CN116991466A - E-commerce-based client software configuration method, device and server - Google Patents

Abstract

The embodiment of the application is suitable for the technical fields of electronic commerce, software development and information, and provides a client software configuration method, device and server based on electronic commerce, wherein the method comprises the following steps: determining configuration frequency of a plurality of functional modules to be configured; dividing a plurality of function modules into a plurality of function groups according to the configuration frequency, wherein the configuration frequency of each function module contained in each function group is the same; generating a plurality of data chains for software configuration based on a plurality of function groups and the function modules contained in each function group, wherein each function group correspondingly generates one data chain, and the configuration time of each data chain is determined according to the configuration frequency of the corresponding function group; and configuring the electronic commerce client according to the configuration time of each data chain. By adopting the method, the client software can be configured according to the actual demands of the clients.

Description

E-commerce-based client software configuration method, device and server

Technical Field

The embodiment of the application belongs to the technical fields of electronic commerce, software development and information, and particularly relates to a client software configuration method, device and server based on electronic commerce.

Background

Electronic commerce is a new business operation model that differs from traditional face-to-face transactions. Electronic commerce refers to a business operation mode for realizing online shopping of consumers, online transaction and online electronic payment among merchants, various business activities, transaction activities, financial activities and related comprehensive service activities by conducting various business activities by customers and sellers without going through the way of application of a client/server in a global wide-ranging business trade activity under an open network environment of the Internet.

In e-commerce, in order to maintain transactions with different customers, a vendor may provide unified client software to multiple customers, through which various activities between the vendor and the customers may be performed. For example, suppliers and customers may use client software to conduct real-time transactions, communications; the provider may also use the client software to periodically or aperiodically communicate relevant transaction information to the customer. However, there are many clients of the same vendor, and each client has different requirements for use of the client software. Especially when related to transnational transactions, the needs of different customers are very different. If the client software used by each client is the same, it is obviously difficult to meet the different needs of different clients.

Disclosure of Invention

In view of the above, the embodiments of the present application provide a method, an apparatus and a server for configuring client software based on electronic commerce, which are used for configuring the client software according to the actual needs of the client.

A first aspect of an embodiment of the present application provides a method for configuring client software based on electronic commerce, including:

determining configuration frequency of a plurality of functional modules to be configured;

dividing a plurality of function modules into a plurality of function groups according to the configuration frequency, wherein the configuration frequency of each function module contained in each function group is the same;

generating a plurality of data chains for software configuration based on a plurality of function groups and the function modules contained in each function group, wherein each function group correspondingly generates one data chain, and the configuration time of each data chain is determined according to the configuration frequency of the corresponding function group;

and configuring the electronic commerce client according to the configuration time of each data chain.

A second aspect of an embodiment of the present application provides an electronic commerce-based client software configuration apparatus, including:

A determining module, configured to determine a plurality of functional modules to be configured and a configuration frequency of each functional module;

the grouping module is used for dividing the plurality of functional modules into a plurality of functional groups according to the configuration frequency, and the configuration frequency of each functional module contained in each functional group is the same;

the generating module is used for generating a plurality of data chains for software configuration based on a plurality of function groups and the function modules contained in each function group, wherein each function group correspondingly generates one data chain, and the configuration time of each data chain is determined according to the configuration frequency of the corresponding function group;

and the configuration module is used for configuring the e-commerce client according to the configuration time of each data link.

A third aspect of an embodiment of the present application provides a server, including a memory, a processor, and a computer program stored in the memory and executable on the processor, the processor implementing the e-commerce based client software configuration method as described in the first aspect above when executing the computer program.

A fourth aspect of the embodiments of the present application provides a computer readable storage medium storing a computer program which, when executed by a processor, implements the e-commerce based client software configuration method as described in the first aspect above.

A fifth aspect of an embodiment of the present application provides a computer program product, which when run on a computer causes the computer to perform the method for configuring e-commerce based client software described in the first aspect.

Compared with the prior art, the embodiment of the application has the following beneficial effects:

by applying the method provided by the embodiment of the application, in the electronic commerce activity, the server of the provider side can firstly determine the function modules expected to be used in the electronic commerce client side by the client and the use frequency of each function module, so that a plurality of function modules to be configured in the electronic commerce client side and the configuration frequency of each function module can be determined. On this basis, the server may divide the plurality of function modules into a plurality of function groups according to the configuration frequency, so that the configuration frequency of each function module included in each function group is the same. In this way, the server can generate a plurality of data chains for software configuration in accordance with a plurality of function groups and respective function modules included in each function group. Each function group correspondingly generates a data chain, and the configuration time of each data chain can be determined according to the configuration frequency of the corresponding function group. When the corresponding configuration time is reached, the server can send the data chain to the electronic commerce client software, and the electronic commerce client software automatically configures the page and the function module according to the received configuration information in the data chain. By applying the method, the server of the provider can pertinently underground the configuration information of the electronic commerce client according to the actual demands of the client, and the client software can automatically configure the electronic commerce client, so that the configured client software can be matched with the actual demands of the client, different clients can see different pages in different time, different functional modules are used, the pertinence of the electronic commerce client configuration is improved, and the use experience of the client to the electronic commerce client is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following will briefly introduce the drawings that are required to be used in the embodiments or the description of the prior art. It is evident that the drawings in the following description are only some embodiments of the present application and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of a client software configuration method based on electronic commerce according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an implementation of S101 in a client software configuration method based on electronic commerce according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an implementation of S103 in an e-commerce-based client software configuration method according to an embodiment of the present application;

FIG. 4 is a schematic diagram of an implementation of S104 in a client software configuration method based on electronic commerce according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a client software configuration device based on electronic commerce according to an embodiment of the present application;

fig. 6 is a schematic diagram of a server according to an embodiment of the present application.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth such as the particular system architecture, techniques, etc., in order to provide a thorough understanding of the embodiments of the present application. It will be apparent, however, to one skilled in the art that the present application may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present application with unnecessary detail.

The technical scheme of the application is described below through specific examples.

Referring to fig. 1, a schematic diagram of a client software configuration method based on electronic commerce according to an embodiment of the present application may specifically include the following steps:

s101, determining a plurality of functional modules to be configured and the configuration frequency of each functional module.

It should be noted that, the method may be applied to a server, that is, the execution body of the embodiment of the present application is a server, and the server may be a server at a provider end. The server pertinently configures client software for each client according to the actual demands of the client by executing each step in the method. In this way, each client may be able to match the actual needs of the client with the pages and content presented by the client software when using the client software. And the configured different client software does not influence the normal electronic commerce transaction between the client and the provider.

In the embodiment of the present application, the plurality of functional modules to be configured may refer to different functional modules in the client software, and different functional modules may implement different functions. For example, some of the functional modules may be used for customer to provider communication in real time, some of the functional modules may be used for customer presentation of the number of items currently purchased or the data of items currently actually shipped by the provider, and some of the functional modules may be used for tracking the logistics progress of the items.

In one possible implementation, different functional modules may have different configuration frequencies, which may be used to represent how frequently a client is in use of the client software for each functional module.

In the embodiment of the present application, the configuration frequency may be based on a day, that is, for each functional module, the corresponding configuration frequency may indicate how much day the client needs to use the functional module. For example, daily, every 7 days, every 15 days, etc.

In one possible implementation manner of the embodiment of the present application, as shown in fig. 2, determining a plurality of functional modules to be configured in S101 and a configuration frequency of each functional module may specifically include the following steps S1011-S1014:

S1011, acquiring an electronic commerce protocol text.

S1012, carrying out semantic recognition on the electronic commerce protocol text to obtain various demand information of a protocol party and the demand frequency of each demand information.

In embodiments of the present application, the e-commerce agreement text may be a contract, agreement, etc. signed by the vendor with the customer in terms of a particular transaction. Typically, customer specific needs may be recorded in the e-commerce protocol text. For example, the agreement text may state that the supplier should feed back shipping data to the customer every half month. The above requirement indicates that the customer's demand for shipping data is once every half month. By converting to date, the demand frequency of the demand is once every 15 days.

The server can acquire the text of the e-commerce protocol, and acquire various demand information of the protocol party and the demand frequency of each demand information in a semantic recognition mode, wherein the protocol party can be a client signing the protocol.

In one possible implementation, after the provider signs the agreement with the customer, the provider may upload the agreement to a server, which may obtain the agreement text. Alternatively, the provider and customer may sign the agreement directly in the form of an electronic agreement, which may be issued by a server.

After the server obtains the e-commerce agreement text, terms in the agreement text may be identified. In general, for a customer's actual needs, it may be derived from terms corresponding to the needs of the first party (i.e., the customer party) and/or the obligations of the second party (i.e., the supplier party) in the agreement text. Therefore, the server can firstly determine the terms corresponding to the requirements or obligations of the two parties, and then specifically identify the terms to obtain the actual requirements of the clients. In identifying terms, the server may be implemented in conjunction with a machine learning model that may be obtained by learning training a large number of sample terms.

In another possible implementation, the agreement text may also be text provided by the vendor with formatting terms. In such protocol text, the text may be written in advance for content related to the e-commerce client configuration. For example, contents corresponding to the specific functional modules of the electronic commerce client, such as the above-described shipping data presentation, are written in the text. After the two parties agree on the content, specific demand frequency is written in the text. For example, shipping data is fed back to the customer by the supplier every 15 days. After signing the protocol text, the server can obtain corresponding customer actual demand information and demand frequency by directly positioning to the corresponding position of the protocol text.

S1013, determining a plurality of functional modules to be configured in the e-commerce client according to the plurality of requirement information.

S1014, determining the configuration frequency of each functional module to be configured according to the requirement frequency of each piece of requirement information.

After determining the actual demand information of the client, the server can determine which functional modules in the e-commerce client software can be used for realizing the demands, and further determine a plurality of functional modules to be configured in the e-commerce client.

In one possible implementation, the server may store a correspondence between each functional module and a part of the clauses in the agreement text, where the correspondence may be used to indicate which functional module may fulfill the customer requirements mentioned by the corresponding clause in the agreement text.

Illustratively, assuming that there is a term in the e-commerce agreement text, the term being numbered 8.1, the function module numbered 3 may be pre-stored in the server to implement the function corresponding to the term. In this way, the server can quickly determine the functional module to be configured from the protocol text.

The above approach may be used for agreement text with format terms and terms numbering and content unchanged. For the case where the clause number changes, the server may determine the functional module to be configured in another way.

The correspondence between each function module stored in the server and a part of the clauses in the agreement text may be a correspondence between the number of the function module and a keyword of a function implemented by the function module. For example, the functional module numbered 3 corresponds to the keyword "shipping data feedback". When the semantic recognition is performed on the agreement text, a plurality of keywords can be extracted from specific clause content, the keywords corresponding to each clause content are compared with the keywords stored in the server in similarity, and the clause corresponding to the highest similarity value is used as the clause corresponding to the keyword of 'shipping data feedback', so that the relation between the clause and the function module with the number of 3 is established, and the function module with the number of 3 is determined to be the function module to be configured corresponding to the clause.

In another example, the keyword "shipping data feedback" may be associated with a plurality of sample terms, and upon semantic recognition, the server may compare the terms to be recognized with the plurality of sample terms, calculate the similarity between each other, and if the similarity between the terms to be recognized and each sample term associated with the keyword "shipping data feedback" is greater than a certain threshold, identify the terms to be recognized as corresponding terms to the requirement "shipping data feedback".

After the actual demand information of the customer and the corresponding functional modules are determined, the configuration frequency of each functional module can be determined according to the agreement clause recording the demand information. For example, in the above example, if the customer wishes the supplier to feed back shipping data for half a month to it at a frequency of half a month, this indicates that the customer's demand for shipping data is half a month. Thus, the configuration frequency of the functional modules that can be used to present shipping data can be considered once a half month.

In this way, the server can determine each function module in the e-commerce client used by the client and the configuration frequency of each function module according to the parsed information.

S102, dividing the plurality of function modules into a plurality of function groups according to the configuration frequency, wherein the configuration frequency of each function module contained in each function group is the same.

In the embodiment of the application, the plurality of functional modules can be divided into a plurality of functional groups according to different configuration frequencies. Specifically, the function modules may be divided according to the same configuration frequency, and the function modules divided into each function group may have the same configuration frequency.

For example, the functional modules that need to be displayed every day may be divided into the same functional group, the functional modules that need to be displayed once every half month (i.e., 15 days) may be divided into the same functional group, and the functional modules that need to be displayed once every month (i.e., 30 days) may be divided into the same functional group.

And S103, generating a plurality of data chains for software configuration based on a plurality of function groups and the function modules contained in each function group, wherein each function group correspondingly generates one data chain, and the configuration time of each data chain is determined according to the configuration frequency of the corresponding function group.

In the embodiment of the application, the data link can be information for the electronic commerce client software to perform function module configuration. After the server generates the data chain, the data chain is sent to the client software according to the corresponding time, and the client software can be instructed to configure each functional module according to the configuration information stored in the data chain.

In particular, a plurality of data chains may be generated according to each of the functional groups and the functional modules contained therein, each of which may be used to store configuration information of the respective functional modules in each of the functional groups. Wherein the configuration information may include the configuration frequency of each functional module

In one possible implementation manner of the embodiment of the present application, as shown in fig. 3, generating a plurality of data chains for software configuration in S103 based on a plurality of function groups and respective function modules included in each function group may specifically include the following steps S1031-S1032:

s1031, generating a corresponding blank data chain for each functional group, wherein the blank data chain comprises a plurality of storage units.

S1032, respectively writing configuration information of each functional module contained in each functional group into each storage unit in the corresponding blank data chain to obtain a plurality of data chains for software configuration.

In the embodiment of the application, one data chain can be generated for each functional group, the data chain can be a blank data chain, and each blank data chain can comprise a plurality of blank storage units.

The server may then write configuration information for the function modules included in each of the function groups to the respective storage units, resulting in a data chain that may be used for client software configuration.

In one possible implementation of the embodiment of the present application, the number of storage units in each data chain may be the same as the number of functional modules actually configurable in the client software. Illustratively, initially, each data chain may include 10 blank memory cells.

Then, the configuration number of each functional module and the unit number of each storage unit in the blank data chain can be determined, and the configuration information of all the functional modules in each functional group is written into the corresponding storage units of the corresponding blank data chain in sequence according to the corresponding relation of the configuration number and the unit number, so as to obtain a plurality of data chains.

In one possible implementation, the configuration number of the functional module and the unit number of the storage unit may be the same. In this way, configuration information of a functional module having a certain configuration number can be written in a memory cell having the same number (cell number).

The configuration information of the function modules not belonging to the current function group is replaced by preset characters in corresponding storage units in a blank data chain of the current function group. The preset character may be NULL, for example.

Illustratively, each data chain may include 10 blank memory cells. The function group 1 comprises 6 function modules, the configuration frequency of each function module is once a day, the function group 2 comprises 3 function modules, the configuration frequency of each function module is once a week, the function group 3 comprises 1 function module, and the configuration frequency of the function module is once a month. Then, the numbers of the above-described respective functional modules may be first determined, assuming that the number information is as follows:

Functional group 1: number 1, number 2, number 4, number 8, number 9, number 10;

functional group 2: number 3, number 6, number 7;

functional group 3: number 4.

Thus, the data chains generated corresponding to the respective functional groups can be expressed as:

data chain 1 (functional group 1):

storage unit 1 (number 1 function module configuration information)

Storage unit 2 (number 2 function module configuration information)

Memory cell 3 (NULL)

Storage unit 4 (number 4 function module configuration information)

Memory cell 5 (NULL)

Memory cell 6 (NULL)

Memory cell 7 (NULL)

Storage unit 8 (number 8 functional module configuration information)

Storage unit 9 (number 9 function module configuration information)

Storage unit 10 (number 10 functional module configuration information)

Data chain 2 (functional group 2):

memory cell 1 (NULL)

Memory cell 2 (NULL)

Storage unit 3 (number 3 function module configuration information)

Memory cell 4 (NULL)

Memory cell 5 (NULL)

Storage unit 6 (number 6 functional module configuration information)

Storage unit 7 (number 7 function module configuration information)

Memory cell 8 (NULL)

Memory cell 9 (NULL)

Memory cell 10 (NULL)

Data chain 3 (functional group 3):

memory cell 1 (NULL)

Memory cell 2 (NULL)

Memory cell 3 (NULL)

Storage unit 4 (number 4 function module configuration information)

Memory cell 5 (NULL)

Memory cell 6 (NULL)

Memory cell 7 (NULL)

Memory cell 8 (NULL)

Memory cell 9 (NULL)

Memory cell 10 (NULL)

S104, configuring the e-commerce client according to the configuration time of each data chain.

The configuration time of each data chain can be determined by the configuration frequency of each functional module in the functional group corresponding to the data chain. For example, for the data chain 1 corresponding to the function group 1 whose configuration frequency is once a day in the above example, the configuration time may be daily. In this way, after the server sends the corresponding data chain to the client software, the client software can configure each functional module according to the configuration information in the data chain.

In a possible implementation manner of the embodiment of the present application, in S104, configuring the e-commerce client according to the configuration time of each data chain may specifically include S1041-S1042:

s1041, configuring a countdown timer for each data chain, wherein the maximum timing time of the countdown timer is determined by the configuration time of the data chain;

and S1042, when the countdown timer returns to zero, sending the data chain to the electronic commerce client to instruct the electronic commerce client to perform page configuration according to the configuration information in the data chain.

In the embodiment of the application, the server can configure a countdown timer for each data chain, and the maximum timing time of each countdown timer can be determined by the configuration time of the data chain. When the countdown timer of each data chain is zero, the server can send the data chain to the electronic commerce client, and the electronic commerce client can perform page configuration according to the received data chain.

For example, when the countdown timer corresponding to the data chain 1 returns to zero, the server may send the data chain 1 to the e-commerce client, where the data chain 1 is a data chain corresponding to the function group 1, and configuration information of 6 function modules, such as number 1, number 2, number 4, number 8, number 9, number 10, and the like, is stored in the data chain 1. After receiving the data chain 1, the e-commerce client can perform page configuration of the client according to the configuration information stored in the e-commerce client. In this way, the client page presented to the client may include 6 functional modules, such as number 1, number 2, number 4, number 8, number 9, number 10, etc.

In another possible implementation manner of the embodiment of the present application, when the countdown timer counts to zero, it may be determined whether the data chain that has been transmitted before is the same as the data chain that is currently to be transmitted. If the data chain which is transmitted at the previous time is the same as the data chain which is to be transmitted at present, resetting the countdown timer corresponding to the data chain which is to be transmitted at present according to the maximum timing time of the countdown timer; if the data link which is transmitted at the previous time is different from the data link which is currently to be transmitted, the data link which is currently to be transmitted can be transmitted to the electronic commerce client so as to instruct the electronic commerce client to carry out page configuration again according to the configuration information in the data link.

Specifically, for each function module whose configuration frequency is once daily, a data chain storing configuration information of these function modules will also be sent to the e-commerce client on a once-daily basis. Thus, when the countdown timer of the data chain is zeroed, the server should send the data chain to the client software. If the client software reconfigures the functional modules according to the received data chain, the functional modules presented on the client page will not change. Illustratively, if the countdown timer of the data chain 1 storing configuration information of 6 functional modules such as number 1, number 2, number 4, number 8, number 9, number 10 is zeroed, it indicates that the server should send the data chain 1 to the client software. However, if the data link sent by the server before the day is the data link 1, the data link to be sent is not changed, and the corresponding configured client page is not changed. Therefore, in this case, if the server determines that the data chain that has been transmitted previously is the same as the data chain to be transmitted currently, for example, the data chain that has been transmitted previously is the data chain 1, and the data chain to be transmitted currently is the data chain 1, the server may not retransmit the data chain 1 any more, and reduce information transmission. At this time, in order to ensure that the data link is not transmitted without affecting the subsequent processing, the server may reset the countdown timer of the data link according to the maximum timing time of the countdown timer of the data link currently to be transmitted. If the server determines that the data link that has been sent before is different from the data link that is currently to be sent, for example, the data link that has been sent before is the data link 1 and the data link that is currently to be sent is the data link 2, the server may send the data link that is currently to be sent, that is, the data link 2, to the e-commerce client, so as to instruct the e-commerce client to reconfigure the page according to the configuration information in the data link 2. At the same time, the server should also reset the countdown timer of the data link 2 to the maximum timing time.

In embodiments of the present application, each data chain may also have different priorities and client residence times. The priority of the data chain is inversely proportional to the configuration frequency of the functional group corresponding to the data chain. For example, data chains with higher frequency are configured with relatively lower priority; the lower frequency data chains are configured and the priority is relatively higher. Illustratively, the priority of the data chains configured once daily is lower than the priority of the data chains configured once weekly. The client residence time of a data chain may be used to represent the maintenance time of the page architecture corresponding to the data chain in an e-commerce client. For example, the client residence time of the data chain may be 24 hours, which may represent that the page architecture formed by the data chain after configuration may be maintained in the client for 24 hours.

In one possible implementation manner of the embodiment of the present application, when any countdown timer counts to zero, the priority of the configured and to-be-configured data chains and the client residence time of the configured data chains may be determined, if the priority of the to-be-configured data chains is lower than the priority of the configured data chains and is currently within the client residence time of the configured data chains, the server may not need to send the to-be-configured data chains to the client software, and the server may reset the countdown timer of the to-be-configured data chains according to the maximum count time of the countdown timer.

For example, if the priority of data chain 1 is lower than the priority of data chain 2, when the countdown timer of data chain 1 is zero, the server may determine that the configured data chain in the client software is data chain 2, and if the configured data chain is still in the residence time of data chain 2 at this time, the server may not send data chain 1 to the client software, but maintain the configuration of data chain 2 in the client software.

In one possible implementation, when the client residence time of a certain data chain ends, for example, the time that the data chain 2 is maintained in the client software ends, the server may maintain the existing configuration if the client software does not receive a new data chain sent by the server.

In one possible implementation of the embodiment of the present application, multiple data chains in the server may also be sent to the client software at the same time. When the server needs to send a plurality of data chains to the client software at one time, the server can send each data chain to the client software respectively, or can combine the plurality of data chains into one data chain, and then send the combined data chain to the client software.

Illustratively, in the foregoing example, the data chain 1 is a data chain storing configuration information of 6 functional modules of number 1, number 2, number 4, number 8, number 9, number 10, etc., the configuration frequency of which is once daily; the data chain 2 is a data chain storing configuration information of 3 functional modules such as number 3, number 6, number 7, etc., and the configuration frequency is once per week. Therefore, when the data chain 2 needs to be configured, 6 functional modules such as number 1, number 2, number 4, number 8, number 9, number 10, etc. whose configuration frequency is once daily should also be configured in the client software. At this point, the server may combine data chain 1 with data chain 2. That is, when the data chain that needs to be sent to the client software includes multiple data chains, i.e., the countdown timers of the multiple data chains return to zero at the same time, the server may combine the multiple data chains.

Illustratively, the server may form the data chain 1 and the data chain 2 into a new data chain, where the new data chain may be expressed as:

data chain (functional group 1+ functional group 2)

Storage unit 1 (number 1 function module configuration information)

Storage unit 2 (number 2 function module configuration information)

Storage unit 3 (number 3 function module configuration information)

Storage unit 4 (number 4 function module configuration information)

Memory cell 5 (NULL)

Storage unit 6 (number 6 functional module configuration information)

Storage unit 7 (number 7 function module configuration information)

Storage unit 8 (number 8 functional module configuration information)

Storage unit 9 (number 9 function module configuration information)

Storage unit 10 (number 10 functional module configuration information)

As can be seen from the data chain obtained by the new combination, the storage unit of the data chain stores configuration information of 9 functional modules such as number 1, number 2, number 3, number 4, number 6, number 7, number 8, number 9, number 10 and the like. When the client software receives the data chain and configures the function modules according to the data chain, the 9 function modules can be displayed in the client page.

In one possible implementation manner of the embodiment of the present application, the server may receive the client usage information fed back by the client software, and adjust the display positions of the respective functional modules according to the client usage information.

Specifically, after the client software completes the configuration of the function modules according to the data chain, the positions of the respective function modules displayed in the client page may be set by default. However, the default position may not conform to the actual usage habit of the customer, and the customer may adjust the position of each functional module. After the client adjusts the positions of the functional modules, the client software can feed back the adjusted information to the server as the client use information. After receiving the client usage information, the server may record the location information of each function module.

In one possible implementation, the server may establish an information table for each client, where the information table is used to record the usage of each functional module fed back by the client software, where each functional module is located in the page when each client uses a different functional module. In one example, each client may have a corresponding information table, where corresponding information may be established for each data chain, and the information may be used to record where each functional module is located after the functional modules in the corresponding data chain are configured.

When the server sends the data chain to the client software, the server can acquire the position information of each functional module in the data chain from the information table corresponding to the client, and write the position information of each functional module into the corresponding storage unit.

Illustratively, the data chain 1 in which the position information of each functional module is written in the above example may be expressed as:

data chain 1 (functional group 1):

storage unit 1 (number 1 functional module configuration information + position information)

Storage unit 2 (number 2 functional module configuration information + position information)

Memory cell 3 (NULL)

Storage unit 4 (number 4 functional module configuration information + position information)

Memory cell 5 (NULL)

Memory cell 6 (NULL)

Memory cell 7 (NULL)

Storage unit 8 (number 8 functional module configuration information + position information)

Storage unit 9 (number 9 functional module configuration information + position information)

Storage unit 10 (number 10 functional module configuration information + location information)

After the server sends the data chain written with the position information of each functional module to the client software, the client software can directly adjust the positions of the functional modules in the page according to the recorded position information in the corresponding storage units when configuring the functional modules, and manual adjustment of clients is not needed.

By applying the method provided by the embodiment of the application, in the electronic commerce activity, the server of the provider side can firstly determine the function modules expected to be used in the electronic commerce client side by the client and the use frequency of each function module, so that a plurality of function modules to be configured in the electronic commerce client side and the configuration frequency of each function module can be determined. On this basis, the server may divide the plurality of function modules into a plurality of function groups according to the configuration frequency, so that the configuration frequency of each function module included in each function group is the same. In this way, the server can generate a plurality of data chains for software configuration in accordance with a plurality of function groups and respective function modules included in each function group. Each function group correspondingly generates a data chain, and the configuration time of each data chain can be determined according to the configuration frequency of the corresponding function group. When the corresponding configuration time is reached, the server can send the data chain to the electronic commerce client software, and the electronic commerce client software automatically configures the page and the function module according to the received configuration information in the data chain. By applying the method, the server of the provider can pertinently underground the configuration information of the electronic commerce client according to the actual demands of the client, and the client software can automatically configure the electronic commerce client, so that the configured client software can be matched with the actual demands of the client, different clients can see different pages in different time, different functional modules are used, the pertinence of the electronic commerce client configuration is improved, and the use experience of the client to the electronic commerce client is improved.

It should be noted that, the sequence number of each step in the above embodiment does not mean the sequence of execution sequence, and the execution sequence of each process should be determined by its function and internal logic, and should not limit the implementation process of the embodiment of the present application in any way.

Referring to fig. 5, a schematic diagram of a client software configuration device based on electronic commerce according to an embodiment of the present application may specifically include a determining module 501, a grouping module 502, a generating module 503, and a configuring module 504, where:

a determining module 501, configured to determine a plurality of functional modules to be configured and a configuration frequency of each functional module;

a grouping module 502, configured to divide the plurality of function modules into a plurality of function groups according to the configuration frequency, where the configuration frequency of each function module included in each function group is the same;

a generating module 503, configured to generate a plurality of data chains for software configuration based on a plurality of the function groups and the respective function modules included in each of the function groups, where each of the function groups correspondingly generates one of the data chains, and a configuration time of each of the data chains is determined according to a configuration frequency of the corresponding function group;

And the configuration module 504 is configured to configure the e-commerce client according to the configuration time of each data link.

In one possible implementation manner of the embodiment of the present application, the determining module 501 may specifically be configured to:

acquiring an electronic commerce protocol text;

carrying out semantic recognition on the electronic commerce protocol text to obtain various demand information of a protocol party and the demand frequency of each demand information;

determining a plurality of functional modules to be configured in the electronic commerce client according to a plurality of the demand information;

and determining the configuration frequency of each functional module to be configured according to the demand frequency of each type of the demand information.

In one possible implementation manner of the embodiment of the present application, the generating module 503 may specifically be configured to:

generating a corresponding blank data chain for each function group, wherein the blank data chain comprises a plurality of storage units;

and respectively writing configuration information of each functional module contained in each functional group into each storage unit in the corresponding blank data chain to obtain a plurality of data chains for software configuration.

In a possible implementation manner of the embodiment of the present application, the generating module 503 may be further configured to:

Determining the configuration number of each functional module and the unit number of each storage unit in the blank data chain;

according to the corresponding relation between the configuration numbers and the unit numbers, the configuration information of all the function modules in each function group is written into corresponding storage units of the corresponding blank data chains in sequence to obtain a plurality of data chains; the configuration information of the function modules which do not belong to the current function group is replaced by preset characters in corresponding storage units in a blank data chain of the current function group.

In one possible implementation manner of the embodiment of the present application, the configuration module 504 may specifically be used to:

configuring a countdown timer for each data link, wherein the maximum timing time of the countdown timer is determined by the configuration time of the data link;

and when the countdown timer returns to zero, the data link is sent to the electronic commerce client so as to instruct the electronic commerce client to carry out page configuration according to the configuration information in the data link.

In one possible implementation of the embodiment of the present application, the configuration module 504 may be further configured to:

when the countdown timer returns to zero, determining whether the data link which is transmitted before is the same as the data link which is to be transmitted currently;

If the data chain which is transmitted at the previous time is the same as the data chain which is to be transmitted at present, resetting a countdown timer corresponding to the data chain which is to be transmitted at present according to the maximum timing time of the countdown timer;

and if the data chain which is transmitted at the previous time is different from the data chain which is to be transmitted at present, transmitting the data chain which is to be transmitted at present to the electronic commerce client so as to instruct the electronic commerce client to carry out page configuration again according to the configuration information in the data chain.

In one possible implementation of the embodiment of the present application, the configuration module 504 may be further configured to:

determining the priority of a configured data chain and a data chain to be configured and the residence time of a client of the configured data chain when any countdown timer is time-zero, wherein the priority is inversely proportional to the configuration frequency of a function group corresponding to the data chain, and the residence time of the client is used for representing the maintenance time of a page framework corresponding to the data chain in the electronic commerce client;

and if the priority of the data link to be configured is lower than the priority of the configured data link and the data link is currently in the residence time of the client of the configured data link, resetting the countdown timer of the data link to be configured according to the maximum timing time of the countdown timer.

The client software configuration device based on electronic commerce provided by the embodiment of the application can realize the steps in the method embodiments.

For the device embodiments, since they are substantially similar to the method embodiments, the description is relatively simple, and reference should be made to the description of the method embodiments.

Referring to fig. 6, a schematic diagram of a server according to an embodiment of the present application is shown. As shown in fig. 6, a server 600 in an embodiment of the present application includes: a processor 610, a memory 620, and a computer program 621 stored in the memory 620 and executable on the processor 610. The processor 610, when executing the computer program 621, implements the steps of the various embodiments of the e-commerce-based client software configuration method described above, such as steps S101 to S104 shown in fig. 1. Alternatively, the processor 610, when executing the computer program 621, performs the functions of the modules/units in the above-described device embodiments, such as the functions of the modules 501 to 504 shown in fig. 5.

Illustratively, the computer program 621 may be partitioned into one or more modules/units that are stored in the memory 620 and executed by the processor 610 to accomplish the present application. The one or more modules/units may be a series of computer program instruction segments capable of performing particular functions, which may be used to describe the execution of the computer program 621 in the server 600. For example, the computer program 621 may be divided into a determining module, a grouping module, a generating module, and a configuring module, each of which specifically functions as follows:

A determining module, configured to determine a plurality of functional modules to be configured and a configuration frequency of each functional module;

the grouping module is used for dividing the plurality of functional modules into a plurality of functional groups according to the configuration frequency, and the configuration frequency of each functional module contained in each functional group is the same;

the generating module is used for generating a plurality of data chains for software configuration based on a plurality of function groups and the function modules contained in each function group, wherein each function group correspondingly generates one data chain, and the configuration time of each data chain is determined according to the configuration frequency of the corresponding function group;

and the configuration module is used for configuring the e-commerce client according to the configuration time of each data link.

The server 600 may be a provider server that implements the steps of the foregoing method embodiments, where the server 600 may be a desktop computer, a cloud server, or other device. The server 600 may include, but is not limited to, a processor 610, a memory 620. It will be appreciated by those skilled in the art that fig. 6 is merely an example of a server 600 and is not meant to be limiting of the server 600, and may include more or fewer components than shown, or may combine certain components, or different components, e.g., the server 600 may further include input and output devices, network access devices, buses, etc.

The processor 610 may be a central processing unit (Central Processing Unit, CPU), but may also be other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The storage 620 may be an internal storage unit of the server 600, such as a hard disk or a memory of the server 600. The memory 620 may also be an external storage device of the server 600, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card) or the like, which are provided on the server 600. Further, the memory 620 may also include both internal storage units and external storage devices of the server 600. The memory 620 is used to store the computer program 621 and other programs and data required by the server 600. The memory 620 may also be used to temporarily store data that has been output or is to be output.

The embodiment of the application also discloses a server, which comprises a memory, a processor and a computer program stored in the memory and capable of running on the processor, wherein the processor realizes the client software configuration method based on electronic commerce according to the previous embodiments when executing the computer program.

The embodiment of the application also discloses a computer readable storage medium, which stores a computer program, and the computer program realizes the client software configuration method based on electronic commerce according to the previous embodiments when being executed by a processor.

The embodiment of the application also discloses a computer program product which, when running on a computer, causes the computer to execute the client software configuration method based on electronic commerce.

The above embodiments are only for illustrating the technical solution of the present application, and are not limited thereto. Although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims (10)

1. A client software configuration method based on electronic commerce, comprising:

determining configuration frequency of a plurality of functional modules to be configured;

dividing a plurality of function modules into a plurality of function groups according to the configuration frequency, wherein the configuration frequency of each function module contained in each function group is the same;

generating a plurality of data chains for software configuration based on a plurality of function groups and the function modules contained in each function group, wherein each function group correspondingly generates one data chain, and the configuration time of each data chain is determined according to the configuration frequency of the corresponding function group;

and configuring the electronic commerce client according to the configuration time of each data chain.

2. The method of claim 1, wherein determining a plurality of functional modules to be configured and a configuration frequency for each functional module comprises:

acquiring an electronic commerce protocol text;

carrying out semantic recognition on the electronic commerce protocol text to obtain various demand information of a protocol party and the demand frequency of each demand information;

Determining a plurality of functional modules to be configured in the electronic commerce client according to a plurality of the demand information;

and determining the configuration frequency of each functional module to be configured according to the demand frequency of each type of the demand information.

3. The method according to claim 1 or 2, wherein said generating a plurality of data chains for software configuration based on a plurality of said functional groups and the respective said functional modules included in each said functional group comprises:

generating a corresponding blank data chain for each function group, wherein the blank data chain comprises a plurality of storage units;

and respectively writing configuration information of each functional module contained in each functional group into each storage unit in the corresponding blank data chain to obtain a plurality of data chains for software configuration.

4. A method according to claim 3, wherein writing configuration information of each functional module included in each functional group into each storage unit in a corresponding blank data chain to obtain a plurality of data chains for software configuration includes:

determining the configuration number of each functional module and the unit number of each storage unit in the blank data chain;

According to the corresponding relation between the configuration numbers and the unit numbers, the configuration information of all the function modules in each function group is written into corresponding storage units of the corresponding blank data chains in sequence to obtain a plurality of data chains; the configuration information of the function modules which do not belong to the current function group is replaced by preset characters in corresponding storage units in a blank data chain of the current function group.

5. The method according to any one of claims 1-2 or 4, wherein configuring the e-commerce client according to the configuration time of each data chain comprises:

configuring a countdown timer for each data link, wherein the maximum timing time of the countdown timer is determined by the configuration time of the data link;

and when the countdown timer returns to zero, the data link is sent to the electronic commerce client so as to instruct the electronic commerce client to carry out page configuration according to the configuration information in the data link.

6. The method of claim 5, wherein when the countdown timer times out, sending the data chain to the e-commerce client to instruct the e-commerce client to perform page configuration according to configuration information in the data chain comprises:

When the countdown timer returns to zero, determining whether the data link which is transmitted before is the same as the data link which is to be transmitted currently;

if the data chain which is transmitted at the previous time is the same as the data chain which is to be transmitted at present, resetting a countdown timer corresponding to the data chain which is to be transmitted at present according to the maximum timing time of the countdown timer;

and if the data chain which is transmitted at the previous time is different from the data chain which is to be transmitted at present, transmitting the data chain which is to be transmitted at present to the electronic commerce client so as to instruct the electronic commerce client to carry out page configuration again according to the configuration information in the data chain.

7. The method of claim 5, wherein the method further comprises:

determining the priority of a configured data chain and a data chain to be configured and the residence time of a client of the configured data chain when any countdown timer is time-zero, wherein the priority is inversely proportional to the configuration frequency of a function group corresponding to the data chain, and the residence time of the client is used for representing the maintenance time of a page framework corresponding to the data chain in the electronic commerce client;

and if the priority of the data link to be configured is lower than the priority of the configured data link and the data link is currently in the residence time of the client of the configured data link, resetting the countdown timer of the data link to be configured according to the maximum timing time of the countdown timer.

8. An electronic commerce-based client software configuration apparatus, comprising:

a determining module, configured to determine a plurality of functional modules to be configured and a configuration frequency of each functional module;

the grouping module is used for dividing the plurality of functional modules into a plurality of functional groups according to the configuration frequency, and the configuration frequency of each functional module contained in each functional group is the same;

the generating module is used for generating a plurality of data chains for software configuration based on a plurality of function groups and the function modules contained in each function group, wherein each function group correspondingly generates one data chain, and the configuration time of each data chain is determined according to the configuration frequency of the corresponding function group;

and the configuration module is used for configuring the e-commerce client according to the configuration time of each data link.

9. A server comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor implements the e-commerce based client software configuration method of any one of claims 1-7 when the computer program is executed.

10. A computer readable storage medium storing a computer program, wherein the computer program when executed by a processor implements the e-commerce based client software configuration method of any one of claims 1-7.