CN113691587B

CN113691587B - Virtual resource processing method and device, electronic equipment and storage medium

Info

Publication number: CN113691587B
Application number: CN202110820303.8A
Authority: CN
Inventors: 李鹏涛
Original assignee: Beijing Dajia Internet Information Technology Co Ltd
Current assignee: Beijing Dajia Internet Information Technology Co Ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2023-05-23
Anticipated expiration: 2041-07-20
Also published as: CN113691587A

Abstract

The disclosure relates to a virtual resource processing method, a device, an electronic device and a storage medium, wherein the method comprises the following steps: under the condition that a plurality of virtual resource processing tasks exist, determining the priority of the current virtual resource processing task, if the priority of the current virtual resource processing task is a first processing level, determining a client corresponding to the current virtual resource processing task, and if the client is determined to meet a first virtual resource allocation condition, sending a virtual resource display instruction to the client, wherein the virtual resource display instruction is used for indicating the client to display target virtual resource data on a virtual resource display interface, and the target virtual resource data is determined according to original virtual resource data and virtual resource adjustment data corresponding to the client. According to the method and the device for processing the virtual resources, the processing mode of each virtual resource processing task under different priorities is determined, so that the user is guaranteed to perceive that the virtual resources are allocated under the condition that more hardware resources do not need to be stacked, and the user experience is guaranteed as a whole.

Description

Virtual resource processing method and device, electronic equipment and storage medium

Technical Field

The disclosure relates to the technical field of internet, and in particular relates to a virtual resource processing method, a device, electronic equipment and a storage medium.

Background

In some virtual resource allocation servers, there may be multiple virtual resource processing tasks for the server to process at the current time. Among the plurality of tasks, some virtual resource processing tasks have very high processing speed because of the specificity of the task time nodes, and some virtual resource processing tasks have relatively low processing speed. However, depending on the hardware support that the server is able to provide, virtual resource processing tasks of different processing speeds cannot be satisfied simultaneously.

In the prior art, the server considers the existence of the plurality of virtual resource processing tasks, and performs proper speed reduction processing on the processing speeds of all the virtual resource processing tasks, so that each virtual resource processing task can be processed simultaneously. However, the number of virtual resource processing tasks which are required to be processed with very high speed and correspond to the specificity of the time node may be small, and once the other virtual resource processing tasks are also processed in a speed-reducing manner due to the tasks, the effectiveness of the other virtual resource processing tasks is reduced, so that the user experience corresponding to the other virtual resource processing tasks is affected.

Disclosure of Invention

The disclosure provides a virtual resource processing method, a virtual resource processing device, electronic equipment and a storage medium. The technical scheme of the present disclosure is as follows:

according to a first aspect of an embodiment of the present disclosure, there is provided a virtual resource processing method, including:

determining the priority of the current virtual resource processing task under the condition that a plurality of virtual resource processing tasks exist; the plurality of virtual resource processing tasks includes a current virtual resource processing task;

if the priority of the current virtual resource processing task is the first processing level, determining a client corresponding to the current virtual resource processing task;

if the client side is determined to meet the first virtual resource allocation condition, sending a virtual resource display instruction to the client side; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

In some alternative embodiments, determining the priority of the current virtual resource processing task comprises:

determining the task duration of the current virtual resource processing task and the number of participating clients;

Determining the task type of the current virtual resource processing task according to the task duration and the number of the participating clients;

and determining the priority of the current virtual resource processing task according to the task type.

In some alternative embodiments, determining the task type of the current virtual resource processing task based on the task duration and the number of participating clients includes:

under the condition that the duration of the task is smaller than or equal to a preset duration threshold value and the number of the participating clients is larger than or equal to a preset number threshold value, determining that the task type of the current virtual resource processing task is a first task type;

the determining the priority of the current virtual resource processing task according to the task type comprises the following steps:

and determining the priority of the current virtual resource processing task as a first processing level according to the first task type.

In some alternative embodiments, the method further comprises:

acquiring user behavior information corresponding to a client and behavior time length corresponding to the user behavior information;

determining a user type corresponding to the client based on the user behavior information and the behavior duration;

and determining the priority of the client according to the user type.

In some alternative embodiments, the client includes a first client and a second client, and if it is determined that the client meets the first virtual resource allocation condition, sending the virtual resource display instruction to the client includes:

If the first client side is determined to meet the first virtual resource allocation condition, and the priority of the first client side is a third processing level, sending a virtual resource allocation instruction to the first client side, wherein the virtual resource allocation instruction is used for allocating virtual resources corresponding to the virtual resource adjustment data to the first client side;

if the second client side meets the first virtual resource allocation condition and the priority of the second client side is the fourth processing level, sending a virtual resource display instruction to the second client side;

wherein the third processing level is equal to or greater than the fourth processing level.

In some optional embodiments, if the priority of the current virtual resource processing task is the first processing level, determining the client corresponding to the current virtual resource processing task includes:

if the priority of the current virtual resource processing task is a first processing level, determining that the processing speed of the current virtual resource processing task is a first speed corresponding to the first processing level;

and determining the client corresponding to the current virtual resource processing task.

In some alternative embodiments, the method further comprises:

if the priority of the current virtual resource processing task is the second processing level, determining that the processing speed of the current virtual resource processing task is the second speed corresponding to the second processing level;

The second speed is greater than or equal to the first speed.

In some alternative embodiments, if it is determined that the client meets the first virtual resource allocation condition, sending the virtual resource display instruction to the client includes:

and if the fact that the client side is not allocated to the virtual resource corresponding to the virtual resource adjustment data is determined, sending a virtual resource display instruction to the client side.

In some alternative embodiments, sending the virtual resource display instruction to the client comprises:

acquiring a client identifier of a client;

obtaining a virtual resource allocation record corresponding to a current virtual resource processing task from a task record storage area;

and if the virtual resource adjustment data corresponding to the client identifier exists in the virtual resource allocation record, sending a virtual resource display instruction to the client.

In some alternative embodiments, the method further comprises:

after the preset time, sending a virtual resource allocation instruction to the client, wherein the virtual resource allocation instruction is used for allocating virtual resources corresponding to the virtual resource adjustment data to the client.

According to a second aspect of the embodiments of the present disclosure, there is provided a virtual resource processing method, including:

under the condition that a plurality of virtual resource processing tasks exist, determining a client corresponding to the current virtual resource processing task; the current virtual resource processing task is any one of a plurality of virtual resource processing tasks;

If the priority of the client is the fifth processing level, sending a virtual resource display instruction to the client; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

In some alternative embodiments, the method further comprises:

acquiring user history data corresponding to a client;

determining an activity level value of the client according to the user history data;

and determining the priority of the client as a fifth processing level under the condition that the activity level value is smaller than or equal to the preset level value.

According to a third aspect of the embodiments of the present disclosure, there is provided a virtual resource processing apparatus, including:

a priority determining module configured to perform determining a priority of a current virtual resource processing task in the presence of a plurality of virtual resource processing tasks; the plurality of virtual resource processing tasks includes a current virtual resource processing task;

the client determining module is configured to execute the client corresponding to the current virtual resource processing task if the priority of the current virtual resource processing task is a first processing level;

The sending module is configured to execute sending a virtual resource display instruction to the client if the client is determined to meet the first virtual resource allocation condition; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

In some alternative embodiments, the priority determination module is configured to perform:

In some alternative embodiments, the apparatus further comprises a client priority determination module configured to perform:

and determining the priority of the client according to the user type.

In some alternative embodiments, the client comprises a first client and a second client, the sending module configured to perform:

In some alternative embodiments, the client determination module is configured to perform:

In some alternative embodiments, the apparatus further comprises:

the speed determining module is configured to execute the process of determining that the processing speed of the current virtual resource processing task is a second speed corresponding to the second processing level if the priority of the current virtual resource processing task is the second processing level;

the second speed is greater than or equal to the first speed.

In some alternative embodiments, the transmitting module is configured to perform:

acquiring a client identifier of a client;

According to a fourth aspect of the embodiments of the present disclosure, there is provided a virtual resource processing apparatus, including:

the client determining module is configured to execute the client corresponding to the current virtual resource processing task under the condition that a plurality of virtual resource processing tasks exist; the current virtual resource processing task is any one of a plurality of virtual resource processing tasks;

the sending module is configured to execute sending a virtual resource display instruction to the client if the priority of the client is a fifth processing level; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

In some alternative embodiments, the apparatus further comprises:

The data acquisition module is configured to acquire user history data corresponding to the client;

the degree value determining module is configured to determine an activity degree value of the client according to the user history data;

and the client priority determining module is configured to determine the priority of the client as a fifth processing level under the condition that the activity level value is smaller than or equal to the preset level value.

According to a fifth aspect of embodiments of the present disclosure, there is provided an electronic device, comprising: a processor; a memory for storing processor-executable instructions; wherein the processor is configured to execute instructions to implement the method of any of the first or third aspects as described above.

According to a sixth aspect of embodiments of the present disclosure, there is provided a storage medium, which when executed by a processor of an electronic device, enables the electronic device to perform any one of the methods of the first or third aspects of embodiments of the present disclosure.

According to a seventh aspect of the embodiments of the present disclosure, there is provided a computer program product comprising a computer program stored in a readable storage medium, from which at least one processor of the computer device reads and executes the computer program, causing the computer to perform any one of the methods of the first or third aspects of the embodiments of the present disclosure.

The technical scheme provided by the embodiment of the disclosure at least brings the following beneficial effects:

and under the condition that a plurality of virtual resource processing tasks exist, determining the priority of the current virtual resource processing task, wherein the plurality of virtual resource processing tasks comprise the current virtual resource processing task, if the priority of the current virtual resource processing task is a first processing level, determining a client corresponding to the current virtual resource processing task, and if the client is determined to meet a first virtual resource allocation condition, sending a virtual resource display instruction to the client, wherein the virtual resource display instruction comprises virtual resource adjustment data, the virtual resource display instruction is used for indicating the client to display target virtual resource data on a virtual resource display interface, and the target virtual resource data is determined according to original virtual resource data and virtual resource adjustment data corresponding to the client. According to the method and the device for processing the virtual resources, the processing mode of each virtual resource processing task under different priorities is determined, and under the condition that more hardware resources do not need to be stacked, the fact that the user perceives that the virtual resources are distributed is guaranteed, and therefore user experience is guaranteed as a whole.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure and do not constitute an undue limitation on the disclosure.

FIG. 1 is a schematic diagram of an application environment shown in accordance with an exemplary embodiment;

FIG. 2 is a flow chart illustrating a method of virtual resource processing according to an example embodiment;

FIG. 3 is a flowchart illustrating a method of prioritizing in accordance with an exemplary embodiment;

FIG. 4 is a flowchart illustrating a method of virtual resource adjustment data determination, according to an example embodiment;

FIG. 5 is a diagram illustrating a virtual resource process according to an example embodiment;

FIG. 6 is a schematic diagram illustrating a virtual resource view in accordance with an exemplary embodiment;

FIG. 7 is a flowchart illustrating a method of virtual resource processing, according to an example embodiment;

FIG. 8 is a flowchart illustrating a method of determining priority of a client according to an exemplary embodiment;

FIG. 9 is a block diagram of a virtual resource processing apparatus, shown in accordance with an exemplary embodiment;

FIG. 10 is a block diagram of a virtual resource processing apparatus, shown in accordance with an exemplary embodiment;

FIG. 11 is a block diagram of an electronic device for virtual resource processing, according to an example embodiment.

Detailed Description

In order to enable those skilled in the art to better understand the technical solutions of the present disclosure, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings.

It should be noted that the terms "first," "second," and the like in the description and claims of the present disclosure and in the foregoing figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the disclosure described herein may be capable of operation in sequences other than those illustrated or described herein. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with some aspects of the present disclosure as detailed in the accompanying claims.

All data about the user in this application are data after the user is authorized.

Referring to fig. 1, fig. 1 is a schematic diagram of an application environment, as shown in fig. 1, including a server 01 and a client 02, according to an exemplary embodiment. Alternatively, the server 01 and the client 02 may be connected by a wireless link.

In an alternative embodiment, the server 01 may determine the priority of the current virtual resource processing task in the case where there are multiple virtual resource processing tasks; the method comprises the steps that a plurality of virtual resource processing tasks comprise current virtual resource processing tasks, a client corresponding to the current virtual resource processing tasks is determined if the priority of the current virtual resource processing tasks is a first processing level, and a virtual resource display instruction is sent to the client if the client is determined to meet a first virtual resource allocation condition; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

In another optional embodiment, the server 01 may determine, when there are multiple virtual resource processing tasks, a client corresponding to a current virtual resource processing task, where the current virtual resource processing task is any one of the multiple virtual resource processing tasks, and if the priority of the client is a fifth processing level, send a virtual resource display instruction to the client, where the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

Specifically, the server 01 may be an independent physical server, or may be a server cluster or a distributed system formed by a plurality of physical servers, or may be a cloud server that provides cloud services, cloud databases, cloud computing, cloud functions, cloud storage, network services, cloud communication, middleware services, domain name services, security services, CDNs (Content Delivery Network, content delivery networks), basic cloud computing services such as big data and artificial intelligence platforms, and the like. Alternatively, the operating system running on the server 01 may include, but is not limited to, a IOS, linux, windows, unix, android system or the like.

In an alternative embodiment, the client 02 may receive a virtual resource display instruction sent by the server 01, where the virtual resource display instruction may include virtual resource adjustment data. The client 02 may determine target virtual resource data according to the original virtual resource data and the virtual resource adjustment data corresponding to the client, and display the target virtual resource data on the virtual resource display interface according to the virtual resource display instruction. The clients 02 may include, but are not limited to, smart phones, desktop computers, tablet computers, notebook computers, smart speakers, digital assistants, augmented Reality (AR)/Virtual Reality (VR) devices, smart wearable devices, and the like. Alternatively, the operating system running on the electronic device may include, but is not limited to, an android system, an IOS system, linux, windows, and the like.

In addition, it should be noted that, fig. 1 is only one application environment of the virtual resource processing method provided in the present disclosure, and in practical application, other application environments may also be included.

Fig. 2 is a flowchart of a virtual resource processing method according to an exemplary embodiment, and as shown in fig. 2, the virtual resource processing method is applicable to electronic devices such as a server, a client, or other node devices, and includes the following steps:

in step 201, in the case where there are a plurality of virtual resource processing tasks, determining the priority of the current virtual resource processing task; the plurality of virtual resource processing tasks includes a current virtual resource processing task.

In this embodiment of the present application, the task for processing a virtual resource may be a task for distributing the virtual resource from a server to a client, may be a task for sharing the virtual resource transmitted from one client to another client, or may be a task for uploading the virtual resource from the client to the server. Alternatively, the virtual resource may be virtual currency (e.g., 1 element) on-line, traffic (e.g., 2 megabits of traffic), or virtual items (e.g., virtual avatars).

In an alternative embodiment, the plurality of virtual resource processing tasks may include a plurality of different types of virtual resource processing tasks, and may also be a plurality of virtual resource processing tasks of the same type, for example, the plurality of virtual resource processing tasks may all be allocation tasks of virtual resources allocated from a server to a client.

In the following, an example will be described in which a plurality of virtual resource processing tasks are all allocation tasks of virtual resources allocated from a server to a client, and other examples refer to this specific example, which will not be described herein.

In this embodiment of the present application, after the server obtains the current virtual resource processing task, it may determine whether there are multiple virtual resource processing tasks. Alternatively, in the case where there are no multiple virtual resource processing tasks in the server, that is, only when there is a current virtual resource processing task, the current virtual resource processing task may be directly processed. Specifically, if the current virtual resource processing task is a task for distributing virtual resources distributed from the server to the clients, all clients corresponding to the current virtual resource processing task can be determined, virtual resources to be distributed corresponding to each client in all clients are determined, and the virtual resources corresponding to each client are distributed to the clients according to a certain virtual resource distribution speed.

Alternatively, in the case where there are a plurality of virtual resource processing tasks in the server, the priority of the current virtual resource processing task may be determined so that subsequent implementation steps may be performed subsequently according to the priority of the current virtual resource processing task.

Fig. 3 is a flow chart illustrating a method of priority determination, as shown in fig. 3, according to an exemplary embodiment, including:

in step S301, the task duration and the number of participating clients of the current virtual resource processing task are determined.

In this embodiment of the present application, the task duration of the current virtual resource processing task may be preset, so that the server may obtain feature data of the current virtual resource processing task, and obtain the task duration from the feature data.

In some possible embodiments, the number of participating clients may be the number of clients estimated by the server to potentially participate in the virtual resource allocation. Alternatively, the number of clients that may participate in the virtual resource allocation may be estimated by the root server from the number of participating clients in the virtual resource processing task of the same type as the current virtual resource processing task over a historical period of time. For example, assuming that the current virtual resource processing task is a task of allocating a red packet at a specific time point (for example, a prime time), the server may estimate, according to a historical time period (for example, a prime time of the last few years), the number of participating clients (for example, an average number of 3000 ten thousand), to obtain the number of participating clients of the current virtual resource processing task as 3000 ten thousand.

In other possible embodiments, the number of participating clients may be determined by the server based on the number of clients actually able to allocate to the virtual resource, and assuming that the total virtual resource corresponding to the current virtual resource processing task is 1000 ten thousand yuan, and the virtual resource that can be allocated to each person is estimated to be 5 yuan, the number of clients actually able to allocate to the virtual resource is 200 ten thousand, so the server may determine that the number of participating clients is 200 ten thousand.

In step S302, a task type of the current virtual resource processing task is determined according to the task duration and the number of participating clients.

In the embodiment of the application, the server can determine the task type of the current virtual resource processing task according to the task duration and the number of the participating clients.

In some possible embodiments, the task duration may be compared with a preset duration threshold, or the number of participating clients may be compared with a preset number threshold, so as to obtain the task type of the current virtual resource processing task.

Optionally, in the case that the task duration is less than or equal to the preset duration threshold, the server may determine that the task type of the current virtual resource processing task is the first task type.

Optionally, the server may determine that the task type of the current virtual resource processing task is the first task type when the number of participating clients is greater than or equal to a preset number threshold.

Optionally, when the task duration is less than or equal to a preset duration threshold and the number of participating clients is greater than or equal to a preset number threshold, the server may determine that the task type of the current virtual resource processing task is the first task type.

In some possible embodiments, the server may determine a duration tier to which the task duration belongs and a client number tier to which the number of participating clients belongs.

Optionally, the server may set a plurality of time duration levels in advance, for example, the task duration corresponding to the first time duration level is 0 to 5 minutes, the task duration corresponding to the second time duration level is 5 minutes to 24 hours, and the task duration corresponding to the third time duration level is greater than or equal to 24 hours.

Optionally, the server may set a plurality of client number levels in advance, for example, the first client number level is 1 to 10 ten thousand, the second client number level is 10 ten thousand to 100 ten thousand, and the third client number level is 100 ten thousand or more.

Assuming that the task duration of the current virtual resource processing task is 1 minute and the number of participating clients is 500 thousands, the server may determine that the duration class to which the task duration (1 minute) belongs is a first duration class and the number class of participating clients (500 thousands) belongs is a third number class. Then, the server can determine that the task type of the current virtual resource processing task is a first task type according to the duration grade of the task duration and the client quantity grade of the number of the participating clients, and the first task type can be specifically expressed as an instantaneous large-flow type with a short duration and a large number of the participating clients.

Assuming that the task duration of the current virtual resource processing task is 10 days and the number of participating clients is 5 ten thousand, the server may determine that the duration class to which the task duration (10 days) belongs is a third duration class and the number class of participating clients (5 ten thousand) belongs is a first client number class. Then, the server can determine that the task type of the current virtual resource processing task is a second task type according to the duration grade of the task duration and the client quantity grade of the number of the participating clients, and the second task type can be specifically expressed as a continuous small-flow type with a long duration and a small number of the participating clients.

The two examples are only exemplified on the basis of the embodiment of the application, and the server can also determine the corresponding task types except the first task type and the second task type according to different time length grades and client number grades corresponding to the current virtual resource processing task.

In step S303, the priority of the pre-virtual resource processing task is determined according to the task type.

In this embodiment of the present application, the server may set, in advance, a priority corresponding to each task type, for example, a first task type (an instantaneous large-traffic type with a short duration and a large number of tasks) corresponds to a first processing level, and a second task type (an instantaneous small-traffic type with a long duration and a small number of tasks) corresponds to a second processing level. Alternatively, the first processing level and the second processing level are just two exemplary priorities, and other levels may be determined according to actual processing situations in the embodiments of the present application.

According to the above, it can be known that there may be a plurality of virtual resource processing tasks in the current time of the server, and the server is to allocate a processing speed of each virtual resource processing task when processing the virtual resource processing tasks, but among the plurality of tasks, some virtual resource processing tasks are of an instantaneous large-flow type, and the actually required processing speed is 100 tens of thousands of times per second, namely, the virtual resource allocation speed; some virtual resource processing tasks are of a continuous small flow type, and the processing speed actually required by the virtual resource processing tasks is 10 ten thousand times per second; some virtual resource processing tasks are of a moderate-duration traffic type, and the processing speed actually required is 15 ten thousand times per second. However, depending on the hardware support that the server can provide, the server can provide a dispensing speed of 20 tens of thousands of times per second.

Based on the foregoing, in an alternative embodiment, the server may increase the overall allocation rate by stacking more hardware, for example, up to 200 tens of thousands of times per second, to meet the allocation rate of different virtual resource processing tasks. However, some virtual resource processing tasks are of the instantaneous high-traffic type, the duration is long, and the stacking hardware can meet the peak demand of the allocation speed, and in most other time, the stacking hardware is unnecessary, so that the waste of hardware resources is caused.

In another alternative embodiment, the server may set the allocation rate of each virtual resource processing task to be 5 ten thousand times per second, that is, delay the allocation rate of all the virtual resource processing tasks. However, this necessarily affects the timeliness of receiving the virtual resource at the client, so that the user side obviously perceives delay of the virtual resource to account, and user experience is reduced.

Based on this, the embodiment of the present application determines the priority corresponding to the current virtual resource processing task according to the feature data corresponding to the current virtual resource processing task, so that the server may determine how to continue to implement the next step on the priority, and make a mat for the subsequent determination of the allocation speed.

In step 202, if the priority of the current virtual resource processing task is the first processing level, a client corresponding to the current virtual resource processing task is determined.

Continuing to state based on the above, since the virtual resource processing task corresponding to the first task type (the instantaneous large-traffic type with a short duration and a large number of time periods) generally occurs at a specific time point, the allocation speed of the virtual resource processing task corresponding to the first task type has a greater influence on the allocation speed of other virtual resource processing tasks when the virtual resource processing task corresponding to the first task type is allocated than the virtual resource processing task corresponding to the second task type (the continuous small-traffic type with a long duration and a small number of time periods) occurring at a non-specific time point, so that the virtual resource processing task corresponding to the first task type can be set to a first processing level, and the virtual resource processing task corresponding to the second task type can be set to a second processing level.

In an alternative embodiment, when the server determines that the priority of the current virtual resource processing task is the first processing level, and further determines that the client corresponding to the current virtual resource processing task, the processing speed of the current virtual resource processing task may also be determined to be the first speed corresponding to the first processing level, for example, the first speed is an allocation speed of 5 ten thousand times per second.

In an alternative embodiment, the server determines that the priority of the current virtual resource processing task is a second processing level, and may determine that the processing speed of the current virtual resource processing task is a second speed corresponding to the second processing level, where the second speed is greater than or equal to the first speed, for example, the second speed is an allocation speed of 15 ten thousand times per second.

In this way, the virtual resource processing task under the second task type (the continuous small flow type with a long duration and a small quantity) corresponding to the second processing level can not be seriously affected by the virtual resource processing task under the first task type (the instantaneous large flow type with a short duration and a large quantity) corresponding to the first processing level, so that the following situations can be avoided: in the real situation that the task processing of the virtual resource corresponding to the first processing level cannot be satisfied based on the total allocation speed, the allocation speed of each task is finally influenced, because the allocation speed of the task of the second processing level can be even higher than the previous allocation speed according to the previous allocation speed.

In step 203, if it is determined that the client meets the first virtual resource allocation condition, a virtual resource display instruction is sent to the client; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

In this embodiment of the present application, when the priority of the current virtual resource processing task is the first processing level, the server may determine a client corresponding to the current virtual resource processing task. In addition, the server may further determine whether the client meets the first virtual resource allocation condition, and may send a virtual resource display instruction to the client on the basis that the client meets the first virtual resource allocation condition, where the virtual resource display instruction includes virtual resource adjustment data, and the virtual resource display instruction is used to instruct the client to display target virtual resource data on the virtual resource display interface, where the target virtual resource data is determined according to original virtual resource data and virtual resource adjustment data corresponding to the client.

In an alternative embodiment, determining that the client satisfies the first virtual resource allocation condition includes the server determining that the client does not allocate a virtual resource corresponding to the virtual resource adjustment data. In other words, when the server determines that the client is not allocated to the virtual resource corresponding to the virtual resource adjustment data, the virtual resource display instruction may be transmitted to the client.

As will be described by way of a concrete example, it is assumed that the client may be assigned to virtual resource adjustment data, say 5-elements of a red-packet rain event, in the current virtual resource processing task. When the server determines that the virtual resource adjustment data has not been allocated to the client, a virtual resource display instruction may be first sent to the client, where the virtual resource display instruction includes 5 elements of the virtual resource adjustment data. Correspondingly, after the client receives the virtual resource display instruction, the client may first obtain the original virtual resource data corresponding to the client, that is, the client may obtain the current amount of money in the virtual wallet, for example, 100 yuan. Then, the client may determine that the target virtual resource data is 105 elements according to the sum of the original virtual resource data and the virtual resource adjustment data, and display the target virtual resource data on the virtual resource display interface.

In the embodiment of the application, in the process, the server does not allocate the virtual resource to the client, but only modifies the data on the virtual resource display interface through the virtual resource display instruction, so that the user perceives that the server has sent the virtual resource when viewing, and the user experience is not affected due to insufficient allocation speed of the hardware resource.

Fig. 4 is a flowchart illustrating a method for determining virtual resource adjustment data, according to an exemplary embodiment, as shown in fig. 4, including:

in step S401, a client identifier of a client is acquired.

Alternatively, the client identification may be a device identification, including a device unique serial number, an IP address of the device. May be a user identification including a user account number (cell phone number, mailbox, nickname, etc.).

In step S402, a virtual resource allocation record corresponding to the current virtual resource processing task is acquired from the task record storage area.

Based on the fact that the virtual resource processing task is continuously described as the "red packet rain" task, in the process that the client participates in the "red packet rain", all virtual resource allocation records ("client identifier 1" - "5 element", "client identifier 2" - "8.88 element", "client identifier 3" - "2 element") can be stored in the task record storage area, and after the server determines that the client does not allocate the virtual resource corresponding to the virtual resource adjustment data, the virtual resource allocation record corresponding to the current virtual resource processing task can be obtained from the task record storage area.

In step S403, if the virtual resource adjustment data corresponding to the client identifier exists in the virtual resource allocation record, a virtual resource display instruction is sent to the client.

Therefore, the server can obtain the virtual resource adjustment data in advance through the virtual resource adjustment data corresponding to the client identifier recorded in the task record storage area, and is ready for sending a virtual resource display instruction to the client.

In this embodiment of the present application, after a preset time, the server may send a virtual resource allocation instruction to the client, where the virtual resource allocation instruction is used to allocate a virtual resource corresponding to the virtual resource adjustment data to the client.

Therefore, the application of the target virtual resource data enables the corresponding user of the client to feel that the server has sent the virtual resource in advance, and the virtual resource is distributed to the client in time after a period of time through the virtual resource distribution instruction so as to prevent the occurrence of error leakage.

In this embodiment of the present application, when determining whether the client meets the first virtual resource allocation condition, the priority of the client may also be determined, and when sending the virtual resource display instruction, the server may determine the time of the client sending the virtual resource display instruction by comprehensively considering the two conditions.

In an optional embodiment, the server may obtain user behavior information corresponding to the client and a behavior duration corresponding to the user behavior information, determine a user type corresponding to the client based on the user behavior information and the behavior duration, and determine a priority of the client according to the user type.

Alternatively, the user behavior information may be sent by the client to the server, and the user behavior information may be sent to the server when the client detects that some preset behavior is implemented. Alternatively, the preset behavior may be a behavior in which the virtual resource display interface is opened, or a behavior in which the virtual resource is queried. Optionally, the behavior duration corresponding to the user behavior information may be a duration between when the virtual resource starts to be processed and when the server receives the user behavior information of the client. Specifically, if the virtual resource is a red packet, the behavior duration corresponding to the user behavior information may be a duration between when the red packet starts to be preempted and when the server receives the user behavior information sent by the client.

Alternatively, the user behavior information may include not only information that is transmitted when the client detects that some preset behavior is implemented, but also the number of times some preset behavior is implemented.

The server determines, based on the user behavior information and the behavior duration, the user type corresponding to the client may be expressed as: when the server receives the user behavior information, it can determine which duration range the corresponding behavior duration is in. For example, the time period may be divided into two time period ranges, the first time period range is 0-2 seconds, and the second time period range is 2 seconds or more. If the corresponding behavior duration is within the first duration range, the user type corresponding to the client can be determined to be the first user type, and if the corresponding behavior duration is within the second duration range, the user type corresponding to the client can be determined to be the second user type. Alternatively, the first user type may be referred to as a high-sensitivity user type and the second user type may be referred to as a low-sensitivity user type. The user corresponding to the high-sensitivity user type may be a person who is urgent to the allocation of the virtual resource, and the user corresponding to the low-sensitivity user type may be a person who is not urgent to the allocation of the virtual resource.

In this way, the server may determine the priority of the client according to the corresponding relationship between the user type and the priority of the client and the user type corresponding to the client, for example, the server may determine the priority of the client as the third processing level according to the first user type (high-sensitivity user type), determine the priority of the client as the fourth processing level according to the second user type (low-sensitivity user type), and prepare for sending the virtual resource display instruction to which clients are subsequently sent.

Based on the above, before sending the virtual resource display instruction, the server may determine whether the client satisfies the first virtual resource allocation condition, that is, whether the condition that the virtual resource corresponding to the virtual resource adjustment data is not allocated is satisfied, and determine the priority of the client at the same time.

In an optional embodiment, if it is determined that the first client meets the first virtual resource allocation condition and the priority of the first client is the third processing level, the server may send a virtual resource allocation instruction to the first client, where the virtual resource allocation instruction is used to allocate a virtual resource corresponding to the virtual resource adjustment data to the first client.

In another alternative embodiment, if it is determined that the second client meets the first virtual resource allocation condition and the priority of the second client is the fourth processing level, the server may send a virtual resource display instruction to the second client, where the third processing level is greater than the fourth processing level.

Therefore, the server can firstly send the virtual resource for the client corresponding to the high-sensitivity user type and send the virtual resource display instruction for the client corresponding to the low-sensitivity user type, so that the sending sequence of the virtual resource is further refined, and the user experience of all users is improved in more detail.

According to the method, the server can also acquire the user history data corresponding to the client, the activity degree value of the client is determined according to the user history data, and the priority of the client is determined to be the fifth processing level under the condition that the activity degree value is smaller than or equal to the preset degree value.

Specifically, the user history data corresponding to the client includes the number of times that the user corresponding to the client participates in the virtual resource acquisition task in the history time period. For example, the coefficient of participation of the user A corresponding to the client in the virtual resource acquisition task is 20 times within 10 days.

Optionally, the server may determine the activity level value of the client according to the number of times that the user corresponding to the client participates in the virtual resource acquisition task in the historical time period, for example, may determine that the daily average participation value of the user is 20/10=2 times according to the number of times that the user participates in the virtual resource acquisition task and the numerical value of the historical time period, and determine the daily average participation value as the activity level value of the client.

Optionally, the preset level value may be set based on historical experience, where the priority of the client may be determined to be the fifth processing level when the activity level value is less than or equal to the preset level value, and where the priority of the client may be determined to be the sixth processing level when the activity level value is greater than the preset level value. This fifth level of processing may be referred to as an inactive user priority and the sixth level of processing may be referred to as an active user priority.

In this embodiment of the present application, when the priority of the client is the fifth processing level (inactive user priority), the server may send a virtual resource display instruction to the client; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

When the priority of the client is the sixth processing level (active user priority), a virtual resource allocation instruction may be directly sent to the client, where the virtual resource allocation instruction is used to allocate a virtual resource corresponding to the virtual resource adjustment data to the client.

Based on this, in an alternative embodiment, if it is determined that the first client meets the first virtual resource allocation condition and the priority of the first client is the sixth processing level, the server may send a virtual resource allocation instruction to the first client, where the virtual resource allocation instruction is used to allocate a virtual resource corresponding to the virtual resource adjustment data to the first client.

In another alternative embodiment, if it is determined that the second client meets the first virtual resource allocation condition and the priority of the second client is the fifth processing level, the server may send a virtual resource display instruction to the second client, where the third processing level is greater than the fourth processing level.

Therefore, the server can determine the user priority (the non-active user priority or the active user priority) corresponding to the client according to the attribute information of the client, and further can send different instructions to the client in different modes according to the user priority, so that the user is ensured to perceive that the virtual resources are allocated under the condition that more hardware resources do not need to be stacked, and the user experience is ensured as a whole.

Fig. 5 is a schematic diagram illustrating a virtual resource process according to an exemplary embodiment, where, as shown in fig. 5, there are a first virtual resource process task and a second virtual resource process task, and when the server determines that there are two tasks, the priority of the first virtual resource process task and the priority of the second virtual resource process task may be determined, respectively, assuming that the priority of the first virtual resource process task is a first process level, and the priority of the second virtual resource process task is a second process level. The processing speed corresponding to each task may be determined based on a correspondence table of priorities and task processing speeds. Optionally, the server may determine a processing speed of a first virtual resource processing task corresponding to the first processing level as a first speed, and determine a processing speed of a second virtual resource processing task corresponding to the second processing level as a second speed, where the second speed is greater than or equal to the first speed, and optionally, the first speed may be lower than a daily processing speed of the server. Then, the server may determine a first client corresponding to the first virtual resource processing task, and determine a second client corresponding to the second virtual resource processing task. The server may directly allocate virtual resources to each second client, may determine whether each first client allocates virtual resources, and if not, may send a virtual resource display indication to the first client that is not allocated to virtual resources in order not to affect the user experience, to change virtual resource display data, so that the user perceives that the virtual resources have been allocated, and then allocate the virtual resources to the first client according to the first speed.

FIG. 6 is a diagram illustrating a view of virtual resources according to an exemplary embodiment, as shown in FIG. 6, where a client performs a virtual resource acquisition operation in a virtual resource processing task under the operation of a user. If the client is not allocated to the virtual resource, the virtual resource display instruction sent by the server can be received and used for changing the virtual resource display data so as to obtain target virtual resource data available for inquiry. When the client queries the target virtual resource data on the virtual resource display interface, the virtual resource query service of the client can be triggered, so that the client can obtain the target virtual resource data from the server according to the client identification and display the target virtual resource data on the virtual resource display interface.

If the client side does not receive the virtual resource display instruction sent by the server when triggering the virtual resource query service, the server can send the virtual resource display instruction to the client side according to the virtual resource adjustment data in the task record storage area, so as to change the virtual resource display data, and further obtain target virtual resource data which can be obtained through query.

In summary, in the embodiment of the present application, when it is determined that there are multiple virtual resource processing tasks, the priority of each virtual resource processing task may be determined, so as to determine the processing speed of each virtual resource processing task under different priorities, implement different virtual resource allocation speeds for the client of each virtual resource processing task according to different processing speeds, and display the target virtual resource data on the display interface of the corresponding client under the low allocation speed, so as to ensure the processing speed of a part of virtual resource processing tasks under the condition that no stacking of more hardware resources is required, thereby ensuring the user experience as a whole.

Fig. 7 is a flowchart of a virtual resource processing method according to an exemplary embodiment, and as shown in fig. 7, the virtual resource processing method is applicable to electronic devices such as a server, a client, or other node devices, and includes the following steps:

in step S701, in the case where there are a plurality of virtual resource processing tasks, determining a client corresponding to the current virtual resource processing task; the current virtual resource processing task is any one of a plurality of virtual resource processing tasks.

Optionally, in the case that a plurality of virtual resource processing tasks exist in the server, a client corresponding to the current virtual resource processing task may be determined, so that subsequent implementation steps may be performed according to priorities of the clients. The current virtual resource processing task is any one of a plurality of virtual resource processing tasks.

In step S702, if the priority of the client is the fifth processing level, sending a virtual resource display instruction to the client; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

The embodiment of the application further includes a method for determining whether the priority of the client is at the fifth processing level, and fig. 8 is a flowchart of a method for determining the priority of the client, which is shown in fig. 8 and includes:

in step S801, user history data corresponding to a client is acquired.

In an alternative embodiment, the user history data corresponding to the client includes the number of times the user corresponding to the client participates in the virtual resource acquisition task during the history period. For example, the coefficient of participation of the user A corresponding to the client in the virtual resource acquisition task is 20 times within 10 days.

In step S802, an activity level value of the client is determined according to the user history data.

In step S803, in the case where the activity level value is equal to or less than the preset level value, the priority of the client is determined as the fifth processing level.

In another optional embodiment, the server may obtain user behavior information corresponding to the client and a behavior duration corresponding to the user behavior information, determine a user type corresponding to the client based on the user behavior information and the behavior duration, and determine a priority of the client according to the user type.

The server determines, based on the user behavior information and the behavior duration, the user type corresponding to the client may be expressed as: when the server receives the user behavior information, it can determine which duration range the corresponding behavior duration is in. For example, it may be divided into two time ranges, a first time range of 0-2 seconds and a second time range of greater than 2 seconds. If the corresponding behavior duration is within the first duration range, the user type corresponding to the client can be determined to be the first user type, and if the corresponding behavior duration is within the second duration range, the user type corresponding to the client can be determined to be the second user type. Alternatively, the first user type may be referred to as a high-sensitivity user type and the second user type may be referred to as a low-sensitivity user type. The user corresponding to the high-sensitivity user type may be a person who is urgent to the allocation of the virtual resource, and the user corresponding to the low-sensitivity user type may be a person who is not urgent to the allocation of the virtual resource.

FIG. 9 is a block diagram of a virtual resource processing apparatus, according to an example embodiment. Referring to fig. 9, the apparatus includes a priority determination module 901, a client determination module 902, and a transmission module 903.

A priority determining module 901 configured to determine a priority of a current virtual resource processing task in the case where there are a plurality of virtual resource processing tasks; the plurality of virtual resource processing tasks includes a current virtual resource processing task;

the client determining module 902 is configured to execute the determining, if the priority of the current virtual resource processing task is the first processing level, the client corresponding to the current virtual resource processing task;

a sending module 903 configured to send a virtual resource display instruction to the client if it is determined that the client meets the first virtual resource allocation condition; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

and determining the priority of the client according to the user type.

In some alternative embodiments, the apparatus further comprises:

The second speed is greater than or equal to the first speed.

acquiring a client identifier of a client;

The specific manner in which the various modules perform the operations in the apparatus of the above embodiments have been described in detail in connection with the embodiments of the method, and will not be described in detail herein.

FIG. 10 is a block diagram of a virtual resource processing apparatus, according to an example embodiment. Referring to fig. 10, the apparatus includes a client determination module and a transmission module 1002.

A client determining module 1001 configured to determine, when there are a plurality of virtual resource processing tasks, a client corresponding to the current virtual resource processing task; the current virtual resource processing task is any one of a plurality of virtual resource processing tasks;

a sending module 1002 configured to send a virtual resource display instruction to the client if the priority of the client is the fifth processing level; the virtual resource display instruction includes virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on the virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data and the virtual resource adjustment data corresponding to the client.

In some alternative embodiments, the apparatus further comprises:

Fig. 11 is a block diagram illustrating an electronic device 1100 for virtual resource processing in accordance with an exemplary embodiment.

The electronic device may be a server, or may be another device having the same function as the server, and the internal structure thereof may be as shown in fig. 11. The electronic device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the electronic device is configured to provide computing and control capabilities. The memory of the electronic device includes a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The network interface of the electronic device is used for communicating with an external terminal through a network connection. The computer program, when executed by a processor, implements a virtual resource processing method.

It will be appreciated by those skilled in the art that the structure shown in fig. 11 is merely a block diagram of a portion of the structure associated with the disclosed aspects and is not limiting of the electronic device to which the disclosed aspects apply, and that a particular electronic device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

In an exemplary embodiment, there is also provided a server including: a processor; a memory for storing the processor-executable instructions, wherein the processor is configured to execute the instructions to implement a virtual resource processing method as in embodiments of the present disclosure.

In an exemplary embodiment, a storage medium is also provided, which when executed by a processor of an electronic device, enables the electronic device to perform the virtual resource processing method in the embodiments of the present disclosure.

In an exemplary embodiment, a computer program product containing instructions that, when run on a computer, cause the computer to perform the virtual resource processing method in the embodiments of the present disclosure is also provided.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It is to be understood that the present disclosure is not limited to the precise arrangements and instrumentalities shown in the drawings, and that various modifications and changes may be effected without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims

1. A virtual resource processing method, comprising:

determining the priority of the current virtual resource processing task under the condition that a plurality of virtual resource processing tasks exist; the plurality of virtual resource processing tasks includes the current virtual resource processing task;

if the priority of the current virtual resource processing task is a first processing level, determining a client corresponding to the current virtual resource processing task; the task type of the current virtual resource processing task of the first processing level is an instantaneous large-flow type with long task duration and a large number of participating clients; the actual required processing speed of the current virtual resource processing task is greater than the processing speed provided by the server;

If the client side is determined to meet the first virtual resource allocation condition, sending a virtual resource display instruction to the client side; the virtual resource display instruction comprises virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on a virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data corresponding to the client and the virtual resource adjustment data;

the method further comprises the steps of:

2. The method of claim 1, wherein determining the priority of the current virtual resource processing task comprises:

determining the task duration time of the current virtual resource processing task and the number of participating clients;

3. The method according to claim 2, wherein determining the task type of the current virtual resource processing task according to the task duration and the number of participating clients comprises:

determining that the task type of the current virtual resource processing task is a first task type under the condition that the task duration is smaller than or equal to a preset duration threshold and the number of the participating clients is larger than or equal to a preset number threshold;

and determining the priority of the current virtual resource processing task as the first processing level according to the first task type.

4. The virtual resource processing method of claim 2, wherein the method further comprises:

acquiring user behavior information corresponding to the client and behavior duration corresponding to the user behavior information;

and determining the priority of the client according to the user type.

5. The method according to claim 4, wherein the client includes a first client and a second client, and the sending the virtual resource display instruction to the client if it is determined that the client satisfies the first virtual resource allocation condition includes:

wherein the third processing level is greater than or equal to the fourth processing level.

6. The method for processing virtual resources according to claim 1, wherein if the priority of the current virtual resource processing task is the first processing level, determining the client corresponding to the current virtual resource processing task includes:

7. The virtual resource processing method of claim 6, wherein the method further comprises:

if the priority of the current virtual resource processing task is a second processing level, determining that the processing speed of the current virtual resource processing task is a second speed corresponding to the second processing level;

the second speed is greater than or equal to the first speed.

8. The method according to claim 1, wherein if it is determined that the client meets the first virtual resource allocation condition, sending a virtual resource display instruction to the client includes:

and if the fact that the client side does not allocate the virtual resources corresponding to the virtual resource adjustment data is determined, sending a virtual resource display instruction to the client side.

9. The method of claim 8, wherein the sending a virtual resource display instruction to the client comprises:

acquiring a client identifier of the client;

obtaining a virtual resource allocation record corresponding to the current virtual resource processing task from a task record storage area;

10. A virtual resource processing method, comprising:

under the condition that a plurality of virtual resource processing tasks exist, determining a client corresponding to the current virtual resource processing task; the current virtual resource processing task is any one of the plurality of virtual resource processing tasks;

if the priority of the client is the fifth processing level, sending a virtual resource display instruction to the client; the virtual resource display instruction comprises virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on a virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data corresponding to the client and the virtual resource adjustment data; the client with the fifth processing level of priority is an inactive user; the actual required processing speed of the current virtual resource processing task is greater than the processing speed provided by the server;

the method further comprises the steps of:

11. The virtual resource processing method of claim 10, wherein the method further comprises:

acquiring user history data corresponding to the client;

and determining the priority of the client as a fifth processing level under the condition that the activity level value is smaller than or equal to a preset level value.

12. A virtual resource processing apparatus, comprising:

a priority determining module configured to perform determining a priority of a current virtual resource processing task in the presence of a plurality of virtual resource processing tasks; the plurality of virtual resource processing tasks includes the current virtual resource processing task;

the client determining module is configured to execute the client corresponding to the current virtual resource processing task if the priority of the current virtual resource processing task is a first processing level; the task type of the current virtual resource processing task of the first processing level is an instantaneous large-flow type with long task duration and a large number of participating clients; the actual required processing speed of the current virtual resource processing task is greater than the processing speed provided by the server;

The sending module is configured to execute sending a virtual resource display instruction to the client if the client is determined to meet a first virtual resource allocation condition; the virtual resource display instruction comprises virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on a virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data corresponding to the client and the virtual resource adjustment data;

13. The virtual resource processing apparatus of claim 12, wherein the priority determination module is configured to perform:

14. The virtual resource processing apparatus of claim 13, wherein the priority determination module is configured to perform:

15. The virtual resource processing apparatus of claim 13, wherein the apparatus further comprises a client priority determination module configured to perform:

and determining the priority of the client according to the user type.

16. The virtual resource processing apparatus of claim 15, wherein the client comprises a first client and a second client, the sending module configured to perform:

17. The virtual resource processing apparatus of claim 12, wherein the client determination module is configured to perform:

18. The virtual resource processing apparatus of claim 17, wherein the apparatus further comprises:

The speed determining module is configured to execute the processing speed of the current virtual resource processing task to be a second speed corresponding to the second processing level if the priority of the current virtual resource processing task is the second processing level;

the second speed is greater than or equal to the first speed.

19. The virtual resource processing apparatus of claim 12, wherein the sending module is configured to perform:

20. The virtual resource processing apparatus of claim 19, wherein the sending module is configured to perform:

acquiring a client identifier of the client;

21. A virtual resource processing apparatus, comprising:

The client determining module is configured to execute the client corresponding to the current virtual resource processing task under the condition that a plurality of virtual resource processing tasks exist; the current virtual resource processing task is any one of the plurality of virtual resource processing tasks;

the sending module is configured to execute sending a virtual resource display instruction to the client if the priority of the client is a fifth processing level; the virtual resource display instruction comprises virtual resource adjustment data; the virtual resource display instruction is used for indicating the client to display target virtual resource data on a virtual resource display interface; the target virtual resource data is determined according to the original virtual resource data corresponding to the client and the virtual resource adjustment data; the client with the fifth processing level of priority is an inactive user; the actual required processing speed of the current virtual resource processing task is greater than the processing speed provided by the server;

22. The virtual resource processing apparatus of claim 21, wherein the apparatus further comprises:

a level value determination module configured to perform determining an activity level value of the client from the user history data;

and the client priority determining module is configured to determine the priority of the client as a fifth processing level under the condition that the activity level value is smaller than or equal to a preset level value.

23. An electronic device, comprising:

a processor;

a memory for storing the processor-executable instructions;

wherein the processor is configured to execute the instructions to implement the virtual resource processing method of any of claims 1 to 9 or 10 to 11.

24. A computer readable storage medium, characterized in that instructions in the computer readable storage medium, when executed by a processor of an electronic device, enable the electronic device to perform the virtual resource processing method of any one of claims 1 to 9 or 10 to 11.