CN114827642A - Live broadcast room approach method and device based on cover track drawing and computer equipment - Google Patents

Abstract

The application relates to the technical field of network live broadcast, and provides a live broadcast room approach method and device based on cover track drawing and computer equipment, wherein the method comprises the following steps: responding to a live broadcast room list loading instruction, and loading a live broadcast room list according to live broadcast room list data; if the direct broadcasting room mark comprises a first direct broadcasting room mark, drawing board data according to the track, and loading a track drawing board on a direct broadcasting room cover corresponding to the first direct broadcasting room mark; wherein, a first track is displayed on the track drawing picture plate; displaying a second trajectory currently drawn by the user on the trajectory drawing screen according to the second trajectory drawing data in response to the second trajectory drawing instruction; and responding to a second track drawing ending instruction, and loading the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier. Compared with the prior art, the method and the device enrich the front cover interaction mode that the user enters the live broadcast room, and are beneficial to improving the live broadcast room entrance experience of the user.

Description

Live broadcast room approach method and device based on cover track drawing and computer equipment

Technical Field

The embodiment of the application relates to the technical field of network live broadcast, in particular to a live broadcast room approach method and device based on cover track drawing and computer equipment.

Background

With the rapid development of the internet and streaming media technology, various live broadcast application programs emerge endlessly, and participation in network live broadcast becomes a daily entertainment mode for many people.

In a network live broadcast scene, a viewer can access a live broadcast application program installed on a viewer client, the viewer client is triggered to load a live broadcast application program interface for the viewer client, a live broadcast room list can be displayed in the live broadcast application program interface, and then the viewer can enter a corresponding live broadcast room to watch live broadcast by clicking any live broadcast room cover in the live broadcast room list.

At present, because spectator's front cover interactive mode who gets into the live broadcast room is comparatively single, only can get into through the mode of clicking the live broadcast room front cover, therefore, be unfavorable for improving spectator's live broadcast room approach experience, be difficult to improve spectator and anchor's interactive enthusiasm, also can't improve live broadcast room front cover to spectator's attraction degree, guide more spectators to get into the live broadcast room.

Disclosure of Invention

The embodiment of the application provides a live broadcast room approach method, a live broadcast room approach device and computer equipment based on front cover track drawing, which can solve the technical problem that the front cover interaction mode of audiences entering the live broadcast room is single and is not beneficial to improving the live broadcast room approach experience of the audiences, and the technical scheme is as follows:

in a first aspect, an embodiment of the present application provides a live broadcast room approach method based on cover track drawing, including the steps of:

the method comprises the steps that a spectator client responds to a live broadcast room list loading instruction to obtain live broadcast room list data, and a live broadcast room list is loaded according to the live broadcast room list data; the live broadcast room list comprises live broadcast room covers corresponding to a plurality of live broadcast room identifications;

if a first live broadcast room identifier exists in the live broadcast room identifier, the audience client side obtains track drawing board data, draws the drawing board data according to the track, and loads a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; wherein a first track is displayed on the track drawing picture board;

the audience client-side responds to a second track drawing instruction to obtain second track drawing data, and displays a second track drawn by a current user on the track drawing picture board according to the second track drawing data;

and the audience client responds to a second track drawing finishing instruction to acquire live broadcast room data corresponding to the first live broadcast room identification, and loads the live broadcast room corresponding to the first live broadcast room identification according to the live broadcast room data corresponding to the first live broadcast room identification.

In a second aspect, an embodiment of the present application provides a live broadcast room approach device based on cover track drawing, including:

the system comprises a first acquisition unit, a second acquisition unit and a live broadcast room list loading unit, wherein the first acquisition unit is used for responding to a live broadcast room list loading instruction by a viewer client, acquiring live broadcast room list data and loading a live broadcast room list according to the live broadcast room list data; the live broadcast room list comprises live broadcast room covers corresponding to a plurality of live broadcast room identifications;

the first loading unit is used for acquiring track drawing board data by the audience client if a first live broadcast room identifier exists in the live broadcast room identifiers, drawing the drawing board data according to the track, and loading a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; wherein a first track is displayed on the track drawing picture board;

the first drawing unit is used for responding to a second track drawing instruction by the audience client, acquiring second track drawing data, and displaying a second track drawn by a current user on the track drawing picture board according to the second track drawing data;

and the first entrance unit is used for responding to a second track drawing ending instruction by the audience client, acquiring live broadcast room data corresponding to the first live broadcast room identifier, and loading the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

In a third aspect, embodiments of the present application provide a computer device, a processor, a memory, and a computer program stored in the memory and executable on the processor, where the processor implements the steps of the method according to the first aspect when executing the computer program.

In a fourth aspect, the present application provides a computer-readable storage medium, which stores a computer program, and when the computer program is executed by a processor, the computer program implements the steps of the method according to the first aspect.

In the embodiment of the application, the audience client side responds to a live broadcast room list loading instruction to acquire live broadcast room list data and loads a live broadcast room list according to the live broadcast room list data; the live broadcast room list comprises live broadcast room covers corresponding to a plurality of live broadcast room identifications; if the first live broadcast room identifier exists in the live broadcast room identifiers, the audience client side obtains track drawing board data, draws the drawing board data according to the track, and loads a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; wherein, a first track is displayed on the track drawing picture board; the audience client-side responds to the second track drawing instruction to obtain second track drawing data, and displays a second track drawn by the current user on the track drawing picture board according to the second track drawing data; and the audience client responds to the second track drawing ending instruction to acquire the live broadcast room data corresponding to the first live broadcast room identifier, and loads the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier. The embodiment of the application loads the track on the live broadcast room cover that first live broadcast room sign corresponds and draws the drawing board, thereby when current user draws the drawing board interaction with the track, demonstrate the second track that current user drawn in the track drawing board, and draw the live broadcast room that the first live broadcast room sign of present user loading corresponds when finishing, and then richened the user and got into the cover interactive mode of live broadcast room, make the user can reach the purpose that gets into the live broadcast room through drawing the track, not only be favorable to improving user's live broadcast room entrance experience, improve user's interactive enthusiasm, more be favorable to improving the attraction degree of live broadcast room cover to the user, attract more users to get into the live broadcast room.

For a better understanding and implementation, the technical solutions of the present application are described in detail below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic view of an application scenario of a live broadcast room approach method based on cover track drawing according to an embodiment of the present application;

fig. 2 is a schematic display diagram of a live view list provided in an embodiment of the present application;

fig. 3 is a schematic flowchart of a live broadcast room approach method based on cover track drawing according to a first embodiment of the present application;

fig. 4 is a display schematic diagram of a trajectory drawing board provided in an embodiment of the present application;

fig. 5 is another schematic flow chart of a live telecast approach method based on cover track drawing according to the first embodiment of the present application;

fig. 6 is another display schematic diagram of a trajectory drawing board provided in an embodiment of the present application;

FIG. 7 is a schematic diagram illustrating a display of a bonus popup in a live broadcast interface according to an embodiment of the present application;

fig. 8 is a schematic flowchart of a live telecast approach method based on cover track drawing according to a first embodiment of the present application;

fig. 9 is a schematic diagram of still another display of a trajectory drawing board provided in an embodiment of the present application;

fig. 10 is a schematic flowchart of a live broadcast room approach method based on cover track drawing according to a second embodiment of the present application;

fig. 11 is another schematic flow chart of a live telecast approach method based on cover track drawing according to a second embodiment of the present application;

fig. 12 is a schematic flowchart of a live telecast approach method based on cover track drawing according to a second embodiment of the present application;

FIG. 13 is a schematic diagram of a display of a cover configuration control provided by an embodiment of the present application;

fig. 14 is a display diagram of a track configuration control provided in an embodiment of the present application;

fig. 15 is a schematic flowchart of a live broadcast room approach method based on cover track drawing according to a third embodiment of the present application;

fig. 16 is another schematic flow chart of a live telecine method based on cover track drawing according to a third embodiment of the present application;

fig. 17 is a schematic flowchart of a live telecast approach method based on cover track drawing according to a third embodiment of the present application;

fig. 18 is a schematic flowchart of a live broadcast room approach method based on cover track drawing according to a fourth embodiment of the present application;

fig. 19 is another schematic flow chart of a live telecast approach method based on cover track drawing according to a fourth embodiment of the present application;

fig. 20 is a schematic flowchart of a live telecast approach method based on cover track drawing according to a fourth embodiment of the present application;

fig. 21 is a schematic structural diagram of a live room approach device based on cover track drawing according to a fifth embodiment of the present application;

fig. 22 is a schematic structural diagram of a computer device according to a sixth embodiment of the present application.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It should be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if/if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

As will be appreciated by those skilled in the art, the terms "client," "terminal device," and "terminal device" as used herein include both wireless signal receiver devices, which include only wireless signal receiver devices without transmit capability, and receiving and transmitting hardware devices, which include receiving and transmitting hardware devices capable of two-way communication over a two-way communication link. Such a device may include: cellular or other communication devices such as personal computers, tablets, etc. having single or multi-line displays or cellular or other communication devices without multi-line displays; PCS (personal communications Service), which may combine voice, data processing, facsimile and/or data communications capabilities; a PDA (Personal Digital Assistant), which may include a radio frequency receiver, a pager, internet/intranet access, a web browser, a notepad, a calendar and/or a GPS (Global positioning system) receiver; a conventional laptop and/or palmtop computer or other device having and/or including a radio frequency receiver. As used herein, a "client," "terminal device" can be portable, transportable, installed in a vehicle (aeronautical, maritime, and/or land-based), or situated and/or configured to operate locally and/or in a distributed fashion at any other location(s) on earth and/or in space. The "client", "terminal Device" used herein may also be a communication terminal, a web terminal, a music/video playing terminal, such as a PDA, an MID (Mobile Internet Device) and/or a Mobile phone with music/video playing function, and may also be a smart tv, a set-top box, and the like.

The hardware referred to by the names "server", "client", "service node", etc. is essentially a computer device with the performance of a personal computer, and is a hardware device having necessary components disclosed by the von neumann principle, such as a central processing unit (including an arithmetic unit and a controller), a memory, an input device, an output device, etc., wherein a computer program is stored in the memory, and the central processing unit loads a program stored in an external memory into the internal memory to run, executes instructions in the program, and interacts with the input and output devices, thereby accomplishing specific functions.

It should be noted that the concept of "server" as referred to in this application can be extended to the case of a server cluster. According to the network deployment principle understood by those skilled in the art, the servers should be logically divided, and in physical space, the servers may be independent from each other but can be called through an interface, or may be integrated into one physical computer or a set of computer clusters. Those skilled in the art will appreciate this variation and should not be so limited as to restrict the implementation of the network deployment of the present application.

Referring to fig. 1, fig. 1 is a schematic view of an application scene of a live broadcast room approach method based on cover track drawing according to an embodiment of the present application, where the application scene includes an anchor client 101, a server 102, and a viewer client 103, and the anchor client 101 and the viewer client 103 interact with each other through the server 102.

The proposed clients of the embodiment of the present application include the anchor client 101 and the viewer client 103.

It is noted that there are many understandings of the concept of "client" in the prior art, such as: it may be understood as an application program installed in a computer device, or may be understood as a hardware device corresponding to a server.

In the embodiments of the present application, the term "client" refers to a hardware device corresponding to a server, and more specifically, refers to a computer device, such as: smart phones, smart interactive tablets, personal computers, and the like.

When the client is a mobile device such as a smart phone and an intelligent interactive tablet, a user can install a matched mobile application program on the client and can also access a Web application program on the client.

When the client is a non-mobile device such as a Personal Computer (PC), the user can install a matching PC application on the client, and similarly can access a Web application on the client.

The mobile terminal application refers to an application program that can be installed in the mobile device, the PC terminal application refers to an application program that can be installed in the non-mobile device, and the Web terminal application refers to an application program that needs to be accessed through a browser.

Specifically, the Web application program may be divided into a mobile version and a PC version according to the difference of the client types, and the page layout modes and the available server support of the two versions may be different.

In the embodiment of the application, the types of live application programs provided to the user are divided into a mobile end live application program, a PC end live application program and a Web end live application program. The user can autonomously select a mode of participating in the live webcasting according to different types of the client adopted by the user.

The present application can divide the clients into a main broadcasting client 101 and a spectator client 103, depending on the identity of the user using the clients.

The anchor client 101 is a client that transmits a live video, and is generally a client used by an anchor (i.e., a live anchor user) in live streaming.

The viewer client 103 refers to an end that receives and views a live video, and is typically a client employed by a viewer viewing a video in a live network (i.e., a live viewer user).

The hardware at which the anchor client 101 and viewer client 103 are directed is essentially a computer device, and in particular, as shown in fig. 1, it may be a type of computer device such as a smart phone, smart interactive tablet, and personal computer. Both the anchor client 101 and the viewer client 103 may access the internet via known network access means to establish a data communication link with the server 102.

Server 102, acting as a business server, may be responsible for further connecting with related audio data servers, video streaming servers, and other servers providing related support, etc., to form a logically associated server cluster for serving related terminal devices, such as anchor client 101 and viewer client 103 shown in fig. 1.

In the embodiment of the present application, the anchor client 101 and the audience client 103 may join in the same live broadcast room (i.e., a live broadcast channel), where the live broadcast room is a chat room implemented by means of an internet technology, and generally has an audio/video broadcast control function. The anchor user performs live broadcast in the live broadcast room through the anchor client 101, and the audience of the audience client 103 can log in the server 102 to enter the live broadcast room to watch live broadcast.

In the live broadcast room, interaction between the anchor and the audience can be realized through known online interaction modes such as voice, video, characters and the like, generally, the anchor performs programs for audience users in the form of audio and video streams, and economic transaction behaviors can also be generated in the interaction process. Of course, the application form of the live broadcast room is not limited to online entertainment, and can also be popularized to other relevant scenes, such as a video conference scene, a product recommendation sale scene and any other scenes needing similar interaction.

Specifically, the viewer watches live broadcast as follows: a viewer may click on a live application installed on the viewer client 103 and choose to enter any one of the live rooms, triggering the viewer client 103 to load a live room interface for the viewer, the live room interface including a number of interactive components, for example: the video window, the virtual gift column, the public screen and the like can enable audiences to watch live broadcast in the live broadcast room by loading the interactive components, and perform various online interactions, wherein the online interaction modes comprise but are not limited to giving virtual gifts, speaking on the public screen and the like.

Before spectator gets into the live broadcast room, live broadcast room list can be shown in the live broadcast application program interface, please refer to fig. 2, fig. 2 is the display schematic diagram of the live broadcast room list that this application embodiment provided, it has live broadcast room list 21 to see to show in live broadcast application program interface 2, it has a plurality of live broadcast room cover 211 to show in live broadcast room list 21, spectator can slide the operation on live broadcast room list 21 at present, browse live broadcast room cover 211 in live broadcast room list 21, can also click arbitrary live broadcast room cover 211, get into the corresponding live broadcast room.

Because the cover interactive mode of audience and live broadcast room cover is single at present, if more live broadcast room cover interactive modes can be provided, the method is favorable for attracting audience to enter the live broadcast room and improves the interactive enthusiasm between the audience and the anchor.

Based on the above, the embodiment of the application provides a live broadcast room approach method based on cover track drawing. Referring to fig. 3, fig. 3 is a schematic flow chart of a live broadcast room approach method based on cover track drawing according to a first embodiment of the present application, where the method includes the following steps:

s101: the audience client side responds to the live broadcast room list loading instruction to acquire live broadcast room list data and loads a live broadcast room list according to the live broadcast room list data; wherein, the live broadcast room list comprises live broadcast room covers corresponding to the live broadcast room identifications.

S102: if the first live broadcast room identifier exists in the live broadcast room identifiers, the audience client side obtains track drawing board data, draws the drawing board data according to the track, and loads a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; wherein, the track drawing picture board displays a first track.

S103: and the audience client-side responds to the second track drawing instruction to obtain second track drawing data, and displays a second track drawn by the current user on the track drawing picture board according to the second track drawing data.

S104: and the audience client responds to the second track drawing ending instruction to acquire the live broadcast room data corresponding to the first live broadcast room identifier, and loads the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

In the present embodiment, a live-view approach method based on cover track rendering is described from two execution bodies, i.e., a client and a server. Wherein, the client comprises an anchor client and a spectator client.

In step S101, the viewer client acquires live view list data in response to the live view list loading instruction, and loads the live view list according to the live view list data.

Specifically, the audience client generates a live broadcast room list loading request to the server according to the current user identification.

The server responds to the live broadcast room list loading request, obtains live broadcast room cover data corresponding to the live broadcast room identifications and the live broadcast room identifications, obtains live broadcast room list data according to the live broadcast room cover data corresponding to the live broadcast room identifications and the live broadcast room identification, and then generates and sends a live broadcast room list loading instruction to the audience client.

And the audience client side responds to the live broadcast room list loading instruction to acquire live broadcast room list data and loads the live broadcast room list according to the live broadcast room list data.

The live broadcast room list data at least comprises a plurality of live broadcast room identifications and live broadcast room cover data corresponding to the live broadcast room identifications.

The live room cover data at least includes display data of the live room cover and functional data of the live room cover.

The display data of the live room cover is used to determine the display style, the display size, and the like of the live room cover in the live room list.

The function data of the cover of the live broadcast room is used for realizing the function that audiences enter the corresponding live broadcast room through interacting with the cover of the live broadcast room.

The live broadcast room list comprises live broadcast room covers corresponding to the live broadcast room identifications.

Regarding step S102, if the first live broadcast room identifier exists in the live broadcast room identifier, the viewer client obtains trajectory drawing board data, draws the board data according to the trajectory, and loads the trajectory drawing board on the live broadcast room cover corresponding to the first live broadcast room identifier.

First, how the viewer client determines whether the first direct broadcast room identifier exists in the direct broadcast room identifiers is described below.

In this embodiment of the application, the first live broadcast room identifier refers to a live broadcast room identifier corresponding to a live broadcast room created by a first anchor, and the first anchor refers to an anchor corresponding to a cover configuration tag.

Specifically, when acquiring the live broadcast room cover data corresponding to the live broadcast room identifications and the live broadcast room identifications, the server firstly screens a plurality of anchor identifications from the candidate anchor pool, and then determines the live broadcast room cover data corresponding to the live broadcast room identifications and the live broadcast room identifications according to the screened anchor identifications.

The first anchor mark corresponding to the cover configuration tag may exist in the anchor marks.

In this embodiment, the first anchor pre-configures the cover of the live room, so that the server configures the tag for the cover when responding to the cover configuration command.

It will be appreciated that the first anchor configures the cover of the live room differently, as will the corresponding cover configuration tags. The description will be specifically made in the second embodiment and the third embodiment.

The specific manner of how the server filters the anchor identifier is not limited herein, and the first anchor identifier may be filtered based on a certain filtering rule, and the embodiment of the present application explains a case where the first anchor identifier is filtered.

In the embodiment of the application, if the first live broadcast room identifier exists in the live broadcast room identifier, the audience client side obtains the track drawing board data, draws the drawing board data according to the track, and loads the track drawing board on the cover of the live broadcast room corresponding to the first live broadcast room identifier.

The track drawing board data comprises display data of the track drawing board and functional data of the track drawing board.

The display data of the track drawing board is used for displaying the track drawing board on the cover of the live broadcast room, and the display size, the display style and the like of the track drawing board are determined.

The functional data of the track drawing board is used for presenting tracks on the drawing board so as to achieve the technical effect that a user draws the tracks on the cover of the live broadcast room. Wherein the user is a viewer.

Referring to fig. 4, fig. 4 is a schematic display diagram of a track drawing board provided in the embodiment of the present application. As can be seen from fig. 4, the trajectory drawing board 41 is displayed on the cover of the live broadcast room, an opaque white layer is presented in the drawing board 41, the cover of the live broadcast room corresponding to the first live broadcast room identifier below is completely covered, and the current user cannot see the cover of the live broadcast room corresponding to the first live broadcast room identifier.

In the embodiment of the application, the track drawing board displays a first track.

In an alternative embodiment, the first track may be a track configured by the server by default, and in another alternative embodiment, the first track may also be a track configured by the first anchor.

With respect to step S103, the viewer client acquires second trajectory drawing data in response to the second trajectory drawing instruction, and displays a second trajectory currently drawn by the user on the trajectory drawing screen according to the second trajectory drawing data.

When the current user draws on the track drawing board, the audience client side is triggered to generate a second track drawing instruction.

In an optional embodiment, since the application considers that the drawing interaction performed by the user on the live broadcast room cover conflicts with the conventional live broadcast room list interaction (for example, sliding the live broadcast room list and clicking a certain live broadcast room cover), when the audience client responds to the first list interaction instruction on the live broadcast room cover corresponding to the first live broadcast room identifier at the list interaction start position, it is required to acquire the first list interaction data of the current user on the live broadcast room list, and according to the first list interaction data, it is determined whether to intercept the first cover interaction instruction on the live broadcast room cover corresponding to the first live broadcast room identifier, that is, it is determined whether the current user needs to start drawing on the drawing board.

The specific judgment details are not limited herein, and it can be understood that if it is determined according to the first list interaction that the dwell time of the current user on the live broadcast room cover corresponding to the first live broadcast room identifier is long and the displacement is short, the current user may start to draw on the drawing board, and then, in order to ensure that the drawing board does not slide and the trajectory is accurately presented, the first cover interaction instruction on the live broadcast room cover corresponding to the first live broadcast room identifier needs to be intercepted.

And the cover interaction starting position and the cover interaction ending position corresponding to the first cover interaction instruction are on the cover of the live broadcast room corresponding to the first live broadcast room identifier.

The first cover interactive instruction comprises position data of each track point in a live broadcast room application program interface, so that the position data of each track point in the track drawing board is obtained, conversion of a coordinate system is needed, and then a second track drawing instruction is generated according to the position data of each track point in the track drawing board.

And the audience client displays the second track drawn by the current user on the track drawing board according to the second track drawing data, namely, the audience client displays each second track point in the track drawing board according to the position data of each second track point in the track drawing board.

In an alternative embodiment, the second track may be drawn along the first track by the current user in a simulation manner, or drawn by the current user to form a symmetrical track with the first track.

In step S104, the viewer client, in response to the second trajectory drawing end instruction, acquires live broadcast room data corresponding to the first live broadcast room identifier, and loads a live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

And the audience client responds to the second track drawing ending instruction, confirms that the current user finishes drawing, acquires the live broadcast room data corresponding to the first live broadcast room identifier, and loads the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

In the embodiment of the application, as long as the current user performs the track drawing interaction with the live broadcast room cover corresponding to the first live broadcast room identifier, the live broadcast room corresponding to the first live broadcast room identifier is loaded for the current user regardless of the track drawing result.

Specifically, in the process of drawing the second trajectory by the current user, a plurality of second trajectories may be drawn, and therefore, in order to avoid misjudgment of the end of drawing the second trajectory, a countdown starting instruction is generated each time when responding to the second trajectory drawing instruction, and the viewer client side responds to the countdown starting instruction to acquire the countdown remaining time.

And if the second track drawing instruction is continuously responded within the countdown remaining time, the current user is indicated to continuously draw the second track, and therefore the audience client side can continuously obtain second track drawing data.

And in the remaining time of the countdown, if the second track drawing instruction is not responded, the current user finishes drawing, and therefore the audience client sends a second track drawing finishing instruction.

The embodiment of the application loads the track on the live broadcast room cover that first live broadcast room sign corresponds and draws the drawing board, thereby when current user draws the drawing board interaction with the track, demonstrate the second track that current user drawn in the track drawing board, and draw the live broadcast room that the first live broadcast room sign of present user loading corresponds when finishing, and then richened the user and got into the cover interactive mode of live broadcast room, make the user can reach the purpose that gets into the live broadcast room through drawing the track, not only be favorable to improving user's live broadcast room entrance experience, improve user's interactive enthusiasm, more be favorable to improving the attraction degree of live broadcast room cover to the user, attract more users to get into the live broadcast room.

How to determine whether the current user successfully draws the second track for different first tracks will be described separately below.

In an alternative embodiment, please refer to fig. 5, fig. 5 is another schematic flow chart of the live telecine method based on cover track drawing according to the first embodiment of the present application, and the method further includes the steps of:

s105: and the audience client side responds to the second track drawing ending instruction to acquire drawing data of the first track and drawing data of the second track.

S106: and the audience client side obtains the matching degree of the second track and the first track according to the drawing data of the first track and the drawing data of the second track.

S107: and if the matching degree exceeds a preset matching degree threshold value, the second track is confirmed to be matched with the first track, and the audience client side sends a second track drawing success instruction.

In this embodiment, the first trajectory is generated according to drawing data of the first trajectory, the drawing data of the first trajectory is drawing data obtained when the first anchor draws according to the first guide trajectory, a second guide trajectory is further displayed on the trajectory drawing board, the first guide trajectory and the second guide trajectory form a symmetrical guide trajectory, the first guide trajectory and the second guide trajectory are symmetrical along a target axis, and the target axis is a symmetry axis of the symmetrical guide trajectory.

Referring to fig. 6, fig. 6 is another display schematic diagram of a track drawing board provided in the embodiment of the present application. The trajectory drawing board 61 shown in fig. 6 displays a first trajectory 611, a first guide trajectory 612, a second trajectory 613, and a second guide trajectory 614.

The first guide track 612 and the second guide track 614 are displayed in a dashed line manner in fig. 6, the first track 611 is generated according to drawing data of the first track 611, the drawing data of the first track 611 is drawing data obtained when the first anchor draws according to the first guide track 612, and the first anchor is pre-configured, and since the first track 611 is necessarily displayed in the track drawing board, the first guide track 612 may not be displayed in the track drawing board 61 in an actual application process, and the track drawing of the current user is not affected.

The current user interacts with the trajectory drawing palette 61 and draws a second trajectory 613 according to the second guide trajectory 614.

How the first anchor configures the first track will be explained in detail in the second embodiment.

In addition, a prompt can be displayed beside the track drawing board to prompt a user how to enter a live broadcast room, a prompt animation can be displayed on the track drawing board to guide the user to draw the second track, and a specific prompt mode is not limited here.

The symmetric guiding track shown in fig. 6 is a heart-shaped track, and in an alternative embodiment, the symmetric guiding track composed of the first guiding track and the second guiding track may be related to festival information, for example: at christmas, the symmetric guide tracks are christmas tree tracks. When the first anchor is pre-configured, the first anchor may select the shape of the symmetric guiding track, and the server may also provide some options for the first anchor to select.

Regarding to step S106, the first track includes a plurality of first track points, the drawing data of the first track includes position data of the plurality of first track points in the track drawing board, and the position data of the first track points in the track drawing board includes first position data of the first track points and second position data of the first track points.

Optionally, the first position data of the first track point is an x-axis coordinate value of the first track point, the second position data of the first track point is a y-axis coordinate value of the first track point, and the coordinate system is a coordinate system adopted by the track drawing board.

The second track comprises a plurality of second track points, the drawing data of the second track comprises position data of the second track points in the track drawing board, and the position data of the second track points in the track drawing board comprises first position data of the second track points and second position data of the second track points.

Optionally, the first position data of the second track point is an x-axis coordinate value of the second track point, the second position data of the second track point is a y-axis coordinate value of the second track point, and the coordinate system is a coordinate system adopted by the track drawing board.

How to obtain the matching degree of the first track and the second track is described in detail below, specifically: and the audience client determines the second track point corresponding to the first track point according to the second position data of the first track point and the second position data of the second track point. And then, the audience client confirms whether the second track points corresponding to the first track points are matched with the first track points or not according to the first position data of the first track points and the first position data of the second track points corresponding to the first track points, and obtains the number of the second track points matched with the first track points. And finally, obtaining the matching degree between the first track and the second track according to the number of the first track points and the number of the second track points matched with the first track points.

Because the first guide track and the second guide track form a symmetrical guide track, the aim of calculating the matching degree can be achieved by judging whether the first track point in the first track is symmetrical with the second track point in the corresponding second track. The matching degree can reflect the matching degree of the current user and the first anchor to a certain extent.

In an alternative embodiment, the coordinate system used by the trajectory drawing board is based on the center of the symmetric guiding trajectory, the horizontal direction is the x-axis direction, the vertical direction is the y-axis direction, and the symmetric guiding trajectory is symmetric along the y-axis.

And the audience client determines the second track point corresponding to the first track point according to the second position data of the first track point and the second position data of the second track point.

And the second position data of the first track point is the same as the second position data of the second track point corresponding to the first track point.

Because the symmetrical guide track is symmetrical along the y axis, the second position data of the first track point refers to the y axis coordinate of the first track point, and the second position data of the second track point refers to the y axis coordinate of the second track point.

And a second track point corresponding to the first track point in the second track is the track point which has the same y-axis coordinate as the first track point in the second track.

And then, the audience client confirms whether the second track points corresponding to the first track points are matched with the first track points or not according to the first position data of the first track points and the first position data of the second track points corresponding to the first track points, and obtains the number of the second track points matched with the first track points.

And if the first position data of the first track points are opposite to the first position data of the second track points corresponding to the first track points, namely the x-axis coordinate of the first track points is opposite to the x-axis coordinate of the second track points corresponding to the first track points, confirming that the second track points corresponding to the first track points are matched with the first track points, and finally obtaining the number of the second track points matched with the first track points.

Specifically, how to scan the track points when the viewer client determines whether to match is not limited herein, and the viewer client may scan from the first track point with y-axis coordinate 0 to both sides, or may scan from the first track point with minimum or maximum y-axis coordinate to the other side of the y-axis.

It should be noted that, in the first track, there may be a case where y-axis coordinates of a plurality of first track points are the same, and then when obtaining a corresponding second track point, it is necessary to determine a range of an x-axis coordinate of the corresponding second track point based on the x-axis coordinate of the first track point, and then the second track point whose x-axis coordinate is within the range and whose y-axis coordinate value is the same is the corresponding second track point.

Regarding to S107, if the matching degree exceeds the preset matching degree threshold, it is determined that the second trajectory is matched with the first trajectory, and the viewer client sends a second trajectory drawing success instruction.

In an alternative embodiment, the matching degree is a ratio of the number of second track points matching the first track point to the number of first track points, and the threshold value of the matching degree is not limited herein, and optionally, the threshold value of the matching degree may be 90%.

In this embodiment, when the viewer client responds to the second trajectory drawing end instruction, the matching degree between the second trajectory and the first trajectory is calculated, and whether the current user successfully draws is determined according to the matching degree, so as to determine whether to issue a second trajectory drawing success instruction.

In an alternative embodiment, after the viewer client issues the second trace-drawing success instruction, the method includes the following steps: the audience client-side responds to the second track drawing success instruction to obtain first cover animation data corresponding to the symmetrical guide track; and the audience client renders and displays the first cover animation according to the first cover animation data.

The first cover animation data is used for determining the display position, the display style, the display size, the display special effect and the like of the first cover animation.

For example: if the symmetrical guide track formed by the first guide track and the second guide track is a heart-shaped track, the first cover animation may be referred to as a love cover animation.

In this embodiment, when the current user successfully draws the second track, the first cover animation is displayed before the current user enters the live broadcast room, so that the cover interaction experience of the user can be further improved.

In an alternative embodiment, after the viewer client issues the second trace-drawing success instruction, the method includes the following steps: the server responds to the second track drawing success command, acquires a first reward identification, generates an interactive reward command according to the first reward identification, and sends the interactive reward command to the audience client; and the audience client responds to the interactive reward instruction, acquires the first reward identification, the reward image corresponding to the first reward identification and reward popup data, and displays the reward popup in a live broadcast interface corresponding to the first live broadcast identification according to the reward popup data.

The awards may refer to virtual gifts, red parcels, members, and the like, and are not limited herein.

The reward popup data is used for displaying the reward popup in a live broadcast room interface, and the closing function, the reward presenting function, the reward storing function and the like of the reward popup are achieved.

And at least a first reward image and a reward giving control corresponding to the first reward identification are displayed in the reward pop-up window. The reward presentation control is used for responding to a trigger instruction of the current user and presenting the reward corresponding to the first reward identification to the target user.

Specifically, if the triggering instruction of the current user to the reward presenting control is responded, the audience client side obtains the target user identification and the first reward identification and sends a reward presenting request to the server, and therefore the purpose of presenting the reward is achieved.

In addition, the current user can also select to save the reward corresponding to the first reward identification in the package and not send the reward out for the moment. It will be appreciated that prizes that cannot be gifted are saved or validated by default.

Referring to fig. 7, fig. 7 is a schematic view illustrating a display of a bonus popup in a live broadcast interface according to an embodiment of the present application. The bonus popup 71 can be seen to display a bonus image 711, bonus presentation control 712, and bonus save control 713 corresponding to the first bonus identification. Additionally, the degree of match 714 of the current user with the first anchor may also be displayed in the bonus popup.

In this embodiment, when the current user successfully draws the second track, the reward is issued to the current user after the current user enters the live broadcast room, so that the user is more willing to draw the second track through the cover track and enter the live broadcast room, and the interaction polarity of the user is improved to a certain extent.

In an alternative embodiment, after the viewer client issues the second trajectory drawing success instruction, the method includes the steps of: the server responds to the second track drawing success instruction, obtains first approach prompting data and sends the first approach prompting data to the client side in the live broadcast room; and the client in the live broadcast room displays a first approach prompt in a live broadcast room interface corresponding to the first live broadcast room identification according to the first approach prompt data.

The first approach prompt at least displays a user name and cover track drawing approach prompt information corresponding to the current user.

The first approach prompt is displayed in a public screen of a live broadcast room interface, the first approach prompt data at least comprise a first approach prompt and display data of the first approach prompt, and the display data of the first approach prompt is used for determining a display style of the first approach prompt and the like.

In this embodiment, first entrance prompt can indicate the anchor in the live broadcast room and other users, and the current user enters the live broadcast room through which mode, so that the anchor can notice the current user more easily, and can promote other users to generate cover track drawing behaviors, thereby improving the cover interaction enthusiasm of the users.

In another alternative embodiment, please refer to fig. 8, fig. 8 is a schematic flowchart of a live telecine method based on cover track drawing according to the first embodiment of the present application, where the method further includes the steps of:

s108: and the audience client side responds to the second track drawing ending instruction to acquire drawing data of the second guide track and drawing data of the second track.

S109: and the audience client obtains the matching degree of the second track and the second guide track according to the drawing data of the second guide track and the drawing data of the second track.

S110: and if the matching degree exceeds a preset matching degree threshold value, the second track is confirmed to be matched with the second guide track, and the audience client side sends a second track drawing success instruction.

The first track is generated according to the drawing data of the first track, the drawing data of the first track is the drawing data obtained when the first anchor draws according to the first guide track, a second guide track is further displayed on the track drawing board, the first guide track and the second guide track form a symmetrical guide track, the first guide track and the second guide track are not symmetrical along a target axis, and the target axis is the symmetry axis of the symmetrical guide track.

Referring to fig. 9, fig. 9 is another display schematic diagram of a track drawing palette provided in an embodiment of the present application. The trajectory drawing board 91 shown in fig. 9 displays a first trajectory 911, a first guide trajectory 912, a second trajectory 913, and a second guide trajectory 914.

The first guide track 912 and the second guide track 914 are displayed in a dotted line manner in fig. 9, the first track 911 is generated according to drawing data of the first track 911, the drawing data of the first track 911 is drawing data obtained when the first anchor draws according to the first guide track 912, and the first track 911 is necessarily displayed in the track drawing board, so that the first guide track 912 may not be displayed in the track drawing board 91 in an actual application process, and the track drawing of a current user is not affected.

The current user interacts with the trajectory drawing palette 91 and draws a second trajectory 913 in accordance with a second guide trajectory 914.

The symmetrical guide tracks shown in fig. 9 are christmas tree tracks, and it can be seen that the first guide track 912 and the second guide 914 in fig. 9 are not symmetrical about the target axis, although they can be combined into a symmetrical guide track. At this time, it is the first anchor that draws the upper half of the christmas tree trail and the first user that draws the lower half of the christmas tree trail.

About S109, the second track includes a plurality of second track points, the drawing data of second track includes the position data of a plurality of second track points in the track drawing board, and the position data of second track points in the track drawing board includes the first position data of second track points and the second position data of second track points.

Optionally, the first position data of the second track point is an x-axis coordinate value of the second track point, the second position data of the second track point is a y-axis coordinate value of the second track point, and the coordinate system is a coordinate system adopted by the track drawing board.

Similarly, the second guide track comprises a plurality of second guide track points, the drawing data of the second guide track comprises position data of the second guide track points in the track drawing board, and the position data of the second guide track points in the track drawing board comprises first position data of the second guide track points and second position data of the second guide track points.

Optionally, the first position data of the second guide track point is an x-axis coordinate value of the second guide track point, the second position data of the second guide track point is a y-axis coordinate value of the second guide track point, and the coordinate system is a coordinate system adopted by the track drawing board.

When the matching degree of the second track and the second guide track is calculated, the number of the second track points overlapped with the positions of the second guide track points is obtained, and the matching degree of the second track and the second guide track is obtained according to the ratio between the number of the second track points overlapped with the positions and the total number of the second guide track points.

In step S110, if the matching degree exceeds the preset matching degree threshold, it is determined that the second trajectory is matched with the second guiding trajectory, and the viewer client sends a second trajectory drawing success instruction.

In this embodiment, when the viewer client responds to the second trajectory drawing end instruction, the matching degree between the second trajectory and the first trajectory is calculated, and whether the current user successfully draws is determined according to the matching degree, so as to determine whether to issue a second trajectory drawing success instruction.

It can be understood that, after the viewer client sends the second track drawing success instruction in this embodiment, the current user may also receive the reward, give the reward, and display the approach prompt information when entering the live broadcast room, and the implementation manner is the same as that described above, and is not described here again.

In yet another optional embodiment, the method further comprises the steps of:

s111: and the audience client side responds to the second track drawing ending instruction to acquire drawing data of the second guide track and drawing data of the second track.

S112: and the audience client side obtains the matching degree of the second track and the second guide track according to the drawing data of the second guide track and the drawing data of the second track.

S113: and if the matching degree exceeds a preset matching degree threshold value, the second track is confirmed to be matched with the second guide track, and the audience client side sends a second track drawing success instruction.

In this embodiment, the first track is generated according to drawing data of the first track, the drawing data of the first track is drawing data obtained when the first anchor draws according to the first guide track, a second guide track is further displayed on the track drawing board, and the first guide track and the second guide track form an asymmetric guide track. How to set the shape of the asymmetric guide tracks will be explained in the fourth embodiment.

The present embodiment differs from the previous embodiment in that the first guide track and the second guide track constitute an asymmetric guide track here, but it is equally possible that the first anchor draws the upper half of the asymmetric guide track and the first user draws the lower half of the asymmetric guide track.

In the present embodiment, the manner of calculating the matching degree between the second trajectory and the second guiding trajectory in steps S111 to S113 and the manner of confirming whether the matching is successful are the same as those in steps S108 to S110, and the description of steps S108 to S110 can be referred to.

It can be understood that, after the viewer client sends the second track drawing success instruction in this embodiment, the current user may also receive the reward, give the reward, and display the approach prompt information when entering the live broadcast room, and the implementation manner is the same as that described above, and is not described here again.

In other optional embodiments, the method further comprises the steps of:

s114: and the audience client side responds to the second track drawing ending instruction to acquire the image of the second track displayed in the track drawing board.

S115: and if the second track is confirmed to be matched with the first characters according to the image of the second track and the first characters, the audience client sends a second track drawing success instruction.

The first track is generated according to the drawing data of the first track, and the drawing data of the first track is the drawing data obtained when the first anchor draws the first characters. The first letter is selected by the anchor, and how the anchor selects the first letter and acquires drawing data of the first trajectory will be described in the third embodiment.

In this embodiment, the viewer client, in response to the second trajectory drawing end instruction, acquires an image of the second trajectory displayed in the trajectory drawing board, performs character recognition on the image of the second trajectory, determines whether characters recognized from the image of the second trajectory are the same as the first characters, and if so, determines that the second trajectory is matched with the first characters, and the viewer client issues a second trajectory drawing success instruction.

For example: in a new year, the first anchor can select that the first character is 'good', the first track is good written by the first anchor, and the current user knows that the user wants to draw 'good' in the track drawing board and can enter the live broadcast room, so that the current user interacts with the track drawing board to draw the second track, so that whether the second track corresponds to 'good' can be judged based on character recognition of the image of the second track, if yes, the second track is confirmed to be matched with the first character, and the audience client sends a successful drawing instruction of the second track.

In an alternative embodiment, after the viewer client issues the second trace-drawing success instruction, the method includes the following steps: the audience client-side responds to the second track drawing success instruction to obtain second cover animation data corresponding to the first characters; and the audience client renders and displays the second cover animation according to the second cover animation data.

The second cover animation data is used for determining the display position, the display style, the display size, the display special effect and the like of the second cover animation.

For example: if the first text is "blessing," the second cover animation may be a cover animation that is presented in the form of a blessing, etc.

In this embodiment, when the current user succeeds in drawing the second track, the second cover animation is displayed before the current user enters the live broadcast room, so that the cover interaction experience of the user can be further improved.

It can be understood that, after the viewer client sends the second track drawing success instruction in this embodiment, the current user may also receive the reward, give the reward, and display the approach prompt information when entering the live broadcast room, and the implementation manner is the same as that described above, and is not described here again.

Referring to fig. 10, fig. 10 is a schematic flowchart of a live broadcast room approach method based on cover track drawing according to a second embodiment of the present application, including the following steps:

s201: the anchor client side responds to the first cover configuration instruction, obtains a first anchor identification, a first live broadcast room identification, drawing data of a first track and drawing data of a symmetrical guide track, and sends the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the symmetrical guide track to the server.

S202: the server receives a first anchor identification, a first live broadcast room identification, drawing data of a first track and drawing data of a symmetrical guide track, sets the first anchor corresponding to the first anchor identification as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to a first cover configuration label.

S203: the audience client side responds to the live broadcast room list loading instruction to acquire live broadcast room list data and loads a live broadcast room list according to the live broadcast room list data; wherein, the live broadcast room list comprises live broadcast room covers corresponding to the live broadcast room identifications.

S204: if the first live broadcast room identifier exists in the live broadcast room identifiers, the audience client side obtains track drawing board data, draws the drawing board data according to the track, and loads a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; the track drawing board is characterized in that a first track is displayed on the track drawing board, the first track is generated according to drawing data of the first track, the drawing data of the first track is drawing data obtained when the first anchor draws according to a first guide track, a second guide track is further displayed on the track drawing board, and the first guide track and the second guide track form a symmetrical guide track.

S205: and the audience client-side responds to the second track drawing instruction to obtain second track drawing data, and displays a second track drawn by the current user on the track drawing picture board according to the second track drawing data.

S206: and the audience client responds to the second track drawing ending instruction to acquire the live broadcast room data corresponding to the first live broadcast room identifier, and loads the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

In this embodiment, steps S203 to S206 are the same as steps S101 to S104, except that the first trajectory is defined to be generated from drawing data of the first trajectory, the drawing data of the first trajectory is drawing data obtained when the first anchor draws according to the first guide trajectory, a second guide trajectory is further displayed on the trajectory drawing board, the first guide trajectory and the second guide trajectory form a symmetrical guide trajectory, and how to configure the front cover is described in steps S201 to S202.

In an alternative embodiment, the first guide track and the second guide track are symmetrical along a target axis, and the target axis is a symmetry axis of the symmetrical guide track.

In another alternative embodiment, the first guide trajectory and the second guide trajectory are not symmetric along the target axis.

The two situations depend on how to divide the first guide track and the second guide track when setting the symmetrical guide tracks with different shapes, the cover configuration of the first anchor is not influenced, and the first anchor only needs to draw according to the first guide track during configuration.

Regarding to step S201, the anchor client responds to the first cover configuration instruction, analyzes the first cover configuration instruction, obtains the first anchor identifier, the first live broadcast room identifier, the drawing data of the first track, and the drawing data of the symmetric guide track, and sends the first anchor identifier, the first live broadcast room identifier, the drawing data of the first track, and the drawing data of the symmetric guide track to the server.

The first anchor mark is used for indicating which anchor needs to perform cover page configuration at present.

The first live room identification is used to indicate which live room the first anchor wants to configure, for which live room the live room needs to be created.

The drawing data of the first track are used for displaying the first track in the track drawing board, and the drawing data of the first track are obtained when the first anchor draws according to the first guide track.

The drawing data of the symmetric guide tracks is used for displaying the symmetric guide tracks in the track drawing board, and the shapes of the symmetric guide tracks are selected by the anchor.

Regarding step S202, the server receives the first anchor identifier, the first live broadcast room identifier, the drawing data of the first track, and the drawing data of the symmetric guide track, sets the first anchor corresponding to the first anchor identifier as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to the first cover configuration tag.

On one hand, the server stores the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the symmetrical guide track.

On the other hand, the server may set the first anchor corresponding to the first anchor identifier as a candidate recommended anchor, which may be understood as that the server puts the first anchor corresponding to the first anchor identifier into the candidate anchor pool. The candidate anchor pools are all anchor identifications corresponding to the started anchors.

In addition, the server may set the first anchor as an anchor corresponding to the first cover configuration tag, where the first cover configuration tag indicates that the track type selected by the first anchor is a symmetric type.

In this embodiment, the drawing data of the second guide track is further included in the track drawing board data, so that the audience client can not only display the first track drawn by the first anchor, but also display the second guide track, and the drawing interaction experience of the user can be improved.

In an optional embodiment, the trajectory drawing board data further includes drawing data of a symmetric guide trajectory, and the drawing data of the symmetric guide trajectory includes drawing data of a first guide trajectory and drawing data of a second guide trajectory, so that a user can more clearly know a trajectory drawing situation of the first anchor.

How the first anchor performs the configuration of the symmetric tracks at the anchor client is described below, referring to fig. 11, before S201, the method further includes the steps of:

s207: and the anchor client responds to the symmetrical track configuration request, acquires drawing data of the symmetrical guide track, and displays the symmetrical guide track in a track drawing board of the track configuration control according to the drawing data of the symmetrical guide track.

S208: and the anchor client responds to the track drawing ending instruction to acquire drawing data of the first track and drawing data of the first guide track.

S209: and the anchor client determines the drawing result of the first track according to the drawing data of the first track and the drawing data of the first guide track, and sends a first cover configuration instruction if the drawing result of the first track is successful.

And after the first anchor selects the track type as a symmetrical type and determines the shape of the symmetrical guide track, the anchor client sends a symmetrical track configuration request, the anchor client responds to the symmetrical track configuration request to acquire drawing data of the symmetrical guide track, and the symmetrical guide track is displayed in a track drawing board of the track configuration control according to the drawing data of the symmetrical guide track.

The first anchor can draw in a track drawing board of the track configuration control, when the track drawing is finished, the anchor client is triggered to generate a track drawing finishing instruction, and the anchor client responds to the track drawing finishing instruction to obtain drawing data of the first track and drawing data of the first guide track.

And then, the anchor client determines the drawing result of the first track according to the drawing data of the first track and the drawing data of the first guide track.

The first track comprises a plurality of first track points, and the drawing data of the first track comprises position data of the first track points.

The first guide track comprises a plurality of first guide track points, and the drawing data of the first guide track comprises position data of the first guide track points.

The method comprises the steps of obtaining a first number of first track points coincident with first guide track points according to position data of the first track points and position data of the first guide track points, determining a drawing result of the first track according to the ratio of the first number to the number of the first guide track points, and if the ratio exceeds a preset ratio threshold value, confirming that the drawing result of the first track is successful in drawing and sending a first cover configuration instruction. And otherwise, the drawing result of the first track is drawing failure, and the first anchor is prompted to draw the first track again.

In an alternative embodiment, referring to fig. 12, before step S207, the method further includes the steps of:

s210: the anchor client side responds to the cover configuration request, obtains cover configuration control data, and displays a cover configuration control according to the cover configuration control data; and at least a track mode control is displayed in the cover configuration control.

S211: the anchor client responds to a trigger instruction of a first anchor to the track mode control and displays a track configuration control; and at least a track type control and a track shape control are displayed in the track configuration control.

S212: and if the track type selected by the first anchor is a symmetrical type, the anchor client acquires the shape of the symmetrical guide track selected by the first anchor, determines drawing data of the symmetrical guide track according to the shape of the symmetrical guide track selected by the first anchor, and sends a symmetrical track configuration request.

The method comprises the steps that a first anchor starts a cover configuration playing method in a live broadcast room, an anchor client is triggered to send a cover configuration request, the anchor client responds to the cover configuration request, cover configuration control data are obtained, and cover configuration controls are displayed according to the cover configuration control data.

The front cover configuration control data comprises display data of the front cover configuration control and function data of the front cover configuration control.

At least a track mode control is displayed in the cover configuration control, and in an alternative embodiment, other mode controls may also be displayed in the cover configuration control, for example: a wipe mode control, a matte interaction mode control, etc.

Referring to fig. 13, fig. 13 is a schematic display diagram of a cover configuration control provided in an embodiment of the present application. It can be seen that a track mode control 131 and a wipe mode control 132 are displayed in the cover configuration control 13.

And when the first anchor clicks the track mode control, the anchor client sends a trigger instruction of the first anchor to the track mode control, and the anchor client responds to the trigger instruction of the first anchor to the track mode control and displays the track configuration control.

And at least a track type control and a track shape control are displayed in the track configuration control.

In this embodiment, the track type control is configured to receive a track type of the first anchor selection and the track shape control is configured to receive a shape of the guide track of the first anchor selection.

Referring to fig. 14, fig. 14 is a schematic display diagram of a track configuration control provided in an embodiment of the present application. It can be seen that a track type control 141 and a track shape control 142 are displayed in the track configuration control 14. In addition, a trajectory drawing palette 143 is also displayed in the trajectory configuration control 14, and is used for drawing the first trajectory by the first anchor.

And if the track type selected by the first anchor is a symmetrical type, the anchor client acquires the shape of the symmetrical guide track selected by the first anchor, determines drawing data of the symmetrical guide track according to the shape of the symmetrical guide track selected by the first anchor, and sends a symmetrical track configuration request.

It will be appreciated that the shape of the different symmetrical guide tracks, with their corresponding rendering data, is different.

In this embodiment, the anchor can open the front cover configuration play method in the live broadcast room, and the front cover configuration is carried out in a self-defined manner, so that the approach mode of a user can be controlled, the live broadcast interaction experience of the anchor can be improved, and the anchor can improve the number of people watching in the live broadcast room.

Referring to fig. 15, fig. 15 is a schematic flowchart of a live broadcast room approach method based on cover track drawing according to a third embodiment of the present application, including the following steps:

s301: and the anchor client responds to the second cover configuration instruction, acquires the drawing data of the first anchor identification, the first live broadcast room identification and the first track, and sends the drawing data of the first anchor identification, the first live broadcast room identification and the first track to the server.

S302: the server receives drawing data of the first anchor identification, the first live broadcast room identification and the first track, sets the first anchor corresponding to the first anchor identification as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to the second cover configuration label.

S303: the method comprises the steps that a spectator client responds to a live broadcast room list loading instruction to obtain live broadcast room list data, and a live broadcast room list is loaded according to the live broadcast room list data; wherein, the live broadcast room list comprises live broadcast room covers corresponding to the live broadcast room identifications.

S304: if the first live broadcast room identifier exists in the live broadcast room identifiers, the audience client side obtains track drawing board data, draws the drawing board data according to the track, and loads a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; the track drawing picture is provided with a first track, the first track is generated according to drawing data of the first track, and the drawing data of the first track is drawing data obtained when the first anchor draws first characters.

S305: and the audience client-side responds to the second track drawing instruction to obtain second track drawing data, and displays a second track drawn by the current user on the track drawing picture board according to the second track drawing data.

S306: and the audience client responds to the second track drawing ending instruction to acquire the live broadcast room data corresponding to the first live broadcast room identifier, and loads the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

In the present embodiment, steps S303 to S306 are the same as steps S101 to S104, except that the first trajectory is defined as being drawn by the first anchor according to the first character. And how to perform cover layout is described by S301 to S302.

In step S301, the anchor client, in response to the second cover configuration instruction, acquires the drawing data of the first anchor identifier, the first live broadcast room identifier, and the first track, and sends the drawing data of the first anchor identifier, the first live broadcast room identifier, and the first track to the server.

The first anchor mark is used for indicating which anchor needs to perform cover page configuration at present.

The first live room identification is used to indicate which live room the first anchor wants to configure, for which live room the live room needs to be created.

The drawing data of the first track is used for displaying the first track in the track drawing board, and the drawing data of the first track is drawing data obtained when the first anchor draws the first character.

In step S302, the server receives the first anchor identifier, the first live broadcast room identifier, and the drawing data of the first track, sets the first anchor corresponding to the first anchor identifier as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to the second cover page configuration tag.

In one aspect, the server stores rendering data for the first anchor identification, the first live room identification, and the first track.

On the other hand, the server may set the first anchor corresponding to the first anchor identifier as a candidate recommended anchor, which may be understood that the server puts the first anchor corresponding to the first anchor identifier into the candidate anchor pool. The candidate anchor pools are all anchor identifications corresponding to the started anchors.

Moreover, the server may set the first anchor as an anchor corresponding to a second cover configuration tag, where the second cover configuration tag indicates that the track type selected by the first anchor is an asymmetric type in this embodiment, and the viewer client may obtain track drawing board data including at least drawing data of the first track from the server.

How the first anchor performs configuration of asymmetric tracks at the anchor client is described below, referring to fig. 16, before S301, the method further includes the steps of:

s307: the anchor client side responds to the asymmetric track configuration request, obtains drawing data of the first characters, and displays a guide track corresponding to the first characters in a track drawing board of the track configuration control according to the drawing data of the first characters.

S308: the anchor client responds to the track drawing ending instruction, obtains an image of a first track displayed in a track drawing board of the track configuration control, determines a drawing result of the first track according to the image of the first track and the first characters, and sends a second cover configuration instruction if the drawing result of the first track is drawing success.

And after the first anchor selects the track type to be the asymmetric type and determines the first character selected by the first anchor, the anchor client sends an asymmetric track configuration request, the anchor client responds to the asymmetric track configuration request to acquire drawing data of the first character, and a guide track corresponding to the first character is displayed in a track drawing board of the track configuration control according to the drawing data of the first character.

The first anchor can draw in the track drawing board of the track configuration control, when the track drawing is finished, the anchor client is triggered to generate a track drawing finishing instruction, and the anchor client responds to the track drawing finishing instruction to acquire the image of the first track displayed in the track drawing board of the track configuration control.

And then, the anchor client determines the drawing result of the first track according to the image and the first characters of the first track.

And if the first character can be recognized from the image of the first track, determining that the drawing result of the first track is successful. And otherwise, the drawing result of the first track is drawing failure, and the first anchor is prompted to draw the first track again.

In an alternative embodiment, referring to fig. 17, before S207, the method further includes the steps of:

s309: the anchor client side responds to the cover configuration request, obtains cover configuration control data, and displays a cover configuration control according to the cover configuration control data; and at least a track mode control is displayed in the cover configuration control.

S310: the anchor client responds to a trigger instruction of a first anchor to the track mode control and displays a track configuration control; and at least a track type control and a track shape control are displayed in the track configuration control.

S311: and if the track type selected by the first anchor is the asymmetric type, the anchor client acquires the first characters selected by the first anchor, determines the drawing data of the first characters according to the first characters selected by the first anchor, and sends an asymmetric track configuration request.

The method comprises the steps that a first anchor starts a cover configuration playing method in a live broadcast room, an anchor client is triggered to send a cover configuration request, the anchor client responds to the cover configuration request, cover configuration control data are obtained, and cover configuration controls are displayed according to the cover configuration control data.

The front cover configuration control data comprises display data of the front cover configuration control and function data of the front cover configuration control.

At least a track mode control is displayed in the cover configuration control, and in an alternative embodiment, other mode controls may also be displayed in the cover configuration control, for example: a wipe mode control, a matte interaction mode control, etc. See in particular fig. 12.

And when the first anchor clicks the track mode control, the anchor client sends a trigger instruction of the first anchor to the track mode control, and the anchor client responds to the trigger instruction of the first anchor to the track mode control and displays the track configuration control.

And at least a track type control and a track shape control are displayed in the track configuration control.

In this embodiment, the track type control is configured to receive a track type of the first anchor selection and the track shape control is configured to receive a shape of the guide track of the first anchor selection.

If the track type selected by the first anchor is an asymmetric type, two options are displayed in the track shape control, the first anchor in the first option can select the first character, and the first anchor in the second option can select the shape of the asymmetric guide track.

And then, the anchor client determines drawing data of the first characters according to the first characters selected by the first anchor, and sends out an asymmetric track configuration request.

In this embodiment, the anchor can open the front cover configuration play method in the live broadcast room, and the front cover configuration is carried out in a self-defined manner, so that the approach mode of a user can be controlled, the live broadcast interaction experience of the anchor can be improved, and the anchor can improve the number of people watching in the live broadcast room.

Referring to fig. 18, fig. 18 is a schematic flowchart of a live broadcast room approach method based on cover track drawing according to a fourth embodiment of the present application, including the following steps:

s401: and the anchor client responds to the second cover configuration instruction, acquires the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the asymmetric guide track, and sends the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the asymmetric guide track to the server.

S402: the server receives a first anchor identification, a first live broadcast room identification, drawing data of a first track and drawing data of an asymmetric guide track, sets the first anchor corresponding to the first anchor identification as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to a second cover configuration label.

S403: the audience client side responds to the live broadcast room list loading instruction to acquire live broadcast room list data and loads a live broadcast room list according to the live broadcast room list data; wherein, the live broadcast room list comprises live broadcast room covers corresponding to the live broadcast room identifications.

S404: if the first live broadcast room identifier exists in the live broadcast room identifiers, the audience client side obtains track drawing board data, draws the drawing board data according to the track, and loads a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; the track drawing board is characterized in that a first track is displayed on the track drawing board, drawing data of the first track are drawing data obtained when the first anchor draws according to a first guide track, a second guide track is further displayed on the track drawing board, and the first guide track and the second guide track form an asymmetric guide track.

S405: and the audience client-side responds to the second track drawing instruction to obtain second track drawing data, and displays a second track drawn by the current user on the track drawing picture board according to the second track drawing data.

S406: and the audience client responds to the second track drawing ending instruction to acquire the live broadcast room data corresponding to the first live broadcast room identifier, and loads the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

In this embodiment, steps S403 to S406 are the same as steps S101 to S104, except that the drawing data defining the first trajectory is drawing data obtained when the first anchor draws according to the first guidance trajectory, the trajectory drawing board further displays a second guidance trajectory, the first guidance trajectory and the second guidance trajectory form an asymmetric guidance trajectory, and how to configure the front cover is described by steps S401 to S402.

Regarding to step S401, the anchor client, in response to the second cover configuration instruction, acquires the first anchor identifier, the first live broadcast room identifier, the drawing data of the first track, and the drawing data of the asymmetric guide track, and sends the first anchor identifier, the first live broadcast room identifier, the drawing data of the first track, and the drawing data of the asymmetric guide track to the server.

The first anchor mark is used for indicating which anchor needs to perform cover page configuration at present.

The first live room identification is used to indicate which live room the first anchor wants to configure, for which live room the live room needs to be created.

The drawing data of the first track is used for displaying the first track in the track drawing board, and the drawing data of the first track is drawing data obtained when the first anchor draws according to the first guide track.

The drawing data of the asymmetric guide track is used for displaying the asymmetric guide track in the track drawing board, and the shape of the asymmetric guide track is selected by the first anchor.

In step S502, the server receives the first anchor identifier, the first live broadcast room identifier, the drawing data of the first track, and the drawing data of the asymmetric guide track, sets the first anchor corresponding to the first anchor identifier as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to the second cover configuration tag.

On one hand, the server stores the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the asymmetric guide track.

On the other hand, the server may set the first anchor corresponding to the first anchor identifier as a candidate recommended anchor, which may be understood as that the server puts the first anchor corresponding to the first anchor identifier into the candidate anchor pool. The candidate anchor pools are all anchor identifications corresponding to the started anchors.

And, the server will set the first anchor as the anchor corresponding to the second cover configuration tag, which indicates that the track type selected by the second anchor is an asymmetric type in this embodiment.

In this embodiment, the drawing data of the second guide track is further included in the track drawing board data, so that the audience client can not only display the first track drawn by the first anchor, but also display the second guide track, and the drawing interaction experience of the user can be improved.

In an optional embodiment, the trajectory drawing board data further includes drawing data of an asymmetric guide trajectory, and the drawing data of the asymmetric guide trajectory includes drawing data of a first guide trajectory and drawing data of a second guide trajectory, so that a user can more clearly know a trajectory drawing situation of the first anchor.

How the first anchor performs configuration of asymmetric tracks at the anchor client is described below, referring to fig. 19, before S401, the method includes the steps of:

s407: and the anchor client responds to the asymmetric track configuration request, acquires drawing data of the asymmetric guide track, and displays the asymmetric guide track in a track drawing board of the track configuration control according to the drawing data of the asymmetric guide track.

S408: and the anchor client responds to the track drawing ending instruction to acquire drawing data of the first track and drawing data of the first guide track.

S409: and the anchor client determines the drawing result of the first track according to the drawing data of the first track and the drawing data of the first guide track, and sends a second cover configuration instruction if the drawing result of the first track is successful.

And after the first anchor selects the track type as an asymmetric type and determines the shape of the asymmetric guide track, the anchor client sends an asymmetric track configuration request, the anchor client responds to the asymmetric track configuration request to obtain drawing data of the asymmetric guide track, and the asymmetric guide track is displayed in a track drawing board of the track configuration control according to the drawing data of the asymmetric guide track.

The first anchor can draw in a track drawing board of the track configuration control, when the track drawing is finished, the anchor client is triggered to generate a track drawing finishing instruction, and the anchor client responds to the track drawing finishing instruction to obtain drawing data of the first track and drawing data of the first guide track.

And then, the anchor client determines the drawing result of the first track according to the drawing data of the first track and the drawing data of the first guide track.

The first track comprises a plurality of first track points, and the drawing data of the first track comprises position data of the first track points.

The first guide track comprises a plurality of first guide track points, and the drawing data of the first guide track comprises position data of the first guide track points.

The method comprises the steps of obtaining a first number of first track points coincident with first guide track points according to position data of the first track points and position data of the first guide track points, determining a drawing result of the first track according to the ratio of the first number to the number of the first guide track points, and if the ratio exceeds a preset ratio threshold value, confirming that the drawing result of the first track is successful in drawing and sending a second cover configuration instruction. And otherwise, the drawing result of the first track is drawing failure, and the first anchor is prompted to draw the first track again.

In an alternative embodiment, referring to fig. 20, before step S407, the method includes the steps of:

s410: the anchor client side responds to the cover configuration request, obtains cover configuration control data, and displays a cover configuration control according to the cover configuration control data; and at least a track mode control is displayed in the cover configuration control.

S411: the anchor client responds to a trigger instruction of a first anchor to the track mode control and displays a track configuration control; and at least a track type control and a track shape control are displayed in the track configuration control.

S412: and if the track type selected by the first anchor is the asymmetric type, the anchor client acquires the shape of the asymmetric guide track selected by the first anchor, determines drawing data of the asymmetric guide track according to the shape of the asymmetric guide track selected by the first anchor, and sends an asymmetric track configuration request.

In this embodiment, the anchor can open the cover configuration play method in the live room, and perform the configuration of the cover in a self-defined manner, so that the approach mode of the user can be controlled, the live broadcast interaction experience of the anchor can be improved, and the anchor can improve the number of people watching the live room.

The method comprises the steps that a first anchor starts a cover configuration playing method in a live broadcast room, an anchor client is triggered to send a cover configuration request, the anchor client responds to the cover configuration request, cover configuration control data are obtained, and cover configuration controls are displayed according to the cover configuration control data.

The front cover configuration control data comprises display data of the front cover configuration control and function data of the front cover configuration control.

At least a track mode control is displayed in the cover configuration control, and in an alternative embodiment, other mode controls may also be displayed in the cover configuration control, for example: a wipe pattern control, a mask interaction pattern control, and the like.

And when the first anchor clicks the track mode control, the anchor client sends a trigger instruction of the first anchor to the track mode control, and the anchor client responds to the trigger instruction of the first anchor to the track mode control and displays the track configuration control.

And at least a track type control and a track shape control are displayed in the track configuration control.

In this embodiment, the track type control is configured to receive a track type of the first anchor selection and the track shape control is configured to receive a shape of the guide track of the first anchor selection.

If the track type selected by the first anchor is an asymmetric type, two options are displayed in the track shape control, the first anchor in the first option can select the first character, and the first anchor in the second option can select the shape of the asymmetric guide track. In this embodiment, the anchor client obtains the shape of the asymmetric guide track selected by the first anchor, determines drawing data of the asymmetric guide track according to the shape of the asymmetric guide track selected by the first anchor, and sends an asymmetric track configuration request.

It will be appreciated that the shape of the different asymmetric guide tracks, with corresponding rendering data, is different.

In this embodiment, the anchor can open the front cover configuration play method in the live broadcast room, and the front cover configuration is carried out in a self-defined manner, so that the approach mode of a user can be controlled, the live broadcast interaction experience of the anchor can be improved, and the anchor can improve the number of people watching in the live broadcast room.

Fig. 21 is a schematic structural diagram of a live telecine device based on cover track drawing according to a fifth embodiment of the present application. The apparatus may be implemented as all or part of a computer device in software, hardware, or a combination of both. The apparatus 21 comprises:

a first obtaining unit 211, configured to, in response to a live telecast list loading instruction, a viewer client obtain live telecast list data, and load a live telecast list according to the live telecast list data; the live broadcast room list comprises live broadcast room covers corresponding to a plurality of live broadcast room identifications;

a first loading unit 212, configured to, if a first live broadcast room identifier exists in the live broadcast room identifier, the spectator client obtains trajectory drawing board data, draws the board data according to the trajectory, and loads a trajectory drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; wherein a first track is displayed on the track drawing picture board;

a first drawing unit 213, configured to, in response to a second trajectory drawing instruction, obtain second trajectory drawing data, and display, on the trajectory drawing board, a second trajectory drawn by a current user according to the second trajectory drawing data;

and the first approach unit 214 is configured to, in response to the second trajectory drawing end instruction, the viewer client side obtain live broadcast room data corresponding to the first live broadcast room identifier, and load the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

It should be noted that, when the live broadcast room approach device based on cover track drawing provided in the above embodiment executes the live broadcast room approach method based on cover track drawing, only the division of the above functional modules is used for illustration, and in practical application, the above function distribution may be completed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules, so as to complete all or part of the above described functions. In addition, the live broadcast room approach device based on cover track drawing and the live broadcast room approach method based on cover track drawing provided by the embodiment belong to the same concept, and the detailed implementation process is shown in the method embodiment and is not described herein again.

Please refer to fig. 22, which is a schematic structural diagram of a computer device according to a sixth embodiment of the present application. As shown in fig. 22, the computer device 22 may include: a processor 220, a memory 221, and a computer program 222 stored in the memory 221 and operable on the processor 220, such as: a live broadcast room approach program drawn based on a cover track; the processor 220 implements the steps of the first to fourth embodiments when executing the computer program 222.

The processor 220 may include one or more processing cores, among others. The processor 220 is connected to various parts in the computer device 22 by various interfaces and lines, executes various functions of the computer device 22 and processes data by executing or executing instructions, programs, code sets or instruction sets stored in the memory 221 and calling data in the memory 221, and optionally, the processor 220 may be implemented in at least one hardware form of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), Programmable Logic Array (PLA). The processor 220 may integrate one or more of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing contents required to be displayed by the touch display screen; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 220, but may be implemented by a single chip.

The Memory 221 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). Optionally, the memory 221 includes a non-transitory computer-readable medium. The memory 221 may be used to store instructions, programs, code sets, or instruction sets. The memory 221 may include a program storage area and a data storage area, wherein the program storage area may store instructions for implementing an operating system, instructions for at least one function (such as touch instructions, etc.), instructions for implementing the various method embodiments described above, and the like; the storage data area may store data and the like referred to in the above respective method embodiments. The memory 221 may optionally be at least one storage device located remotely from the processor 220.

The embodiment of the present application further provides a computer storage medium, where the computer storage medium may store a plurality of instructions, where the instructions are suitable for being loaded by a processor and executing the method steps of the foregoing embodiment, and a specific execution process may refer to specific descriptions of the foregoing embodiment, which is not described herein again.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned function distribution may be performed by different functional units and modules according to needs, that is, the internal structure of the apparatus is divided into different functional units or modules, so as to perform all or part of the functions described above. Each functional unit and module in the embodiments may be integrated in one processing unit, or each unit may exist alone physically, or two or more units are integrated in one unit, and the integrated unit may be implemented in a form of hardware, or in a form of software functional unit. In addition, specific names of the functional units and modules are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present application. For the specific working processes of the units and modules in the system, reference may be made to the corresponding processes in the foregoing method embodiments, which are not described herein again.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the technical solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus/terminal device and method may be implemented in other ways. For example, the above-described embodiments of the apparatus/terminal device are merely illustrative, and for example, a module or a unit may be divided into only one logical function, and may be implemented in other ways, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated modules/units, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable storage medium. Based on such understanding, all or part of the flow in the method according to the embodiments of the present invention may also be implemented by a computer program, which may be stored in a computer-readable storage medium and used by a processor to implement the steps of the above-described embodiments of the method. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc.

The present invention is not limited to the above-described embodiments, and various modifications and variations of the present invention are intended to be included within the scope of the claims and the equivalent technology of the present invention if they do not depart from the spirit and scope of the present invention.

Claims (21)

1. A live broadcast room approach method based on cover track drawing is characterized by comprising the following steps:

the method comprises the steps that a spectator client responds to a live broadcast room list loading instruction to obtain live broadcast room list data, and a live broadcast room list is loaded according to the live broadcast room list data; the live broadcast room list comprises live broadcast room covers corresponding to a plurality of live broadcast room identifications;

if a first live broadcast room identifier exists in the live broadcast room identifier, the audience client side obtains track drawing board data, draws the drawing board data according to the track, and loads a track drawing board on a live broadcast room cover corresponding to the first live broadcast room identifier; wherein a first track is displayed on the track drawing picture board;

the audience client-side responds to a second track drawing instruction to obtain second track drawing data, and displays a second track drawn by a current user on the track drawing picture board according to the second track drawing data;

and the audience client responds to a second track drawing finishing instruction to acquire live broadcast room data corresponding to the first live broadcast room identification, and loads the live broadcast room corresponding to the first live broadcast room identification according to the live broadcast room data corresponding to the first live broadcast room identification.

2. The live broadcast room approach method based on cover track drawing of claim 1, wherein the first track is generated according to drawing data of the first track, the drawing data of the first track is drawing data obtained when the first anchor draws according to a first guide track, a second guide track is further displayed on the track drawing board, and the first guide track and the second guide track form a symmetrical guide track;

before the audience client responds to the live broadcast room list loading instruction, the method comprises the following steps:

the anchor client side responds to a first cover configuration instruction, acquires a first anchor identification, a first live broadcast room identification, drawing data of the first track and drawing data of the symmetrical guide track, and sends the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the symmetrical guide track to a server;

the server receives the first anchor identification, the first live broadcast room identification, drawing data of the first track and drawing data of the symmetrical guide track, sets the first anchor corresponding to the first anchor identification as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to a first cover configuration label.

3. The cover track drawing-based live room approach method of claim 2, wherein the anchor client responds to the first cover configuration instruction before, comprising the steps of:

the anchor client side responds to a symmetrical track configuration request, obtains drawing data of the symmetrical guide track, and displays the symmetrical guide track in a track drawing board of a track configuration control according to the drawing data of the symmetrical guide track;

the anchor client responds to a track drawing ending instruction to acquire drawing data of the first track and drawing data of the first guide track;

and the anchor client determines the drawing result of the first track according to the drawing data of the first track and the drawing data of the first guide track, and sends the first cover configuration instruction if the drawing result of the first track is successful.

4. The cover track drawing-based live room approach method of claim 3, wherein the anchor client, in response to the symmetric track configuration request, comprises the steps of:

the anchor client side responds to the cover configuration request, obtains cover configuration control data, and displays a cover configuration control according to the cover configuration control data; wherein, at least a track mode control is displayed in the cover configuration control;

the anchor client responds to a trigger instruction of the first anchor to the track mode control to display the track configuration control; the track configuration control at least displays a track type control and a track shape control;

if the track type selected by the first anchor is a symmetrical type, the anchor client acquires the shape of the symmetrical guide track selected by the first anchor, determines drawing data of the symmetrical guide track according to the shape of the symmetrical guide track selected by the first anchor, and sends the symmetrical track configuration request.

5. The live broadcast room approach method based on cover track drawing according to any one of claims 1 to 4, wherein the first track is generated according to drawing data of the first track, the drawing data of the first track is drawing data obtained when the first anchor is drawn according to a first guide track, a second guide track is further displayed on the track drawing board, the first guide track and the second guide track form a symmetrical guide track, the first guide track and the second guide track are symmetrical along a target axis, and the target axis is a symmetrical axis of the symmetrical guide track;

the method further comprises the steps of:

the audience client responds to the second track drawing ending instruction to obtain drawing data of the first track and drawing data of the second track;

the audience client obtains the matching degree of the second track and the first track according to the drawing data of the first track and the drawing data of the second track;

and if the matching degree exceeds a preset matching degree threshold value, the second track is confirmed to be matched with the first track, and the audience client side sends a second track drawing success instruction.

6. The live broadcast room approach method based on cover track drawing according to any one of claims 1 to 4, wherein the first track is generated according to drawing data of the first track, the drawing data of the first track is drawing data obtained when the first anchor is drawn according to a first guide track, a second guide track is further displayed on the track drawing board, the first guide track and the second guide track form a symmetrical guide track, the first guide track and the second guide track are not symmetrical along a target axis, and the target axis is a symmetrical axis of the symmetrical guide track;

the method further comprises the steps of:

the audience client responds to the second track drawing ending instruction to obtain drawing data of the second guide track and drawing data of the second track;

the audience client obtains the matching degree of the second track and the second guide track according to the drawing data of the second guide track and the drawing data of the second track;

and if the matching degree exceeds a preset matching degree threshold value, the second track is confirmed to be matched with the second guide track, and the audience client side sends a second track drawing success instruction.

7. The cover track drawing-based live room approach method as claimed in claim 5, wherein after the viewer client sends out the second track drawing success command, the method comprises the following steps:

the audience client-side responds to the second track drawing success instruction to obtain first cover animation data corresponding to the symmetrical guide track;

and the audience client renders and displays the first cover animation according to the first cover animation data.

8. The cover track drawing-based live room approach method as claimed in claim 5, wherein after the viewer client sends out the second track drawing success command, the method comprises the following steps:

the server responds to the second track drawing success instruction, acquires a first reward identification, generates an interactive reward instruction according to the first reward identification, and sends the interactive reward instruction to the audience client;

the audience client side responds to the interactive reward instruction, acquires the first reward identification, a reward image corresponding to the first reward identification and reward popup data, and displays the reward popup in a live broadcast interface corresponding to the first live broadcast identification according to the reward popup data; the reward pop window is provided with a first reward image and a reward presenting control corresponding to the first reward identification;

and if the current user responds to the trigger instruction of the reward presenting control, the audience client side acquires the target user identification and the first reward identification and sends a reward presenting request to the server.

9. The cover track drawing-based live room approach method as claimed in claim 5, wherein after the viewer client sends out the second track drawing success command, the method comprises the following steps:

the server responds to the second track drawing success instruction, obtains first approach prompting data, and sends the first approach prompting data to the client side in the live broadcast room;

a client in the live broadcast room displays a first approach prompt in a live broadcast room interface corresponding to the first live broadcast room identification according to the first approach prompt data; and the first approach prompt at least displays user names and cover track drawing approach prompt information corresponding to the current user.

10. The live broadcast room approach method based on cover track drawing according to claim 1, wherein the first track is generated according to drawing data of the first track, the drawing data of the first track is drawing data obtained when the first anchor draws according to a first guide track, a second guide track is further displayed on the track drawing board, and the first guide track and the second guide track form an asymmetric guide track;

before the audience client responds to the live broadcast room list loading instruction, the method comprises the following steps:

the anchor client responds to a second cover configuration instruction, acquires a first anchor identification, a first live broadcast room identification, drawing data of the first track and drawing data of the asymmetric guide track, and sends the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the asymmetric guide track to a server;

the server receives the first anchor identification, the first live broadcast room identification, the drawing data of the first track and the drawing data of the asymmetric guide track, sets the first anchor corresponding to the first anchor identification as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to a second cover configuration label.

11. The cover track drawing-based live-feed room approach method of claim 10, wherein the anchor client responds to a second cover configuration instruction and comprises the steps of:

the anchor client side responds to an asymmetric track configuration request, obtains drawing data of the asymmetric guide track, and displays the asymmetric guide track in a track drawing board of a track configuration control according to the drawing data of the asymmetric guide track;

the anchor client responds to a track drawing ending instruction to acquire drawing data of the first track and drawing data of the first guide track;

and the anchor client determines the drawing result of the first track according to the drawing data of the first track and the drawing data of the first guide track, and sends out a second cover configuration instruction if the drawing result of the first track is successful.

12. The cover track drawing-based live-feed approach method of claim 11, wherein the anchor client, in response to the asymmetric track configuration request, precedes, comprising the steps of:

the anchor client side responds to the cover configuration request, obtains cover configuration control data, and displays a cover configuration control according to the cover configuration control data; wherein, at least a track mode control is displayed in the cover configuration control;

the anchor client responds to a trigger instruction of the first anchor to the track mode control to display the track configuration control; the track configuration control at least displays a track type control and a track shape control;

if the track type selected by the first anchor is an asymmetric type, the anchor client acquires the shape of the asymmetric guide track selected by the first anchor, determines drawing data of the asymmetric guide track according to the shape of the asymmetric guide track selected by the first anchor, and sends an asymmetric track configuration request.

13. The live broadcast room approach method based on cover track drawing according to any one of claims 1 or 10 to 12, wherein the first track is generated according to drawing data of the first track, the drawing data of the first track is drawing data obtained when the first anchor is drawn according to a first guide track, a second guide track is further displayed on the track drawing board, and the first guide track and the second guide track form an asymmetric guide track;

the method further comprises the steps of:

the audience client responds to the second track drawing ending instruction to obtain drawing data of the second guide track and drawing data of the second track;

the audience client obtains the matching degree of the second track and the second guide track according to the drawing data of the second guide track and the drawing data of the second track;

and if the matching degree exceeds a preset matching degree threshold value, the second track is confirmed to be matched with the second guide track, and the audience client side sends a second track drawing success instruction.

14. The cover track drawing-based live broadcast room approach method as claimed in claim 1, wherein the first track is generated according to drawing data of the first track, and the drawing data of the first track is drawing data obtained when a first anchor draws a first character;

before the audience client responds to the live broadcast room list loading instruction, the method comprises the following steps:

the anchor client responds to a second cover configuration instruction, acquires a first anchor identification, a first live broadcast room identification and drawing data of the first track, and sends the first anchor identification, the first live broadcast room identification and the drawing data of the first track to a server;

the server receives the first anchor identification, the first live broadcast room identification and drawing data of the first track, sets the first anchor corresponding to the first anchor identification as a candidate recommended anchor, and sets the first anchor as an anchor corresponding to a second cover configuration label.

15. The cover track drawing-based live-feed approach method of claim 14, wherein the anchor client responds to a second cover configuration instruction and comprises the steps of:

the anchor client side responds to an asymmetric track configuration request, obtains drawing data of the first character, and displays a guide track corresponding to the first character in a track drawing board of a track configuration control according to the drawing data of the first character;

the anchor client side responds to a track drawing ending instruction, obtains the image of the first track displayed in the track drawing board of the track configuration control, determines the drawing result of the first track according to the image of the first track and the first characters, and sends out a second cover configuration instruction if the drawing result of the first track is drawing success.

16. The cover track drawing-based live-feed approach method of claim 15, wherein the anchor client, in response to the asymmetric track configuration request, precedes the steps of:

the anchor client side responds to the cover configuration request, obtains cover configuration control data, and displays a cover configuration control according to the cover configuration control data; wherein, at least a track mode control is displayed in the cover configuration control;

the anchor client responds to a trigger instruction of the first anchor to the track mode control to display the track configuration control; the track configuration control at least displays a track type control and a track shape control;

if the track type selected by the first anchor is an asymmetric type, the anchor client acquires the first character selected by the first anchor, determines drawing data of the first character according to the first character selected by the first anchor, and sends out the asymmetric track configuration request.

17. The cover track drawing-based live broadcast room approach method as claimed in any one of claims 1 or 14 to 16, wherein the first track is generated according to drawing data of the first track, and the drawing data of the first track is drawing data obtained when a first main broadcast draws a first character;

the method further comprises the steps of:

the audience client side responds to a second track drawing ending instruction to obtain an image of the second track displayed in the track drawing board;

and if the second track is confirmed to be matched with the first character according to the image of the second track and the first character, the audience client side sends a second track drawing success instruction.

18. The cover track drawing-based live room approach method as claimed in claim 17, wherein after the viewer client issues a second track drawing success command, the method comprises the steps of:

the audience client-side responds to the second track drawing success instruction to obtain second cover animation data corresponding to the first characters;

and the audience client renders and displays the second cover animation according to the second cover animation data.

19. The utility model provides a live broadcast room entrance device based on front cover orbit is drawn which characterized in that includes:

the system comprises a first acquisition unit, a second acquisition unit and a live broadcast room list loading unit, wherein the first acquisition unit is used for responding to a live broadcast room list loading instruction by a viewer client, acquiring live broadcast room list data and loading a live broadcast room list according to the live broadcast room list data; the live broadcast room list comprises live broadcast room covers corresponding to a plurality of live broadcast room identifications;

the first loading unit is used for acquiring track drawing board data by the audience client side if a first direct broadcasting room mark exists in the direct broadcasting room marks, drawing the drawing board data according to the track, and loading a track drawing board on a cover of the direct broadcasting room corresponding to the first direct broadcasting room mark; wherein a first track is displayed on the track drawing picture board;

the first drawing unit is used for responding to a second track drawing instruction by the audience client, acquiring second track drawing data, and displaying a second track drawn by a current user on the track drawing picture board according to the second track drawing data;

and the first entrance unit is used for responding to a second track drawing ending instruction by the audience client, acquiring live broadcast room data corresponding to the first live broadcast room identifier, and loading the live broadcast room corresponding to the first live broadcast room identifier according to the live broadcast room data corresponding to the first live broadcast room identifier.

20. A computer device, comprising: processor, memory and computer program stored in the memory and executable on the processor, characterized in that the steps of the method according to any of claims 1 to 18 are implemented when the processor executes the computer program.

21. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 18.

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