CN112073799A - Virtual resource management method and device, computer equipment and readable storage medium - Google Patents

Abstract

The embodiment of the application discloses a virtual resource management method and device, computer equipment and a readable storage medium, wherein each plot element comprises a plurality of plot contents, then the virtual resource is generated according to the plot contents selected aiming at each plot element, and the virtual resource is displayed on a display interface; according to the method and the system, the virtual resources are split into the plurality of scenario elements, so that the user can select scenario contents under different scenario elements according to needs, and further obtain the virtual resources with different contents, for example, in an interactive system, the user can send the virtual resources with the same action elements corresponding to different places/different time elements to the anchor, the contents of the virtual resources are not fixed, the technical problem of content fixation of the existing virtual resources is solved, and the user stickiness of products is improved.

Description

Virtual resource management method and device, computer equipment and readable storage medium

Technical Field

The present application relates to the field of internet application technologies, and in particular, to a virtual resource management method and apparatus, a computer device, and a readable storage medium.

Background

With the rapid development of the internet technology, the interaction between users is more and more required, and the interaction between users is better enhanced through the mutual transmission of virtual resources.

For example, interactive systems, such as a live broadcast room or an instant messaging application, provide a communication channel for users, and the users interact with each other through the live broadcast room. A certain user in the live broadcast room can be used as a main broadcast to release information such as video and audio in the live broadcast room, and other users can be used as audiences of the main broadcast to view the information; when the audience is interested, virtual resources such as electronic gifts and the like can be presented to the anchor, and after the anchor receives the virtual resources, the live broadcast room displays the virtual gifts presented to the anchor in all the audience terminals, so that the interaction among users is better realized.

However, at present, virtual resources are all preset, and the content (picture or animation) of the virtual resources is fixed, such as a cake picture, a yacht animation, and the like; the user can only select from preset virtual resources, and the existing virtual resources are not rich enough in form, so that the participation enthusiasm of the user is greatly influenced.

Content of application

The embodiment of the application provides a virtual resource management method and device, a computer device and a readable storage medium, so as to at least solve the technical problem that a content fixing user of the existing virtual resource cannot change.

In order to solve the above technical problem, an embodiment of the present application provides the following technical solutions:

the embodiment of the application provides a virtual resource management method, which comprises the following steps:

receiving a trigger instruction for constructing virtual resources in a displayed display interface;

displaying all scenario elements for constructing virtual resources on the display interface according to the trigger instruction, wherein each scenario element comprises a plurality of scenario contents;

generating the virtual resource according to the plot content selected aiming at least one plot element, wherein the virtual resource is formed by combining the plot content selected under the at least one plot element;

and displaying the virtual resource on the display interface.

The embodiment of the application provides a virtual resource management method, which comprises the following steps:

acquiring attribute information of virtual resources;

analyzing the attribute information of the virtual resources and determining scenario elements forming the virtual resources;

generating the virtual resource according to the plot content corresponding to the plot elements;

and displaying the virtual resource on a display interface.

An embodiment of the present application provides a virtual resource management device, which includes:

the first receiving module is used for receiving a triggering instruction for constructing the virtual resource in the displayed display interface;

the first display module is used for displaying all scenario elements for constructing virtual resources on the display interface according to the trigger instruction, wherein each scenario element comprises a plurality of scenario contents;

the first generation module is used for generating the virtual resource according to the plot content selected aiming at least one plot element, and the virtual resource is formed by combining the plot content selected under the at least one plot element;

and the second display module is used for displaying the virtual resources on the display interface.

An embodiment of the present application provides a virtual resource management device, which includes:

the second receiving module is used for acquiring the attribute information of the virtual resources;

the analysis module is used for analyzing the attribute information of the virtual resources and determining plot elements forming the virtual resources;

the building module is used for generating the virtual resource according to the plot content corresponding to the plot elements;

and the third display module is used for displaying the virtual resources on a display interface.

The embodiment of the application provides a computer device, which comprises a processor and a memory, wherein the memory stores a plurality of instructions, and the instructions are suitable for the processor to load so as to execute the steps in the method.

The embodiment of the present application provides a computer-readable storage medium, which stores a plurality of instructions, where the instructions are suitable for a processor to load, so as to execute the steps in the above method.

Embodiments of the present application provide a computer program product or computer program comprising computer instructions, the computer instructions being stored in a computer-readable storage medium; the processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions to cause the computer device to perform the steps of the method.

The embodiment of the application provides a virtual resource management method and device, computer equipment and a readable storage medium, wherein in the method, after a terminal receives a trigger instruction for constructing virtual resources, a terminal displays various scenario elements for constructing the virtual resources on a display interface, each scenario element comprises a plurality of scenario contents, and then the virtual resources are generated according to the scenario contents selected aiming at each scenario element and are displayed on the display interface; because the virtual resource is divided into the plurality of plot elements, the user can select the plot contents under different plot elements according to the needs, and further can obtain the virtual resource with different contents, for example, the user can send the virtual resource with the same action elements corresponding to different places/different time elements to the anchor in the interactive system, the contents of the virtual resources are not fixed and unchangeable, the technical problem that the contents of the existing virtual resource are fixed is solved, the user can quickly construct gifts by himself, the interest of product interaction is increased, and the enthusiasm of user interaction and the user stickiness of products are improved.

Drawings

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

Fig. 1 is a schematic networking diagram of a communication system according to an embodiment of the present application.

Fig. 2 is a schematic flowchart of a virtual resource management method according to an embodiment of the present application.

Fig. 3 is a schematic flowchart of a virtual resource management method according to an embodiment of the present application.

Fig. 4 is a schematic flowchart of a virtual resource management method according to an embodiment of the present application.

Fig. 5 is a fourth flowchart illustrating a virtual resource management method according to an embodiment of the present application.

Fig. 6 is a schematic structural diagram of a virtual resource management device according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a virtual resource management device according to an embodiment of the present application.

Fig. 8 is a schematic structural diagram of a computer device provided in an embodiment of the present application.

Fig. 9a to 9h are schematic views of interfaces provided in the embodiments of the present application.

Detailed Description

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

The virtual resource management method provided by the application can be applied to various communication systems such as various interactive systems and instant communication systems, and based on the embodiment of the application, a user can obtain personalized virtual resources by self-combination according to needs or interests, so that the technical problem of content fixation of the current virtual resources is solved.

In the embodiment of the application, the instant messaging system can be various systems which provide one-to-one communication, one-to-many communication and the like and relate to user interaction, correspondingly, the construction of the virtual resources can be triggered in user chat to carry out the construction of the virtual resources, can also be triggered in group chat to carry out the construction of the virtual resources and the like; the interactive system can be a live broadcast system, a network game system, an instant communication system, a video session system and other various systems related to multi-user interaction, correspondingly, the construction of the virtual resources can be triggered in live broadcast to carry out the construction of the virtual resources, can also be triggered in games to carry out the construction of the virtual resources, and can also be triggered in video session to carry out the construction of the virtual resources.

In the present application, the instant messaging system and the interactive system are mainly differences in interactive modes, and the differences in the interactive interface (i.e., the display interface) related to the present application between the instant messaging system and the interactive system may only include differences in modes of displaying information content, differences in triggering modes, sharing modes, or storage modes of virtual resource construction, and technical essentials thereof are similar. In the embodiment of the application, the scenario content under the scenario element may be a candidate element already provided by the system, or may also be an element customized by the user, and the like, and the following description is given with emphasis on the candidate element, and the implementation manner of the customized element is only described briefly; the scenario elements are divided into at least two different action types according to different actions, for example, the scenario elements may be various combinations of location, time, action, people, and event, hereinafter, the virtual resource is obtained by combining 3 elements of location, time, and action, and in other embodiments, the virtual resource may be obtained by combining one or more elements of 5 types of scenario elements of location, time, action, people, and event.

In this embodiment of the application, the receiving scenario content may be a scenario content having a receiving relationship with the scenario content, for example, the action element of the scenario content of the previous virtual resource includes "user a holds the anchor", the action element of the scenario content receiving scenario content of the scenario content may be "user a falls", "walks the anchor", "touches the head of the anchor", and the like, and the receiving virtual resource corresponding to the receiving scenario content may not set a location element, a time element, and the like so that a user participating in live broadcasting may quickly initiate an interaction, and thus the interestingness is enhanced.

In the embodiment of the present application, the selection control corresponding to the scenario content may include content such as a thumbnail of the scenario content, which is used to display main content of the scenario content, so that a user can intuitively know dynamic content of each scenario content, the user may complete selection of the scenario content based on the selection control, for example, the user may click the selection control to complete selection of the scenario content, or input a name of the control through a voice or the like to complete selection of the scenario content, which is described below by taking an example that the user clicks the selection control to complete selection of the scenario content, and it is foreseeable that the following embodiment is not used to limit a function and an implementation scheme of the selection control in the present application. The selection control, the first selection control, the second selection control, the third selection control and the fourth selection control are only used for distinguishing the selection controls in different states and different times, and the essence of the selection controls is not changed; the plot elements, the candidate plot elements and the reminding plot elements are also plot elements for distinguishing different states and different times, and the essence of the plot elements is not changed; the plot content of the virtual resource and the bearing plot content of the bearing virtual resource are formed by combining corresponding plot content under one or more plot elements, and the essence is not different; the virtual resources, the candidate virtual resources, the target virtual resources, the candidate virtual resources, and the target virtual resources are also only used for distinguishing virtual resources in different states and different times, and have the same essence.

Referring to fig. 1, fig. 1 is a schematic view of a scenario of an interactive system according to an embodiment of the present application, where the system may include a user-side device and a service-side device, and the user-side device and the service-side device are connected through an internet formed by various gateways and the like, which is not described again, where the user-side device includes a plurality of terminals 11, and the service-side device includes a plurality of servers 12; wherein:

the terminal 11 includes, but is not limited to, a portable terminal such as a mobile phone and a tablet, and a fixed terminal such as a computer, a television, an inquiry machine and an advertisement machine, and is a service port that can be used and operated by a user. For the following description, taking live broadcast as an example, as shown in fig. 1, the terminals 11 are defined as an anchor terminal 11a and a viewer terminal 11b, where the anchor terminal 11a is used for anchor uploading live broadcast pictures and the like, and the viewer terminal 11b is installed with a live broadcast client or loaded with a live broadcast page for displaying live broadcast pictures, virtual resources, completing user interaction and the like. In other instant messaging application scenarios, the terminal 11 may include a conventional electronic device or the like installed with an instant messaging application client.

The server 12 provides various business services or service support for the user. For the following description, taking live broadcast as an example, as shown in fig. 1, the server 12 includes a live broadcast server 12a, a storage server 12b, and the like, where the live broadcast server 12a is used for providing various interactive services such as live broadcast, and the storage server 12b is used for providing data storage service, performing data support for other services, and the like. In other instant messaging application scenarios, the server 12 may comprise only a server or the like that implements instant messaging services. In the present application, the server 12 may be implemented as a distributed server.

In the application, the terminal 11 may receive a trigger instruction for constructing a virtual resource in a displayed display interface, and display, according to the trigger instruction, scenario elements for constructing the virtual resource on the display interface, where each scenario element includes a plurality of scenario contents; generating the virtual resource according to the plot content selected aiming at least one plot element, wherein the virtual resource is formed by combining the plot content selected under the at least one plot element; and displaying the virtual resources on the display interface to finish the editing of the virtual resources. Taking a live broadcast scene as an example, when a live broadcast picture is displayed, a viewer terminal 11b (for example, a first viewer terminal) used by a viewer initiating interaction receives a trigger instruction for constructing a virtual resource in the live broadcast picture; displaying a selection control corresponding to each plot element for constructing the virtual resource on a display interface according to the trigger instruction; receiving a selection instruction aiming at the selection control, and determining a selected first selection control; displaying plot content of the candidate virtual resource on the display interface, wherein the plot content of the candidate virtual resource is formed by plot elements corresponding to the first selection control; receiving a virtual resource editing completion instruction aiming at the plot content, and determining a finally selected second selection control; generating a target virtual resource according to the second selection control, wherein the plot content of the target virtual resource is formed by combining plot elements corresponding to the second selection control; and sending the target virtual resource to a server in the live broadcast system so that the server displays the plot content of the target virtual resource in terminals (all anchor terminals and audience terminals) in the live broadcast system.

In the present application, the server 12 may complete the functions of storing, sharing, or sending the virtual resource according to the management instruction of the user. For example, in a live scene, the live server 12a, after receiving the virtual resource sent by the viewer terminal 11b (e.g., a first viewer terminal), displays the scenario content of the virtual resource in terminals (all anchor terminals and viewer terminals) in the live system; the specific implementation manner may be that the live broadcast server 12a sends the virtual resource to the anchor terminal, the anchor terminal displays the scenario content of the virtual resource, and then the anchor terminal fuses the scenario content of the virtual resource and the live broadcast picture and sends the merged scenario content and live broadcast picture to all terminals participating in live broadcast through the live broadcast server 12 a; or the implementation may be as described in the following with emphasis, for example, the live broadcast server 12a sends the parameters of the virtual resource to all the terminals. After receiving the virtual resources sent by the server or the instant messaging server in the live broadcast system, other terminals analyze the virtual resources and determine the plot elements for constructing the virtual resources; generating plot content of the virtual resource according to the plot elements of the virtual resource; and displaying the plot content of the virtual resources on a display interface, thereby finishing the functions of personalized customization, sharing and the like of the virtual resources.

It should be noted that the system scenario diagram shown in fig. 1 is only an example, and the server and the scenario described in the embodiment of the present application are for more clearly illustrating the technical solution of the embodiment of the present application, and do not form a limitation on the technical solution provided in the embodiment of the present application, and as a person having ordinary skill in the art knows, with the evolution of the system and the occurrence of a new service scenario, the technical solution provided in the embodiment of the present application is also applicable to similar technical problems.

Fig. 2 is a schematic flowchart of a first flowchart of a virtual resource management method according to an embodiment of the present application, which embodies the method in a terminal that sends virtual resources, and please refer to fig. 2, where the virtual resource management method includes the following steps:

201: and receiving a triggering instruction for constructing the virtual resource in the displayed display interface.

In an embodiment, the control instructions such as the trigger instruction, the selection instruction, the virtual resource editing completion instruction and the like related to the application can be realized by a user through touch clicking, voice, gesture and the like on a display screen of the terminal.

In one embodiment, the display interface may be a chat interface within an instant messaging application, a live interface of an interactive application such as live, or the like. Taking live broadcast as an example, as shown in fig. 9a, when a viewer terminal displays a live broadcast picture (when a viewer uses the terminal to interact), in a display interface such as a displayed live broadcast picture, a user may click a scenario gift control on the display interface to generate a trigger instruction for constructing a virtual resource, and at this time, the viewer terminal determines to receive the trigger instruction for constructing the virtual resource.

202: and displaying all scenario elements for constructing the virtual resources on the display interface according to the triggering instruction, wherein each scenario element comprises a plurality of scenario contents.

In one embodiment, the images of the scenario contents on the display interface may only have a display function, or may have both a display function and a selection function; when the images of the scenario contents only have a display function, the user can know the main contents of the scenario contents according to the images of the scenario contents, for example, can know the main contents of the scenario contents at night, and then select the scenario contents based on a selection button, voice and other modes below the images; when the images of the scenario contents have the display function and the selection function at the same time, the images can be used as selection controls corresponding to the scenario contents, and a user can know the main contents of each scenario content through the images and can complete the selection of the corresponding scenario contents by clicking the images at the same time.

For simplifying the interface content, the following description will take an image corresponding to the scenario content as an example of a selection control. At this time, the present step includes: and displaying a selection control corresponding to each scenario content under each scenario element for constructing the virtual resource on a display interface according to the trigger instruction.

In one embodiment, the scenario elements of the virtual resource construction comprise scenario elements of at least two different action types, for example, the scenario elements comprise a location element, a time element and an action element; then the method comprises the following steps: displaying a switching control in a first area on the display interface, wherein the switching control corresponds to the type of the plot elements; and acquiring the type corresponding to the currently activated switching control, and displaying a plurality of plot contents under plot elements corresponding to the activated switching control in a second area on the display interface. For example, after the audience clicks the scenario gift control, the terminal displays an interface as shown in fig. 9b, displays a toggle control in an element type selection area a1 (i.e., a first area) of the interface, and displays scenario content under a scenario element corresponding to the activated toggle control, for example, all selectable place scenario elements under the scenario element of the type of a show place, such as a wedding scene, a dessert shop, a maze, a park, etc., in a display area a2 (i.e., a second area) of the interface.

In one embodiment, the scenario contents of all scenario elements can be displayed in one display area for the user to select, and this step includes: and displaying the plot contents under all plot elements in a classified and separated way in the element display area on the display interface, and viewing the plot contents under all types of plot elements by pulling the display area up and down for selection by audiences. The embodiment displays the plot content under all types of plot elements in a simple 9-grid and 16-grid manner, and is convenient for the audience to select.

In an embodiment, the application may recommend the scenario content under each scenario element to the audience according to the selection popularity of other audiences, where the step includes: and acquiring the selected popularity of the plot content under each plot element from the server, sequencing the display positions of the plot content under each plot element according to the selected popularity, and displaying the selection control corresponding to the plot content at the corresponding position according to the sequencing result. The embodiment sorts the plot content under the plot elements based on popularity, so that the audience can know the favor of other audiences, and further the selection of the plot content under the plot elements is completed.

203: and generating the virtual resource according to the plot content selected aiming at the at least one plot element, wherein the virtual resource is formed by combining the plot content selected under the at least one plot element.

In one embodiment, the user may complete the personalized setting of the virtual resource based on the image of the storyline content under each storyline element displayed within the display interface in step 202.

In an embodiment, the user may select only the scenario content under one scenario element, or may select the scenario content under multiple scenario elements, and correspondingly, the scenario element obtained in this step may include the scenario content selected under at least one scenario element, for example, the scenario element may include only the scenario content selected under one scenario element, or may include the scenario content selected under multiple scenario elements, and one scenario element includes one selected scenario content.

For convenience of describing the present embodiment, the step includes 2 stages of previewing and selecting virtual resources, and in this case, the step includes: drawing the plot content selected by each plot element to obtain the plot content of the virtual resource; and displaying the plot content of the virtual resource in a third area on the display interface.

In one embodiment, taking an image of a scenario content as an example of a selection control, the method includes: receiving a selection instruction aiming at the selection control, and determining a selected first selection control; displaying the plot content of the candidate virtual resource on the display interface; receiving a virtual resource editing completion instruction aiming at the plot content, and determining a finally selected second selection control; and generating final virtual resources according to the second selection control, wherein the virtual resources are formed by combining the plot contents selected under each plot element.

In an embodiment, the audience may complete the selection of the scenario contents under different types of scenario elements according to preferences, for example, as shown in fig. 9c, the user clicks the scenario content at the wedding scene under the location scenario element, the scenario content at the sunny day under the time scenario element, and the scenario content at the anchor under the action scenario element, where the selected first selection control includes a selection control corresponding to the wedding scene, a selection control corresponding to the sunny day, and a selection control corresponding to the anchor, and there are 3 selection controls in total.

In one embodiment, the step of displaying the plot content of the candidate virtual resource on the display interface comprises: obtaining the plot content corresponding to the first selection control; according to a preset mode, stacking and drawing the plot content corresponding to the first selection control to obtain the plot content of the candidate virtual resource; and displaying the plot content of the candidate virtual resource in a third area on the display interface. The method realizes the preview of the plot gift, is convenient for the user to know the plot content of the virtual resource formed by the selected plot elements in real time according to the preview effect, and can adjust or determine the plot content according to the requirement.

In an embodiment, when the scenario gift is pre-exhibited, a preview effect based on avatars of both interacting parties (or both communicating parties) may be provided, and at this time, the step of performing stack drawing on the scenario content corresponding to the first selection control to obtain the scenario content of the candidate virtual resource includes: acquiring a place element, a time element and an action element corresponding to the first selection control; acquiring the virtual user image of a current user and the virtual user image of a target user; generating action scenario content according to the virtual user image of the current user, the virtual user image of the target user and the action elements; and performing lamination drawing on the site scenario content corresponding to the site element, the time scenario content corresponding to the time element and the action scenario content to obtain the scenario content of the candidate virtual resource.

In one embodiment, the plot content of the candidate virtual resource is formed by plot elements corresponding to the first selection control; as shown in fig. 9c, the plot content of the candidate virtual resource is displayed in the preview area (i.e., the third area in the above) of the display interface.

In an embodiment, when it is determined that the scenario content displayed in the preview area meets the interaction requirement, the audience may click a gift sending control as shown in fig. 9d, at this time, the terminal receives a virtual resource editing completion instruction for the scenario content, and the finally selected second selection control includes a selection control corresponding to a wedding scene, a selection control corresponding to a sunny day, and a selection control corresponding to a take-up anchor, which total to 3 selection controls. In another embodiment, the sending of the virtual resource such as the scenario gift is often accompanied by the transfer of the virtual charging resource, such as the deduction of the virtual money corresponding to the price.

In one embodiment, the plot content of the virtual resource is formed by combining plot elements corresponding to the second selection control. Correspondingly, the parameters of the target virtual resource at least comprise the element identifications of the scenario elements corresponding to the second selection controls.

204: and displaying the virtual resource on the display interface.

In one embodiment, after the audience completes the selection of the plot contents under different types of plot elements according to the preference and the like, the virtual resource formed by combining the plot contents selected by the user is displayed. For example, as shown in fig. 9c, after the user clicks the scenario content of the wedding scene under the spot scenario element, the scenario content of the fine day under the time scenario element, and the scenario content of the anchor under the action scenario element, the terminal displays the virtual resource composed of the 3 scenario contents in the preview area.

In one embodiment, after completing the construction of the virtual resource, the user may manage the virtual resource as needed, for example, store the edited virtual resource, or share the virtual resource. At this time, after the step of displaying the virtual resource on the display interface, the method further includes: receiving a management instruction for the virtual resource; and managing the virtual resources according to the management target corresponding to the management instruction. The management target may include storing the virtual resource or sharing the virtual resource, and based on the embodiment, the application has a function of storing and sharing the virtual resource.

In one embodiment, the storage function of the virtual resource only involves storing the personalized virtual resource at the server based on the user identifier, and the implementation manner will be described below.

In one embodiment, when the management target includes sharing the virtual resource, managing the virtual resource includes: acquiring element identification of the plot content selected by each plot element; generating attribute information of the virtual resource according to the element identifier, wherein the attribute information comprises a resource identifier of the virtual resource, a user identifier of a current user, a user identifier of a target user and the element identifier; and sending the attribute information of the virtual resource to the server. Taking a live scene as an example, the method comprises the following steps: and sending the virtual resource to a server in the live broadcast system, so that the server displays the plot content of the target virtual resource in a terminal in the live broadcast system.

In an embodiment, the manner of sending the target virtual resource to the server in the live broadcast system by the terminal may be that scenario contents composed of all scenario elements of the virtual resource are sent to the server as a whole, or only identifiers corresponding to the scenario elements are sent, so as to reduce communication burden.

The embodiment provides a virtual resource management method for a user to initiate virtual resources, the method divides the virtual resources into a plurality of scenario elements, each scenario element comprises different scenario contents, the user can select the scenario contents under different scenario elements according to needs, and then the virtual resources with different contents can be obtained, for example, the virtual resources with the same action elements corresponding to different locations/different time elements can be sent to a main broadcast, the contents of the virtual resources are not fixed, the technical problem of content fixation of the existing virtual resources is solved, the interestingness is increased, and the enthusiasm of the user for participating in interaction is improved.

Based on the embodiment shown in fig. 2, a user may construct a virtual resource according to a requirement, and then the user may interact with other users based on the personalized virtual resource, that is, the terminal may send the virtual resource to the server, so that the server displays the scenario content of the virtual resource in other terminals, and in order to display the scenario content in other terminals, the embodiment shown in fig. 3 is provided.

Fig. 3 is a schematic second specific flowchart of a virtual resource management method according to an embodiment of the present application, which specifically embodies that the method of the present application is embodied on a terminal that receives a virtual resource, please refer to fig. 3, where the virtual resource management method includes the following steps:

301: and acquiring the attribute information of the virtual resource.

Bearing the embodiment shown in fig. 2, after the user in the interactive application or the instant messaging application finishes editing the virtual resource, the user can send the virtual resource to other terminals through the server; for example, in a live scene, the present step includes: and receiving the virtual resource sent by the server in the live broadcast system. The virtual resource includes the virtual resource sent by the terminal to the server in the embodiment shown in fig. 2. In support of the embodiment shown in fig. 2, the virtual resource may include all the selected scenario contents of the scenario elements, or may include only the element identifiers of the selected scenario contents.

302: analyzing the attribute information of the virtual resources, and determining the plot elements forming the virtual resources.

In one embodiment, when the virtual resource includes scenario contents in which all scenario elements are selected, the method includes: analyzing the attribute information of the virtual resources to obtain plot elements for constructing the virtual resources; in this embodiment, a direct parsing manner is adopted, so that a terminal that does not update a corresponding version (i.e., a version in which scenario elements construct virtual resources) can also see virtual resources that are sent by other users and constructed by the scenario elements.

In one embodiment, when the virtual resource includes an identifier of a scenario content in which all scenario elements are selected, the method includes: analyzing the attribute information of the virtual resource to obtain a user identifier of a virtual resource sending user, a user identifier of a virtual resource receiving user and an element identifier of the selected plot content under each plot element, wherein the user identifier of the virtual resource sending user, the user identifier of the virtual resource receiving user and the element identifier of the selected plot content are carried by the attribute information; and determining the plot elements forming the virtual resources according to the element identifications. The embodiment completes the forwarding synchronization of the virtual resources based on the identification, thereby reducing the waste of network resources.

In an embodiment, the scenario elements obtained in this step include scenario contents selected under at least one scenario element, for example, the scenario elements may include only scenario contents selected under one scenario element, or may include scenario contents selected under a plurality of scenario elements, and one scenario element includes one scenario content selected.

303: and generating the plot content of the virtual resource according to the plot content corresponding to the plot elements.

In an embodiment, in step 302, the number of the scenario contents determined in step 302 may be 1, and may also be multiple, when the number of the scenario contents determined in step 302 is 1, the scenario contents of the virtual resource only include the one scenario content determined in step 302, and when the number of the scenario contents determined in step 302 is multiple, the scenario contents of the virtual resource are formed by overlapping and combining the multiple scenario contents determined in step 302.

In one embodiment, this step includes: generating action scenario content according to the virtual user image of the virtual resource sending user, the virtual user image of the virtual resource receiving user and the scenario content under the action scenario element; and performing lamination drawing on the site plot content corresponding to the site plot elements, the time plot content corresponding to the time plot elements and the action plot content to obtain the plot content of the virtual resource.

304: and displaying the virtual resource on a display interface.

In one embodiment, as shown in fig. 9e, the terminal directly displays the plot content of the virtual resource, such as the plot content of the virtual resource that the user 1 announces the anchor at a wedding on a sunny day, or the plot content of the virtual resource that the user 1 holds the anchor at a park at night, on the virtual resource display area of the display interface.

Based on the steps, the display of the virtual resources in all terminals of the live broadcast room is achieved.

In some embodiments, the present application further provides a method for performing interaction between two or more users participating in chat, between live viewers, or between a live viewer and a main broadcast based on virtual resources, which greatly enhances user experience compared with the existing method in which only one-way virtual resource transmission can be performed between viewers, or between a viewer and a main broadcast.

Specifically, after the step of displaying the virtual resource on the display interface, the method shown in fig. 3 further includes the following steps: acquiring bearing scenario content having bearing relation with the scenario content of the virtual resource; determining candidate scenario elements corresponding to the scenario bearing content; and displaying the candidate scenario elements on a display interface.

In some embodiments, obtaining the persistent scenario content in a persistent relationship with the scenario content of the virtual resource comprises: acquiring a bearing relation among all scenario elements in a preset action type, determining a second scenario element having a bearing relation with the first scenario element according to the bearing relation, and taking scenario contents of the second scenario element as bearing scenario contents having a bearing relation with scenario contents of the virtual resource. For example, a first scenario element is a holding anchor, and a second scenario element having a bearing relationship with the first scenario element may be a flying opponent, touching the head of the anchor, locking the throat opponent, snatching the anchor, and the like.

In some embodiments, the presenting the candidate storyline element on the display interface comprises one of: directly displaying each candidate plot element on the display interface; or selecting a reminding scenario element from the candidate scenario elements, and highlighting the reminding scenario element in a countdown mode. The embodiment provides two interaction modes based on virtual resources, and improves the use experience of users.

In some embodiments, after the step of presenting the selection control corresponding to the candidate scenario element on the display interface, the method further includes: receiving a selection instruction aiming at the candidate scenario elements, and determining the selected candidate scenario elements; displaying bearing plot content of candidate bearing virtual resources on the display interface, wherein the bearing plot content of the candidate bearing virtual resources is formed by combining the plot content of the selected candidate plot elements; receiving a receiving virtual resource editing completion instruction aiming at the receiving scenario content; generating the bearing virtual resource according to the completion instruction, wherein the plot content of the bearing virtual resource is formed by combining the selected plot content under the selected candidate plot elements; and sending the virtual resources to the server so that the server displays the virtual resources's content in other terminals. The embodiment provides a specific interaction mode based on virtual resources, and the use experience of a user is enhanced.

The present application will be described in detail with reference to a specific application scenario by taking an interactive system as a live broadcast system as an example, and other communication scenarios related to the present application can be implemented with reference to this embodiment.

Before live broadcasting, the background completes initialization of the server and the terminal.

In the present application, the initialization mainly includes synchronization of the scenario elements and the corresponding parameters.

Background establishing a site plot element library table t _ site _ items, wherein fields of site _ item _ id (for storing identification id of site plot content), site _ item _ name (for storing element names of site plot content, such as wedding scene, sweets store, maze, park, etc.), site _ item _ price (for storing exchange price of virtual payment resource of each site plot content), and site _ item _ file (for storing file access path of picture or animation corresponding to each site plot content);

establishing a time scenario element library table t _ time _ items, wherein the time scenario element library table t _ time _ items comprises fields of time _ item _ id (identification id for storing time scenario content), time _ item _ name (element names for storing time scenario content, such as sunny day, cloudy day, rainy day, night, and the like), time _ item _ price (exchange price of virtual payment resources for storing each time scenario content), and time _ item _ file (file access path for storing pictures or animations corresponding to each time scenario content);

establishing an action scenario element library table t _ event _ items, wherein the action scenario element library table t _ event _ items comprises fields of event _ item _ id (identification id for storing action scenario content), event _ item _ name (element names for storing action scenario content, such as holding action names, billow balloons, small bear gift bags, and your shapes), event _ item _ price (exchange prices of virtual payment resources for storing the action scenario content), and event _ item _ file (file access path for storing pictures or animations corresponding to the action scenario content);

then, a finished product virtual resource library table t _ product is established again, which is used for storing finished product virtual resources created by users, and the table comprises fields of product _ id (resource id used for finished product virtual resources), user _ id1 (initiating user identification id used for storing finished product virtual resources), user _ id2 (receiving user identification id used for storing finished product virtual resources), site _ item _ id (identification id used for storing place scenario contents used by finished product virtual resources), time _ item _ id (identification id used for storing time scenario contents used by finished product virtual resources), and event _ item _ id (identification id used for storing action scenario contents used by finished product virtual resources);

the site plot element library table, the time plot element library table, the action plot element library table and the finished product virtual resource library table synchronously exist in the terminal and the server.

In one embodiment, the user _ id2 may not exist, that is, in a single-anchor scenario, the user that receives the virtual resource is the anchor that performs live broadcasting by default, or in a multi-anchor scenario (e.g., a plurality of anchors perform PK sports, etc.), the user that receives the virtual resource is the anchor that initiates the user's attention to the virtual resource by default; the user _ id2 can be any user participating in live broadcasting, and the user can select a host or a user receiving a virtual resource as a receiving user by using characters such as @ and the like.

Configuring a variable database which comprises a variable v _ site _ id (used for storing identification id of the place plot content temporarily selected by the user), a variable v _ time _ id (used for storing identification id of the time plot content temporarily selected by the user) and a variable v _ event _ id (used for storing identification id of the action plot content temporarily selected by the user) for the terminal; when the user selects all types of scenario elements and submits, the terminal adds a virtual resource sending record in the finished product virtual resource library table t _ product, where the record includes product _ id (identifier determined by using self-increment and the like, for example, if the maximum product _ id of the current finished product virtual resource library is 000045, the product _ id of the record is configured as 000046), user _ id1 is user identifier id for creating a finished product virtual resource, user _ id2 is user identifier id for receiving a finished product virtual resource, site _ item _ id is v _ site _ id, time _ item _ id is v _ time _ id, and event _ item _ id is v _ event _ id.

Scene 1

In scenario 1, the viewer generates the virtual resources needed by the viewer based on the optional scenario elements provided by the live broadcast system.

Fig. 4 is a schematic view of a third specific flow chart of a virtual resource management method according to an embodiment of the present application, please refer to fig. 4, where the virtual resource management method includes the following steps:

step 401 to step 403: and forwarding the live broadcast picture.

In one embodiment, the anchor terminal sends a live broadcast picture to the live broadcast server, and the live broadcast server acquires the communication address of each audience terminal in the live broadcast room from the storage server and sends the live broadcast picture to all audience terminals based on the communication address.

Step 404 to step 407: the live broadcast terminal 1 generates a scenario gift according to the operation of the audience and transmits the scenario gift to the live broadcast server.

In an embodiment, in the live broadcasting process, the user 1 using the live broadcasting terminal 1 needs to consol the main broadcasting, click a scenario gift on the interface shown in fig. 9a to complete sending of a trigger instruction for constructing a virtual resource, after the live broadcasting terminal 1 monitors the instruction, in data corresponding to a live broadcasting client or a live broadcasting page, a selectable place scenario content is firstly inquired from a place scenario element library table t _ site _ items of a database, a selectable time scenario content is inquired from a time scenario element library table t _ time _ items, and a selectable action scenario content is inquired from an action scenario element table t _ event _ items.

Then, the user 1 starts to select the location scenario elements, and during the preview process, the user 1 sequentially selects a selection control corresponding to the wedding scene, a selection control corresponding to the sunny day, and a selection control corresponding to the anchor, and at this time, the variable v _ site _ id in the variable database in the audience terminal 1 is the identifier id of the wedding scene, the variable v _ time _ id is the identifier id of the sunny day, and the variable v _ event _ id is the identifier id of the anchor, and displays the content of the preview scenario gift (i.e., the virtual resource in the foregoing text) as shown in fig. 9 c.

Finally, the user 1 feels that the scenario gift displayed in the preview area can satisfy the meaning of the desired expression, i.e. click transmission as shown in fig. 9d, at this time, the viewer terminal 1 adds a transmission record of the virtual resource in the finished virtual resource library table t _ product, where product _ id is 000046, user _ id1 is the user id of the current user 1, user _ id2 is the user id of the main broadcast, site _ item _ id is the identifier id of the wedding scene, time _ item _ id is the identifier id of the sunny day, and event _ item _ id is the identifier id of the main broadcast.

After that, the viewer terminal 1 transmits a virtual resource whose product _ id is 000046 to the live broadcast server, and the parameters of the virtual resource include product _ id (000046), user _ id1 (user identification id of the current user 1), user _ id2 (user identification id of the main broadcast), site _ item _ id (identification id of the scenario content of the wedding scene), time _ item _ id (identification id of the scenario content of the sunny day), and event _ item _ id (identification id of the scenario content of the main broadcast).

After receiving the scenario gift, the live broadcast server synchronizes the parameters of the virtual resources to the data server for storage, acquires the communication addresses of all audience terminals in the live broadcast room from the storage server, and sends the parameters of the virtual resources to all the audience terminals and the main broadcast terminal based on the communication addresses. Based on the data stored in the data server, the user can view the virtual resources generated by self-definition.

Step 408: the audience terminal and the anchor terminal display the scenario content of the scenario gift based on the received parameter of the virtual resource.

In one embodiment, the audience terminal and the anchor terminal analyze the attribute information of the virtual resource to obtain a user identifier of a virtual resource sending user, a user identifier of a virtual resource receiving user and an element identifier of a plot element, wherein the user identifiers are carried by the attribute information; determining the plot elements for constructing the virtual resources according to the element identifiers of the plot elements; generating action scenario content according to the virtual user image of the virtual resource sending user, the virtual user image of the virtual resource receiving user and the action elements; and performing lamination drawing on the site scenario content corresponding to the site element, the time scenario content corresponding to the time element and the action scenario content to obtain the scenario content of the virtual resource.

The specific drawing process may include: a canvas is newly built on a display interface, plot elements of a place selected by a user are drawn firstly, plot elements of a time selected by the user are drawn secondly, and finally plot elements of an action plot selected by the user are drawn finally, and the three elements are combined together and played simultaneously, so that a unique plot gift effect is created. For example, the following operations are performed every 20 msec loop: acquiring a picture frame snap _ site corresponding to an animation material of a place scenario element, a picture frame snap _ time corresponding to the animation material of a time scenario element and a picture frame snap _ event corresponding to the animation material of an action scenario element under a certain time frame, then drawing the three pictures on the same canvas by a canvas drawing method, drawing the place picture frame, then drawing the time picture frame, then drawing the action picture frame, forming a scenario animation frame at the moment, and then displaying the scenario animation frame on the picture; under the condition of loop execution, the canvas redraws the scenario animation frames at the corresponding time every 20 milliseconds, and finally forms the animation corresponding to the scenario content. As shown in fig. 9e, if the frames of the animation material of the action scenario element are drawn one at every 20 ms, the animation that the user holds the main broadcasting turn can be finally formed.

Then, as shown in fig. 9e, the audience terminal and the anchor terminal directly display the plot content of the virtual resource, such as the plot content of the virtual resource that the user 1 announces the anchor on a wedding on a sunny day, or the plot content of the virtual resource that the user 1 holds the anchor in a park at night, on the virtual resource display area of the display interface.

For the scenario content of the virtual resource, the scenario content of the anchor includes a series of motion pictures shown in fig. 9f, and then the scenario content corresponding to the virtual resource including the scenario content of the anchor includes a series of motion pictures shown in fig. 9f, which is compared with the interface content shown in fig. 9e, and only the real-time picture of the scenario content of the anchor is dynamically adjusted.

Step 409: the audience terminal and the anchor terminal display candidate persistent scenario content.

Then, the audience terminal and the anchor terminal acquire the bearing scenario content which has bearing relation with the scenario content of the virtual resource; determining candidate scenario elements corresponding to the scenario bearing content; and in a preset display mode, omitting the process of selecting the plot elements, and displaying the selection control corresponding to the candidate plot elements on a display interface.

In an embodiment, in a manner shown in fig. 9g, selection controls corresponding to the candidate scenario elements are directly displayed on the display interface, for example, selection controls corresponding to action scenario elements having a bearing relationship, such as a flying opponent, a captain my, a throat-lock opponent, a lambkin touch head, and the like, are directly displayed, and a user clicks the selection controls to complete selection of corresponding scenario gifts. In this embodiment, the scenario content of the gift is accepted as: user 1 holds up the anchor, user 2 flies user 1, and user 2 touches the head of the anchor.

In another embodiment, in the manner shown in fig. 9h, a reminding scenario element is selected from the candidate scenario elements, and the selection control corresponding to the reminding scenario element is highlighted in a countdown manner. For example, in fig. 9h, the selection controls of the drill anchor and the smart touch head are highlighted in a countdown manner, and the user can complete the sending of the corresponding scenario gift by clicking the selection controls, thereby reducing the operation complexity.

Step 410 to step 414: the audience terminal 2 generates a reception scenario gift according to the user operation, and sends the reception scenario gift to the terminal participating in live broadcast through the live broadcast server for displaying.

In one embodiment, the user 2 using the live broadcast terminal 2 needs to receive the scenario gifts sent by the user 1 for interaction, and clicks the receiving scenario gifts robbed for the main broadcast and the smart touch head in sequence on the interface shown in fig. 9h to determine to send the receiving scenario gifts. The live broadcast terminal 2 adds two sending records of the virtual resources in the finished product virtual resource library table t _ product: one receiving scenario gift is specific to the user 1, the product _ id of the receiving scenario gift is 000047, the user _ id1 is the user identification id of the current user 2, the user _ id2 is the user identification id of the user 1, the site _ item _ id is null, the time _ item _ id is null, and the event _ item _ id is the identification id of the flying user; the other receiving scenario gift is for the main broadcast, and the product _ id of the receiving scenario gift is 000048, the user _ id1 is the user identification id of the current user 2, the user _ id2 is the user identification id of the main broadcast, the site _ item _ id is null, the time _ item _ id is null, and the event _ item _ id is the identification id of the smart head.

And then, the audience terminal 2 sends two virtual resources with product _ id of 000047 and product _ id of 000048 to the live broadcast server, the live broadcast server synchronizes the parameters of the virtual resources to the data server after receiving the gift of the received scenario, acquires the communication address of each audience terminal in the live broadcast room from the storage server, and sends the parameters of the virtual resources to all the audience terminals and the main broadcast terminal based on the communication addresses. And the audience terminal and the anchor terminal analyze the attribute information of the virtual resource, and generate and display the corresponding plot content of the virtual resource. For example, an animation of the scenario element of the user 1 being flown by the user 2 in fig. 9h is displayed first, and then an animation of the scenario element of the anchor 1 being touched by the user 2 in fig. 9h is displayed.

Scene 2

In the scenario 2, the application provides a function that the user can customize the scenario elements, and the audience generates virtual resources required by the audience based on the scenario element customized control provided by the live broadcast system.

Fig. 5 is a fourth specific flowchart of a virtual resource management method according to an embodiment of the present application, please refer to fig. 5, where the virtual resource management method includes the following steps:

step 501 to step 503: and forwarding the live broadcast picture.

In one embodiment, the anchor terminal sends a live broadcast picture to the live broadcast server, and the live broadcast server acquires the communication address of each audience terminal in the live broadcast room from the storage server and sends the live broadcast picture to all audience terminals based on the communication address.

Step 504 to step 507: the live broadcast terminal 1 generates a customized scenario gift according to the operation of the audience and sends the scenario gift to the live broadcast server.

In an embodiment, in the live broadcasting process, a user 1 using a live broadcasting terminal 1 needs to consol a main broadcast, click a scenario gift on an interface shown in fig. 9a to complete sending of a trigger instruction for constructing a virtual resource, after the live broadcasting terminal 1 monitors the instruction, in data corresponding to a live broadcasting client or a live broadcasting page, first, a selectable place scenario content is inquired from a place scenario element library table t _ site _ items of a database, a selectable time scenario content is inquired from a time scenario element library table t _ time _ items, a selectable action scenario content is inquired from an action scenario element table t _ event _ items, and the action scenario content is displayed on a live broadcasting interface, and finally, the interface shown in fig. 9b is displayed.

In this embodiment, the interface shown in fig. 9b may include a custom control (not shown) in each of the 3 types of plot element presentation areas (a2) of place, time and action, and the user 1 clicks the custom control to trigger the custom function of the plot element.

Specifically, after receiving a trigger instruction for plot element customization, the live broadcast terminal 1 triggers loading of an image acquisition control according to the trigger instruction, starts specified image acquisition hardware through the loading of the image acquisition control, and finally extracts the custom plot element from image content output by the specified image acquisition hardware.

In one embodiment, the image capture control is a set of instructions that control the capture process of the image capture hardware. Firstly, whether the terminal supports the designated image acquisition hardware is determined through the image acquisition control. For example, when the image acquisition hardware is designated as a camera, whether the camera is compatible with the terminal where the camera is located is judged, if so, the camera is started, and if not, a prompt message is popped up on the display interface of the terminal where the camera is located. Then, the image content in the designated image acquisition hardware is acquired. And thirdly, optimizing the image content in the appointed image acquisition hardware to generate a custom scenario element meeting the requirement. And finally, previewing and displaying the generated custom scenario elements.

In one embodiment, the image content output by the designated image acquisition hardware may be dynamic, static, or dynamic images including audio. When the custom scenario elements are extracted, the image contents in a specific area can be selected from the image contents output by the appointed image acquisition hardware as the custom scenario elements, the image contents output by the appointed image acquisition hardware after beautification processing can be used as the custom scenario elements, and the custom scenario elements can be extracted from the image contents output by the appointed image acquisition hardware in other modes.

Through the description, the terminal controls the appointed image acquisition hardware to acquire the image content by loading the image acquisition control after the trigger instruction of the received custom scenario element is received, so that the custom scenario element is extracted from the image content output by the image acquisition hardware, the user can realize the custom of the scenario element according to the actual requirement, and the richness of the scenario element is greatly improved.

Then, the user 1 starts to perform custom generation and preview of the location scenario element, the time scenario element and the action scenario element, and the user 1 sequentially generates the scenario element corresponding to the wedding scene, the scenario element corresponding to the sunny day and the scenario element corresponding to the anchor in a custom manner in the preview process, at this time, the variable v _ site _ id in the variable database in the audience terminal 1 is the identification id (self-increment identification) of the wedding scene, the variable v _ time _ id is the identification id (self-increment identification) of the sunny day, and the variable v _ event _ id is the identification id (self-increment identification) of the anchor, and displays the content of the preview scenario gift (i.e., the virtual resource in the foregoing text) as shown in fig. 9 c.

Finally, the user 1 feels that the scenario gift displayed in the preview area can satisfy the meaning of the desired expression, i.e. click transmission as shown in fig. 9d, at this time, the viewer terminal 1 adds a transmission record of the virtual resource in the finished virtual resource library table t _ product, where product _ id is 000046, user _ id1 is the user id of the current user 1, user _ id2 is the user id of the main broadcast, site _ item _ id is the identifier id of the wedding scene, time _ item _ id is the identifier id of the sunny day, event _ item _ id is the identifier id of the main broadcast, and animations respectively defining the scenario elements.

Thereafter, the viewer terminal 1 transmits a virtual resource whose product _ id is 000046, whose parameters include product _ id (000046), user _ id1 (user identification id of the current user 1), user _ id2 (user identification id of the anchor), site _ item _ id (identification id of the wedding scene), time _ item _ id (identification id of the sunny day), event _ item _ id (identification id of the anchor), and animations each defining a scenario element, to the live broadcast server.

After receiving the scenario gift, the live broadcast server synchronizes the parameters and the animations of the virtual resources to the data server, acquires the communication addresses of all the audience terminals in the live broadcast room from the storage server, and pushes the parameters and the animations of the virtual resources to all the audience terminals and the anchor terminal based on the communication addresses.

Step 508: the audience terminal and the anchor terminal display the scenario content of the scenario gift based on the received parameter of the virtual resource.

In one embodiment, the audience terminal and the anchor terminal analyze the attribute information of the virtual resource to obtain a user identifier of a virtual resource sending user, a user identifier of a virtual resource receiving user, and an element identifier and animation of a scenario element, wherein the user identifier and the animation are carried by the attribute information; generating action scenario content according to the virtual user image of the virtual resource sending user, the virtual user image of the virtual resource receiving user and the animation of the scenario element of the action; and performing laminated drawing on the animation of the site plot content, the animation of the time plot content and the animation of the action plot content to obtain the plot content of the virtual resource.

Then, as shown in fig. 9e, the audience terminal and the anchor terminal directly display the plot content of the virtual resource on the virtual resource display area of the display interface, for example, the plot content of the virtual resource such as the user 1 advertises the anchor at a wedding on a sunny day, or the plot content of the virtual resource such as the anchor is held by the user 1 in a park at night; in this embodiment, both of the scenario gifts may be obtained after the user defines the scenario elements.

Step 509: the audience terminal and the anchor terminal display candidate persistent scenario content.

And then, the audience terminal and the anchor terminal acquire the bearing scenario content which has bearing relation with the scenario content of the virtual resource and the custom adding control for bearing the scenario content.

Step 510 to step 514: the audience terminal 2 generates a reception scenario gift according to the user operation, and sends the reception scenario gift to the terminal participating in live broadcast through the live broadcast server for displaying.

In an embodiment, a user 2 using a live broadcast terminal 2 needs to receive a scenario gift sent by the user 1 for interaction, clicks a custom adding control for receiving scenario content, and respectively adds an animation of an action scenario element of a flying user and an animation of an action scenario element of a smart touch head. The live broadcast terminal 2 adds two sending records of the virtual resources in the finished product virtual resource library table t _ product: one receiving scenario gift is specific to the user 1, the product _ id of the receiving scenario gift is 000047, the user _ id1 is the user identification id of the current user 2, the user _ id2 is the user identification id of the user 1, the site _ item _ id is null, the time _ item _ id is null, the event _ item _ id is the identification id (self-increment value) of the flying user, and animation; another receiving scenario gift is for the anchor, whose product _ id is 000048, user _ id1 is the user identification id of the current user 2, user _ id2 is the user identification id of the anchor, site _ item _ id is null, time _ item _ id is null, event _ item _ id is the identification id of the smart head (is a self-increment value), and animation.

And then, the audience terminal 2 sends two parameters and animations of virtual resources with product _ id of 000047 and product _ id of 000048 to the live broadcast server, the live broadcast server synchronizes the parameters and the animations of the virtual resources to the data server after receiving the gifts of the received drama, acquires the communication address of each audience terminal in the live broadcast room from the storage server, and pushes the parameters and the animations of the virtual resources to all the audience terminals and the main broadcast terminal based on the communication addresses.

And the audience terminal and the anchor terminal analyze the attribute information of the virtual resource, and generate and display the corresponding virtual resource bearing scenario content. For example, an animation of the scenario element of the user 1 being flown by the user 2 in fig. 9h is displayed first, and then an animation of the scenario element of the anchor 1 being touched by the user 2 in fig. 9h is displayed.

Compared with the embodiment shown in fig. 4, the embodiment can realize the customization of the scenario elements, and further improves the interactive experience of the user.

In one embodiment, all of the above embodiments may include a history virtual resource transmission record query function, such as if the user 1 wants to review the storyline gift, the scenario gift data created by the user can be obtained from the finished product virtual resource library table t _ product of the database according to the user id, for the data of each virtual resource, inquiring the t _ site _ items table according to the site _ item _ id of the site scenario element in the data to obtain the corresponding site scenario element, inquiring the t _ time _ items table according to the time _ item _ id of the internal time scenario element to obtain the corresponding time scenario element, inquiring a t _ event _ items table according to the event _ item _ id of the inner action scenario element to obtain the corresponding action scenario element, after the three scenario elements are obtained, the storyline gift may be presented for viewing by the user 1 as an effect presentation as shown in fig. 9 e.

In order to implement the foregoing method, the present application also provides a corresponding virtual resource management device, and the virtual resource management device provided in the present application is described with reference to the accompanying drawings.

Fig. 6 is a schematic diagram of a first structure of a virtual resource management device according to an embodiment of the present application, please refer to fig. 6, where the virtual resource management device includes the following modules:

a first receiving module 601, configured to receive a trigger instruction for constructing a virtual resource in a displayed display interface;

a first display module 602, configured to display, according to the trigger instruction, scenario elements for constructing a virtual resource on the display interface, where each scenario element includes multiple scenario contents;

a first generating module 603, configured to generate the virtual resource according to the scenario content selected for the at least one scenario element, where the virtual resource is formed by combining the scenario contents selected under the at least one scenario element;

a second display module 604, configured to display the virtual resource on the display interface.

In an embodiment, the first display module 602 is specifically configured to: displaying a switching control in a first area on the display interface, wherein the switching control corresponds to the type of the plot elements; acquiring the type corresponding to the currently activated switching control; and displaying the plot content under the plot elements corresponding to the types in a second area on the display interface.

In an embodiment, the second display module 604 is specifically configured to: drawing the plot content selected by each plot element to obtain the plot content of the virtual resource; and displaying the plot content of the virtual resource in a third area on the display interface.

In an embodiment, the second display module 604 is specifically configured to: acquiring a selected place element, a selected time element and a selected action element; acquiring the virtual user image of a current user and the virtual user image of a target user; generating action scenario content according to the virtual user image of the current user, the virtual user image of the target user and the action elements; and performing lamination drawing on the site scenario content corresponding to the site element, the time scenario content corresponding to the time element and the action scenario content to obtain the scenario content of the candidate virtual resource.

In one embodiment, as shown in fig. 6, the virtual resource management apparatus further includes a management module 605 configured to: receiving a management instruction for the virtual resource; and managing the virtual resources according to the management target corresponding to the management instruction.

In an embodiment, the management module 605 is specifically configured to: acquiring element identification of the plot content selected by each plot element; generating attribute information of the virtual resource according to the element identifier, wherein the attribute information comprises a resource identifier of the virtual resource, a user identifier of a current user, a user identifier of a target user and the element identifier; and sending the attribute information of the virtual resource to the server.

Fig. 7 is a schematic diagram of a second structure of a virtual resource management device according to an embodiment of the present application, please refer to fig. 7, where the virtual resource management device includes the following modules:

a second receiving module 701, configured to obtain attribute information of a virtual resource;

an analyzing module 702, configured to analyze the attribute information of the virtual resource, and determine a scenario element forming the virtual resource;

a building module 703, configured to generate the virtual resource according to the scenario content corresponding to the scenario element;

a third display module 704, configured to display the virtual resource on a display interface.

In an embodiment, the parsing module 702 is specifically configured to: analyzing the attribute information to obtain a user identifier of a virtual resource sending user, a user identifier of a virtual resource receiving user and an element identifier of a plot element, wherein the user identifier of the virtual resource sending user, the user identifier of the virtual resource receiving user and the element identifier of the plot element are carried by the attribute information; and determining the plot elements forming the virtual resources according to the element identifiers of the plot elements.

In one embodiment, as shown in fig. 7, the virtual resource management apparatus further includes the following modules:

an obtaining module 705, configured to obtain a supporting scenario content that has a supporting relationship with the scenario content of the virtual resource;

a determining module 706, configured to determine candidate scenario elements corresponding to the received scenario content;

a fourth display module 707, configured to display the candidate scenario elements on a display interface.

In one embodiment, the fourth display module 707 is specifically configured to implement one of the following ways: directly displaying each candidate plot element on the display interface; or selecting a reminding scenario element from the candidate scenario elements, and highlighting the reminding scenario element in a countdown mode.

In one embodiment, as shown in fig. 7, the virtual resource management apparatus further includes the following modules:

a third receiving module 708, configured to receive a selection instruction for the candidate scenario elements, and determine the selected candidate scenario elements;

a fifth display module 709, configured to display, on the display interface, the receiving scenario content of the candidate receiving virtual resource, where the receiving scenario content of the candidate receiving virtual resource is formed by combining the selected candidate scenario elements;

a fourth receiving module 710, configured to receive a receiving virtual resource editing completion instruction for the receiving scenario content;

and a second generating module 711, configured to generate the virtual resource according to the fourth selection control.

Correspondingly, an embodiment of the present application further provides a computer device, where the computer device includes a server or a terminal (installed with a client), so as to implement the virtual resource management apparatus in any of the above embodiments.

As shown in fig. 8, the computer device may include Radio Frequency (RF) circuitry 801, memory 802 including one or more computer-readable storage media, input unit 803, display unit 804, sensor 805, audio circuitry 806, Wireless Fidelity (WiFi) module 807, a processor 808 including one or more processing cores, and a power supply 809. Those skilled in the art will appreciate that the computer device configuration illustrated in FIG. 8 does not constitute a limitation of computer devices, and may include more or fewer components than those illustrated, or some components may be combined, or a different arrangement of components. Wherein:

the RF circuit 801 may be used for receiving and transmitting signals during information transmission and reception or during a call, and in particular, receive downlink information from a base station and then send the received downlink information to one or more processors 808 for processing; in addition, data relating to uplink is transmitted to the base station. The memory 802 may be used to store software programs and modules, and the processor 808 may execute various functional applications and data processing by operating the software programs and modules stored in the memory 802. The input unit 803 may be used to receive input numeric or character information and generate keyboard, mouse, joystick, optical or trackball signal inputs related to user settings and function control.

The display unit 804 may be used to display information input by or provided to a user and various graphical user interfaces of the computer device, which may be made up of graphics, text, icons, video, and any combination thereof.

The computer device may also include at least one sensor 805, such as light sensors, motion sensors, and other sensors. The audio circuit 806 includes a speaker and a microphone may provide an audio interface between the user and the computer device.

WiFi belongs to short-distance wireless transmission technology, and the computer device can help the user send and receive e-mail, browse web page and access streaming media, etc. through the WiFi module 807, which provides wireless broadband internet access for the user. Although fig. 8 shows the WiFi module 807, it is understood that it does not belong to the essential constitution of the computer device, and may be omitted entirely as needed within the scope not changing the essence of the application.

The processor 808 is a control center of the computer device, connects various parts of the entire mobile phone by using various interfaces and lines, and performs various functions of the computer device and processes data by operating or executing software programs and/or modules stored in the memory 802 and calling data stored in the memory 802, thereby integrally monitoring the mobile phone.

The computer device also includes a power supply 809 (e.g., a battery) for powering the various components, which may be logically coupled to the processor 808 via a power management system that may be used to manage charging, discharging, and power consumption.

Although not shown, the computer device may further include a camera, a bluetooth module, etc., which will not be described herein. Specifically, in this embodiment, the processor 808 in the computer device loads the executable file corresponding to the process of one or more application programs into the memory 802 according to the following instructions, and the processor 808 runs the application programs stored in the memory 802, so as to implement the following functions:

receiving a trigger instruction for constructing virtual resources in a displayed display interface;

displaying all scenario elements for constructing virtual resources on the display interface according to the trigger instruction, wherein each scenario element comprises a plurality of scenario contents;

generating the virtual resource according to the plot content selected aiming at least one plot element, wherein the virtual resource is formed by combining the plot content selected under the at least one plot element;

and displaying the virtual resource on the display interface.

Or to implement the following functions:

acquiring attribute information of virtual resources;

analyzing the attribute information of the virtual resources and determining scenario elements forming the virtual resources;

generating the virtual resource according to the plot content corresponding to the plot elements;

and displaying the virtual resource on a display interface.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and parts that are not described in detail in a certain embodiment may refer to the above detailed description, and are not described herein again.

It will be understood by those skilled in the art that all or part of the steps of the methods of the above embodiments may be performed by instructions or by associated hardware controlled by the instructions, which may be stored in a computer readable storage medium and loaded and executed by a processor.

To this end, an embodiment of the present application provides a computer-readable storage medium, in which a plurality of instructions are stored, and the instructions can be loaded by a processor to implement the following functions:

receiving a trigger instruction for constructing virtual resources in a displayed display interface;

displaying all scenario elements for constructing virtual resources on the display interface according to the trigger instruction, wherein each scenario element comprises a plurality of scenario contents;

generating the virtual resource according to the plot content selected aiming at least one plot element, wherein the virtual resource is formed by combining the plot content selected under the at least one plot element;

and displaying the virtual resource on the display interface.

Or to implement the following functions:

acquiring attribute information of virtual resources;

analyzing the attribute information of the virtual resources and determining scenario elements forming the virtual resources;

generating the virtual resource according to the plot content corresponding to the plot elements;

and displaying the virtual resource on a display interface.

The above operations can be implemented in the foregoing embodiments, and are not described in detail herein.

Wherein the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

Since the instructions stored in the storage medium can execute the steps in any method provided in the embodiments of the present application, the beneficial effects that can be achieved by any method provided in the embodiments of the present application can be achieved, for details, see the foregoing embodiments, and are not described herein again.

To this end, embodiments of the present application provide a computer program product or a computer program comprising computer instructions stored in a computer-readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions to cause the computer device to perform the method provided in the various alternative implementations described above. For example, the following functions are implemented:

receiving a trigger instruction for constructing virtual resources in a displayed display interface;

displaying all scenario elements for constructing virtual resources on the display interface according to the trigger instruction, wherein each scenario element comprises a plurality of scenario contents;

generating the virtual resource according to the plot content selected aiming at least one plot element, wherein the virtual resource is formed by combining the plot content selected under the at least one plot element;

and displaying the virtual resource on the display interface.

Or to implement the following functions:

acquiring attribute information of virtual resources;

analyzing the attribute information of the virtual resources and determining scenario elements forming the virtual resources;

generating the virtual resource according to the plot content corresponding to the plot elements;

and displaying the virtual resource on a display interface.

The foregoing detailed description is directed to a virtual resource management method and apparatus, a computer device, and a readable storage medium provided in the embodiments of the present application, and specific examples are applied in the present application to explain the principles and implementations of the present application, and the descriptions of the foregoing embodiments are only used to help understand the method and the core ideas of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (15)

1. A virtual resource management method, comprising:

receiving a trigger instruction for constructing virtual resources in a displayed display interface;

displaying all scenario elements for constructing virtual resources on the display interface according to the trigger instruction, wherein each scenario element comprises a plurality of scenario contents;

generating the virtual resource according to the plot content selected aiming at least one plot element, wherein the virtual resource is formed by combining the plot content selected under the at least one plot element;

and displaying the virtual resource on the display interface.

2. The virtual resource management method according to claim 1, wherein said displaying, on a display interface, scenario elements that construct a virtual resource comprises:

displaying a switching control in a first area on the display interface, wherein the switching control corresponds to the type of the plot elements;

acquiring the type corresponding to the currently activated switching control;

and displaying the plot content under the plot elements corresponding to the types in a second area on the display interface.

3. The virtual resource management method of claim 1, wherein said displaying the virtual resource on the display interface comprises:

drawing the selected plot content under at least one plot element to obtain the plot content of the virtual resource;

and displaying the plot content of the virtual resource in a third area on the display interface.

4. The virtual resource management method according to claim 3, wherein the scenario elements include a location element, a time element, and an action element, and the rendering of the scenario content selected under at least one scenario element to obtain the scenario content of the virtual resource includes:

acquiring a selected place element, a selected time element and a selected action element;

acquiring the virtual user image of a current user and the virtual user image of a target user;

generating action scenario content according to the virtual user image of the current user, the virtual user image of the target user and the action elements;

and performing lamination drawing on the site scenario content corresponding to the site element, the time scenario content corresponding to the time element and the action scenario content to obtain the scenario content of the candidate virtual resource.

5. The virtual resource management method according to any one of claims 1 to 4, wherein after displaying the virtual resource on the display interface, the virtual resource management method further comprises:

receiving a management instruction for the virtual resource;

and managing the virtual resources according to the management target corresponding to the management instruction.

6. The virtual resource management method according to claim 5, wherein managing the virtual resource when the management target includes sharing the virtual resource includes:

acquiring element identification of the plot content selected by each plot element;

generating attribute information of the virtual resource according to the element identifier, wherein the attribute information comprises a resource identifier of the virtual resource, a user identifier of a current user, a user identifier of a target user and the element identifier;

and sending the attribute information of the virtual resource to the server.

7. A virtual resource management method, comprising:

acquiring attribute information of virtual resources;

analyzing the attribute information of the virtual resources and determining scenario elements forming the virtual resources;

generating the virtual resource according to the plot content corresponding to the plot elements;

and displaying the virtual resource on a display interface.

8. The virtual resource management method of claim 7, wherein the determining a scenario element forming the virtual resource comprises:

analyzing the attribute information to obtain a user identifier of a virtual resource sending user, a user identifier of a virtual resource receiving user and an element identifier of a plot element, wherein the user identifier of the virtual resource sending user, the user identifier of the virtual resource receiving user and the element identifier of the plot element are carried by the attribute information;

and determining the plot elements forming the virtual resources according to the element identifiers of the plot elements.

9. The virtual resource management method according to claim 7 or 8, wherein after said displaying the virtual resource on the display interface, the virtual resource management method further comprises:

acquiring bearing scenario content having bearing relation with the scenario content of the virtual resource;

determining candidate scenario elements corresponding to the scenario bearing content;

and displaying the candidate scenario elements on a display interface.

10. The virtual resource management method of claim 9 wherein said presenting said candidate storyline element on a display interface comprises one of:

directly displaying each candidate plot element on the display interface; or

And selecting reminding scenario elements from the candidate scenario elements, and highlighting the reminding scenario elements in a countdown mode.

11. The virtual resource management method of claim 9, wherein after said presenting the candidate storyline element on the display interface, the virtual resource management method further comprises:

receiving a selection instruction aiming at the candidate scenario elements, and determining the selected candidate scenario elements;

displaying bearing plot content of candidate bearing virtual resources on the display interface, wherein the bearing plot content of the candidate bearing virtual resources is formed by combining the plot content of the selected candidate plot elements;

receiving a receiving virtual resource editing completion instruction aiming at the receiving scenario content;

and generating the bearing virtual resource according to the finishing instruction.

12. A virtual resource management apparatus, comprising:

the first receiving module is used for receiving a triggering instruction for constructing the virtual resource in the displayed display interface;

the first display module is used for displaying all scenario elements for constructing virtual resources on the display interface according to the trigger instruction, wherein each scenario element comprises a plurality of scenario contents;

the first generation module is used for generating the virtual resource according to the plot content selected aiming at least one plot element, and the virtual resource is formed by combining the plot content selected under the at least one plot element;

and the second display module is used for displaying the virtual resources on the display interface.

13. A virtual resource management apparatus, comprising:

the second receiving module is used for acquiring the attribute information of the virtual resources;

the analysis module is used for analyzing the attribute information of the virtual resources and determining plot elements forming the virtual resources;

the building module is used for generating the virtual resource according to the plot content corresponding to the plot elements;

and the third display module is used for displaying the virtual resources on a display interface.

14. A computer apparatus comprising a processor and a memory, the memory storing a plurality of instructions adapted to be loaded by the processor to perform the steps of the virtual resource management method according to any one of claims 1 to 11.

15. A computer readable storage medium storing instructions adapted to be loaded by a processor to perform the steps of the virtual resource management method according to any one of claims 1 to 11.

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