CN113225581B - Live broadcast interaction method and device and electronic equipment - Google Patents

Abstract

The application provides a live broadcast interaction method, a live broadcast interaction device, electronic equipment and a computer readable storage medium; the method comprises the following steps: displaying an interactive material customization entry in a live scene; responding to the triggering operation aiming at the interactive material customization entry, and displaying an interactive material customization interface; generating customized interactive materials in response to the received customization operation in the interactive material customization interface; and displaying the customized interactive material in the material aggregation prop of the live scene, wherein the material aggregation prop is used for carrying out interaction based on the customized interactive material. Through the method and the device, the interaction efficiency and the live broadcast effect can be improved, and meanwhile, the actual utilization rate of the calculation resources consumed in the live broadcast process can also be improved.

Description

Live broadcast interaction method and device and electronic equipment

Technical Field

The present application relates to network technologies, and in particular, to a live broadcast interaction method and apparatus, an electronic device, and a computer-readable storage medium.

Background

With the rapid development of network technologies (such as internet technologies), live webcasting has been widely popularized due to the advantages of intuition, rich content, strong interactivity, unlimited territory and the like, and through the live webcasting technology, a main webcasting can be live webcast in a live webcasting room, and audiences can enter the live webcasting room where the main webcasting is located to watch the performance of the main webcasting.

Currently, in the live broadcast process, the audience and the main broadcast can only interact through fixed interactive materials, for example, a plurality of virtual gifts (i.e. interactive materials) are preset, and the audience selects the virtual gifts from the virtual gifts and presents the virtual gifts to the main broadcast. Due to the fact that the interactive mode is solidified and single, the live broadcast effect is poor, and computing resources consumed in the live broadcast process are wasted. For this reason, the related art has not provided an effective solution.

Disclosure of Invention

The embodiment of the application provides a live broadcast interaction method and device, electronic equipment and a computer readable storage medium, which can improve interaction efficiency by expanding an interaction mode in a live broadcast scene and can also improve the actual utilization rate of computing resources consumed in a live broadcast process.

The technical scheme of the embodiment of the application is realized as follows:

the embodiment of the application provides a live broadcast interaction method, which comprises the following steps:

displaying an interactive material customization entry in a live scene;

responding to the triggering operation aiming at the interactive material customization entry, and displaying an interactive material customization interface;

responding to the customization operation received in the interactive material customization interface, and generating customized interactive materials;

and displaying the customized interactive material in the material aggregation prop of the live broadcast scene, wherein the material aggregation prop is used for carrying out interaction based on the customized interactive material.

The embodiment of the application provides a live interactive installation, include:

the entrance display module is used for displaying an interactive material customization entrance in a live scene;

the customization module is used for responding to the triggering operation aiming at the interactive material customization entry and displaying an interactive material customization interface;

the customization module is also used for responding to customization operation received in the interactive material customization interface and generating customized interactive materials;

and the material display module is used for displaying the customized interactive material in the material aggregation prop of the live broadcast scene, wherein the material aggregation prop is used for carrying out interaction based on the customized interactive material.

An embodiment of the present application provides an electronic device, including:

a memory for storing executable instructions;

and the processor is used for realizing the live broadcast interaction method provided by the embodiment of the application when the executable instructions stored in the memory are executed.

The embodiment of the application provides a computer-readable storage medium, which stores executable instructions and is used for causing a processor to execute the executable instructions so as to realize the live broadcast interaction method provided by the embodiment of the application.

The embodiment of the application has the following beneficial effects:

an interactive material customization interface is displayed in a live scene, so that customized interactive materials can be generated according to the actual requirements of users, and the interactive enthusiasm of the users is improved; in addition, the customized interactive materials are displayed in the material aggregation props, interaction based on the customized interactive materials can be performed, interaction efficiency and live broadcast effect are improved, and meanwhile the actual utilization rate of computing resources consumed in the live broadcast process can also be improved.

Drawings

Fig. 1 is a schematic architecture diagram of a live interactive system provided in an embodiment of the present application;

fig. 2 is a schematic architecture diagram of a terminal device provided in an embodiment of the present application;

fig. 3A to fig. 3E are schematic flow diagrams of a live broadcast interaction method provided in an embodiment of the present application;

fig. 4 is a schematic flowchart of a live broadcast interaction method provided in an embodiment of the present application;

FIG. 5 is a schematic diagram of a live broadcast room interface provided by an embodiment of the present application;

fig. 6 is a schematic diagram of a virtual gift customization interface provided by an embodiment of the present application;

fig. 7A-7C are schematic diagrams of a virtual gift customization interface provided by an embodiment of the present application;

FIG. 8 is a schematic diagram of a combining process provided by an embodiment of the present application resulting in a customized virtual gift;

fig. 9 is a schematic illustration of a virtual gift customization interface provided by an embodiment of the present application;

FIG. 10 is a schematic view of a gift wall interface provided by an embodiment of the present application;

FIG. 11 is a schematic diagram of a live room interface provided by an embodiment of the present application;

fig. 12 is a schematic diagram of a leader board interface provided in the embodiment of the present application.

Detailed Description

In order to make the objectives, technical solutions and advantages of the present application clearer, the present application will be described in further detail with reference to the attached drawings, the described embodiments should not be considered as limiting the present application, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts shall fall within the protection scope of the present application.

In the following description, reference is made to "some embodiments" which describe a subset of all possible embodiments, but it is understood that "some embodiments" may be the same subset or different subsets of all possible embodiments, and may be combined with each other without conflict. In the following description, the term "plurality" referred to means at least two.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing embodiments of the present application only and is not intended to be limiting of the application.

Before further detailed description of the embodiments of the present application, terms and expressions referred to in the embodiments of the present application will be described, and the terms and expressions referred to in the embodiments of the present application will be used for the following explanation.

1) In response to the condition or state on which the performed operation depends, one or more of the performed operations may be in real-time or may have a set delay when the dependent condition or state is satisfied; there is no restriction on the order of execution of the operations performed unless otherwise specified.

2) And (4) live broadcast: the information is synchronously manufactured and released along with the occurrence and development processes of events on site, and the information network release mode with a bidirectional circulation process is provided. For example, the data of the broadcaster (i.e., the primary account) can be collected by a specific device, and then output to the viewing user terminal (i.e., the viewer account) through a series of processes (e.g., compressing into a viewable and transmittable video stream based on video coding technology), thereby realizing live broadcasting.

3) Interactive materials: the method is used for realizing interaction between accounts in a live scene. For example, the interactive material may be a virtual gift, and one account may give the virtual gift to another account. In the embodiment of the present application, the interactive material may include two types, i.e., customized interactive material and non-customized interactive material, where the customized interactive material is generated by the received customization operation, and the non-customized interactive material represents the interactive material generated in advance (i.e., does not depend on the customization operation).

4) Virtual resources: any form of resource that can be transported in a network may have the "amount" as a measure of the virtual resource. For example, the virtual resource may be electronic money corresponding to the receipt and payment, and the amount may be an amount of the receipt and payment (i.e., a value of the electronic money included in the receipt and payment), and the receipt and payment enables transfer of the electronic money between account numbers based on a mobile payment technology.

5) The material polymerization prop: the virtual prop has the function of displaying customized interactive materials, and the form of the material aggregation prop is not limited, and can be a backpack, a wall, a bulletin board and the like. In this embodiment of the application, the live broadcast scene may include at least one of a shared material aggregate prop and a private material aggregate prop, where the shared material aggregate prop is shared by a plurality of account numbers corresponding to the live broadcast scene, and each account number corresponds to a private material aggregate prop exclusive to itself.

The embodiment of the application provides a live broadcast interaction method and device, electronic equipment and a computer readable storage medium, which can improve interaction efficiency and live broadcast effect and can also improve the actual utilization rate of computing resources consumed in the live broadcast process. An exemplary application of the electronic device provided in the embodiment of the present application is described below, and the electronic device provided in the embodiment of the present application may be implemented as various types of terminal devices, and may also be implemented as a server.

Referring to fig. 1, fig. 1 is an architecture diagram of a live interactive system 100 provided in an embodiment of the present application, a terminal device 400 is connected to a server 200 through a network 300, where the network 300 may be a wide area network or a local area network, or a combination of both.

In some embodiments, taking the electronic device as a terminal device as an example, the live broadcast interaction method provided by the embodiment of the present application may be implemented by the terminal device. For example, the terminal device 400 displays an interactive material customization entry in a live scene; responding to the trigger operation of the interactive material customization entry, and displaying an interactive material customization interface; generating customized interactive materials in response to the received customization operation in the interactive material customization interface; and displaying the customized interactive material in the material aggregation prop of the live scene, wherein the material aggregation prop is used for carrying out interaction based on the customized interactive material.

In some embodiments, the live broadcast interaction method provided by the embodiment of the present application may also be cooperatively implemented by a server and a terminal device. For example, the server 200 may transmit display data relating to a live scene to the terminal apparatus 400 to cause the terminal apparatus 400 to display the live scene. For example, the terminal device 400 may display an interactive material customization entry in a live scene, and display an interactive material customization interface in response to a trigger operation for the interactive material customization entry. When the terminal device 400 receives the customizing operation in the interactive material customizing interface, the customizing operation may be sent to the server 200, so that the server 200 generates the customized interactive material according to the customizing operation. The server 200 may send the generated related display data of the customized interactive material to the terminal device 400, so that the terminal device 400 displays the customized interactive material in a material aggregate item of the live broadcast scene, where the material aggregate item is used for performing interaction based on the customized interactive material.

In some embodiments, the live scene may be a game live scene. For example, the customized interactive material may be a game item in a live game scene, and the interaction based on the customized interactive material may be to implement a corresponding function according to the game item, such as changing a game score of a game character (i.e., a virtual object); as well as to apply a gain or a reduction to a game character; further, the game role is not limited to a specific game task.

In some embodiments, the terminal device 400 or the server 200 may implement the live broadcast interaction method provided in the embodiment of the present application by running a computer program, where the computer program corresponds to the client 410 shown in fig. 1. For example, the computer program may be a native program or a software module in an operating system; can be a local (Native) Application program (APP), i.e. a program that needs to be installed in an operating system to run, such as a live Application program; or may be an applet, i.e. a program that can be run only by downloading it to the browser environment; but also an applet that can be embedded into any APP. In general, the computer programs described above may be any form of application, module or plug-in.

In some embodiments, the server 200 may be an independent physical server, may also be a server cluster or a distributed system formed by a plurality of physical servers, and may also be a cloud server that provides basic cloud computing services such as a cloud service, a cloud database, cloud computing, a cloud function, cloud storage, a Network service, cloud communication, a middleware service, a domain name service, a security service, a Content Delivery Network (CDN), and a big data and artificial intelligence platform, where the cloud service may be a live broadcast interactive service for the terminal device 400 to call. The terminal device 400 may be, but is not limited to, a smart phone, a tablet computer, a notebook computer, a desktop computer, a smart television, a smart watch, and the like. The terminal device and the server may be directly or indirectly connected through wired or wireless communication, and the embodiment of the present application is not limited.

In some embodiments, various results (such as sub-materials, customized interactive materials, and the like) involved in the live broadcast interaction process can be stored in the blockchain, and since the blockchain has a non-falsification characteristic, the accuracy of data in the blockchain can be ensured. The electronic device may send a query request to the blockchain to query the data stored in the blockchain. For example, the server 200 generates customized interactive materials when receiving the customization operation sent by the terminal device 400, and stores the customized interactive materials into the blockchain. The terminal device 400 may query the customized interactive material stored in the blockchain when the customized interactive material needs to be displayed.

Taking the electronic device provided in the embodiment of the present application as an example for explanation, it may be understood that, for a case where the electronic device is a server, parts (for example, a user interface, a presentation module, and an input processing module) in the structure shown in fig. 2 may be default. Referring to fig. 2, fig. 2 is a schematic structural diagram of a terminal device 400 provided in an embodiment of the present application, where the terminal device 400 shown in fig. 2 includes: at least one processor 410, memory 450, at least one network interface 420, and a user interface 430. The various components in the terminal device 400 are coupled together by a bus system 440. It is understood that the bus system 440 is used to enable communications among the components. The bus system 440 includes a power bus, a control bus, and a status signal bus in addition to a data bus. For clarity of illustration, however, the various buses are labeled as bus system 440 in fig. 2.

The Processor 410 may be an integrated circuit chip having Signal processing capabilities, such as a general purpose Processor, a Digital Signal Processor (DSP), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like, wherein the general purpose Processor may be a microprocessor or any conventional Processor, or the like.

The user interface 430 includes one or more output devices 431, including one or more speakers and/or one or more visual displays, that enable the presentation of media content. The user interface 430 also includes one or more input devices 432, including user interface components that facilitate user input, such as a keyboard, mouse, microphone, touch screen display, camera, other input buttons and controls.

The memory 450 may be removable, non-removable, or a combination thereof. Exemplary hardware devices include solid state memory, hard disk drives, optical disk drives, and the like. Memory 450 optionally includes one or more storage devices physically located remote from processor 410.

The memory 450 includes either volatile memory or nonvolatile memory, and may include both volatile and nonvolatile memory. The nonvolatile Memory may be a Read Only Memory (ROM), and the volatile Memory may be a Random Access Memory (RAM). The memory 450 described in embodiments herein is intended to comprise any suitable type of memory.

In some embodiments, memory 450 is capable of storing data to support various operations, examples of which include programs, modules, and data structures, or subsets or supersets thereof, as exemplified below.

An operating system 451, including system programs for handling various basic system services and performing hardware-related tasks, such as a framework layer, a core library layer, a driver layer, etc., for implementing various basic services and handling hardware-based tasks;

a network communication module 452 for communicating to other electronic devices via one or more (wired or wireless) network interfaces 420, exemplary network interfaces 420 including: bluetooth, wireless compatibility authentication (WiFi), and Universal Serial Bus (USB), etc.;

a presentation module 453 for enabling presentation of information (e.g., user interfaces for operating peripherals and displaying content and information) via one or more output devices 431 (e.g., display screens, speakers, etc.) associated with user interface 430;

an input processing module 454 for detecting one or more user inputs or interactions from one of the one or more input devices 432 and translating the detected inputs or interactions.

In some embodiments, the live interactive device provided in the embodiments of the present application may be implemented in software, and fig. 2 illustrates the live interactive device 455 stored in the memory 450, which may be software in the form of programs and plug-ins, and includes the following software modules: a portal display module 4551, a customization module 4552, and a material display module 4553, which are logical and thus may be arbitrarily combined or further divided according to the functions implemented. The functions of the respective modules will be explained below.

The live broadcast interaction method provided by the embodiment of the present application will be described with reference to exemplary applications and implementations of the electronic device provided by the embodiment of the present application.

Referring to fig. 3A, fig. 3A is a schematic flowchart of a live broadcast interaction method provided in an embodiment of the present application, and the steps shown in fig. 3A will be described.

In step 101, an interactive material customization entry is displayed in a live scene.

In the embodiment of the present application, a live scene generally refers to any scene related to live, for example, a home page of a live platform or a live room interface. Here, an interactive material customization entry may be displayed in a live broadcast scene, so that any account corresponding to the live broadcast scene is triggered to generate customized interactive material through the interactive material customization entry, where the any account may be an audience account or an anchor account.

The display data related to the live broadcast scene may be pre-stored in the local terminal device, or may be acquired from the server by the terminal device in real time. The terminal device may display the live scene according to the display data related to the live scene.

In some embodiments, between any of the steps, further comprising: and displaying an interactive material selection entrance in a live scene. In the embodiment of the application, besides the way of generating the customized interactive materials, the selection among the set interactive materials can be supported. For example, an interactive material selection entry may be displayed in a live scene; responding to the trigger operation of the interactive material selection entrance, and displaying an interactive material selection interface comprising a plurality of interactive materials to be selected; and responding to the selection operation received in the interactive material selection interface, and displaying the selected interactive material in the material aggregation prop of the live broadcast scene, wherein the material aggregation prop is used for carrying out interaction based on the selected interactive material. It should be noted that at least one of the non-customized interactive material and the customized interactive material may be displayed in the interactive material selection interface, where the customized interactive material is generated in advance, for example, the customized interactive material may be generated by performing intelligent combination processing on a plurality of sub-materials through an Artificial Intelligence (AI) principle, where the intelligent combination processing is, for example, exhaustive combination processing; for example, the generation may be triggered historically by any account corresponding to the live scene. Through the mode, the flexibility of live broadcast interaction can be improved.

In step 102, in response to a triggering operation for the interactive material customization entry, an interactive material customization interface is displayed.

The triggering operation is not limited in the embodiment of the application, and may be, for example, a touch operation, such as a click operation or a long-time press operation; also, for example, the operation may be a non-touch operation such as a gesture input operation or a voice input operation. Here, when a trigger operation for the interactive material customization entry is received, an interactive material customization interface for providing an interactive material customization function is displayed.

The display form of the interactive material customization interface is not limited, and for example, the interface can be a single interface or a window-type interface.

In step 103, customized interactive material is generated in response to the customization operation received in the interactive material customization interface.

The customization mode is not limited, for example, a plurality of sub-materials can be displayed in an interactive material customization interface, and the selection operation aiming at the plurality of sub-materials is taken as the customization operation; also, for example, drawing operations received in the interactive material customization interface may be treated as customization operations. And when the customization operation is received in the interactive material customization interface, generating customized interactive materials according to the customization operation.

Here, the terminal device may locally generate the customized interactive material, or may send the received customization operation to the server, and the server generates the customized interactive material.

In some embodiments, in response to a customization operation received in an interactive material customization interface, virtual resources corresponding to a plurality of sub-materials for generating customized interactive materials are determined; performing fusion processing on the virtual resources corresponding to the plurality of sub-materials respectively to obtain customized virtual resources corresponding to the customized interactive materials; and displaying the customized virtual resources in the interactive material customization interface.

Here, in the case where the customization operation is a selection operation for a plurality of sub materials, when the customization operation is received in the interactive material customization interface, virtual resources corresponding to a plurality of sub materials for generating the customized interactive material may be determined, where the virtual resources corresponding to each sub material may be set in advance, for example, the virtual resource corresponding to the sub material a is 50 diamonds (here, the diamond is virtual currency), and the virtual resource corresponding to the sub material B is 60 diamonds. Then, the virtual resources corresponding to the plurality of sub-materials used for generating the customized interactive material are subjected to fusion processing to obtain the virtual resources corresponding to the customized interactive material, and for convenience of distinguishing, the virtual resources corresponding to the customized interactive material are named as customized virtual resources, wherein the fusion processing mode is not limited, and may be summation processing or weighted summation processing, for example.

The customized virtual resources are virtual resources required to be consumed by associating the customized interactive materials with the material aggregation props, and after the customized virtual resources are obtained, the customized virtual resources can be displayed in an interactive material customization interface so as to help a user judge whether the customized interactive materials are associated with the material aggregation props. By the method, consumption of interactive materials can be clearly customized, user friendliness is improved, and unnecessary loss of virtual resources held by the account is avoided.

In step 104, customized interactive material is displayed in the material aggregate prop of the live scene, wherein the material aggregate prop is used for interaction based on the customized interactive material.

After the customized interactive material is generated, the customized interactive material can be displayed in the material aggregation prop of the live broadcast scene, wherein the material aggregation prop is used for carrying out interaction based on the customized interactive material. In this embodiment of the application, the live broadcast scene may include at least one of a shared material aggregate prop and a private material aggregate prop, where the shared material aggregate prop is shared by a plurality of account numbers corresponding to the live broadcast scene, that is, is visible to the plurality of account numbers; and the plurality of account numbers respectively correspond to a private material aggregate prop, namely, a certain private material aggregate prop is only visible to an account number corresponding to the private material aggregate prop. The customized interactive materials are displayed in the material aggregation props of the live broadcast scenes, and the customized interactive materials can be displayed in the shared material aggregation props or displayed in the private material aggregation props corresponding to a certain account.

The interaction based on the customized interaction material refers to the interaction between the accounts based on the customized interaction material, for example, the interaction may refer to a process in which a certain account presents the customized interaction material to another account, or a process in which a certain account issues a task (such as a task in a game scene) for another account according to the customized interaction material, and the interaction mode is not limited thereto.

In some embodiments, when displaying the customized interactive material in the material aggregate prop of the live scene, further comprising: displaying account information of the customized account and customized virtual resources corresponding to the customized interactive materials in the material aggregate prop; the customized account represents an account for triggering generation of the customized interaction materials.

Here, in addition to displaying the customized interactive material in the material aggregate prop, other content related to the customized interactive material may be displayed. For example, account information of a customized account may be displayed in the material aggregate item, where the customized account represents an account that triggers generation of the customized interaction material, and for example, the account that performs the triggering operation in step 102 and the customizing operation in step 103; the account information may include at least one of an avatar and a name, and may of course include other information related to the account. In addition, customized virtual resources corresponding to the customized interactive materials can be displayed in the material aggregate props, so that the user can clearly customize the consumption of the interactive materials. Through the mode, the diversity of the content displayed in the material polymerization prop can be improved, and therefore the display effect is improved.

As shown in fig. 3A, the embodiment of the application can generate customized interactive materials according to actual requirements of users, so as to improve interactive enthusiasm of the users; the customized interactive materials are displayed in the material aggregation props so as to perform interaction based on the customized interactive materials, so that the interactive efficiency and the live broadcast effect can be improved, and the actual utilization rate of computing resources consumed in the live broadcast process can also be improved.

In some embodiments, referring to fig. 3B, fig. 3B is a flowchart of a live interaction method provided in the embodiment of the present application, and step 103 shown in fig. 3A may be implemented by step 201 or step 202, which will be described in detail with reference to the steps.

In step 201, a plurality of sub-materials are displayed in the interactive material customization interface, and in response to the selection operation for the plurality of sub-materials, the customized interactive material is obtained by performing combination processing according to the selected sub-materials.

The embodiment of the application provides two customization modes, in the first customization mode, a plurality of sub-materials (also called interaction material accessories) are displayed in an interaction material customization interface, and when selection operation aiming at the sub-materials is received, the selected sub-materials are combined to obtain customized interaction materials. The selection operation aiming at the plurality of sub-materials is customization operation; the number of the selected sub-materials includes a plurality.

Here, the sub-elements may be stored locally in the terminal device in advance, or may be acquired from the server in real time by the terminal device.

In some embodiments, the above displaying of multiple sub-stories in the interactive story customization interface may be accomplished by: displaying a plurality of customization dimensions for generating customized interactive materials in an interactive material customization interface; responding to the selection operation aiming at the plurality of customization dimensions, and displaying a plurality of sub-materials corresponding to the selected customization dimensions in an interactive material customization interface; the above-mentioned combination processing according to the selected sub-materials can be realized in such a way as to obtain customized interactive materials: and combining the selected sub-materials corresponding to the plurality of customization dimensions respectively to obtain customized interactive materials.

In the embodiment of the present application, a plurality of customized dimensions may be preset, for example, the customized dimensions may include a shape, a color, a sound effect, and the like, but not limited thereto, and the customized dimensions may be set according to a type of the customized interactive material (i.e., an interactive material type) generated as required. Here, a plurality of customization dimensions may be displayed in the interactive material customization interface, and when a selection operation for the plurality of customization dimensions is received, a plurality of sub-materials corresponding to the selected customization dimensions are displayed in the interactive material customization interface. The sub-materials corresponding to different custom dimensions are different, for example, the sub-materials corresponding to the custom dimension modeling include a plurality of modeling to be selected.

When a selection operation for a plurality of sub-materials corresponding to the selected customization dimension is received, the selected sub-materials corresponding to the selected customization dimension are determined. Thus, for each customized dimension, the corresponding selected sub-materials can be determined. And then, combining the selected sub-materials respectively corresponding to all the customization dimensions to obtain customized interactive materials. For example, the selected model, the selected color and the selected sound effect are combined to obtain the customized interactive material, wherein the selected model is the selected sub-material corresponding to the customized dimension model, and the selected color and the selected sound effect are the same. By the mode, customization can be realized in multiple customization dimensions, and the customization difficulty can be reduced while the user requirements are met.

In some embodiments, the above displaying of multiple sub-stories in the interactive story customization interface may be accomplished by: displaying various interactive material types in an interactive material customization interface; responding to the selection operation aiming at various interactive material types, and displaying a plurality of sub-materials corresponding to the selected interactive material types; the above-mentioned combination processing according to the selected sub-materials can be realized in such a way as to obtain customized interactive materials: and combining the selected sub-materials according to the selected interactive material type to obtain the customized interactive material according with the selected interactive material type.

In the embodiment of the present application, a plurality of interactive material types may also be set, for example, the interactive material types include rockets, airplanes, yachts, and the like. In the customization process, multiple interactive material types can be displayed in the interactive material customization interface, and when selection operation aiming at the multiple interactive material types is received, multiple sub-materials corresponding to the selected interactive material types are displayed in the interactive material customization interface. And when the selection operation aiming at the plurality of sub-materials corresponding to the selected interactive material type is received, the combination processing is carried out according to the selected sub-materials corresponding to the selected interactive material type, and the customized interactive material according with the selected interactive material type is obtained.

It should be noted that, for each interactive material type, a plurality of customization dimensions may be further divided, for example, the customization dimensions corresponding to the interactive material type rocket include a shape, a color and a sound effect, where the customization dimensions corresponding to different interactive material types may be the same or different, and are determined according to actual application scenarios. When selection operation aiming at multiple interactive material types is received, multiple customization dimensions corresponding to the selected interactive material types can be displayed in an interactive material customization interface; and when receiving selection operation aiming at a plurality of customization dimensions corresponding to the selected interactive material type, displaying a plurality of sub-materials corresponding to the selected customization dimensions in an interactive material customization interface. By means of the method, the type diversification of the customized interactive materials can be improved, and the customization requirements of users are further met.

In some embodiments, the above-described display of multiple sub-materials in an interactive material customization interface may be implemented in a manner that: and displaying summary information corresponding to the sub-materials in the interactive material customization interface.

Here, displaying a plurality of sub-materials in the interactive material customization interface may refer to displaying complete sub-materials, or may refer to displaying summary information corresponding to each sub-material. The summary information corresponding to the child material represents the summary condition of the child material, for example, the summary information may include a frame image and/or a text description (such as a name) of the child material. Compared with the method for displaying complete sub-materials, the method for displaying the summary information can save the computing resources consumed in the displaying process by displaying the more brief summary information.

In some embodiments, when summary information corresponding to each of the plurality of sub-materials is displayed in the interactive material customization interface, the method further includes: and responding to the preview operation of the summary information corresponding to any one of the sub-materials, and playing the preview process based on any one of the sub-materials.

Here, in the process of displaying the summary information corresponding to each child material, when a preview operation for the summary information corresponding to any one child material is received, the preview process based on the any one child material is played, and thus, it is possible to help the user to understand the any one child material carefully and comprehensively. The preview operation is not limited, and may be, for example, a trigger operation (e.g., a click operation) or an angle adjustment operation.

In some embodiments, the above-described process of playing a preview based on any one of the sub-materials may be implemented in such a way that: when the summary information corresponding to any one of the sub-materials comprises a three-dimensional virtual object at any angle, displaying a rotation process of the three-dimensional virtual object from any angle to the angle corresponding to the preview operation; when the summary information corresponding to any sub-material comprises a link object, any sub-material is obtained according to a link address corresponding to the link object, and any sub-material is played according to a media component corresponding to the media type of any sub-material.

For easy understanding, an example case of the play preview process will be described by taking as an example a preview operation in which summary information corresponding to the sub material a is received.

When the summary information corresponding to the sub-material a includes a three-dimensional virtual object at any angle (i.e., an image observed from the three-dimensional virtual object at any angle), the preview operation may be an angle adjustment operation for the three-dimensional virtual object, and the preview process may be a rotation process of the three-dimensional virtual object from the any angle to a new angle (i.e., an angle adjusted by the angle adjustment operation). In this way, by displaying the rotation process, the user can be made to fully understand the details of the three-dimensional virtual object (i.e., the 3D object).

When the summary information corresponding to the sub-material a includes a link object (e.g., a web page element supporting a hyperlink), the preview operation may be a trigger operation for the link object. When the preview operation is received, the sub-material a is obtained according to the link address corresponding to the link object (for example, a complete file of the sub-material a is downloaded from a server), and the sub-material a is played according to the media component corresponding to the media type of the obtained sub-material a. For example, if the media type of the sub-material a is video, the sub-material a is played according to a video media component (e.g., a video player); the media type of the sub-material a is audio, and the sub-material a is played according to an audio media component (e.g., an audio player). The media component may provide functions of adjusting a playing speed, stopping playing, and starting playing, which are not limited herein.

By means of the method, differential preview is achieved for different sub-materials, preview effectiveness can be improved, and a user can be helped to fully know the selected sub-materials while computing resources are saved.

In some embodiments, when displaying the plurality of sub-materials in the interactive material customization interface, further comprising: and displaying the virtual resources corresponding to the sub-materials in the interactive material customization interface.

Here, when the plurality of sub-materials are displayed in the interactive material customization interface, virtual resources corresponding to the sub-materials can be displayed, so that a user can select the sub-materials according with the actual situation of the user. For example, if the account number being used by the user has abundant virtual resources, the corresponding sub-materials with higher virtual resource value can be selected; if the virtual resources held by the account number used by the user are tense, the corresponding sub-materials with lower virtual resource values can be selected. Therefore, the user experience in the customization process can be improved.

In some embodiments, the selected sub-materials include video sub-materials and audio sub-materials; the above-mentioned combination processing according to the selected sub-materials can be realized in such a way as to obtain customized interactive materials: acquiring video resources in the video sub-material and audio resources in the audio sub-material; creating a material combination project, and creating a video track and an audio track in the material combination project; adding video resources to a video track, adding audio resources to an audio track, and synthesizing according to the updated video track and the updated audio track to obtain an interactive material to be exported; obtaining a derivation parameter set for the interactive material to be derived, and deriving the interactive material to be derived in the material combination project according to the derivation parameter to obtain a customized interactive material; wherein the derived parameter includes at least one of a path, a format, and a volume.

Here, in the case where the selected sub-materials include a video sub-material and an audio sub-material, an example manner of the combining process is provided, wherein the combining process may be performed by the terminal device or the server. First, video assets are extracted from the video sub-material, while audio assets are extracted from the audio sub-material. Then, a material composition item, that is, a software engineering item for realizing a composition process is created, and a video track and an audio track are created in the material composition item. And adding the video resources to the video track in the material combination project, adding the audio resources to the audio track in the material combination project, and synthesizing according to the updated video track and the updated audio track to obtain the interactive material to be exported.

For interactive materials to be exported, the interactive materials need to be exported from the material combination project. For example, export parameters set for interactive material to be exported may be obtained, where the export parameters include at least one of a path (indicating which file path to export to), a format (indicating in which file format to export), and a volume; the derived parameters may be set by default or may be set by the user in real time. And exporting the interactive materials to be exported in the material combination project according to the obtained export parameters to obtain the customized interactive materials. By the method, accurate and effective combination processing can be realized, and accurate customized interactive materials are obtained.

In step 202, in response to the drawing operation received in the interactive material customizing interface, the interactive material drawn by the drawing operation is taken as the customized interactive material.

In the second customization mode, drawing operation is received in the interactive material customization interface, and the interactive material obtained through drawing operation is used as the customized interactive material. For example, a drawing component (e.g., a software drawing board) may be displayed in the interactive material customization interface and a drawing operation by a user for the drawing component may be received. Through the second customization mode, the degree of freedom of customization can be improved, and the user can freely draw according to the self demand.

As shown in fig. 3B, the embodiment of the present application provides two customization methods, which can improve the flexibility of customization, and any one customization method can be applied according to an actual application scenario.

In some embodiments, referring to fig. 3C, fig. 3C is a schematic flow diagram of a live broadcast interaction method provided in an embodiment of the present application, and based on fig. 3A, after receiving a customization operation, in step 301, in response to an association operation of any account for a customized interaction material, performing deduction processing on virtual resources of any account according to customized virtual resources corresponding to the customized interaction material, and establishing an association relationship between the customized interaction material and a material aggregation prop; wherein the material aggregate prop is used for displaying the associated customized interactive material.

Here, the live objects correspond to a plurality of accounts, for example, one live room corresponds to a anchor account and a plurality of viewer accounts. When the association operation of any account aiming at the customized interactive materials is received, deducting the virtual resources held by any account according to the customized virtual resources corresponding to the customized interactive materials, and establishing the association relationship between the customized interactive materials and the material aggregation props. For example, if the virtual resources held by any account are 100 diamonds and the customized virtual resources corresponding to the customized interactive material are 60 diamonds, the virtual resources held by any account are updated to 40 diamonds after deduction. In some embodiments, the association operation may be a purchase operation.

After the incidence relation between the customized interactive materials and the material aggregate props is established, the material aggregate props can display the associated customized interactive materials. It should be noted that the establishment of the association relationship between the customized interactive material and the material aggregate prop may be establishment of an association relationship between the customized interactive material and the shared material aggregate prop, establishment of an association relationship between the customized interactive material and the private material aggregate prop corresponding to the arbitrary account, establishment of an association relationship between the customized interactive material and the shared material aggregate prop, and establishment of an association relationship between the customized interactive material and the private material aggregate prop corresponding to the arbitrary account.

It should be noted that step 301 may be executed before the customized interactive material is generated, during the process of generating the customized interactive material, or after the customized interactive material is generated, and fig. 3C illustrates an example in which step 301 is executed after step 103. Step 301 may be performed by the terminal device or by the terminal device notifying the server.

In some embodiments, the association operation is performed by the customized account for the customized interactive material; the above-mentioned establishment of the association relationship between the customized interactive material and the material aggregate prop can be realized by the following steps: and establishing an association relationship between the customized interactive materials and the shared material aggregate props and an association relationship between the customized interactive materials and the private material aggregate props corresponding to the customized account numbers.

Here, for the customized account, an associated right to aggregate props for shared material may be granted. For example, when the association operation of the customized account for the customized interactive material is received, the virtual resources of the customized account are deducted according to the customized virtual resources corresponding to the customized interactive material, the association relationship between the customized interactive material and the shared material aggregate prop is established, and the association relationship between the customized interactive material and the private material aggregate prop corresponding to the customized account is established at the same time.

In some embodiments, the association operation is performed by the non-customized account for the customized interactive material; the above-mentioned establishment of the association relationship between the customized interactive material and the material aggregate prop can be realized by the following steps: and establishing an association relation between the customized interactive materials and the private material aggregation props corresponding to the non-customized account.

Here, for the non-customized account, since the non-customized account is a user of the customized interactive material and not a customizer, the granting of the association authority for the shared material aggregate may be prohibited, where the non-customized account is any account different from the customized account. For example, when the association operation of the non-customized account for the customized interactive material is received, deducting the virtual resources of the non-customized account according to the customized virtual resources corresponding to the customized interactive material, and establishing an association relationship between the customized interactive material and the private material aggregate prop corresponding to the non-customized account.

In some embodiments, when the association operation is directed to the customized interactive material displayed in the shared material aggregate prop, the above-mentioned establishment of the association relationship between the customized interactive material and the material aggregate prop can be implemented in such a way that: and establishing an association relation between the customized interactive material and the private material aggregation prop corresponding to any account.

For example, when receiving an association operation of any account for a customized interactive material displayed in a shared material aggregate prop, deducting the virtual resource of the any account according to the customized virtual resource corresponding to the customized interactive material, and establishing an association relationship between the customized interactive material and the private material aggregate prop corresponding to the any account. The any account may be a customized account or an un-customized account. Through the mode, the enthusiasm of the user for implementing the association operation can be mobilized, and the live broadcast interaction effect is improved.

It is worth noting that in the embodiment of the present application, the customized interactive materials associated with the shared material aggregate may be different from each other, and the private material aggregate may be associated with a plurality of customized interactive materials (i.e. may be accumulated).

In some embodiments, when deducting the virtual resource of any account according to the customized virtual resource corresponding to the customized interactive material, the method further includes: sending an association notification to the customized account; the customized account number represents an account number for triggering generation of the customized interactive material; and the association notification represents the established association relationship between the customized interactive material and the material aggregate prop.

Here, when deducting the virtual resources of any account according to the customized virtual resources corresponding to the customized interaction material, an association notification (or called purchase notification) may be sent to the customized account corresponding to the customized interaction material, so as to indicate that an association relationship between the customized interaction material and the material aggregate prop is established. Through the mode, the user with the customized account can know the association condition of the customized interactive materials, and the information transparency in the live broadcasting process is improved.

In some embodiments, after step 103, further comprising: and when the existence time of the customized interactive material is greater than the effective time threshold, performing invalidation processing on the customized interactive material.

Here, for each customized interactive material generated, an effective duration threshold may be set, and the effective duration threshold may be specifically set according to an actual application scenario, for example, set to 3 days. And when the existence time of the customized interactive material is greater than the effective time threshold, performing invalidation processing on the customized interactive material, such as deleting the customized interactive material. The existing duration may be duration existing after generation, or may be duration existing after an association relationship is established with the material aggregate prop (such as a shared material aggregate prop or a private material aggregate prop). By the method, the storage resources of the electronic equipment can be effectively saved, and a user can be stimulated to customize new customized interactive materials.

As shown in fig. 3C, in the embodiment of the application, the association relationship between the customized interactive material and the material aggregate prop is established by deducting the virtual resource, and the enthusiasm of the user for executing the association operation through the account can be mobilized, so that the live broadcast interaction effect is improved, and meanwhile, the customized interactive material can be effectively utilized.

In some embodiments, referring to fig. 3D, fig. 3D is a schematic flowchart of a live broadcast interaction method provided in an embodiment of the present application, and based on fig. 3A, after a customized interaction material is generated (for example, after step 104 in fig. 3D), in step 401, in response to an interaction operation of any account for the customized interaction material, an interaction process based on the customized interaction material is played in a live broadcast scene, and the live broadcast scene is subjected to an excitation process according to the customized interaction material; and establishing an association relation between the private material aggregation prop corresponding to any account and the customized interactive material.

Here, when the association relationship between the private material aggregate item corresponding to any one account and the customized interactive material is established, an interaction authority for the customized interactive material is granted to the any one account, so that the any one account performs an interaction operation for the customized interactive material.

For example, when receiving an interactive operation of any account for the customized interactive material, playing an interactive process based on the customized interactive material in a live broadcast scene, and performing excitation processing on the live broadcast scene according to the customized interactive material. The operation of playing the interactive process may be performed by the terminal device, and the operation of the excitation process may be performed by the terminal device or the server.

In some embodiments, the above-described interactive process of playing customized interactive material in a live scene may be implemented in such a way that: and playing the customized interactive material in a live scene according to the media component corresponding to the media type of the customized interactive material, and displaying account information of any account in the playing process of the customized interactive material.

For example, when an interactive operation of any account for a customized interactive material is received, the customized interactive material can be played in a live broadcast scene according to a media component corresponding to a media type of the customized interactive material, wherein the customized interactive material can be stored locally in the terminal device in advance, or can be obtained from the server by the terminal device in real time. In the playing process of the customized interactive material, the account information of any account can be displayed, so that the interactive operation is performed by any account in a visual mode. Therefore, the interactive enthusiasm can be adjusted from another angle, and the interactive effect is improved.

In some embodiments, the interactive operation represents an operation of sending customized interactive materials to a target account by any account; the aforementioned incentive processing of live scenes from customized interactive material can be achieved by: performing at least one of: determining virtual resources to be allocated according to the customized virtual resources corresponding to the customized interactive materials, and allocating the virtual resources to be allocated to the target account; and determining the heat degree to be distributed according to the customized virtual resources, and distributing the heat degree to be distributed to the live broadcast scene.

Taking an example that the interactive operation represents an operation of sending customized interactive materials to a target account by any account, an incentive processing mode is described, where the target account may be a primary account or an audience account.

The first way is to determine the virtual resources to be allocated according to the customized virtual resources corresponding to the customized interactive materials, and allocate the virtual resources to be allocated to the target account, where the virtual resources to be allocated may be fixed, or positively correlated with the customized virtual resources, and the positive correlation may be specifically set according to the actual application scenario. For example, if the virtual resources originally held by the target account are 100 diamonds and the determined virtual resources to be allocated are 50 diamonds, the virtual resources held by the target account are updated to 150 diamonds after the virtual resources to be allocated are allocated to the target account, that is, the virtual resources are cumulative.

The second way is that the heat to be distributed is determined according to the customized virtual resource, and the heat to be distributed is distributed to the live broadcast scene, wherein the heat to be distributed can be fixed, and can also be positively correlated with the customized virtual resource, and the positive correlation here can also be specifically set according to the actual application scene. For example, the heat degree is represented by a number, the larger the number is, the higher the heat degree is, the original heat degree of a live scene (such as a live broadcast room) is 2345, and the determined heat degree to be allocated is 1000, and after the heat degree to be allocated is allocated to the live scene, the heat degree of the live scene is updated to 3345, that is, the heat degree is cumulative.

Therefore, the flexibility and diversity of the excitation processing can be improved, and at least one of the two modes can be applied according to the requirements in the actual application scene.

In some embodiments, between any of the steps, further comprising: responding to the interactive operation of any account aiming at the non-customized interactive material, playing the interactive process based on the non-customized interactive material in the live scene, and performing excitation processing on the live scene according to the non-customized interactive material; the intensity of excitation processing according to the non-customized interactive material is less than the intensity of excitation processing according to the customized interactive material to be compared; the non-customized interactive material and the customized interactive material to be compared correspond to the same virtual resource.

Here, when the private material aggregation property corresponding to any one account has established an association relationship with the non-customized interactive material, an interaction authority for the non-customized interactive material is granted to the any one account, so that the any one account performs an interaction operation for the non-customized interactive material.

For example, when receiving an interactive operation of the any account for the non-customized interactive material, playing an interactive process based on the non-customized interactive material in a live scene, and performing excitation processing on the live scene according to the non-customized interactive material. And then, removing the association relation between the private material aggregate prop corresponding to any account and the non-customized interactive material.

In summary, the process of interacting based on non-customized interactive material is similar to the process of interacting based on customized interactive material, with the difference being the strength of the stimulus processing. For example, when the non-customized interactive material corresponds to the same virtual resource as a customized interactive material to be compared, the intensity of the excitation processing performed on the basis of the non-customized interactive material is smaller than the intensity of the excitation processing performed on the basis of the customized interactive material to be compared, and the intensity of the excitation processing may be represented by at least one of the virtual resource to be allocated and the heat degree to be allocated. Therefore, the user can be prompted to interact based on the customized interactive materials, and the live broadcast interactive effect is improved.

In step 402, the association relationship between the private material aggregate prop corresponding to any account and the customized interactive material is released.

For private material syndication items, the associated customized interactive material has a consumable character. Therefore, when the customized interactive materials associated with the private material aggregation props corresponding to any account number are interacted, the association relation between the private material aggregation props and the customized interactive materials is removed, so that the user is reminded to execute association operation again, and the live broadcast interaction effect is improved.

As shown in fig. 3D, the embodiment of the application can aggregate the consumable customized interactive material associated with the item based on the private material for interaction, thereby improving the live broadcast interactive effect.

In some embodiments, referring to fig. 3E, fig. 3E is a schematic flowchart of a live interaction method provided in this embodiment, and based on fig. 3A, after the customized interaction material is generated (for example, after step 104 in fig. 3E), in step 501, in response to an interaction operation of any account for the customized interaction material, the interaction parameters to be allocated are determined according to the customized virtual resources corresponding to the customized interaction material, and the interaction parameters to be allocated are allocated to any account.

Here, when receiving an interaction operation of any account for the customized interaction material, the interaction parameter to be allocated may also be determined according to the customized virtual resource corresponding to the customized interaction material, and the interaction parameter to be allocated is allocated to the any account. The interaction parameters to be distributed can be fixed, and can also be positively correlated with the customized virtual resources, and the positive correlation can also be specifically set according to the actual application scene. For example, if the original interaction parameter of the any account is 50, and the determined interaction parameter to be allocated is 20, the interaction parameter of the any account is updated to 70 after the interaction parameter to be allocated is allocated to the any account, that is, the interaction parameter is cumulative.

The operation of determining the interaction parameters to be allocated and allocating the interaction parameters to be allocated to the any account may be executed by the terminal device or may be executed by the server.

In step 502, the multiple accounts are sorted according to the interaction parameters corresponding to the multiple accounts, and the sorted multiple accounts and the interaction parameters corresponding to the sorted multiple accounts are displayed in a live scene.

Here, the plurality of accounts are sorted according to the interaction parameters corresponding to the plurality of accounts, and the order of the sorting process may be from large to small or from small to large, which is not limited herein. When two or more accounts correspond to the same interaction parameter, the two or more accounts can be sorted according to the order of the account grades from high to low or the order of the account grades from low to high. After the sorting processing is completed, the sorted multiple accounts and the interaction parameters corresponding to the sorted multiple accounts are displayed in a live scene, so that the interaction condition can be visually displayed.

It should be noted that the operation of the sorting process may be performed by the terminal device, or may be performed by the server, for example, the server may send the result of the sorting process to the terminal device for display.

In some embodiments, between any of the steps, further comprising: periodically carrying out customization optimization processing on account numbers meeting the interaction parameter conditions in the account numbers, and carrying out zero clearing processing on interaction parameters respectively corresponding to the account numbers; wherein, the mode of customizing the optimization processing comprises at least one of the following modes: reducing virtual resources corresponding to at least part of the sub-materials in the plurality of sub-materials to be selected; the selected sub-materials in the plurality of sub-materials are used for generating new customized interactive materials; and granting the selection authority of a new sub-material different from the plurality of sub-materials to be selected.

For example, the account numbers meeting the interaction parameter conditions in the multiple account numbers can be customized and optimized every set period (for example, one week), so that the enthusiasm of the user for interaction based on the customized interaction materials is mobilized, and meanwhile, the interaction parameters respectively corresponding to the multiple account numbers can be cleared, so that the user can participate in interaction in a new period. The interaction parameter condition is that the interaction parameter is greater than the interaction parameter threshold, and the ranking of the interaction parameter satisfies the set ranking (such as the first three).

The custom optimization process can be implemented in at least one of the following two ways, which will be described separately. The first way is to perform reduction processing on virtual resources corresponding to at least part of the sub-materials to be selected, and the degree of the reduction processing may be set according to an actual application scene, for example, the reduction may be zero, wherein the selected sub-materials of the plurality of sub-materials are used to generate new customized interactive materials, so that the consumption of virtual resources for generating new customized interactive materials may be reduced. The second way is to grant a selection authority for a new sub-material different from the multiple sub-materials to be selected, that is, to unlock the new sub-material for the user to select. Through the mode, the live broadcast interaction effect can be improved through the rewarding mode.

As shown in fig. 3E, in the embodiment of the application, by displaying the sorted multiple account numbers and the interaction parameters corresponding to the sorted multiple account numbers, the user can know the interaction situation in the live broadcast scene, so as to perform benign competition with other users, and the interaction effect can be improved for the live broadcast scene.

Next, an exemplary application of the embodiment of the present application in a practical application scenario will be described. For ease of understanding, a case where a live scene is a live room will be exemplified. The embodiment of the present application provides a schematic view of live interaction as shown in fig. 4, which will be described with reference to each step shown in fig. 4.

1) Triggering the customized gift.

As an example, the embodiment of the present application provides a schematic view of a live broadcast interface as shown in fig. 5, where the live broadcast interface 51 shown in fig. 5 includes a virtual gift customization entry 52 (corresponding to the above interactive material customization entry) and a virtual gift selection entry 53 (corresponding to the above interactive material selection entry), where the virtual gift customization entry 52 is an entry for generating a customized virtual gift (corresponding to the above customized interactive material), and the virtual gift selection entry 53 is a selection entry for a plurality of set non-customized virtual gifts (corresponding to the above non-customized interactive material).

The user can enter the customization link by triggering the virtual gift customization entry 52, and the terminal device displays a virtual gift customization interface (corresponding to the above interactive material customization interface) when receiving a triggering operation for the virtual gift customization entry 52. The display form of the virtual gift customization interface is not limited, and for example, the virtual gift customization interface can be independent of a live broadcast interface or can be displayed in the live broadcast interface in a window form.

2) The type of virtual gift corresponding to the customized virtual gift (corresponding to the type of interactive material above) is determined.

By way of example, the embodiment of the present application provides a schematic view of the virtual gift customizing interface shown in fig. 6, where the virtual gift customizing interface 61 shown in fig. 6 includes a gift wall entrance 62, a leader board entrance 63, and a plurality of virtual gift types to be selected, and the virtual gift types to be selected in fig. 6 include a rocket, a yacht, and a sports car, but this does not constitute a limitation of the embodiment of the present application. The gift wall entry 62 is used for displaying a gift wall when triggered, the ranking list entry 63 is used for displaying a ranking list when triggered, and the gift wall is corresponding to the shared material aggregate prop of the upper text and is shared by all accounts of the live broadcast room.

The user can select a plurality of virtual gift types according to self requirements, and when receiving selection operation, the terminal equipment displays a plurality of virtual gift accessories (corresponding to the sub-materials) corresponding to the selected virtual gift type in the virtual gift customization interface so that the user can generate the customized virtual gift according to the virtual gift accessories. Different virtual gift accessories may be corresponded to different virtual gift types. The virtual gift accessory can be stored in the local terminal device in advance, or can be obtained by the terminal device requesting a server.

3) A virtual gift accessory corresponding to the customized virtual gift is determined.

In the embodiment of the application, a plurality of customization dimensions can be divided under the type of the virtual gift, and each customization dimension corresponds to a plurality of virtual gift accessories. For the selected virtual gift type, a plurality of customization dimensions corresponding to the selected virtual gift type can be displayed in the virtual gift customization interface, and in response to the selection operation for the plurality of customization dimensions, a plurality of virtual gift accessories corresponding to the selected customization dimensions are displayed in the virtual gift customization interface.

By way of example, taking the selected virtual gift type as a rocket, a schematic diagram of a virtual gift customization interface as shown in fig. 7A is shown, and the customization dimensions under the virtual gift type rocket may include shape, color, and sound effects. Taking the selected customization dimension as an example, fig. 7A shows a plurality of virtual gift accessories (i.e., a plurality of styles to be selected) corresponding to the customization dimension, such as virtual gift accessory 71. It should be noted that displaying the virtual gift accessory may refer to displaying the summary information corresponding to the virtual gift accessory, the summary information may be an image or a text description (such as a name), etc., and in response to the preview operation for the summary information corresponding to the virtual gift accessory, a preview process based on the virtual gift accessory may be played, for example, in the preview area 72 shown in fig. 7A. For example, the virtual gift accessory 71 may be a three-dimensional virtual object, and the summary information corresponding to the virtual gift accessory 71 may be a three-dimensional virtual object at any angle, and on this basis, in response to a preview operation of the user on the summary information corresponding to the virtual gift accessory 71 (for example, an operation of clicking the summary information corresponding to the virtual gift accessory 71 and an operation of adjusting an angle in the preview area 72), a rotation process of the three-dimensional virtual object from the any angle to the angle corresponding to the preview operation may be displayed, that is, 3D rotation of the three-dimensional virtual object may be supported, so that the user can know details and effects of the virtual gift accessory. In addition, when displaying the virtual gift accessory, a virtual resource corresponding to the virtual gift accessory may also be displayed, for example, 799 diamonds corresponding to the virtual gift accessory 71, so that the user can select a virtual gift accessory that meets his consumption level.

Taking the selected custom dimension as an example of color, fig. 7B shows a plurality of virtual gift accessories (i.e., a plurality of colors to be selected) corresponding to the colors of the custom dimension, where the summary information corresponding to the virtual gift accessories may be, for example, an exemplary color pattern or color name, and fig. 7B shows names of red, green, and blue by way of example of color name. For the color to be selected, the preview operation may be an operation of clicking the corresponding summary information, and the preview process may be a process of overlaying (rendering) the color on the selected figure (the selected virtual gift accessory corresponding to the designated dimension figure) and displaying the color in the preview area, but the preview mode is not limited thereto.

Taking the selected customized dimension as an example of the sound effect, fig. 7C shows a plurality of virtual gift accessories (i.e., a plurality of sound effects to be selected) corresponding to the sound effect of the customized dimension, where the summary information corresponding to the virtual gift accessories may be names of sound effects, specifically, names of sound effect 1, sound effect 2, and sound effect 3, etc. shown in fig. 7C. For the sound effect to be selected, the preview operation may refer to an operation of clicking the corresponding summary information, the preview process may refer to a process of playing the sound effect, and the preview mode is not limited thereto.

The embodiment of the present application does not limit the implementation manner of playing the sound effect, for example, in an iOS operating system, the implementation may be implemented by an AVAudioPlayer (i.e., an audio playing component corresponding to the above media component) in an AVFoundation framework, and the implementation steps are as follows.

Firstly, when receiving a preview operation aiming at summary information corresponding to a certain sound effect to be selected, the terminal equipment requests a link address (such as a network address) corresponding to the sound effect to a server (background) and downloads the sound effect according to the link address.

② calling an interface initwithcontentsofofurl to initialize the AVAudioPlayer.

Playing the downloaded sound effect through AVAudioPlayer. Wherein the preloading operation can be performed through the interface prepareToPlay; performing a play operation through the interface play; the operation of stopping the play is performed through the interface stop.

It should be noted that, in this embodiment of the application, the customized dimension under the type of the virtual gift may further include a set, and the set of customized dimensions corresponds to a plurality of virtual gift accessories to be selected, but a plurality of customized virtual gifts to be selected, that is, a plurality of customized virtual gifts may be displayed on the virtual gift customization interface for the user to select, where the selected customized virtual gift is the customized virtual gift to be purchased (to be settled).

4) And deducting the virtual resources to generate the customized virtual gift.

For a plurality of customization dimensions corresponding to the selected virtual gift type, fusion processing (for example, addition processing) may be performed on the virtual resources corresponding to the selected virtual gift accessory in each customization dimension to obtain a customized virtual resource corresponding to the customized virtual gift, and the customized virtual resource is displayed in the virtual gift customization interface. By way of example, fig. 7A shows a settlement portal 73, the settlement portal 73 comprising a customized virtual resource, i.e. 799 diamonds.

The terminal device may respond to a triggering operation (corresponding to the above correlation operation) of the customized account for the settlement entry 73, perform combination processing according to the selected virtual gift accessories in each customization dimension to obtain a customized virtual gift, and perform deduction processing on virtual resources held by the customized account according to the customized virtual resources, thereby generating the customized virtual gift, where the customized account represents an account triggering the customized gift in step 1). It should be noted that some or all of the operations of deducting the processing and generating the customized virtual gift may be performed by the terminal device or the terminal device notifying server.

As an example, with reference to fig. 8, a process of a terminal device deploying an iOS operating system obtaining a customized virtual gift through a combining process is described in a step form, in which an avassetxortsession class in an AVFoundation framework is mainly used.

And (1) downloading a file. The terminal device requests the server for the link address of the selected virtual gift accessory to download the selected virtual gift accessory locally by means of file download. Here, the downloaded file includes a video file (corresponding to the above video sub-material) and an audio file (corresponding to the above audio sub-material) as an example.

② creating AVasset objects. For example, the terminal device calls the assetWithURL interface to create an AVAsset object corresponding to a video file and an AVAsset object corresponding to an audio file, respectively.

And thirdly, acquiring video resources and audio resources. For example, the terminal device calls a tracksWithMediaType interface to acquire a video resource from an AVasset object corresponding to a video file, and simultaneously acquires an audio resource from an AVasset object corresponding to an audio file.

Create editing environment object (corresponding to the material composition item above). For example, the terminal device invokes the avmusablecomposition interface to create the editing environment object.

Creating a video track and an audio track. For example, the terminal device calls the addMutableTrackWithMediaType interface to create a video track and an audio track, respectively, in the editing environment object.

Sixthly, binding the resources to the corresponding tracks. For example, the terminal device binds (i.e., adds) the video resource to the video track in the editing environment object and binds the audio resource to the audio track in the editing environment object, so that the virtual gift to be exported can be obtained.

Creating an export object. For example, the terminal device invokes the avmusblelocation interface to create an export object in the editing environment object, wherein the export object is used for exporting the virtual gift to be exported.

And leading out parameter setting. For example, the terminal device acquires an export parameter set in the export object, and the export parameter includes at least one of parameters such as a path, a format, and a volume.

And ninthly, executing export processing. For example, the terminal device calls an exportasynchronouswithcompletionhandler interface to export the virtual gift to be exported through the export object, so as to obtain the customized virtual gift.

The obtained customized virtual gift can be added into a backpack (corresponding to the private material aggregate prop) of the customized account, that is, an association relationship between the customized virtual gift and the backpack of the customized account is established. In addition, the user (meaning the user using the customized account) may also choose to send to the host account or present on a gift wall. By way of example, the embodiment of the present application provides a schematic diagram of a virtual gift customization interface as shown in fig. 9, when a trigger operation on the interaction portal 91 in fig. 9 is received, a terminal device may interact based on the customized virtual gift; upon receiving a trigger to the presentation portal 92 of fig. 9, the terminal device may send the customized virtual gift to the server for storage by the file storage service of the server, e.g., in a distributed file system, a database, or a blockchain, for long-term display in the gift wall.

5) The customized virtual resource is displayed in the gift wall. The embodiment of the present application provides a schematic view of a gift wall interface as shown in fig. 10 by way of example, but the display form of the gift wall interface is not limited to that shown in fig. 10. The gift wall interface 101 in fig. 10 shows a plurality of customized virtual gifts to be selected, such as customized virtual gift 102, and for each customized virtual gift, account information of a customized account of the customized virtual gift, which may include at least one of an avatar and a name, and a customized virtual resource corresponding to the customized virtual gift are also displayed. For each customized virtual gift, an effective duration threshold (e.g., 3 days) may be set, and when the existing duration (i.e., the existing duration after generation) of the customized virtual gift is greater than the effective duration threshold, the customized virtual gift is invalidated, i.e., deleted.

Fig. 10 further shows an interactive portal 103 and an associated portal 104, for a selected customized virtual gift, in response to a triggering operation of any account for the interactive portal 103, deducting a virtual resource held by the any account according to a customized virtual resource corresponding to the selected customized virtual gift, and giving the selected customized virtual gift to the anchor account by the any account, that is, interacting based on the selected customized virtual gift; in response to the triggering operation of any account for the associated entry 104, deducting the virtual resources held by any account according to the customized virtual resources corresponding to the selected customized virtual gift, and adding the selected customized virtual gift into the backpack of any account.

It should be noted that when any account purchases the customized virtual gift corresponding to the customized account (i.e., when the virtual resource held by any account is deducted according to the customized virtual resource corresponding to the customized virtual gift), a purchase notification (corresponding to the above association notification) may be sent to the customized account, so that the customized account knows the purchase condition of the customized virtual gift.

6) The customized virtual gift is presented to the anchor account.

Here, for example, any account gives the purchased customized virtual gift to the main broadcast account, and the interactive process based on the customized virtual gift can be played in the live broadcast interface. For example, the customized virtual gift may be played in a live-air interface, and an interactive prompt including account information of the arbitrary account may be displayed. By way of example, fig. 11 illustrates a customized virtual gift 111 and an interactive prompt 112.

7) And performing excitation processing on the live broadcast room.

When it is detected that any account gives the customized virtual gift to the anchor account, incentive processing may be performed on the live broadcast room according to the customized virtual gift, and the incentive processing may include at least one of the following two ways.

Determining virtual resources to be allocated according to customized virtual resources corresponding to the customized virtual gift, and allocating the virtual resources to be allocated to the anchor account, wherein the customized virtual resources are positively correlated with the virtual resources to be allocated. In addition, the entity economic resource (such as the rmb xx element) to be allocated may also be determined according to the customized virtual resource corresponding to the customized virtual gift, and the entity economic resource to be allocated is allocated to the anchor account, where the customized virtual resource is positively correlated with the entity economic resource to be allocated.

Determining the heat (such as popularity value) to be distributed according to the customized virtual resource corresponding to the customized virtual gift, and distributing the heat to be distributed to the live broadcast room, wherein the customized virtual resource is positively correlated with the heat to be distributed. For example, the original popularity value of the live broadcast room is 2345, and the popularity value to be distributed is 1000, after distribution is completed, the popularity value of the live broadcast room is updated to 3345.

It should be noted that when it is detected that any account donates a non-customized virtual gift to the primary account, the live broadcast room may also be incentivized according to the non-customized virtual gift. For the non-customized virtual gift and the customized virtual gift which need to consume the same virtual resource for purchase, the strength of the incentive processing performed according to the non-customized virtual gift is smaller than the strength of the incentive processing performed according to the customized virtual gift, for example, compared with the non-customized virtual gift, the value of the virtual resource to be allocated determined according to the customized virtual gift is 20% higher, and the popularity of the virtual resource to be allocated determined according to the customized virtual gift is also 20% higher.

8) And displaying the ranking list corresponding to the customized virtual gift.

For any account, when it is detected that the customized virtual gift is given to the anchor account by the any account, a gift value to be distributed (corresponding to the above interaction parameter to be distributed) may be determined according to a customized virtual resource corresponding to the customized virtual gift, and the gift value to be distributed is distributed to the any account, where the customized virtual resource is positively correlated with the gift value to be distributed. For example, if the initial gift value of account 1 is 0, account 1 presents the same customized virtual gift 5 times to the primary account, and the gift value to be distributed determined according to the customized virtual gift is 10, the accumulated gift value of account 1 is 5 × 10 — 50 after 5 presentations are completed.

According to the gift values respectively corresponding to the multiple accounts in the live broadcast room, the multiple accounts may be sorted to obtain a leader board, for example, the sorting may be performed in an order from a large gift value to a small gift value, when two accounts correspond to the same gift value, the sorting may be performed in an order from a high account level to a low account level, and of course, the sorting method is not limited thereto. The obtained ranking list can be displayed on a ranking list interface, and the display form of the ranking list interface is not limited in the embodiment of the present application, such as the ranking list interface 121 shown in fig. 12.

In the embodiment of the application, the gift values corresponding to the accounts in the live broadcast room can be periodically cleared, and customized gift rewards are issued to the accounts meeting the gift value conditions (corresponding to the above interaction parameter conditions), wherein the period is, for example, one week, and the gift value conditions are, for example, the first three names in the ranking list. The process of issuing the customized gift certificate corresponds to the above customized optimization process, for example, the virtual resource corresponding to at least part of the virtual gift accessory may be reduced (e.g., reduced to zero), and for example, the selection right of the new virtual gift accessory may be granted.

Through the embodiment of the application, at least the following technical effects can be realized: 1) the live broadcast interaction mode is expanded, the diversity degree of the live broadcast interaction is improved, the user is supported to freely customize the virtual gifts, the personal preference requirements of the user are fully met, and meanwhile, the purchase frequency of the virtual gifts and the live broadcast interaction frequency can be improved; 2) the generated customized virtual gift can be selectively given to the anchor account and also can be selectively displayed on a gift wall for any account of a live broadcast room to purchase, so that the interaction frequency between the audience account (namely, the account different from the anchor account) and the anchor account and the interaction frequency between the audience account and the audience account can be improved; 3) compared with the non-customized virtual gifts, the strength of the excitation processing according to the customized virtual gifts is higher, the enthusiasm of the user holding the anchor account for customizing the virtual gifts can be improved, and therefore the live broadcast interaction effect is further improved; 4) the ranking list corresponding to the customized virtual gifts can be displayed in the live broadcast room, the customized gift rewards are issued according to the ranking list, and the enthusiasm of the user for presenting the customized virtual gifts and triggering the generation of the virtual customized gifts can be stimulated.

Continuing with the exemplary structure of the live interaction device 455 provided by the present application as a software module, in some embodiments, as shown in fig. 2, the software module stored in the live interaction device 455 of the memory 450 may include: the portal display module 4551 is used for displaying the interactive material customization portal in the live scene; the customization module 4552 is used for responding to the triggering operation of the interactive material customization entry and displaying an interactive material customization interface; the customizing module 4552 is further configured to generate customized interactive materials in response to the customizing operation received in the interactive material customizing interface; and the material display module 4553 is configured to display the customized interactive material in the material aggregate prop in the live broadcast scene, where the material aggregate prop is used to perform interaction based on the customized interactive material.

In some embodiments, the customization module 4552 is further configured to perform any one of the following: displaying a plurality of sub-materials in an interactive material customization interface, responding to selection operation aiming at the plurality of sub-materials, and carrying out combination processing according to the selected sub-materials to obtain customized interactive materials; and responding to the drawing operation received in the interactive material customizing interface, and taking the interactive material obtained by drawing through the drawing operation as the customizing interactive material.

In some embodiments, the customization module 4552 is further configured to: displaying a plurality of customization dimensions for generating customized interactive materials in an interactive material customization interface; responding to the selection operation aiming at the plurality of customization dimensions, and displaying a plurality of sub-materials corresponding to the selected customization dimensions in an interactive material customization interface; and combining the selected sub-materials corresponding to the plurality of customization dimensions respectively to obtain customized interactive materials.

In some embodiments, the customization module 4552 is further configured to: displaying various interactive material types in an interactive material customization interface; responding to the selection operation aiming at various interactive material types, and displaying a plurality of sub-materials corresponding to the selected interactive material types; and combining the selected sub-materials according to the selected interactive material type to obtain the customized interactive material according with the selected interactive material type.

In some embodiments, the customization module 4552 is further configured to: displaying summary information corresponding to the sub-materials in an interactive material customization interface; and responding to the preview operation of the summary information corresponding to any one of the sub-materials, and playing the preview process based on any one of the sub-materials.

In some embodiments, the customization module 4552 is further configured to: when the summary information corresponding to any one of the sub-materials comprises a three-dimensional virtual object at any angle, displaying a rotation process of the three-dimensional virtual object from any angle to the angle corresponding to the preview operation; when the summary information corresponding to any sub-material comprises a link object, any sub-material is obtained according to a link address corresponding to the link object, and any sub-material is played according to a media component corresponding to the media type of any sub-material.

In some embodiments, the customization module 4552 is further configured to: and displaying the virtual resources corresponding to the sub-materials in the interactive material customization interface.

In some embodiments, the selected sub-materials include video sub-materials and audio sub-materials; a customization module 4552, further configured to: acquiring video resources in the video sub-material and audio resources in the audio sub-material; creating a material combination project, and creating a video track and an audio track in the material combination project; adding video resources to a video track, adding audio resources to an audio track, and synthesizing according to the updated video track and the updated audio track to obtain an interactive material to be exported; obtaining a derivation parameter set for the interactive material to be derived, and deriving the interactive material to be derived in the material combination project according to the derivation parameter to obtain a customized interactive material; wherein the derived parameter includes at least one of a path, a format, and a volume.

In some embodiments, the live scene corresponds to a plurality of accounts; the live interaction device 455 further comprises an association module for: responding to the association operation of any account aiming at the customized interactive materials, deducting the virtual resources of any account according to the customized virtual resources corresponding to the customized interactive materials, and establishing the association relationship between the customized interactive materials and the material aggregate props; wherein the material aggregate prop is used for displaying the associated customized interactive material.

In some embodiments, the material aggregate prop includes a shared material aggregate prop shared by a plurality of account numbers and private material aggregate props respectively corresponding to the plurality of account numbers; the association module is further configured to: and when the association operation aims at the customized interactive materials displayed in the shared material aggregate prop, establishing an association relation between the customized interactive materials and the private material aggregate prop corresponding to any account.

In some embodiments, the live interaction device 455 further comprises a notification module for: when the virtual resources of any account are deducted according to the customized virtual resources corresponding to the customized interactive materials, sending a correlation notification to the customized account; the customized account number represents an account number for triggering generation of the customized interactive material; and the association notification represents the established association relationship between the customized interactive material and the material aggregate prop.

In some embodiments, the live broadcast scene corresponds to a plurality of account numbers, and the plurality of account numbers respectively correspond to one private material aggregation prop; the live interaction device 455 further includes an interaction module configured to: responding to the interactive operation of any account aiming at the customized interactive material, playing the interactive process based on the customized interactive material in the live broadcast scene, and carrying out excitation processing on the live broadcast scene according to the customized interactive material; the method comprises the steps that an association relation is established between a private material aggregation prop corresponding to any account and customized interactive materials; and releasing the association relation between the private material aggregate prop corresponding to any account and the customized interactive material.

In some embodiments, the interaction module is further configured to: and playing the customized interactive material in a live scene according to the media component corresponding to the media type of the customized interactive material, and displaying account information of any account in the playing process of the customized interactive material.

In some embodiments, the interaction operation represents an operation of sending customized interaction materials to a target account by any account; the interaction module is further configured to: performing at least one of: determining virtual resources to be allocated according to the customized virtual resources corresponding to the customized interactive materials, and allocating the virtual resources to be allocated to the target account; and determining the heat degree to be distributed according to the customized virtual resources, and distributing the heat degree to be distributed to the live broadcast scene.

In some embodiments, the interaction module is further configured to: responding to the interaction operation of any account aiming at the customized interaction materials, determining interaction parameters to be distributed according to the customized virtual resources corresponding to the customized interaction materials, and distributing the interaction parameters to be distributed to any account; the method comprises the steps of sequencing a plurality of account numbers according to interaction parameters respectively corresponding to the account numbers, and displaying the sequenced account numbers and the interaction parameters respectively corresponding to the sequenced account numbers in a live broadcast scene.

In some embodiments, the live interaction device 455 further comprises a custom optimization module for: periodically carrying out customization optimization processing on account numbers meeting the interaction parameter conditions in the account numbers, and carrying out zero clearing processing on interaction parameters respectively corresponding to the account numbers; wherein, the mode of customizing the optimization processing comprises at least one of the following modes: reducing virtual resources corresponding to at least part of the sub-materials in the multiple sub-materials to be selected; the selected sub-materials in the plurality of sub-materials are used for generating new customized interactive materials; and granting the selection authority of a new sub-material different from the plurality of sub-materials to be selected.

In some embodiments, the interaction module is further configured to: responding to the interactive operation of any account aiming at the non-customized interactive material, playing the interactive process based on the non-customized interactive material in the live scene, and performing excitation processing on the live scene according to the non-customized interactive material; the intensity of excitation processing according to the non-customized interactive material is less than the intensity of excitation processing according to the customized interactive material to be compared; the non-customized interactive material and the customized interactive material to be compared correspond to the same virtual resource.

In some embodiments, the material display module 4553 is further configured to: displaying account information of the customized account and customized virtual resources corresponding to the customized interactive materials in the material aggregation prop; the customized account number represents an account number which triggers generation of the customized interaction materials.

In some embodiments, the live interaction device 455 further comprises a virtual resource processing module configured to: determining virtual resources respectively corresponding to a plurality of sub-materials for generating customized interactive materials; performing fusion processing on the virtual resources corresponding to the plurality of sub-materials respectively to obtain customized virtual resources corresponding to the customized interactive materials; and displaying the customized virtual resources in the interactive material customization interface.

Embodiments of the present application provide a computer program product or computer program comprising computer instructions (i.e., executable instructions) stored in a computer readable storage medium. The processor of the electronic device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions, so that the electronic device executes the live broadcast interaction method described in the embodiment of the present application.

Embodiments of the present application provide a computer-readable storage medium storing executable instructions, which when executed by a processor, cause the processor to perform a method provided by embodiments of the present application, for example, a live interaction method as shown in fig. 3A, fig. 3B, fig. 3C, fig. 3D, and fig. 3E.

In some embodiments, the computer-readable storage medium may be memory such as FRAM, ROM, PROM, EPROM, EEPROM, flash, magnetic surface memory, optical disk, or CD-ROM; or may be various devices including one or any combination of the above memories.

In some embodiments, the executable instructions may be in the form of a program, software module, script, or code written in any form of programming language, including compiled or interpreted languages, or declarative or procedural languages, and it may be deployed in any form, including as a stand-alone program or as a module, component, subroutine, or other unit suitable for use in a computing environment.

By way of example, executable instructions may correspond, but do not necessarily have to correspond, to files in a file system, and may be stored in a portion of a file that holds other programs or data, such as in one or more scripts in a hypertext Markup Language (HTML) document, in a single file dedicated to the program in question, or in multiple coordinated files (e.g., files that store one or more modules, sub-programs, or portions of code).

As an example, executable instructions may be deployed to be executed on one electronic device or on multiple electronic devices located at one site or distributed across multiple sites and interconnected by a communication network.

The above description is only an example of the present application, and is not intended to limit the scope of the present application. Any modification, equivalent replacement, and improvement made within the spirit and scope of the present application are included in the protection scope of the present application.

Claims (20)

1. A live interaction method, comprising:

displaying an interactive material customization entry in a live scene;

responding to the triggering operation aiming at the interactive material customization entry, and displaying an interactive material customization interface;

responding to the customization operation received in the interactive material customization interface, and generating customized interactive materials; the customized interactive materials are obtained by combining the selected sub-materials; the selected sub-materials comprise video sub-materials and audio sub-materials; wherein,

the customized interactive material is obtained by the selected sub-materials through combination processing, and the method comprises the following steps:

acquiring video resources in the video sub-material and audio resources in the audio sub-material;

creating a material combination project, and creating a video track and an audio track in the material combination project;

adding the video resources to the video track, adding the audio resources to the audio track, and synthesizing according to the updated video track and the updated audio track to obtain an interactive material to be exported;

obtaining a derivation parameter set for the interactive material to be derived, and deriving the interactive material to be derived in the material combination project according to the derivation parameter to obtain the customized interactive material;

responding to the association operation of any account for the customized interactive materials, deducting the virtual resources of any account according to the customized virtual resources corresponding to the customized interactive materials, and establishing an association relation between the customized interactive materials and the shared material aggregation props;

the shared material aggregation prop is used for displaying the associated customized interactive materials, and the customized interactive materials associated with the shared material aggregation prop are different; the any account comprises at least one of a customized account and a non-customized account, and the customized account represents an account for triggering generation of the customized interaction material;

sending an association notification to the customized account; the association notification represents that an association relationship between the customized interactive material and the shared material aggregate prop has been established;

and displaying the customized interaction material in a shared material aggregate prop of the live broadcast scene, wherein the customized interaction material displayed in the shared material aggregate prop is shared by a plurality of account numbers corresponding to the live broadcast scene, and the shared material aggregate prop is used for the plurality of account numbers to perform interaction based on the customized interaction material.

2. The method of claim 1, wherein generating customized interactive material in response to customization operations received in the interactive material customization interface comprises:

executing any one of the following processes:

displaying a plurality of sub-materials in the interactive material customization interface, responding to the selection operation aiming at the plurality of sub-materials, and performing combination processing according to the selected sub-materials to obtain customized interactive materials;

and responding to the drawing operation received in the interactive material customizing interface, and taking the interactive material obtained by drawing through the drawing operation as the customizing interactive material.

3. The method of claim 2, wherein displaying a plurality of sub-stories in the interactive story customization interface comprises:

displaying a plurality of customization dimensions for generating customized interactive materials in the interactive material customization interface;

responding to the selection operation aiming at the plurality of customization dimensions, and displaying a plurality of sub-materials corresponding to the selected customization dimensions in the interactive material customization interface;

the step of carrying out combination processing according to the selected sub-materials to obtain customized interactive materials comprises the following steps:

and combining the selected sub-materials corresponding to the plurality of customized dimensions respectively to obtain customized interactive materials.

4. The method of claim 2, wherein displaying a plurality of sub-stories in the interactive story customization interface comprises:

displaying a plurality of interactive material types in the interactive material customization interface;

responding to the selection operation aiming at the multiple interactive material types, and displaying a plurality of sub-materials corresponding to the selected interactive material types;

the step of carrying out combination processing according to the selected sub-materials to obtain customized interactive materials comprises the following steps:

and combining the selected sub-materials according to the corresponding selected interactive material type to obtain the customized interactive material according with the selected interactive material type.

5. The method of claim 2, wherein displaying a plurality of sub-stories in the interactive story customization interface comprises:

displaying summary information corresponding to the sub-materials in the interactive material customization interface;

the method further comprises the following steps:

and responding to the preview operation of the summary information corresponding to any one sub-material, and playing the preview process based on the any one sub-material.

6. The method according to claim 5, wherein the playing the preview process based on the arbitrary one of the sub-materials comprises:

when the summary information corresponding to any sub-pixel comprises a three-dimensional virtual object at any angle, displaying a rotation process of the three-dimensional virtual object from the any angle to the angle corresponding to the preview operation;

and when the summary information corresponding to any sub-material comprises a link object, acquiring the any sub-material according to a link address corresponding to the link object, and playing the any sub-material according to a media component corresponding to the media type of the any sub-material.

7. The method of claim 2, wherein when displaying a plurality of sub-materials in the interactive material customization interface, the method further comprises:

and displaying the virtual resources corresponding to the sub-materials in the interactive material customization interface.

8. The method of claim 1, wherein the derived parameters include at least one of path, format, and volume.

9. The method according to claim 1, wherein the plurality of account numbers respectively correspond to a private material aggregate prop;

the establishing of the association relationship between the customized interactive material and the shared material aggregate prop comprises:

and establishing an association relation between the customized interactive material and the private material aggregate prop corresponding to any account.

10. The method according to any one of claims 1 to 8, wherein the plurality of account numbers respectively correspond to a private material aggregate prop; after the generating of the customized interactive material, the method further comprises:

responding to the interactive operation of any account aiming at the customized interactive material, playing the interactive process based on the customized interactive material in the live broadcast scene, and performing excitation processing on the live broadcast scene according to the customized interactive material;

the method comprises the steps that a private material aggregation prop corresponding to any account number is established with a customized interactive material;

and releasing the association relation between the private material aggregate prop corresponding to any account and the customized interactive material.

11. The method of claim 10, wherein playing the interactive process based on the customized interactive material in the live scene comprises:

and playing the customized interactive material in the live broadcast scene according to the media component corresponding to the media type of the customized interactive material, and displaying the account information of any account in the playing process of the customized interactive material.

12. The method according to claim 10, wherein the interactive operation represents an operation of sending the customized interactive material to a target account by any account; the exciting processing of the live broadcast scene according to the customized interactive materials comprises the following steps:

performing at least one of:

determining virtual resources to be allocated according to the customized virtual resources corresponding to the customized interactive materials, and allocating the virtual resources to be allocated to the target account;

and determining the heat degree to be distributed according to the customized virtual resources, and distributing the heat degree to be distributed to the live broadcast scene.

13. The method of any of claims 1 to 8, wherein after generating the customized interactive material, the method further comprises:

responding to the interaction operation of any account number for the customized interaction material, determining interaction parameters to be distributed according to the customized virtual resources corresponding to the customized interaction material, and distributing the interaction parameters to be distributed to any account number;

and sequencing the plurality of account numbers according to the interaction parameters respectively corresponding to the plurality of account numbers, and displaying the sequenced account numbers and the interaction parameters respectively corresponding to the sequenced account numbers in the live broadcast scene.

14. The method of claim 13, further comprising:

periodically carrying out customization optimization processing on account numbers meeting interaction parameter conditions in the account numbers, and carrying out zero clearing processing on interaction parameters respectively corresponding to the account numbers;

wherein the manner of the customized optimization process comprises at least one of:

reducing virtual resources corresponding to at least part of the sub-materials in the plurality of sub-materials to be selected; wherein the selected sub-materials of the plurality of sub-materials are used for generating new customized interactive materials;

and granting the selection authority of a new sub-material different from the plurality of sub-materials to be selected.

15. The method of any one of claims 1 to 8, further comprising:

responding to the interactive operation of any account aiming at the non-customized interactive materials, playing the interactive process based on the non-customized interactive materials in the live broadcast scene, and performing excitation processing on the live broadcast scene according to the non-customized interactive materials;

the intensity of excitation processing according to the non-customized interactive material is smaller than the intensity of excitation processing according to the customized interactive material to be compared; the non-customized interactive materials and the customized interactive materials to be compared correspond to the same virtual resources.

16. The method of any of claims 1-8, wherein when the customized interactive material is displayed in a shared material aggregate item of the live scene, the method further comprises:

and displaying account information of a customized account and customized virtual resources corresponding to the customized interactive materials in the shared material aggregation prop.

17. The method according to any one of claims 1 to 8, further comprising:

determining virtual resources respectively corresponding to a plurality of sub-materials for generating the customized interaction material;

performing fusion processing on the virtual resources corresponding to the plurality of sub-materials respectively to obtain customized virtual resources corresponding to the customized interactive materials;

and displaying the customized virtual resources in the interactive material customization interface.

18. A live interaction device, the device comprising:

the entrance display module is used for displaying an interactive material customization entrance in a live scene;

the customization module is used for responding to the triggering operation aiming at the interactive material customization entry and displaying an interactive material customization interface;

the customization module is also used for responding to customization operation received in the interactive material customization interface and generating customized interactive materials; the customized interactive materials are obtained by combining the selected sub-materials; the selected sub-materials comprise video sub-materials and audio sub-materials;

the customization module is further used for acquiring video resources in the video sub-material and audio resources in the audio sub-material; creating a material combination project, and creating a video track and an audio track in the material combination project; adding the video resources to the video track, adding the audio resources to the audio track, and synthesizing according to the updated video track and the updated audio track to obtain an interactive material to be exported; obtaining a derivation parameter set for the interactive material to be derived, and deriving the interactive material to be derived in the material combination project according to the derivation parameter to obtain the customized interactive material;

the association module is used for responding to the association operation of any account aiming at the customized interactive material, deducting the virtual resources of any account according to the customized virtual resources corresponding to the customized interactive material, and establishing the association relationship between the customized interactive material and the shared material aggregation prop;

the shared material aggregation prop is used for displaying the associated customized interactive materials, and the customized interactive materials associated with the shared material aggregation prop are different; the any account comprises at least one of a customized account and a non-customized account, and the customized account represents an account for triggering generation of the customized interaction material;

the notification module is used for sending a correlation notification to the customized account; the association notification represents that the association relationship between the customized interactive material and the shared material aggregate prop is established;

and the material display module is used for displaying the customized interactive material in the shared material aggregation prop of the live broadcast scene, wherein the customized interactive material displayed in the shared material aggregation prop is shared by a plurality of account numbers corresponding to the live broadcast scene, and the shared material aggregation prop is used for the plurality of account numbers to perform interaction based on the customized interactive material.

19. An electronic device, comprising:

a memory for storing executable instructions;

a processor configured to implement the live interaction method of any of claims 1-17 when executing executable instructions stored in the memory.

20. A computer readable storage medium storing executable instructions, wherein the executable instructions when executed by a processor implement the live interaction method of any one of claims 1 to 17.

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