend "two", a blank position in the child window corresponding to the double click friend "two", or a blank position in the child window corresponding to the sliding friend "two", and a specific obtaining manner of the return switching operation is determined according to an actual application scenario, which is not limited herein. When the return switching operation in the page c6 is acquired, the multi-window page c6 can be switched and displayed as a page c7, and the page c7 is the page where the conversation window of the friend's second two' is located.

Please refer to fig. 9a, which is a schematic interface diagram of a multi-window page provided in the present application. As shown in fig. 9a, the multi-window page y1 includes 5 sub-windows, which are sub-window 1, sub-window 2, sub-window 3, sub-window 4, and sub-window 5, where the number of sub-windows is determined according to an actual application scenario, and is not limited herein. Wherein, the object marks of the 5 sub-windows are respectively (i), (ii), (iii), (iv) and (iv). The object identifiers of the 5 sub-windows may be displayed in turn in the region x1 in the multi-window page. In addition to the horizontal overlay display of the sub-windows in the multi-window page described in fig. 7 and 8, a vertical overlay display like that shown in fig. 9a is also possible. The user can slide the multi-window page up and down to realize the switching display of the sub-windows in the multi-window page. Each sub-window further includes a close button, for example, the sub-window 1 includes a close button g, and when a click operation on the close button g is acquired, the sub-window 1 may be removed from the multi-window page y1 in response to the click operation, that is, the sub-window 1 is closed. For example, when the multi-window page y1 is slid down, it may be displayed as page y2, at which time, the selected sub-window changes from sub-window 1 to sub-window 2, and the corresponding selected object identifier changes from object identifier (r) to object identifier (c), as shown in fig. 9a, the border of the selected object icon changes from circle to square. When the sub-window in the multi-window page y1 is switched by sliding up and down, the object identifier corresponding to the sub-window, that is, the object identifier in the region x1, will also follow the left-right scrolling, that is, by performing the up-down sliding operation on the multi-window page y1, the object identifier in the region x1 in y1 can be displayed as the object identifier in the region x2 in the multi-window page y 2. And keeping linkage between the child window and the object identifier to which the child window belongs, namely keeping the selection state as the selected state or keeping the selection state as the candidate state.

Please refer to fig. 9b, which is a schematic interface diagram of another multi-window page provided in the present application. As shown in fig. 9b, the multi-window page y3 includes 5 sub-windows, which are sub-window 1, sub-window 2, sub-window 3, sub-window 4, and sub-window 5, where the number of sub-windows is determined according to an actual application scenario, and is not limited herein. Wherein, the object marks of the 5 sub-windows are respectively (i), (ii), (iii), (iv) and (iv). The object identifiers of the 5 sub-windows may be displayed in turn in the region x3 in the multi-window page. Among them, the multi-window page y3 may be slid up and down to switch the display of the sub-windows. When the sub-window in the multi-window page y3 is switched by sliding up and down, the object identifier corresponding to the sub-window, that is, the object identifier in the region x3, will also follow up scrolling up and down, that is, by performing the up-and-down sliding operation on the multi-window page y3, the object identifier in the region x3 in y3 can be displayed as the object identifier in the region x4 in the multi-window page y 4. And keeping linkage between the child window and the object identifier to which the child window belongs, namely keeping the selection state as the selected state or keeping the selection state as the candidate state.

Please refer to fig. 9c, which is a schematic interface diagram of another multi-window page provided in the present application. As shown in fig. 9c, the multi-window page y5 includes 5 sub-windows, which are sub-window 1, sub-window 2, sub-window 3, sub-window 4, and sub-window 5, where the number of sub-windows is determined according to an actual application scenario, and is not limited herein. Besides the display modes of the sub-windows in the multi-window page described in fig. 7, fig. 8, fig. 9a, and fig. 9b, the sub-windows may be sequentially displayed instead of being displayed in an overlapping manner as shown in fig. 9c, that is, the sub-windows are not blocked from each other. By sliding the multi-window page y5 up and down, it is also possible to switch between displaying different sub-windows in the multi-window page. For example, when the multi-window page y5 is slid upward, the multi-window page y5 may be displayed as the multi-window page y6, as shown in fig. 9a, with the border of the selected object icon changed from a circle to a square.

Please refer to fig. 10, which is a schematic structural diagram of a data processing apparatus provided in the present application. As shown in fig. 10, the data processing apparatus 1 may include: a first acquisition module 101, a second acquisition module 102 and a switching display module 103;

a first obtaining module 101, configured to obtain service data of multiple service objects in a target application in response to a trigger operation in a main window in the target application;

a second obtaining module 102, configured to obtain a sub-window corresponding to each service object; each sub-window is used for browsing the service data of the service object;

and the switching display module 103 is configured to switch the page where the main window is located into a multi-window page, and perform multi-window synchronous display on each sub-window in the multi-window page.

For specific implementation of functions of the first obtaining module 101, the second obtaining module 102, and the switching display module 103, please refer to steps S101 to S103 in the embodiment corresponding to fig. 2, which is not described herein again.

The second obtaining module 102 includes a first obtaining unit 1021, an adding unit 1022, and a setting unit 1023:

a first obtaining unit 1021, configured to obtain a child window template; the child window template is used for generating the child window;

an adding unit 1022, configured to add the service data corresponding to each service object to the sub-window templates, respectively, and obtain a service window corresponding to each service object according to the sub-window template to which the service data has been added;

and the setting unit 1023 is used for setting browsing permission for each business window respectively and determining the business window with the browsing permission as a sub-window corresponding to the business object.

For a specific implementation manner of the functions of the first obtaining unit 1021, the adding unit 1022, and the setting unit 1023, please refer to steps S203-S205 in the corresponding embodiment of fig. 4, which is not described herein again.

The first obtaining module 101 includes a detecting unit 1011 and a second obtaining unit 1012:

a detecting unit 1011, configured to detect object states of all business objects in a target application in response to a trigger operation in a main window in the target application; the object state comprises a message unread state and a message read state;

a second obtaining unit 1012, configured to obtain service data of a service object whose object state is the message unread state.

For a specific implementation manner of the functions of the detecting unit 1011 and the second obtaining unit 1012, please refer to steps S201 to S202 in the corresponding embodiment of fig. 4, which is not described herein again.

The switching display module 103 includes an order determination unit 1031, an array adding unit 1032, and an output unit 1033:

a sequence determining unit 1031, configured to obtain a message receiving timestamp of each service object, and determine an arrangement sequence of the sub-windows corresponding to each service object according to the message receiving timestamp;

an array adding unit 1032, configured to add the child window corresponding to each service object to the first object array according to the arrangement order;

an output unit 1033, configured to output each sub-window in the first object array to the multi-window page in sequence, and perform multi-window synchronous display on each sub-window in the first object array in the multi-window page.

For specific functional implementation manners of the sequence determining unit 1031, the array adding unit 1032 and the output unit 1033, please refer to steps S206 to S208 in the embodiment corresponding to fig. 4, which is not described herein again.

Wherein the business object further comprises an attention object;

the output unit 1033 includes a priority sub-unit 10331, an array updating sub-unit 10332, and an output sub-unit 10333:

a priority subunit 10331, configured to set the arrangement priority of the sub-window corresponding to the attention object as a first priority, and set the arrangement priority of the sub-window corresponding to the remaining service objects as a second priority; the rest service objects refer to the service objects except the concerned object in the service objects with the object state being the unread message state;

an array updating subunit 10332, configured to update an arrangement order of each sub-window in the first object array according to the first priority and the second priority, so as to obtain a second object array;

an output subunit 10333, configured to output each sub-window in the second object array to the multi-window page in sequence, and perform multi-window synchronous display on each sub-window in the second object array in the multi-window page.

For a specific implementation manner of the functions of the priority sub-unit 10331, the array updating sub-unit 10332, and the output sub-unit 10333, please refer to steps S209 to S211 in the embodiment corresponding to fig. 4, which is not described herein again.

The multi-window page comprises a first display area and a second display area; the first display area is used for displaying a sub-window of a selected state; the second display area is used for displaying the sub-window of the state to be selected; the data processing apparatus 1 further includes a first area switching module 104:

a first region switching module 104, configured to respond to a switching operation for the multi-window page, jump and switch the sub-windows in the first display region to the second display region, acquire a sub-window selected based on the switching operation, and jump and switch and display the selected sub-window from the second display region to the first display region.

Please refer to step S401 in the embodiment corresponding to fig. 7, where details of the function of the first area switching module 104 are not repeated here.

Wherein the switching operation comprises a slide switching operation; the first area switching module 104 includes a sliding response unit 1041, a parameter determining unit 1042, a first area switching unit 1043, and a second area switching unit 1044:

a sliding response unit 1041, configured to respond to a sliding switching operation for the multi-window page, obtain a sliding trajectory corresponding to the sliding switching operation, and obtain sliding information corresponding to the sliding trajectory; the sliding information comprises a sliding distance, a sliding speed and a sliding direction;

a parameter determining unit 1042, configured to determine, according to the sliding information, an animation switching parameter for the child window;

a first region switching unit 1043, configured to slide, switch and display the sub-window in the first display region to the second display region according to the animation switching parameter;

and a second area switching unit 1044 configured to acquire the selected sub-window based on the sliding track, and slide and switch the selected sub-window from the second display area to the first display area according to the animation switching parameter.

For a specific implementation manner of functions of the sliding response unit 1041, the parameter determining unit 1042, the first area switching unit 1043, and the second area switching unit 1044, please refer to step S401 in the corresponding embodiment of fig. 7, which is not described herein again.

The data processing apparatus 1 further includes a setting module 105, an association module 106, and an identifier display module 107:

a setting module 105, configured to set an object identifier of the service object corresponding to each child window respectively;

the association module 106 is configured to perform state association between each object identifier and the corresponding child window; the object identification after the state association is consistent with the selection state of the sub-window to which the object identification belongs; the selection state comprises a selection state and a to-be-selected state;

and an identifier display module 107, configured to display the object identifiers with the associated states in an identifier display area corresponding to a sub-window to which each object identifier belongs in the multi-window page.

For specific implementation of functions of the setting module 105, the association module 106, and the identifier display module 107, please refer to steps S301 to S303 in the embodiment corresponding to fig. 5, which is not described herein again.

The multi-window page comprises a first display area and a second display area; the first display area is used for displaying a sub-window of a selected state; the second display area is used for displaying the sub-window of the state to be selected; the data processing apparatus 1 further includes an identifier selecting module 108, a second area switching module 109, and a return switching module 110:

the identifier selection module 108 is configured to, in response to a selection operation for the object identifier, jump and switch the sub-window in the first display area to be displayed in the second display area;

a second region switching module 109, configured to acquire a sub-window selected based on the selection operation, and switch and display the selected sub-window from the second display region to the first display region in a skipping manner;

a return switching module 110, configured to respond to a return switching operation for the child window in the first display area, and display the multi-window page jump switch as a page where the session window of the service object corresponding to the child window in the first display area is located.

For a specific implementation manner of the functions of the identifier selecting module 108, the second area switching module 109, and the return switching module 110, please refer to step S402 in the corresponding embodiment of fig. 7, which is not described herein again.

the data processing apparatus 1 further includes a browsing response module 111 and a first identifier updating module 112:

a browsing response module 111, configured to respond to a message browsing operation for the target sub-window, and scroll and display a message in the target sub-window;

a first identifier updating module 112, configured to update a message status of each message in the target sub-window according to the scrolling display result, and update the number of unread messages in the object identifier corresponding to the target sub-window based on the updated message status; the message states include a read state and an unread state.

For a specific implementation manner of the functions of the browsing response module 111 and the first identifier updating module 112, please refer to step S404 in the corresponding embodiment of fig. 8, which is not described herein again.

Wherein, the data processing apparatus 1 further includes a message obtaining module 113 and a second identifier updating module 114:

a message obtaining module 113, configured to obtain, when the multi-window page is located, an update message corresponding to each service object; the message states of the update messages are all unread states;

and the second identifier updating module 114 is configured to output the update messages to the corresponding sub-windows respectively, and update the number of unread messages in the corresponding object identifiers according to the number of messages of the update messages.

For a specific implementation manner of the functions of the message obtaining module 113 and the second identifier updating module 114, please refer to step S405 in the corresponding embodiment of fig. 8, which is not described herein again.

Please refer to fig. 11, which is a schematic structural diagram of another data processing apparatus provided in the present application. As shown in fig. 11, the data processing apparatus 1000 may include: the processor 1001, the network interface 1004, and the memory 1005, and the data processing apparatus 1000 may further include: a user interface 1003, and at least one communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display) and a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface and a standard wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). 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 optionally be at least one memory device located remotely from the processor 1001. As shown in fig. 11, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a device control application program.

In the data processing apparatus 1000 shown in fig. 11, the network interface 1004 may provide a network communication function; the user interface 1003 is an interface for providing a user with input; and the processor 1001 may be used to invoke a device control application stored in the memory 1005 to implement:

It should be understood that the data processing apparatus 1000 described in this application may perform the description of the data processing method in the embodiment corresponding to any one of fig. 2 and fig. 4, and may also perform the description of the data processing apparatus 1 in the embodiment corresponding to fig. 10, which is not described herein again. In addition, the beneficial effects of the same method are not described in detail.

Further, here, it is to be noted that: the present application further provides a computer-readable storage medium, and the computer-readable storage medium stores therein the aforementioned computer program executed by the data processing apparatus 1, and the computer program includes program instructions, and when the processor executes the program instructions, the description of the data processing method in the embodiment corresponding to any one of fig. 2 and fig. 4 can be executed, so that details will not be repeated here. In addition, the beneficial effects of the same method are not described in detail. For technical details not disclosed in the embodiments of the computer storage medium to which the present invention relates, reference is made to the description of the method embodiments of the present invention.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is not to be construed as limiting the scope of the present invention, therefore, the present invention is not limited by the appended claims.

Claims

1. A data processing method, comprising:

2. The method according to claim 1, wherein the obtaining of the sub-windows corresponding to the business objects respectively comprises:

acquiring a sub-window template; the child window template is used for generating the child window;

respectively adding the business data corresponding to each business object into the sub-window template, and obtaining a business window corresponding to each business object according to the sub-window template added with the business data;

and respectively setting browsing authority for each business window, and determining the business window with the browsing authority as a sub-window corresponding to the business object.

3. The method of claim 1, wherein the obtaining business data of a plurality of business objects in a target application in response to a trigger operation in a main window in the target application comprises:

responding to a trigger operation in a main window in a target application, and detecting object states of all business objects in the target application; the object state comprises a message unread state and a message read state;

and acquiring the service data of the service object of which the object state is the unread message state.

4. The method according to claim 3, wherein the switching the page where the main window is located to a multi-window page, and performing multi-window synchronous display on each sub-window in the multi-window page comprises:

acquiring a message receiving time stamp of each service object, and determining the arrangement sequence of the sub-windows corresponding to each service object according to the message receiving time stamp;

adding the sub-window corresponding to each business object into a first object array according to the arrangement sequence;

and sequentially outputting each sub-window in the first object array to the multi-window page, and performing multi-window synchronous display on each sub-window in the first object array in the multi-window page.

5. The method of claim 4, wherein the business object further comprises an object of interest;

the sequentially outputting each sub-window in the first object array to the multi-window page, and performing multi-window synchronous display on each sub-window in the multi-window page includes:

setting the arrangement priority of the sub-windows corresponding to the concerned object as a first priority, and setting the arrangement priority of the sub-windows corresponding to the rest service objects as a second priority; the rest service objects refer to the service objects except the concerned object in the service objects with the object state being the unread message state;

updating the arrangement sequence of each sub-window in the first object array according to the first priority and the second priority to obtain a second object array;

and sequentially outputting each sub-window in the second object array to the multi-window page, and performing multi-window synchronous display on each sub-window in the second object array in the multi-window page.

6. The method of claim 1, wherein the multi-window page comprises a first presentation area and a second presentation area; the first display area is used for displaying a sub-window of a selected state; the second display area is used for displaying the sub-window of the state to be selected; the method further comprises the following steps:

responding to the switching operation aiming at the multi-window page, skipping, switching and displaying the sub-windows in the first display area to the second display area, acquiring the sub-windows selected based on the switching operation, skipping, switching and displaying the selected sub-windows from the second display area to the first display area.

7. The method of claim 1, wherein the switching operation comprises a sliding switching operation; the responding to the switching operation aiming at the multi-window page, skipping and switching the sub-window in the first display area to be displayed in the second display area, acquiring the sub-window selected based on the switching operation, skipping and switching the selected sub-window from the second display area to be displayed in the first display area, and the method comprises the following steps:

responding to the sliding switching operation aiming at the multi-window page, acquiring a sliding track corresponding to the sliding switching operation, and acquiring sliding information corresponding to the sliding track; the sliding information comprises a sliding distance, a sliding speed and a sliding direction;

determining animation switching parameters aiming at the sub-windows according to the sliding information;

according to the animation switching parameter, switching and displaying the sub-window in the first display area to the second display area in a sliding manner;

and acquiring the selected sub-window based on the sliding track, and according to the animation switching parameter, sliding, switching and displaying the selected sub-window from the second display area to the first display area.

8. The method of claim 1, further comprising:

respectively setting an object identifier of a business object corresponding to each sub-window;

performing state association on each object identifier and the corresponding child window; the object identification after the state association is consistent with the selection state of the sub-window to which the object identification belongs; the selection state comprises a selection state and a to-be-selected state;

and respectively displaying the object identifications subjected to state association in the identification display area corresponding to the sub-window to which each object identification belongs in the multi-window page.

9. The method of claim 8, wherein the multi-window page comprises a first presentation area and a second presentation area; the first display area is used for displaying a sub-window of a selected state; the second display area is used for displaying the sub-window of the state to be selected; the method further comprises the following steps:

responding to the selection operation aiming at the object identification, and skipping and switching the sub-window in the first display area to display in the second display area;

acquiring a selected sub-window based on the selection operation, and skipping, switching and displaying the selected sub-window from the second display area to the first display area;

responding to the return switching operation aiming at the child window in the first display area, and displaying the multi-window page jump switching as the page where the conversation window of the business object corresponding to the child window in the first display area is located.

10. The method according to claim 8, wherein the object id includes the number of unread messages; the number of the unread messages is the number of the unread messages in the service data corresponding to the service object; the sub-window in the first display area is a target sub-window;

further comprising:

responding to the message browsing operation aiming at the target sub-window, and scrolling and displaying the message in the target sub-window;

updating the message state of each message in the target sub-window according to the rolling display result, and updating the number of unread messages in the object identifier corresponding to the target sub-window based on the updated message state; the message states include a read state and an unread state.

11. The method of claim 9 or 10, further comprising:

when the business object is positioned on the multi-window page, acquiring an updating message corresponding to each business object; the message states of the update messages are all unread states;

and respectively outputting the update messages to the sub-windows to which the update messages belong, and updating the number of unread messages in the object identifier to which the update messages belong according to the number of the messages of the update messages.

12. A data processing apparatus, comprising:

13. The apparatus of claim 12, wherein the second obtaining module comprises:

14. A data processing apparatus, comprising: a processor and a memory;

the processor is connected to a memory, wherein the memory is used for storing a computer program, and the processor is used for calling the computer program to execute the method according to any one of claims 1-11.

15. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program comprising program instructions which, when executed by a processor, perform the method according to any one of claims 1-11.