CN110795237A - Resource processing method, device, electronic equipment and medium - Google Patents

Abstract

The embodiment of the specification provides a resource processing method, a resource processing device, an electronic device, and a medium, where a resource acquisition request initiated by a user is received, and if a target acquisition amount of the user in the resource acquisition request is smaller than an available amount of a target combination resource, more than one target sub-resource is determined from the target combination resource according to the target acquisition amount, the available amount of each sub-resource, and a reference amount of the target combination resource, and the target acquisition amount is split into an acquisition amount for each target sub-resource, so that when the user has a resource acquisition demand for the target combination resource, the target sub-resources in the target combination resource and the acquisition amount of each target sub-resource are determined.

Description

Resource processing method, device, electronic equipment and medium

Technical Field

Embodiments of the present disclosure relate to the field of computer technologies, and in particular, to a resource processing method and apparatus, an electronic device, and a medium.

Background

In the field of computers, there are a wide variety of resources, such as storage resources, traffic resources, etc., that can be utilized by objects that require the resources to implement the functionality of the resources. To increase the availability of resources, the resource management platform may combine multiple resources of the same type to form a combined resource for use by objects that require the combined resource, such as a combination of storage resources, a combination of traffic resources, or other combined resources. Thus, the user can acquire the combined resources from the resource management platform according to the needs. In this process, how to efficiently determine the acquisition amount of each resource in the combined resources acquired by the user is particularly important.

Disclosure of Invention

The embodiment of the specification provides a resource processing method, a resource processing device, electronic equipment and a medium.

In a first aspect, an embodiment of the present specification provides a resource processing method, including: receiving a resource acquisition request initiated by a user through a client, wherein the resource acquisition request comprises a target acquisition amount of the user; determining a target combined resource according to the resource acquisition request, wherein the target combined resource comprises a plurality of sub-resources, and each sub-resource corresponds to an available amount; if the target acquisition amount is smaller than the available amount of the target combined resource, determining more than one target sub-resource from the target combined resource based on the target acquisition amount, the available amount of each sub-resource and the reference amount of the target combined resource, and splitting the target acquisition amount into the acquisition amount of each target sub-resource, wherein the available amount and the reference amount of the target combined resource are both determined according to the available amount of each sub-resource; and distributing the target sub-resource in the target combined resource to the user according to the acquisition quantity of each target sub-resource.

In a second aspect, an embodiment of the present specification provides a resource processing apparatus, including: the system comprises a receiving module, a resource obtaining module and a resource obtaining module, wherein the receiving module is used for receiving a resource obtaining request initiated by a user through a client, and the resource obtaining request comprises a target obtaining amount of the user; a first determining module, configured to determine a target combined resource according to the resource obtaining request, where the target combined resource includes multiple sub-resources, and each sub-resource corresponds to an available amount; a second determining module, configured to determine, if the target acquisition amount is smaller than the available amount of the target combined resource, more than one target sub-resource from the target combined resource based on the target acquisition amount, the available amount of each sub-resource, and the reference amount of the target combined resource, and split the target acquisition amount into an acquisition amount for each target sub-resource, where the available amount and the reference amount of the target combined resource are both determined according to the available amount of each sub-resource; and the allocation module is used for allocating the target sub-resource in the target combined resource to the user according to the acquisition quantity of each target sub-resource.

In a third aspect, an embodiment of the present specification provides an electronic device, including: a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the resource processing method provided by the first aspect when executing the program.

In a fourth aspect, an embodiment of the present specification provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the steps of the resource processing method provided in the first aspect.

In the resource processing method provided in an embodiment of this specification, a resource acquisition request initiated by a user is received, a target combination resource is determined according to the resource acquisition request, if a target acquisition amount of the user in the resource acquisition request is smaller than an available amount of the target combination resource, more than one target sub-resource is determined from the target combination resource according to the target acquisition amount, the available amount of each sub-resource, and a reference amount of the target combination resource, and the target acquisition amount is split into an acquisition amount for each target sub-resource, so that when the user has a resource acquisition demand for the target combination resource, the target sub-resource in the target combination resource and the acquisition amount of each target sub-resource are determined, and the target sub-resource in the target combination resource is allocated to the user according to the acquisition amount of each target sub-resource. Therefore, when the user needs to acquire the combined resources, the server can automatically determine the target sub-resources from the target combined resources and the acquisition amount of each target sub-resource for the user only by inputting the required target acquisition amount without selecting the target sub-resources and the acquisition amount of each target sub-resource in the target combined resources by the user, so that the operation of the user is reduced, and the acquisition efficiency of the user on the combined resources is improved. In addition, the target sub-resources in the target combined resources and the acquisition amount of each target sub-resource are determined by configuring the reference amount of the combined resources, so that the determination efficiency of the target sub-resources and the acquisition amount is improved, the time consumed for determining the target sub-resources and the acquisition amount is reduced, and the occupation of system resources is reduced.

Drawings

FIG. 1 is a schematic illustration of an operating environment suitable for use with embodiments of the present disclosure;

FIG. 2 is a flowchart of a resource processing method provided in a first aspect of an embodiment of the present specification;

fig. 3 is an exemplary flowchart of step S204 provided in the first aspect of the embodiments of the present description;

FIG. 4 is a flow chart of a fund processing method provided in the first aspect of the embodiments of the present disclosure;

FIG. 5 is a block diagram of a resource processing apparatus provided in a second aspect of the embodiments of the present specification;

fig. 6 is a schematic structural diagram of an electronic device provided in a third aspect of an embodiment of the present specification.

Detailed Description

Please refer to fig. 1, which is a schematic diagram of an operating environment suitable for the embodiment of the present disclosure. As shown in fig. 1, one or more user terminals 100 may be connected for data communication or interaction with one or more servers 300 (only one shown in fig. 1) via a network 200. The user terminal 100 may be a Personal Computer (PC), a notebook Computer, a tablet Computer, a smart phone, an e-reader, a vehicle-mounted device, a web tv, or a wearable device, and other smart devices having a network connection function.

The user terminal 100 is installed with a client, which may be a browser or a third-party application software, corresponding to a Server terminal, and provides services, such as a combined resource processing service, for a user. A user may initiate a resource acquisition request to a server through a client installed in a user terminal, so as to trigger the server to execute the resource processing method provided in the embodiment of the present specification, so as to determine an acquisition amount of each resource in a combined resource acquired by the user.

For example, the composite resource may be a composite traffic resource. In an application scenario, a user can send redundant network traffic to a resource management platform for management, so that the traffic resource can be shared by other users needing the traffic resource through the resource management platform, and a certain benefit is obtained. Considering that the shared traffic provided by each user is limited, the resource management platform can group the managed traffic resources according to actual needs to form a plurality of combined traffic resources, and update the available amount of each combined traffic resource in real time. For example, for convenience of management, the grouping may be by region or by the amount of shared traffic resources.

Alternatively, the combined resource may be a combined storage resource. In an application scenario, a user can provide redundant storage resources of the storage device of the user to a resource management platform for management, so that the resource management platform shares the storage resources to other users in need of the storage resources to obtain a certain benefit. Considering that the storage resources provided by each user are limited, the resource management platform can group the managed storage resources according to actual needs to form a plurality of combined storage resources, and update the available amount of each combined storage resource in real time. For example, for convenience of management, the grouping may be by region or by the size of the shared storage resource.

Alternatively, the combined resource may be a combined fund. In one application scenario, a fund company can combine a plurality of funds to form a combined fund product for sale, which is beneficial to the risk and income balance of users. Of course, in addition to funds, other combinations of financial resources such as stocks, bonds or other financial derivatives may be used.

It should be noted that, besides the above listed combination resources, other applicable combination resources may also be used, and the present invention is not limited herein.

In order to better understand the technical solutions provided by the embodiments of the present specification, the technical solutions of the embodiments of the present specification are described in detail below with reference to the drawings and specific embodiments, and it should be understood that the specific features in the embodiments and examples of the present specification are detailed descriptions of the technical solutions of the embodiments of the present specification, and are not limitations on the technical solutions of the embodiments of the present specification, and the technical features in the embodiments and examples of the present specification may be combined with each other without conflict. In the embodiments of the present specification, the term "one or more" means one or more than one; the term "plurality" means "more than two", i.e. includes two or more. It should be noted that, in the embodiment of the present specification, the difference between two values described above is obtained by subtracting a smaller value from a larger value of the two values, such as the difference between a and B, and a is smaller than B, which is B-a.

In a first aspect, fig. 2 shows a flowchart of a combined resource processing method provided in an embodiment of this specification, and this embodiment describes a processing flow of a server, for example, the server may be a server of a resource management platform, or may also be a server of a third-party affiliate platform specified by the resource management platform. Referring to fig. 2, the method may include at least the following steps S200 to S206.

Step S200, receiving a resource acquisition request initiated by a user through a client, wherein the resource acquisition request comprises a target acquisition amount of the user.

A user can initiate a resource acquisition request to a server end aiming at combined resources needing to be acquired through a client, and the client sends the resource acquisition request to the server through a network. The resource acquisition request carries the target acquisition amount, and after receiving the resource acquisition request sent by the user, the server provides corresponding combined resources for the user according to the target acquisition amount in the request. For example, the user may input a target acquisition amount of a combined resource to be acquired in the client, and trigger a button provided on the client for triggering a resource acquisition request.

Taking the scenario of combining traffic resources as an example, if a certain user has a traffic acquisition demand, a required target acquisition amount, that is, a required traffic amount, may be input through a client, and then a resource acquisition request is initiated to a server. For example, if the user needs 500M traffic, 500M is entered in the client.

Taking a scenario of combining storage resources as an example, if a certain user has a storage space acquisition requirement, a required target acquisition amount, that is, a required storage space size, may be input through a client, and then a resource acquisition request is initiated to a server. For example, if the user needs 1G of storage space, 1G is input in the client.

Step S202, determining a target combined resource according to the resource acquisition request, wherein the target combined resource comprises a plurality of sub-resources, and each sub-resource corresponds to an available amount.

Taking the scenario of the combined traffic resource or the scenario of the combined storage resource as an example, a resource information base may be configured in advance in the server according to the managed combined resource, where the resource information base stores the managed available amount of each combined resource, the managed available amount of each sub-resource, the corresponding relationship information between each combined resource and the corresponding available amount, the corresponding relationship information between each sub-resource and the corresponding available amount, and the corresponding relationship information between the combined resource and the sub-resource. And updating the available quantity of each combined resource and the available quantity of each sub-resource in the resource information base in real time.

It should be noted that, in this embodiment, each combined resource includes a plurality of sub-resources, each sub-resource corresponds to an available amount of a user, and the available amount of the combined resource is the sum of the available amounts of each sub-resource included in the combined resource. Taking the scenario of the combined traffic resource as an example, assume that the combined traffic resource C includes a sub-traffic resource C1, a sub-traffic resource C2, a sub-traffic resource C3, and a sub-traffic resource C4. Assuming that the current available amount of the sub-traffic resource c1 is M1, the current available amount of the sub-traffic resource c2 is M2, the current available amount of the sub-traffic resource c3 is M3, and the current available amount of the sub-traffic resource c4 is M4, the available amount of the combined traffic resource a is M1+ M2+ M3+ M4.

In the embodiment of the present specification, the target acquisition amount in the resource acquisition request is inconsistent with the available amount of all combined resources in the resource information base. The implementation process for determining the target combined resource according to the resource acquisition request may include: extracting a target acquisition amount of a user from the resource acquisition request; and searching the combined resources with the available quantity larger than the target acquisition quantity in the resource information base, and determining one combined resource from the searched combined resources as the target combined resource. For example, one of the found combination resources may be arbitrarily selected as a target combination resource, or a combination resource with a smallest difference between the available amount and the target acquisition amount in the found combination resources may be used as the target combination resource. At this time, the target acquisition amount is smaller than the available amount of the target composition resource. The available amount of the target combined resource is determined according to the available amount of each sub-resource in the target combined resource. In one embodiment, the available amount of the target composite resource is an accumulated sum of the available amounts of the sub-resources in the target composite resource.

It is understood that if the target acquisition amount is consistent with the available amount of one or more combined resources in the resource information base, one combined resource can be selected from the combined resources with the consistent available amount and provided to the user, and the acquisition amount of each sub-resource in the combined resource by the user is not required to be determined again.

For example, in an application scenario, the available amount of the combined resources stored in the resource information base may be displayed at the client as a candidate, if the user inputs a target acquisition amount by selecting the candidate, the server receives a resource acquisition request and then selects one combined resource from the combined resources having the corresponding available amount to provide to the user, if none of the candidate displayed at the client meets the user requirement, the user may input an acquisition amount as the target acquisition amount at the client, and at this time, the target acquisition amount is smaller than the available amount of the target combined resource determined by the server, and the following step S204 is executed.

Step S204, if the target acquisition amount is smaller than the available amount of the target combination resource, determining more than one target sub-resource from the target combination resource based on the target acquisition amount, the available amount of each sub-resource and the reference amount of the target combination resource, and splitting the target acquisition amount into the acquisition amount of each target sub-resource.

Step S206, distributing the target sub-resource in the target combined resource to the user according to the acquisition quantity of each target sub-resource.

In an embodiment of this specification, after determining the acquisition amount of each target sub-resource, the target sub-resource in the target combined resource may be allocated to the user according to the acquisition amount of each target sub-resource. Taking the scenario of the combined traffic resource as an example, assuming that the target acquisition amount of the user is 500M, and the acquisition amount of the target sub-traffic resource c1, the acquisition amount of the target sub-traffic resource c2 and the acquisition amount of the target sub-traffic resource c3 determined in step S204 are 200M, 160M and 140M, respectively, 200M traffic is allocated to the user from the target sub-traffic resource c1, 160M traffic is allocated to the user from the target sub-traffic resource c2 and 140M traffic is allocated to the user from the target sub-traffic resource c 3.

Further taking the scenario of the combined storage resource as an example, assuming that the target acquisition amount of the user is 1G of storage space, the acquisition amount of the target sub-storage resource d1 determined in the above step S204 is 300M of storage space, the acquisition amount of the target sub-storage resource d2 is 224M of storage space, the acquisition amount of the target sub-storage resource d3 is 280M of storage space, and the acquisition amount of the target sub-storage resource d4 is 220M of storage space, then 300M of storage space is allocated to the user from the target sub-storage resource d1, 224M of storage space is allocated to the user from the target sub-storage resource d2, 280M of storage space is allocated to the user from the target sub-storage resource d3, and 220M of storage space is allocated to the user from the target sub-storage resource d 4. Therefore, when the user uses the acquired 1G storage space, the data to be stored can be stored in the storage spaces allocated to the user through the resource management platform.

In one embodiment of the present specification, for each client that provides a child resource in a combined resource, the resource availability provided by the resource provider may be displayed. For example, taking a scenario of combining traffic resources as an example, assuming that a user providing a traffic sub-resource provides 1G traffic to a resource management platform for traffic sharing, the provided resource availability, such as 1G, may be displayed at a client providing the traffic sub-resource.

In this case, after allocating the target sub-resource in the target combination resource to the user according to the acquisition amount of each target sub-resource, the method may further include: and feeding back the acquired amount of each target sub-resource in the target combined resource to a client providing the target sub-resource, displaying the acquired amount on the client, displaying the allocated resource amount on the client, namely the acquired amount allocated to the user initiating the resource acquisition request, updating the displayed resource available amount of the target sub-resource, namely displaying the current resource available amount allocated according to the determined acquired amount, so that a resource provider can know the sharing condition of the provided flow in time. For example, the available amount of the sub-resource provided by the client is 1G, and after the server allocates 200M traffic to the user initiating the resource acquisition request by using the sub-resource as the target sub-resource, the current available amount of the resource is 824M.

In step S204, the reference amount of the target combined resource is determined according to the available amount of each sub resource in the target combined resource. It should be noted that the reference quantity of the target composite resource can be used to characterize the average available quantity of all sub-resources in the current target composite resource. Specifically, the criterion for determining the reference amount may be arranged in advance based on actual experience, for example, a plurality of available amount ranges adjacent to each other in sequence may be arranged in advance, a plurality of reference amounts may be arranged based on experience, the available amount of each sub-resource in the current target combination resource may be matched with the plurality of available amount ranges, the available amount range in which each sub-resource is located may be determined, and the reference amount of the current target combination resource may be determined based on a correspondence relationship between the number of sub-resources in each available amount range and the reference amount arranged in advance. For another example, an average value of the available amounts of all the sub-resources in the target composite resource may be used as the reference amount of the current target composite resource.

Specifically, in an embodiment of the present specification, as shown in fig. 3, the implementation process for determining more than one target sub-resource from the target combination resource based on the target acquisition amount, the available amount of each sub-resource, and the reference amount of the target combination resource, and splitting the target acquisition amount into the acquisition amount of each target sub-resource may include the following steps S300 to S304.

Step S300, determining all the sub-resources with the available quantity larger than the reference quantity in the target combined resource as current candidate sub-resources, and judging whether the accumulated sum of the reference difference values of the current candidate sub-resources is larger than or equal to the target acquisition quantity.

Wherein the reference differenceThe value is the difference between the available amount of the current candidate sub-resource and the reference amount. For example, assuming that the target combination resource includes M sub-resources in total, and the available amount of n sub-resources in the M sub-resources is greater than the reference amount of the current target combination resource, all the n sub-resources are determined as current candidate sub-resources, which are respectively denoted as V_i. Assuming that the number of current candidate sub-resources is denoted as n, i takes 1 to n. Assuming that the reference quantity of the target combined resource is s, the sub-resource V_iIs represented by a_iThen, the reference difference value of the ith current candidate sub-resource is represented as: a is_i-s, and then the cumulative sum of the reference differences for the n current candidate sub-resources can be obtained:

step S302, if yes, determining the more than one target sub-resource from all the current candidate sub-resources, and splitting the target acquisition amount into the acquisition amount for each target sub-resource according to a first preset rule.

Step S304, if not, determining the more than one target sub-resource from the target combined resource, and dividing the target acquisition amount into the acquisition amount of each target sub-resource according to a second preset rule.

Assuming that the target acquisition quantity is represented as R, when the sum is accumulated

When the current candidate sub-resource is greater than or equal to R, the part of the available quantity of the current candidate sub-resources, which exceeds the reference quantity, can meet the acquisition requirement of the user, and more than one target sub-resources can be determined from all the current candidate sub-resources. When the sum is accumulated

When the available quantity of the current candidate sub-resources is smaller than the reference quantity, the part of the available quantity of the current candidate sub-resources exceeding the reference quantity cannot meet the acquisition requirement of the user, and then part of the target acquisition quantity needs to be acquired from other sub-resources of the target combined resource.

Therefore, after the user acquires the target combined resource with the target acquisition amount, the residual available amount of each sub-resource in the target combined resource can be balanced, the resource management platform can manage the combined resource conveniently, and the situations that the available amount of some sub-resources in the same combined resource is too high and the available amount of some sub-resources is too low are avoided. It is understood that the remaining available amount of each sub-resource is the difference between the available amount and the acquired amount of the sub-resource. It should be noted that, if a part of the sub-resources in the target combination resource is determined as the target sub-resources and another part of the sub-resources is not the target sub-resources, for the part of the sub-resources that is not the target sub-resources, the obtaining amount is zero, that is, the part of the sub-resources is not obtained.

In the step S302, the determining more than one target sub-resource from all the current candidate sub-resources, and dividing the target acquisition amount into the acquisition amount for each target sub-resource according to a first preset rule may include:

step F1: obtaining a remaining average value of all the current candidate sub-resources, wherein the remaining average value is a difference value between the accumulated sum and the target acquisition amount divided by the number of the current candidate sub-resources;

step F2: judging whether the reference difference value of each current candidate sub-resource is greater than or equal to the residual mean value;

step F3: and if so, taking each current candidate sub-resource as the target sub-resource, and obtaining the acquisition amount of the target sub-resource based on the difference between the reference difference of the target sub-resource and the residual average value for each target sub-resource.

The accumulated sum is the sum of the reference difference values of all the current candidate sub-resources, and the remaining average value is used for representing the average value of the remaining amount of the accumulated sum exceeding the target acquisition amount.

In an embodiment of the present specification, the implementation process of determining more than one target sub-resource from all the current candidate sub-resources and splitting the target acquisition amount into the acquisition amount for each target sub-resource according to a first preset rule further includes:

step F4: and if the reference difference value of the current candidate sub-resources is smaller than the residual mean value, determining all the sub-resources with the reference difference value larger than or equal to the residual mean value in the target combined resource as the current candidate sub-resources again, and repeatedly executing the steps of obtaining the residual mean values of all the current candidate sub-resources and judging whether the reference difference value of each current candidate sub-resource is larger than or equal to the residual mean value or not until the reference difference value of each current candidate sub-resource is larger than or equal to the residual mean value.

For example, assuming that the remaining average is represented by m and there are n current candidate sub-resources in the current target combination resource, then

Wherein the content of the first and second substances,

a residual amount indicating that the sum of the reference difference values of all the current candidate sub-resources exceeds the target acquisition amount.

Further, the reference difference a of each current candidate sub-resource is determined_iS is compared with the remaining mean value m if a_iIf s is larger than or equal to m, each current candidate sub-resource is taken as a target sub-resource, n target sub-resources are counted, and the acquisition quantity of each target sub-resource is determined as a_i-s-m. Therefore, the residual available amount of the target sub-resources is equal after the target sub-resources are obtained according to the obtained amount, and the balance of the residual available amount of each sub-resource in the target combined resources can be further realized after the target combined resources of the target obtained amount are obtained by a user.

And if the reference difference value of the current candidate sub-resources is smaller than m, updating the current candidate sub-resources, re-determining the sub-resources with the reference difference value larger than or equal to m as the current candidate sub-resources, and updating the number n of the current candidate sub-resources. Based on the re-determined current candidate sub-resources, iteration is started again from the step F1 until the reference difference value of each current candidate sub-resource is greater than or equal to the remaining average value, and then the target sub-resource and the acquisition amount of the target sub-resource can be determined according to the step F3.

In the above iterative process, the remaining average value is updated with the update of the current candidate sub-resource. Therefore, after the target sub-resources are acquired according to the acquired amount, the remaining available amount of the sub-resources with the original available amount larger than the reference amount in the target combined resource is enabled to be substantially balanced, and the remaining available amount of each sub-resource in the target combined resource is further enabled to be balanced after the user acquires the target combined resource with the target acquired amount.

In an embodiment of the present specification, considering that there is an averaging process in the calculation process, there may be a case where there is an inconsistency between the sum of the candidate amounts of each target sub-resource and the target acquisition amount due to a constraint on the decimal retention rule set in advance by the system. In order to meet the requirement of the user as much as possible, the above implementation process of obtaining, for each target sub-resource, the obtained amount of the target sub-resource based on the difference between the reference difference of the target sub-resource and the remaining average value may include: for each target sub-resource, taking the difference between the reference difference of the target sub-resource and the residual mean value as a candidate quantity; acquiring a difference value between the accumulated sum of the candidate quantities of the target sub-resources and the target acquisition quantity; and if the difference value does not meet the preset condition, determining a compensation amount according to the difference value, and determining the acquisition amount of each target sub-resource according to the candidate amount of each target sub-resource and the compensation amount.

Of course, if the difference value satisfies the preset condition, the candidate amount of each target sub-resource is taken as the acquisition amount of the target sub-resource.

In the above acquisition amount determining process, a difference between the accumulated sum of the candidate amounts for each of the target sub-resources and the target acquisition amount may be used as a difference value therebetween. Alternatively, the difference between the accumulated sum of the candidate amounts of each of the target sub-resources and the target acquisition amount may be used as the difference between the accumulated sum and the target acquisition amount. The preset condition can be set according to the requirements of the actual application scene. For example, taking a scenario of combining traffic resources as an example, an error threshold, such as 0.01M, is preset, and when the difference value is smaller than the error threshold, it is determined that the difference value satisfies the preset condition, otherwise, it is determined that the difference value does not satisfy the preset condition, and a compensation operation needs to be performed. For another example, the preset condition may also be set to satisfy that the difference value is zero, that is, the accumulated sum of the candidate amounts of each target sub-resource is consistent with the target acquisition amount, if the difference value is not zero, it indicates that the difference value is inconsistent, and it is determined that the preset condition is not satisfied, and if the difference value is zero, it is determined that the preset condition is satisfied.

Specifically, the implementation of determining a compensation amount according to the difference value, and determining an acquisition amount for each of the target sub-resources according to the candidate amount for each of the target sub-resources and the compensation amount may include: and taking the difference between the accumulated sum of the candidate amount of each target sub-resource and the target acquisition amount as a compensation amount, randomly selecting one target sub-resource from the determined target sub-resources as the compensation sub-resource, taking the sum of the candidate amount of the compensation sub-resource and the compensation amount as the acquisition amount of the compensation sub-resource, and taking the candidate amount of the target sub-resource as the acquisition amount of the target sub-resource aiming at each target sub-resource except the compensation sub-resource in the determined target sub-resources.

For example, the determined target sub-resources include: the target sub-resource V1, the target sub-resource V2, the target sub-resource V3, the target sub-resource V4 and the target sub-resource V5, and the determined candidate amounts are r1, r2, r3, r4 and r5, respectively. If the difference value between R1+ R2+ R3+ R4+ R5 and the target acquisition amount R does not meet the preset condition, the compensation sub-resource randomly selected from V1, V2, V3, V4 and V5 is the target sub-resource V2, the acquisition amount of the target sub-resource V2 is R2+ [ R- (R1+ R2+ R3+ R4+ R5) ], the acquisition amount of the target sub-resource V1 is R1, the acquisition amount of the target sub-resource V3 is R3, the acquisition amount of the target sub-resource V4 is R4, and the acquisition amount of the target sub-resource V5 is R5.

Of course, in other embodiments of the present specification, the above implementation process for obtaining, for each target sub-resource, an obtaining amount of the target sub-resource based on a difference between the reference difference of the target sub-resource and the remaining average value may include: and for each target sub-resource, taking the difference between the reference difference of the target sub-resource and the residual mean value as the acquisition quantity of the target sub-resource.

In step S304, the implementation process of determining more than one target sub-resource from the target combination resource and splitting the target acquisition amount into the acquisition amount for each target sub-resource according to the second preset rule may include: taking each current candidate sub-resource as a first sub-resource, and taking the reference difference value of each first sub-resource as a first acquisition quantity of the first sub-resource; obtaining the residual acquisition amount, and determining a second sub-resource and a second acquisition amount of the second sub-resource from the target combined resource based on the priority of each sub-resource in the target combined resource, the residual acquisition amount and the current available amount of each sub-resource, wherein the residual acquisition amount is a difference value between the accumulated sum of the reference difference values of the current candidate sub-resources and the target acquisition amount; and combining the first sub-resource and the second sub-resource to obtain more than one target sub-resource, and obtaining the acquisition quantity of each target sub-resource according to the first acquisition quantity and the second acquisition quantity.

It should be noted that, for a sub-resource that has been determined as a first sub-resource in the target composite resource, the current available amount is the remaining available amount of the sub-resource except for the first acquired amount of the sub-resource, and for other sub-resources that have not been determined as the first sub-resource, the current available amount is the available amount of the sub-resource.

For example, the current candidate sub-resources include: a sub-resource V1, a sub-resource V7, and a sub-resource V9, wherein the sub-resource V1, the sub-resource V7, and the sub-resource V9 are all used as the first sub-resource, and the available amount of the sub-resource V1 is assumed to be a1, and the reference difference is t1(t1 is a 1-s); the available amount of the sub-resource V7 is a7, and the reference difference is t7(t7 ═ a 7-s); the available amount of the sub-resource V9 is a9, and the reference difference is t9(t9 ═ a9-s), then the first acquisition amount of the sub-resource V1 is t1, the first acquisition amount of the sub-resource V7 is t7, and the first acquisition amount of the sub-resource V9 is t 9. At this time, the current available amounts of the sub-resources V1, V7, and V9 are, in order: a1-t1, a7-t7 and a9-t 9. For other sub-resources in the target combined resource except the first resource, the current available amount is still the original available amount, i.e. the available amount determined in the above step S202. And the remaining acquisition amounts are: r- (t1+ t7+ t 9).

It can be understood that, if there is no coincidence between the first sub-resources and the second sub-resources, each first sub-resource and each second sub-resource are taken as target sub-resources, where the first obtained amount of each first sub-resource is the obtained amount of the corresponding target sub-resource, and the second obtained amount of each second sub-resource is the obtained amount of the corresponding target sub-resource. If the first sub-resource and the second sub-resource are overlapped, the overlapped first acquisition quantity of the first sub-resource and the second acquisition quantity of the second sub-resource need to be added to be used as the acquisition quantity of the target sub-resource. For example, the first sub-resource includes a sub-resource V1, a sub-resource V7, and a sub-resource V9, the respective first obtained amounts are t1, t7, and t9 in order, the second sub-resource includes a sub-resource V1, a sub-resource V2, and a sub-resource V3, and the respective second obtained amounts are p1, p2, and p3 in order, then the sub-resource V1, the sub-resource V2, the sub-resource V3, the sub-resource V7, and the sub-resource V9 are all determined as target sub-resources, where the obtained amount of the sub-resource V1 is t1+ p1, the obtained amount of the sub-resource V2 is p2, the obtained amount of the sub-resource V3 is p3, the obtained amount of the sub-resource V7 is t7, and the obtained amount of the sub-resource V9 is t 9.

In this embodiment, the priority of each sub-resource in the target combination resource is set according to an actual application scenario. For example, in a scenario of a combined traffic resource, the priority of each sub-traffic resource in the target combined traffic resource may be determined according to the historically shared resource amount of each sub-traffic resource, for example, the higher the priority of the sub-resource provided by the resource provider with the greater historically shared traffic. Similarly, in the scenario of combining storage resources, the priority of the child resources provided by the resource provider with more history sharing storage space may be set to be higher. Therefore, the method is beneficial to providing more benefits for users sharing more resources and improving the enthusiasm of resource providers for sharing resources while achieving the purpose that the residual available amount of each sub-resource in the target combined resource is substantially balanced.

Specifically, in one embodiment, the determining the second sub-resource and the second acquisition amount of the second sub-resource from the target combined resource based on the priority, the remaining acquisition amount, and the current available amount of each sub-resource in the target combined resource may include:

sequencing all the sub-resources in the target combined resource from high priority to low priority, and determining the sub-resource arranged at the first position as the current second sub-resource;

judging whether the current available amount of the current second sub-resource is larger than or equal to the current residual acquisition amount or not;

if so, taking the current residual acquisition amount as a second acquisition amount of the current second sub-resource;

if not, taking the current available amount of the current second sub-resource as the second acquired amount of the current second sub-resource, updating the current residual acquired amount, determining the next-ranked sub-resource as the current second sub-resource, and repeatedly executing the step of judging whether the current available amount of the current second sub-resource is larger than the current residual acquired amount until the current available amount of the current second sub-resource is larger than or equal to the current residual acquired amount.

It should be noted that, in the above process, if the current second sub-resource is also the first sub-resource, the current available amount of the current second sub-resource is the first obtained amount determined by subtracting the available amount determined in the above step S202 as the first sub-resource from the available amount determined in the above step S202; if the current second sub-resource is not the first sub-resource, the current available amount of the current second sub-resource is the available amount determined in the above step S202.

For example, assume that the target combination resource includes sub-resource V1 to sub-resource V10, and 10 sub-resources are provided, where the priority of the 10 sub-resources is in order from high to low: v1, V2, V3, …, V10. V1 is first determined to be the current second child resource. As in the above example, V1 is also taken as the first child resource at the same time, and the first acquisition amount of V1 is t1, and when the current available amount of V1 is a1-t1, the current remaining acquisition amount is Q: r- (t1+ t7+ t9), if a1-t1 is smaller than Q, taking a1-t1 as the second acquisition amount of the current second sub-resource V1, and updating the current residual acquisition amount as follows: r- (t1+ t7+ t9) - (a1-t1), and determining the next-ranked sub-resource V2 as the current second sub-resource, and continuing the iteration until the current second sub-resource assumes that the current available amount a3 of V3 is greater than the current remaining acquisition amount Q ": r- (t1+ t7+ t9) - (a1-t1) -a2, then the current remaining acquisition quantity Q' is taken as the second acquisition quantity of the current second sub-resource V3.

Of course, in other embodiments of the present description, in addition to the above embodiments, all the sub-resources in the target combined resource may be sorted according to the priority from high to low, the sub-resource ranked at the first position is determined as the current second sub-resource, and if the current available amount of the current second sub-resource is greater than or equal to the current remaining acquisition amount, the current remaining acquisition amount is used as the second acquisition amount of the current second sub-resource; if the current available amount of the current second sub-resource is smaller than the current remaining acquisition amount, 1/2 of the current available amount of the current second sub-resource is used as the second acquisition amount of the second sub-resource, the next sub-resource is determined as the current second sub-resource, 1/3 of the current available amount of the current second sub-resource is used as the second acquisition amount of the second sub-resource, and so on, as the priority is lower, the access occupation ratio of the second acquisition amount is lower, such as 1/4, 1/5, 1/6 and the like, until the current available amount of the current second sub-resource is larger than or equal to the current remaining acquisition amount. It should be noted that, if all the sub-resources in the target combined resource are traversed and the current remaining acquisition amount is still greater than 0, the traversal may be started again by the sub-resource with the priority ranked at the first position, and the second acquisition amount determination process is repeated.

In the resource processing method provided in the embodiment of the present specification, when a user needs to acquire a combined resource, the server may automatically determine a target sub-resource from a target combined resource for the user and determine an acquisition amount of each target sub-resource only by inputting a required target acquisition amount without selecting the target sub-resource to be acquired and the acquisition amount of each target sub-resource in the target combined resource by the user himself, which is beneficial to reducing user operations and improving the acquisition efficiency of the user on the combined resource. In addition, the target sub-resources in the target combined resources and the acquisition amount of each target sub-resource are determined by configuring the reference amount of the combined resources, so that the determination efficiency of the target sub-resources and the acquisition amount is improved, the time consumed for determining the target sub-resources and the acquisition amount is reduced, and the occupation of system resources is reduced.

In addition, the acquisition amount determining method provided by the embodiment of the specification can realize partial sharing of each sub-resource in the combined resource, so that a resource provider can conveniently share the resource to a required user as soon as possible, the waiting time is reduced, and the user experience is improved. Compared with the mode of randomly splitting the target acquisition amount into each sub-resource in the target combined resource, the method is beneficial to realizing that the residual available amount of each sub-resource in the target combined resource can reach balance after the user acquires the target combined resource of the target acquisition amount, is convenient for the resource management platform to manage the combined resource, and avoids the situations that the available amount of some sub-resources in the same combined resource is too high and the available amount of some sub-resources is too low, thereby realizing the benefit balance of a resource provider, reducing the complaint amount of the resource provider and being beneficial to improving the user experience of the resource provider.

In order to more clearly and specifically explain the resource processing method provided by the embodiment of the present specification, in the embodiment of the present specification, the combined resource is taken as the combined fund, the resource acquisition request is the fund redemption request, the reference amount is the redemption reference amount, and the acquisition amount of the sub-resource is the redemption portion of the sub-fund, which are taken as examples, and the technical solution provided by the embodiment of the present specification is explained in detail.

Fig. 4 shows a schematic flowchart of a fund processing method provided in an embodiment of the present specification, including the following steps S400 to S406.

Step S400, receiving a fund redemption request initiated by a user through a client, wherein the fund redemption request comprises a target redemption portion to be redeemed by the user.

The user, after purchasing the combined fund, may initiate a fund redemption request to the server through the client to redeem the held combined fund. In this embodiment, a portfolio fund to be redeemed by the user is set as the target portfolio fund. For example, a targeted redemption share, i.e., the total share that the user needs to redeem, may be entered in the client for a targeted combined fund and a fund redemption request may be initiated to the server for the targeted combined fund by clicking a button that triggers the fund redemption request.

It will be appreciated that the process by which the user sells out and withdraws cash from the funds units held in hand at the published price is fund redemption, with partial redemption being redemption of a portion of the user's total share of the held target combined funds. For example, the total share of the user holding the target combination fund is 8000, and the target redemption share to be redeemed by the user is 3000. Wherein the total share held by the user is the sum of the shares held by the user for each of the sub-funds.

Step S402, determining a target combined fund according to the fund redemption request, wherein the target combined fund comprises a plurality of sub-funds, and each sub-fund corresponds to the available amount of the user.

In an embodiment of this specification, the server records a combination fund purchased by each user, and records an available amount of each sub-fund in the combination fund held by the user, that is, the server stores transaction information of the combination fund, and the transaction information of the combination fund includes a user identifier of purchasing the combination fund, an identifier of a sub-fund included in the combination fund, an available amount of each sub-fund in the combination fund held by the user, and correspondence information between the four.

In an alternative embodiment, each user holds a target combined fund, and the fund redemption request may also include the user identification. The implementation of the targeted combined fund determination from the fund redemption request may include: matching the user identification in the redemption request of the fund with the user identification information in the pre-stored transaction information, determining a target combined fund and an available amount for each of a plurality of sub-funds contained in the target combined fund. It is understood that the available quota of the sub-fund refers to the available quota of the user.

In another alternative embodiment, each user may hold a plurality of targeted combination funds, and the fund redemption request may further include a user identification and a targeted combination identification, where the targeted combination identification is an identification of the targeted combination fund to be redeemed by the user. The implementation of the targeted combined fund determination from the fund redemption request may include: and searching a combined fund corresponding to the user identifier and the target combined identifier in the fund redemption request in the pre-stored transaction information to be used as a target combined fund, and acquiring the available amount of each sub-fund in a plurality of sub-funds contained in the searched target combined fund.

It should be noted that, in an application scenario, the combined fund held by the user and the total share of the combined fund held by the user can be displayed at the client, and the user can click a preset all-redeeming button or input the required target redeeming share. The server receives the fund redemption request, and the target redemption share is consistent with the total share of the target combined fund held by the user, so that the available amount of each sub-fund in the target combined fund is fully redeemed without executing the following step S404. If the targeted redemption portion is less than the total portion of the targeted combined fund held by the user, the fund company needs to determine the redeemed funds for each of the sub-funds to be redeemed based on the redeemed portion and net value of the fund, respectively, since net value of the fund is different for different sub-funds in the targeted combined fund, and the redeemed funds will be different if the targeted fund to be redeemed is different or if the determined redeemed portion of each targeted sub-fund is different. Further, the target fund to be redeemed this time in the target combined fund and the redemption share of each target fund need to be split by performing the following step S404.

And S404, if the target redemption share is less than the total share of the target combined fund held by the user, determining more than one target sub-fund from the target combined fund based on the target redemption share, the available amount of each sub-fund and the redemption benchmark amount of the target combined fund, and splitting the target redemption share into the redemption shares of each target sub-fund.

Step S406, redeeming the target fund held by the user in accordance with the redemption share of each target fund.

Upon determining the redemption share of each target fund, the target fund held by the user may be redeemed in accordance with the redemption share of each target fund. For example, the redeemed funds corresponding to each target sub-fund may be determined according to the current net value and the redeemed share of the target sub-fund, and then the total amount of the redeemed funds of all target sub-funds in the target combination fund may be sent to the user account, or the redeemed funds of each target sub-fund in the target combination fund may be sent to the user account separately.

In an embodiment of the present specification, in order to facilitate the user to know the total share of the held combined fund and the available amount of each sub-fund in the combined fund, the total share of the held combined fund and the available amount of each sub-fund in the combined fund may be displayed at the client, so that the user can grasp the fund holding situation in time after logging in.

At this time, in one embodiment, after redeeming the target fund held by the user in terms of the redemption share of each target fund, it may further include: and feeding back the redeem share of each sub-fund in the target combined fund to the client, displaying the redeem share at the client, and updating the total share of the target combined fund displayed on the client and the available amount of each sub-fund in the combined fund, namely displaying the current available amount after redeeming for each target sub-fund.

In another embodiment, before redeeming the targeted sub-fund held by the user in the redemption share of each targeted sub-fund, the method may further comprise: feeding back the redemption share of each sub-fund in the target combined fund to the client side, and displaying the redemption share at the client side so as to facilitate the user to confirm whether to redeem according to the redemption share; and detecting whether the user triggers a preset confirmation button, if so, sending a confirmed redemption instruction to the server by the client, and when receiving the confirmed redemption instruction by the server, executing the step of redeeming the target fund held by the user according to the redemption share of each target fund.

It should be noted that if a part of the fund in the target combination fund is determined as the target fund and another part of the fund is not the target fund, the redemption share is zero for the part of the fund that is not the target fund, i.e. the part of the fund is not redeemed; if all the sub-funds in the target combined fund are determined as the target sub-funds, the corresponding target sub-funds are redeemed according to the determined redemption shares, respectively.

In the above step S404, the redemption benchmark limit of the target combination fund is used to represent the average redeemable limit of all the sub-funds in the target combination fund. The redemption benchmark value unit of the target portfolio fund is determined based on the available value units of each sub-fund in the target portfolio fund. Specifically, the rules for determining the redemption reference value amounts may be configured in advance based on actual experience, for example, a plurality of available value amount ranges adjacent to each other in sequence may be preset, a plurality of redemption reference value amounts may be configured based on experience, the available value amount of each sub-fund in the current target combination fund may be matched with the available value amount ranges to determine the available value amount range in which each sub-fund is located, and the redemption reference value amount of the current target combination fund may be determined based on the preset corresponding relationship between the number of sub-funds in each available value amount range and the redemption reference value amount. As another example, the average of the available value amounts of all the sub-funds in the target combination fund may be used as the redemption limit value amount of the current target combination fund.

Specifically, in the above step S404, the implementation process of determining more than one target fund from the target combined fund based on the target redemption shares, the available amount of each fund and the redemption benchmark amount of the target combined fund, and splitting the target redemption shares into redemption shares for each target fund may include: determining all the sub-funds of which the available amount is greater than the redemption benchmark amount in the target combined fund as current candidate sub-funds, and judging whether the accumulated sum of the benchmark difference values of the current candidate sub-funds is greater than the target redemption amount, wherein the benchmark difference value is the difference value between the available amount and the redemption benchmark amount of the current candidate sub-funds; if yes, determining more than one target fund from all current candidate funds, and splitting the target redemption shares into redemption shares of each target fund according to a first preset rule; if not, more than one target fund is determined from the target combined fund, and the target redemption shares are divided into redemption shares of each target fund according to a second preset rule. For a specific implementation process, reference may be made to a corresponding implementation process of step S204 in the foregoing embodiment, which is not described herein again.

As an alternative embodiment, the above implementation process of determining more than one target sub-fund from all the current candidate sub-funds and splitting the target redemption shares into redemption shares for each of the target sub-funds according to a first preset rule may include: obtaining a remaining average value of all current candidate sub-funds, wherein the remaining average value is a difference value between the accumulated sum of the benchmark difference values of the current candidate sub-resources and the target redeemed share, and is divided by the number of the current candidate sub-funds; judging whether the reference difference value of each current candidate sub fund is larger than or equal to the residual mean value; if so, each current candidate sub-fund is taken as a target sub-fund, and for each target sub-fund, the redemption share of the target sub-fund is obtained based on the difference between the benchmark difference and the remaining average value of the target sub-fund.

Further, if the benchmark difference value of the current candidate sub-fund is smaller than the residual mean value, all the sub-funds of which the benchmark difference value is larger than or equal to the residual mean value in the target combined fund are determined as the current candidate sub-fund again, the steps of obtaining the residual mean value of all the current candidate sub-funds and judging whether the benchmark difference value of each current candidate sub-fund is larger than or equal to the residual mean value are repeatedly executed until the benchmark difference value of each current candidate sub-fund is larger than or equal to the residual mean value.

As an alternative embodiment, the above implementation process of obtaining the redeemed share of the target fund based on the difference between the benchmark difference and the remaining average value of the target fund for each target fund may include: for each target sub fund, taking the difference between the reference difference value and the residual mean value of the target sub fund as a candidate quantity; obtaining a value of difference between the accumulated sum of the candidate amounts of the target fund and the target redemption share; and if the difference value does not meet the preset condition, determining a compensation amount according to the difference value, and determining the redemption share of each target fund according to the candidate amount and the compensation amount of each target fund.

It can be understood that, the difference value is a final difference of the redemption share, and the specific implementation process may refer to the difference value between the reference difference value and the remaining average value of the target sub-resource for each target sub-resource in the above embodiment, to obtain an implementation process of obtaining the target sub-resource, which is not described herein again.

As an alternative embodiment, the above implementation process of determining more than one target fund from the target combination fund and splitting the target redemption shares into redemption shares for each target fund according to a second preset rule may include: taking each current candidate fund as a first fund, and taking the benchmark difference value of each first fund as a first redemption share of the first fund; obtaining a remaining redemption portion, and determining a second sub-fund and a second redemption portion of the second sub-fund from the target combined fund based on the priority of each sub-fund in the target combined fund, the remaining redemption portion and the current available amount of each sub-fund, wherein the remaining redemption portion is a difference between the accumulated sum of the benchmark differences of the current candidate sub-fund and the target redemption portion; and combining the first sub-fund and the second sub-fund to obtain more than one target sub-fund, and obtaining the redemption share of each target sub-fund according to the first redemption share and the second redemption share.

For a specific implementation process, reference may be made to the implementation process in the foregoing embodiment, which splits the target acquisition amount into an acquisition amount for each target sub-resource according to a second preset rule, and details are not described here again.

As an alternative embodiment, the above-described implementation of determining the second sub-fund and the second redemption portion of the second sub-fund from the target combined fund based on the priority, the remaining redemption portion, and the currently available amount of each sub-fund in the target combined fund may comprise: sorting all the sub-funds in the target combined fund according to the sequence of the priority from high to low, and determining the sub-fund ranked at the first position as the current second sub-fund; determining whether the current available quota of the current second sub-fund is greater than or equal to the current remaining redemption quota; if so, taking the current remaining redemption share as a second redemption share of the current second sub-fund; if not, the current available amount of the current second sub-fund is used as the second redemption share of the current second sub-fund, the current remaining redemption share is updated, the next sub-fund is determined as the current second sub-fund, and the step of judging whether the available amount of the current second sub-fund is larger than the current remaining redemption share is repeatedly executed until the current available amount of the current second sub-fund is larger than or equal to the current remaining redemption share.

In this embodiment, the priority of each of the sub-funds in the target portfolio fund may be determined based on the profit of each of the sub-funds, with higher profit being lower in priority of the sub-fund and lower profit being higher in priority of the sub-fund and being preferentially redeemed.

The fund processing method provided by the embodiment of the specification can automatically determine the target fund to be redeemed from the target combined fund for the user and determine the redemption share of each target fund for the user without the user selecting the redemption share of each fund in the target combined fund by himself or herself and only inputting the target redemption share to be redeemed when the user needs to partially redeem the target combined fund, thereby being beneficial to reducing the operation of the user and improving the redemption efficiency of the user for the combined fund without the user considering which fund and how many shares in the redeemed combined fund. And, by configuring the redemption benchmark amount of the combined fund, the target sub-fund to be redeemed in the target combined fund is determined and the redemption share of each target sub-fund is determined, which is beneficial to improving the determination efficiency of the target sub-fund and the redemption share, reducing the time consumed for determining the target sub-fund and the redemption share and reducing the occupation of system resources.

In addition, compared with the mode of randomly splitting the target redemption share to each sub-fund in the target combined fund, the method is favorable for balancing the residual shares of all the sub-funds in the target combined fund after the user completes the partial redemption of the target combined resource, namely the held sub-fund shares can be substantially averaged, the situation that the user holds too high residual shares of some sub-funds and too low residual shares of some sub-funds in the same combined fund is avoided, the risk and income balance of the user holding the combined fund is guaranteed, the redemption requirement of the user is met, the complaint caused by the fact that the user is not full of the determined target sub-funds and the redemption shares is effectively avoided, the user experience is improved, and the resource occupation caused by the fact that the system processes the complaint of the part of the user is reduced.

In a second aspect, based on the same inventive concept as the resource processing method provided in the foregoing first aspect, an embodiment of the present specification further provides a resource processing apparatus. As shown in fig. 5, the resource processing apparatus 50 includes:

a receiving module 51, configured to receive a resource acquisition request initiated by a user through a client, where the resource acquisition request includes a target acquisition amount of the user;

a first determining module 52, configured to determine a target combined resource according to the resource obtaining request, where the target combined resource includes multiple sub-resources, and each sub-resource corresponds to an available amount;

a second determining module 53, configured to determine, if the target acquisition amount is smaller than the available amount of the target combined resource, more than one target sub-resource from the target combined resource based on the target acquisition amount, the available amount of each sub-resource, and the reference amount of the target combined resource, and split the target acquisition amount into an acquisition amount for each target sub-resource, where the available amount and the reference amount of the target combined resource are both determined according to the available amount of each sub-resource;

and an allocating module 54, configured to allocate the target sub-resource in the target combined resource to the user according to the obtained amount of each target sub-resource.

In an alternative embodiment, the second determining module 53 includes:

a determining unit 530, configured to determine, as current candidate sub-resources, sub-resources whose available amount in the target combined resource is greater than the reference amount, and determine whether an accumulated sum of reference difference values of the current candidate sub-resources is greater than or equal to the target acquisition amount, where the reference difference value is a difference value between the available amount of the current candidate sub-resources and the reference amount;

a first determining unit 531, configured to determine, if the determining unit 530 determines that the cumulative sum of the reference difference values of the current candidate sub-resources is greater than or equal to the target acquisition amount, the more than one target sub-resources from all the current candidate sub-resources, and split the target acquisition amount into an acquisition amount for each target sub-resource according to a first preset rule;

a second determining unit 532, configured to determine the at least one target sub-resource from the target combination resource if the determining unit 530 determines that the accumulated sum of the reference difference values of the current candidate sub-resources is smaller than the target acquisition amount, and split the target acquisition amount into an acquisition amount for each target sub-resource according to a second preset rule.

In an alternative embodiment, the first determining unit 531 includes:

an obtaining subunit 541, configured to obtain a remaining average value of all the current candidate sub-resources, where the remaining average value is a difference between the accumulated sum and the target obtaining amount divided by the number of the current candidate sub-resources;

a determining subunit 542, configured to determine whether the reference difference value of each current candidate sub-resource is greater than or equal to the remaining average value;

a first determining sub-unit 543, configured to, if the reference difference of each current candidate sub-resource is greater than or equal to the remaining average value, take each current candidate sub-resource as the target sub-resource, and obtain, for each target sub-resource, an obtaining amount of the target sub-resource based on a difference between the reference difference of the target sub-resource and the remaining average value.

In an optional embodiment, the first determining unit 531 further includes:

a second determining subunit 544, configured to determine, if the reference difference of the current candidate sub-resources is smaller than the remaining average value, all the sub-resources whose reference difference is greater than or equal to the remaining average value in the target combined resource are determined as current candidate sub-resources again, and repeatedly perform the step of obtaining the remaining average value of all the current candidate sub-resources and determining whether the reference difference of each current candidate sub-resource is greater than or equal to the remaining average value until the reference difference of each current candidate sub-resource is greater than or equal to the remaining average value.

In an optional embodiment, the first determining unit 531 further includes:

a compensation subunit, configured to, for each target sub-resource, use a difference between a reference difference of the target sub-resource and the remaining average value as a candidate amount; acquiring a difference value between the accumulated sum of the candidate quantities of the target sub-resources and the target acquisition quantity; and if the difference value does not meet the preset condition, determining a compensation amount according to the difference value, and determining the acquisition amount of each target sub-resource according to the candidate amount of each target sub-resource and the compensation amount.

In an alternative embodiment, the second determining unit 532 includes:

a third determining subunit 551, configured to use each current candidate sub-resource as a first sub-resource, and use the reference difference value of each first sub-resource as a first acquisition amount of the first sub-resource;

a fourth determining subunit 552, configured to obtain a remaining acquisition amount, and determine a second sub-resource and a second acquisition amount of the second sub-resource from the target combined resource based on the priority of each sub-resource in the target combined resource, the remaining acquisition amount, and the current available amount of each sub-resource, where the remaining acquisition amount is a difference between the accumulated sum of the reference differences of the current candidate sub-resources and the target acquisition amount;

a merging subunit 553, configured to merge the first sub-resource and the second sub-resource to obtain the more than one target sub-resource, and obtain an acquisition amount of each target sub-resource according to the first acquisition amount and the second acquisition amount.

It should be noted that, in the resource processing apparatus 50 provided in the embodiment of the present specification, specific ways in which the respective modules perform operations have been described in detail in the method embodiment provided in the foregoing first aspect, and specific implementation processes may refer to the method embodiment provided in the foregoing first aspect, and will not be described in detail here.

In a third aspect, based on the same inventive concept as the resource processing method provided in the foregoing embodiments, an embodiment of this specification further provides an electronic device, as shown in fig. 6, including a memory 604, one or more processors 602, and a computer program stored on the memory 604 and executable on the processor 602, where the processor 602 executes the program to implement the steps of any embodiment of the resource processing method provided in the foregoing first aspect.

Where in fig. 6 a bus architecture (represented by bus 600) is shown, bus 600 may include any number of interconnected buses and bridges, and bus 600 links together various circuits including one or more processors, represented by processor 602, and memory, represented by memory 604. The bus 600 may also link together various other circuits such as peripherals, voltage regulators, power management circuits, and the like, which are well known in the art, and therefore, will not be described any further herein. A bus interface 605 provides an interface between the bus 600 and the receiver 601 and transmitter 603. The receiver 601 and the transmitter 603 may be the same element, i.e., a transceiver, providing a means for communicating with various other apparatus over a transmission medium. The processor 602 is responsible for managing the bus 600 and general processing, and the memory 604 may be used for storing data used by the processor 602 in performing operations.

It is to be understood that the structure shown in fig. 6 is merely an illustration, and that the electronic device provided by the embodiments of the present description may further include more or less components than those shown in fig. 6, or have a different configuration than that shown in fig. 6. The components shown in fig. 6 may be implemented in hardware, software, or a combination thereof.

In a fourth aspect, based on the same inventive concept as the resource processing method provided in the foregoing embodiments, the present specification embodiment further provides a computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements the steps of any of the embodiments of the resource processing method provided in the foregoing first aspect.

The foregoing description has been directed to specific embodiments of this disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

The description has been presented with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the description. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present specification have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all changes and modifications that fall within the scope of the specification.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present specification without departing from the spirit and scope of the specification. Thus, if such modifications and variations of the present specification fall within the scope of the claims of the present specification and their equivalents, the specification is intended to include such modifications and variations.

Claims (14)

1. A method of resource processing, comprising:

receiving a resource acquisition request initiated by a user through a client, wherein the resource acquisition request comprises a target acquisition amount of the user;

determining a target combined resource according to the resource acquisition request, wherein the target combined resource comprises a plurality of sub-resources, and each sub-resource corresponds to an available amount;

if the target acquisition amount is smaller than the available amount of the target combined resource, determining more than one target sub-resource from the target combined resource based on the target acquisition amount, the available amount of each sub-resource and the reference amount of the target combined resource, and splitting the target acquisition amount into the acquisition amount of each target sub-resource, wherein the available amount and the reference amount of the target combined resource are both determined according to the available amount of each sub-resource;

and distributing the target sub-resource in the target combined resource to the user according to the acquisition quantity of each target sub-resource.

2. The method of claim 1, wherein the determining more than one target sub-resource from the target combined resource based on the target acquisition amount, the available amount of each sub-resource, and the reference amount of the target combined resource, and splitting the target acquisition amount into acquisition amounts for each of the target sub-resources, comprises:

determining sub-resources with the available quantity larger than the reference quantity in the target combined resource as current candidate sub-resources, and judging whether the accumulated sum of reference difference values of the current candidate sub-resources is larger than or equal to the target acquisition quantity, wherein the reference difference value is the difference value between the available quantity of the current candidate sub-resources and the reference quantity;

if yes, determining more than one target sub-resource from all the current candidate sub-resources, and dividing the target acquisition quantity into the acquisition quantity of each target sub-resource according to a first preset rule;

if not, determining the more than one target sub-resource from the target combined resource, and dividing the target acquisition amount into the acquisition amount of each target sub-resource according to a second preset rule.

3. The method according to claim 2, wherein the determining the more than one target sub-resource from all the current candidate sub-resources and splitting the target acquisition amount into the acquisition amount for each target sub-resource according to a first preset rule comprises:

obtaining a remaining average value of all the current candidate sub-resources, wherein the remaining average value is a difference value between the accumulated sum and the target acquisition amount divided by the number of the current candidate sub-resources;

judging whether the reference difference value of each current candidate sub-resource is greater than or equal to the residual mean value;

and if so, taking each current candidate sub-resource as the target sub-resource, and obtaining the acquisition amount of the target sub-resource based on the difference between the reference difference of the target sub-resource and the residual average value for each target sub-resource.

4. The method according to claim 3, wherein the determining the more than one target sub-resource from all the current candidate sub-resources and splitting the target acquisition amount into the acquisition amount for each target sub-resource according to a first preset rule further comprises:

and if the reference difference value of the current candidate sub-resources is smaller than the residual mean value, determining all the sub-resources with the reference difference value larger than or equal to the residual mean value in the target combined resource as the current candidate sub-resources again, and repeatedly executing the steps of obtaining the residual mean value of all the current candidate sub-resources and judging whether the reference difference value of each current candidate sub-resource is larger than or equal to the residual mean value or not until the reference difference value of each current candidate sub-resource is larger than or equal to the residual mean value.

5. The method according to claim 3, wherein for each target sub-resource, obtaining the acquisition amount of the target sub-resource based on the difference between the reference difference of the target sub-resource and the remaining average value includes:

for each target sub-resource, taking the difference between the reference difference of the target sub-resource and the residual mean value as a candidate quantity;

acquiring a difference value between the accumulated sum of the candidate quantities of the target sub-resources and the target acquisition quantity;

and if the difference value does not meet the preset condition, determining a compensation amount according to the difference value, and determining the acquisition amount of each target sub-resource according to the candidate amount of each target sub-resource and the compensation amount.

6. The method according to claim 2, wherein the determining the more than one target sub-resource from the target combined resource and splitting the target acquisition amount into the acquisition amount for each target sub-resource according to a second preset rule comprises:

taking each current candidate sub-resource as a first sub-resource, and taking the reference difference value of each first sub-resource as a first acquisition quantity of the first sub-resource;

obtaining a remaining acquisition amount, and determining a second sub-resource and a second acquisition amount of the second sub-resource from the target combined resource based on the priority of each sub-resource in the target combined resource, the remaining acquisition amount and the current available amount of each sub-resource, wherein the remaining acquisition amount is a difference value between the accumulated sum of the reference difference values of the current candidate sub-resources and the target acquisition amount;

and combining the first sub-resource and the second sub-resource to obtain more than one target sub-resource, and obtaining the acquisition quantity of each target sub-resource according to the first acquisition quantity and the second acquisition quantity.

7. A resource processing apparatus comprising:

the system comprises a receiving module, a resource obtaining module and a resource obtaining module, wherein the receiving module is used for receiving a resource obtaining request initiated by a user through a client, and the resource obtaining request comprises a target obtaining amount of the user;

a first determining module, configured to determine a target combined resource according to the resource obtaining request, where the target combined resource includes multiple sub-resources, and each sub-resource corresponds to an available amount;

a second determining module, configured to determine, if the target acquisition amount is smaller than the available amount of the target combined resource, more than one target sub-resource from the target combined resource based on the target acquisition amount, the available amount of each sub-resource, and the reference amount of the target combined resource, and split the target acquisition amount into an acquisition amount for each target sub-resource, where the available amount and the reference amount of the target combined resource are both determined according to the available amount of each sub-resource;

and the allocation module is used for allocating the target sub-resource in the target combined resource to the user according to the acquisition quantity of each target sub-resource.

8. The apparatus of claim 7, the second determination module comprising:

a determining unit, configured to determine, as current candidate sub-resources, sub-resources whose available amount in the target combined resource is greater than the reference amount, and determine whether an accumulated sum of reference difference values of the current candidate sub-resources is greater than or equal to the target acquisition amount, where the reference difference value is a difference value between the available amount of the current candidate sub-resources and the reference amount;

a first determining unit, configured to determine the at least one target sub-resource from all the current candidate sub-resources if the determining unit determines that the cumulative sum of the reference differences of the current candidate sub-resources is greater than or equal to the target acquisition amount, and split the target acquisition amount into an acquisition amount for each target sub-resource according to a first preset rule;

a second determining unit, configured to determine the at least one target sub-resource from the target combination resource if the determining unit determines that the cumulative sum of the reference difference values of the current candidate sub-resources is smaller than the target acquisition amount, and split the target acquisition amount into an acquisition amount for each target sub-resource according to a second preset rule.

9. The apparatus of claim 8, the first determination unit comprising:

an obtaining subunit, configured to obtain a remaining average value of all the current candidate sub-resources, where the remaining average value is a difference between the accumulated sum and the target obtaining amount divided by the number of the current candidate sub-resources;

a judging subunit, configured to judge whether the reference difference value of each current candidate sub-resource is greater than or equal to the remaining average value;

a first determining subunit, configured to, if the reference difference value of each current candidate sub-resource is greater than or equal to the remaining average value, take each current candidate sub-resource as the target sub-resource, and obtain, for each target sub-resource, an acquisition amount of the target sub-resource based on a difference value between the reference difference value of the target sub-resource and the remaining average value.

10. The apparatus of claim 9, the first determination unit further comprising:

a second determining subunit, configured to determine, if the reference difference of the current candidate sub-resources is smaller than the remaining average value, all the sub-resources whose reference difference is greater than or equal to the remaining average value in the target combined resource as the current candidate sub-resources again, and repeatedly perform the step of obtaining the remaining average value of all the current candidate sub-resources and determining whether the reference difference of each current candidate sub-resource is greater than or equal to the remaining average value until the reference difference of each current candidate sub-resource is greater than or equal to the remaining average value.

11. The apparatus of claim 9, the first determination unit further comprising:

a compensation subunit, configured to, for each target sub-resource, use a difference between a reference difference of the target sub-resource and the remaining average value as a candidate amount; acquiring a difference value between the accumulated sum of the candidate quantities of the target sub-resources and the target acquisition quantity; and if the difference value does not meet the preset condition, determining a compensation amount according to the difference value, and determining the acquisition amount of each target sub-resource according to the candidate amount of each target sub-resource and the compensation amount.

12. The apparatus of claim 8, the second determination unit comprising:

a third determining subunit, configured to use each current candidate sub-resource as a first sub-resource, and use a reference difference value of each first sub-resource as a first acquisition amount of the first sub-resource;

a fourth determining subunit, configured to obtain a remaining acquisition amount, and determine a second sub-resource and a second acquisition amount of the second sub-resource from the target combined resource based on the priority of each sub-resource in the target combined resource, the remaining acquisition amount, and the current available amount of each sub-resource, where the remaining acquisition amount is a difference between an accumulated sum of reference differences of the current candidate sub-resources and the target acquisition amount;

and a merging subunit, configured to merge the first sub-resource and the second sub-resource to obtain the more than one target sub-resource, and obtain an acquisition amount of each target sub-resource according to the first acquisition amount and the second acquisition amount.

13. An electronic device, comprising: memory, processor and computer program stored on the memory and executable on the processor, the processor implementing the steps of the method of any one of claims 1-6 when executing the program.

14. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.

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