CN107665116B - Page resource bit information processing method and device - Google Patents

Abstract

The embodiment of the application discloses a page resource bit information processing method and a page resource bit information processing device, wherein the method can comprise the following steps: pre-storing data object aggregation mode information, wherein the data object aggregation mode information is configured for resource bits in a page; determining a first data object currently released in a target resource position, and determining target aggregation mode information corresponding to the first data object from the data object aggregation mode information; generating a target page according to the first data object and the target aggregation mode information, wherein the target page comprises a plurality of second data objects related to the first data object; and determining the target page as a detail page of the target resource bit so as to provide the target page when the target resource bit is operated. Through the embodiment of the application, the efficiency of the resource allocation can be improved, and the system and the human resources are saved.

Description

Page resource bit information processing method and device

Technical Field

The present application relates to the field of page resource bit information processing technologies, and in particular, to a page resource bit information processing method and apparatus.

Background

In an e-commerce transaction platform system, various front-end pages are generally required to be provided for users through clients. For example, in a makita mall system, a makita homepage may be provided, and a plurality of topics, channels and the like are usually provided in the homepage, such as a "shang mao" channel for displaying various fashion brand information, a "meow xianheng" channel for displaying products such as freshness, fruits and the like, and the like. When a page is built, some resource bits are usually designed, so-called resource bits are also usually called as "pit bits" or "pit bit groups", when the page is built, how many lines are displayed on each screen, how many pit bits are displayed on each line, and the like, and pit bits with the same attribute can be called as a pit bit group. That is to say, the pit positions are various positions for placing specific commodities or merchant information in the page of the e-commerce website, so that for the e-commerce platform, the pit positions are resources, and how to reasonably and effectively utilize the pit position resources with limited quantity in the page is a problem worthy of attention.

In the conventional scheme, a pit is usually bound with a fixed commodity or a fixed merchant, and after clicking the pit, a user can jump to a detailed page of the commodity or a shop front page of the merchant and the like. The scheme obviously causes great limitation to the efficiency of the pit positions, so that a dynamic carousel mechanism of the commodity pit positions is used in the prior art, namely, one pit position can be associated with a plurality of commodities and is alternated at a certain time interval, and the efficiency of the pit positions can be improved. But the traditional carousel method only realizes commodity/merchant carousel, and a commodity detail page/merchant store home page is still entered after clicking the commodity. This situation is suitable for the business with less total amount of the standard goods or the commodities, but for the business with mass commodities such as clothes, the dynamic pit carousel still appears to be inefficient.

In order to further improve the pit-location efficiency, in the prior art, a page may be designed and built specifically for pit-location jump, that is, after the pit location is clicked, a specific page is not entered, but rather, a specific page is entered, where the specific page may be an information aggregation page including a plurality of commodities or merchant information. Although the efficiency of the pit bits can be improved to a certain extent by the method, the process of designing and building the target page for the pit bit skip in advance also occupies a large amount of human resources and system resources due to the large number of the pit bits. Moreover, after the target page is built, if some information needs to be modified, the target page needs to be edited and defined again, and the flexibility is not high. The existence of the above situations leads to various solutions in the prior art that always fail to maximize the efficiency of the pit site.

Disclosure of Invention

The application provides a page resource bit information processing method and device, which can improve the efficiency of resource bits and save system and human resources.

The application provides the following scheme:

a page resource bit information processing method comprises the following steps:

pre-storing data object aggregation mode information, wherein the data object aggregation mode information is configured for resource bits in a page;

determining a first data object currently released in a target resource position, and determining target aggregation mode information corresponding to the first data object from the data object aggregation mode information;

generating a target page according to the first data object and the target aggregation mode information, wherein the target page comprises a plurality of second data objects related to the first data object;

and determining the target page as a detail page of the target resource bit so as to provide the target page when the target resource bit is operated.

A page resource bit information processing method comprises the following steps:

a client displays a page provided by a server, wherein the page comprises a resource bit;

when the target resource bit is operated, submitting an operation request to a server so that the server provides a target page, wherein the target page is generated by the following method: determining a first data object currently launched by the target resource position and corresponding target aggregation mode information, generating a target page according to the first data object and the target aggregation mode information, and determining the target page as a detail page of the target resource position, wherein the target page comprises a plurality of second data objects related to the first data object;

and receiving and displaying the target page provided by the server.

A page resource bit information processing method comprises the following steps:

providing a resource bit list to be configured in a page;

when one resource bit is selected, providing a configuration interface, wherein the configuration interface comprises an operation option for configuring the aggregation mode information;

receiving aggregation mode information through the operation options;

and saving the corresponding relation between the resource bit and the aggregation mode information so as to dynamically generate a detail page of the target resource bit by using the first data object and the aggregation mode information.

A page resource bit information processing apparatus comprising:

the device comprises a storage unit, a processing unit and a processing unit, wherein the storage unit is used for storing data object aggregation mode information in advance, and the data object aggregation mode information is configured for resource bits in a page;

the information determining unit is used for determining a first data object currently released in a target resource position and determining target aggregation mode information corresponding to the first data object from the data object aggregation mode information;

a page generating unit, configured to generate a target page according to the first data object and the target aggregation manner information, where the target page includes a plurality of second data objects associated with the first data object;

a detail page determining unit, configured to determine the target page as a detail page of the target resource bit, so as to provide the target page when the target resource bit is operated.

A page resource bit information processing device is applied to a client and comprises:

the page display unit is used for displaying a page provided by the server, and the page comprises a resource bit;

an operation request submitting unit, configured to submit an operation request to a server when a target resource bit is operated, so that the server provides a target page, where the target page is generated by: determining a first data object currently launched by the target resource position and corresponding target aggregation mode information, generating a target page according to the first data object and the target aggregation mode information, and determining the target page as a detail page of the target resource position, wherein the target page comprises a plurality of second data objects related to the first data object;

and the target page display unit is used for receiving and displaying the target page provided by the server.

A page resource bit information processing method comprises the following steps:

the resource bit list providing unit is used for providing a resource bit list to be configured in the page;

the configuration interface providing unit is used for providing a configuration interface after one resource bit is selected, and the configuration interface comprises operation options for configuring the aggregation mode information;

the aggregation mode information receiving unit is used for receiving the aggregation mode information through the operation options;

and the saving unit is used for saving the corresponding relation between the resource bit and the aggregation mode information so as to dynamically generate a detail page of the target resource bit by using the first data object and the aggregation mode information.

According to the specific embodiments provided herein, the present application discloses the following technical effects:

through the embodiment of the application, the detail page associated with the resource bit may not be a certain existing page, and it is not necessary to design or build a page in advance, but aggregation mode information may be configured in advance, for example, the aggregation mode information may include aggregation dimensions, filtering flag information, and the like, and the detail page corresponding to the resource bit may be dynamically generated according to the data object actually put in the resource bit and the aggregation mode information. Therefore, for a resource bit, in the process of displaying a data object, if the resource bit is operated, the resource bit can jump to a data object information aggregation page, the page comprises a plurality of associated data objects, and the design and construction work of the target page is not required to be carried out in advance, so that the efficiency of the resource bit can be improved, and the system and human resources are saved.

Of course, it is not necessary for any product to achieve all of the above-described advantages at the same time for the practice of the present application.

Drawings

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

FIG. 1 is a schematic diagram of a user interface provided by an embodiment of the present application;

FIG. 2 is a flow chart of a first method provided by an embodiment of the present application;

FIG. 3 is a flow chart of a second method provided by embodiments of the present application;

FIG. 4 is a flow chart of a third method provided by embodiments of the present application;

FIG. 5 is a schematic diagram of a first apparatus provided by an embodiment of the present application;

FIG. 6 is a schematic diagram of a second apparatus provided by an embodiment of the present application;

fig. 7 is a schematic diagram of a third apparatus provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments that can be derived from the embodiments given herein by a person of ordinary skill in the art are intended to be within the scope of the present disclosure.

In the embodiment of the present application, in order to better improve the efficiency of the resource bit and save manpower and system resources, a way of dynamically generating a data object aggregation page may be adopted, and the data object aggregation page is used as a detail page of the resource bit. That is to say, the detail page corresponding to the resource position (that is, the page opened after the resource position is operated) is not the detail page of a certain data object, or an existing page such as the home page of a certain shop, and it is not necessary to design and set up a fixed page for the resource position in the page as the detail page of the resource position in advance, and only the detail page needs to be dynamically generated according to the data object put in the resource position. Therefore, the efficiency of the resource allocation can be improved, and the purposes of saving system resources, human resources and the like can be achieved. Specific implementations are described below.

In order to implement dynamic generation of a detail page, embodiments of the present application may first provide a system for configuring resource bits in a page, where the system may configure the resource bits in the page and store a configuration result. The configuration process mainly adopts a page aggregation mode of the resource bit detail page for configuration, so that when a data object is released to a resource bit, the detail page corresponding to the resource bit can be automatically generated by using the configuration information. Wherein, the page aggregation means: the detail page includes information of a plurality of data objects, and in the embodiment of the present application, the aggregation page is automatically generated according to preconfigured information, that is, it is not necessary to design or page building in advance.

For ease of understanding, the following first introduces the concept of page and resource bit correlation.

First, regarding the page in the embodiment of the present application, the page frame may be created during the page building process, and includes defining at least one resource bit, where the resource bit may include one or more unit display bits (also called "pit bits"). Each pit is used to display information of a data object, where the data object may include a merchandise object, or may also be store object information associated with a first user (e.g., a seller user, a merchant, etc.), and so on. When a plurality of pit bits form a pit bit group, information of a plurality of service objects satisfying the same delivery condition is usually displayed in the same pit bit group. For example, in the "tianmao" home page, there may be 10 slots for displaying information for participating in a promotional event, 10 merchandise objects for displaying information, meaning that the 10 merchandise objects are all merchandise objects participating in the same promotional event, and so on.

In this embodiment of the present application, there may be no limitation on how to put the data object into the resource slot specifically. That is to say, in the embodiment of the present application, a process that mainly needs to be focused on is a process of how to jump to a detail page corresponding to a resource bit when the resource bit is operated after a data object is placed in the resource bit. Of course, since the two processes have a certain correlation, the process of delivering the data object to the resource bit is briefly introduced in this embodiment of the present application. In addition, the attribution relationship between the resource bits and the pages is not limited in the embodiment of the present application, for example, in a specific implementation, the resource bits may be set by the platform itself, and a corresponding aggregation manner may be set. Or, the platform may also output the corresponding solution to the merchant or the seller user, and the merchant or the seller user submits the specific requirement, and then the platform side completes the related operations such as resource level setting, aggregation mode setting, and the like according to the requirement of the merchant or the seller user.

Specifically, when the data object is delivered to the resource bit, there may be a plurality of modes, for example, the page developer may manually specify the resource bit, that is, manually establish the corresponding relationship between the resource bit and the data object. Therefore, the method can be realized through an automatic release mode, and under the automatic release mode, an automatic configuration tool can be provided for a page developer, and a data source, a selection rule, an update rule, effective time and the like of the data object to be released in the resource position are configured by the tool. For example, the data source corresponding to a certain resource position is a certain ranking list, the selection rule is to select the data object 100 before ranking in the ranking list for distribution, the update rule is to update once a day, and the validity time is one week, so that after the configuration information is output to the distribution system, the distribution system can automatically distribute the data object according to the configuration information, a page developer does not need to manually create the association between the resource position and the data object, even within the validity time, the resource position does not need to be managed again, and the distribution system can automatically distribute, update and the like according to the set rule. It should be noted that, for the case that the pit group exists in the page, the placement configuration information may be configured in the unit of the pit group, that is, the configuration information may be associated with a pit group, and the placement system may apply the configuration information to the pit group. For example, 10 pit bits are included in the same pit group, and after a data object selected according to the selection rule, the data object may be placed in each pit bit in the pit group. And under the condition that the number of the selected items is more than the number of the pit bits, the data object can be carousel in a carousel mode. For example, if 100 data objects are selected according to the selection rule, but there are only 10 pit bits in the current pit bit group, the first 10 data objects may be placed in each pit bit, and when the next carousel cycle arrives, the 11 th to 20 th data objects may be placed in each pit bit, and so on.

In a specific implementation, the process of configuring the aggregation manner of the detail page of the resource location in the embodiment of the present application may be performed after the configuration of the delivery information of the resource location is completed, and of course, the aggregation manner information may be configured first, and then the delivery information may be configured. In short, the resource delivery information may be output to the delivery system for delivering the data object, and on the other hand, the page aggregation mode information may also be imported to a specific aggregation system.

Specifically, when the aggregation mode is configured, a configuration interface can be provided, wherein the project to be configured can be displayed, and a page developer can select or fill specific data for each project to be configured according to actual requirements. For example, in a most basic manner, the aggregation manner information mainly includes aggregation dimensions of the data objects, that is, from which dimensions the data objects are aggregated.

Specifically, the aggregation dimension may include a first user dimension to which the data object belongs, that is, the aggregation is performed from a user dimension of a merchant or a seller, at this time, the data object of the same first user to which the data object currently released in the resource slot belongs may be searched out, and a search result page is generated, and the search result page may be used as a detail page of the resource slot. For example, a data object currently placed in a resource slot is a piece of clothing, and the clothing is issued by the first user a, when aggregation is performed, all or part of the data object issued by the first user a can be searched out, a search result page is generated, and the search result page is used as a detail page of the resource slot, that is, when the resource slot is operated, the search result page can be skipped to. It should be noted that, when aggregation is performed from the first user dimension, brands, categories, and the like to which each data object in the search result page belongs may be various, and are mainly determined according to the data object situation issued by the first user.

Or, the aggregation dimension may also include a brand dimension to which the data object belongs, that is, aggregation is performed from the brand dimension, at this time, a data object of the same brand as the currently released data object in the resource location may be searched out, and a search result page is generated, and the search result page may be used as a detail page of the resource location. For example, if the currently released data object in a resource position is still a piece of clothing, if aggregation is performed from the brand dimension, the brand to which the data object belongs, for example, the brand M, may be determined first, and then all or part of the data objects belonging to the brand M may be searched out, and a search result page may be generated and used as the detail page of the resource position. Of course, when aggregating from a brand dimension, each data object included in the search results page may belong to a different first user, depending mainly on how the first user deals with the data object.

Still alternatively, the aggregation dimension may also include a category dimension to which the data object belongs, that is, aggregation is performed from the category dimension. At this time, a data object of the same category as the currently released data object in the resource position can be searched out, and a search result page is generated, and the search result page can be used as a detail page of the resource position. In particular implementation, since categories may generally include multiple levels, a primary category, a secondary category, a tertiary category, etc., for example, a primary category is women's dress, the secondary categories included in the category include: dresses, jeans, and the like, three categories included under the dress category include: chiffon, cotton, silk, etc. Specifically, when aggregation is performed according to categories, the category hierarchy of aggregation may be configured, for example, aggregation may be performed according to a secondary category, and if a piece of women's clothing is currently released in a certain resource location, when aggregation is performed according to the secondary category, the secondary category to which the data object belongs may be determined first, for example, a one-piece dress, and then all or part of the data objects under the one-piece dress category may be further searched out, and a search result page may be generated and used as a detail page of the current resource location.

Of course, in practical applications, there may be other aggregation dimensions, which are not listed here. In addition, aggregation can also be performed from multiple dimensions with respect to one resource bit. For example, when configuring a resource bit, it may be configured as: the data objects are aggregated from the first user and the brand dimension, so that when a certain data object is currently released in a certain resource position, the first user and the brand to which the data object belongs can be determined firstly, then all or part of the data objects under the brand issued by the first user are searched out, and a search result page is generated. For example, if the data object currently released by a resource allocation is published by a first user a and is a brand M, the data object also published by the first user a and belonging to the brand M can be searched out, and a search result page can be generated and used as a detail page of the current resource allocation. That is, after the resource position is clicked, the page jumped to shows that the data objects are all data objects belonging to the same first user and the same brand as the currently released data object in the resource position.

In the specific implementation, what dimension to aggregate, whether to aggregate from multiple dimensions, and the like can be determined according to actual needs. In addition, the configuration information about the page aggregation mode may include filtering flag information of the data object in addition to the aggregation dimension. That is, regardless of the particular dimension from which the data objects are aggregated, the data objects may also be filtered based on some flags or the like of the data objects. For example, the filtering mark may include a new product mark, a mark for participating in a preset activity, or a mark for identifying the identity of the offline physical store, etc., that is, it is assumed that the configuration information corresponding to a certain resource location includes: and aggregating from the first user dimension, and if the filter mark is a new mark, then when aggregating, searching out all or part of the data objects with the new mark and belonging to the same first user as the currently released data object, and generating a search result page, and so on.

As described above with reference to the specific manner of configuring the aggregation manner, in practical applications, a configuration interface may be provided for a page developer, for example, in a specific implementation manner, the configuration interface may be as shown in fig. 1. In the method, a resource bit list to be configured in a page can be displayed through another interface, and after a certain resource bit is selected, the configuration interface shown in fig. 1 can be entered. The aggregation mode information configuration interface may include a plurality of options, including a selection of an aggregation dimension, for example, "merchant" and "brand", which may be single-choice or multi-choice, and in addition, regarding the "aggregation page category hierarchy", the two options are actually one of the aggregation dimensions, but since a specific hierarchy may also be selected, the option may be selected separately as an option, and the option may be selected separately, or may also be combined with the dimensions of "merchant" and "brand", which may also be multi-choice. The "aggregated page merchandise tag" is used to configure the filter criteria, may be populated with a specific tag name, or may provide a variety of selectable tags for selection. This option may be null, in which case no filtering is required by default. In addition, in the concrete implementation, in order to be compatible with the way of specifying the detail page by the fixed URL way, a "fixed URL" option may be provided, if the detail page is not to be generated by the dynamic aggregation way, a fixed URL may be specified by the option, and the specific source of the URL may be a detail page URL generated in advance, or a detail page URL of a certain data object, or a home page URL of a certain shop, and the like. Regarding the "ranking list id" option, this is an identifier of a set of data objects to be placed in a resource location generated according to the configuration information of the option rule, and in some implementation manners, if the resource placement is not performed in this manner, the option may not exist. After the configuration of the aggregation mode information is completed, the specific configuration information can be imported into the corresponding subsequent processing system in a mode of 'import', and the like, and the configuration information is stored. For example, in one mode, the aggregation mode configuration information of a certain page may be stored as:

TABLE 1

Resource bit id	Polymeric dimension	Filter label
			Resource bit 1	First user	New product
Resource bit 2	Class II order	An activity
			Resource bit 3	First user and brand	Is free of
……	……	……

After the aggregation mode configuration information is stored, a detail page of the resource bit can be dynamically generated according to the configuration information. Specific implementations are described in detail below.

Example one

First, the embodiment provides a page information processing method from the perspective of a server, and referring to fig. 2, the method may include the following steps:

s201: pre-storing data object aggregation mode information, wherein the data object aggregation mode information is configured for resource bits in a page;

the specific stored configuration information can be realized in the manner described above, and certainly, in practical application, the configuration information can also be configured in other manners, in short, in this embodiment of the application, a page of a fixed URL does not need to be bound to the resource location in advance, and only the aggregation manner needs to be configured to store the configuration information.

For example, in the configuration described above, the storage of the aggregation mode information may be implemented in the following manner: after the resource bit information in the page is defined, a resource bit list to be configured in the page may be provided, and when one of the resource bits is selected, a configuration interface may be provided, where the configuration interface includes an operation option for configuring aggregation mode information, and specifically, referring to fig. 1, after the aggregation mode information is received through the operation option, a corresponding relationship between the resource bit and the aggregation mode information may be stored.

S202: determining a first data object currently released in a target resource position, and determining target aggregation mode information corresponding to the first data object from the data object aggregation mode information;

in a specific implementation, the execution timing of the step S202 may be various, that is, the execution of the step may be triggered by various events. For example, in one mode, a data object placement event in a resource slot may be detected, and when it is found that a first data object is placed in a certain target resource slot, the step and subsequent steps may be executed to generate a detail page of the resource slot, so that when an operation request of a second user for the target resource slot is specifically received, the dynamically generated detail page may be provided to the second user. The applicable scenarios for this implementation are: the data objects specifically placed in the resource positions of the page are indiscriminate for different second users, that is, when different second users open the page at the same time, the data objects displayed in the same resource positions are the same, so that as long as the data objects are placed in the resource positions, the operation of dynamically generating the detailed pages of the resource positions can be executed, and no matter which second user operates the resource positions, the pages after jumping are the same. Of course, if a plurality of first data objects are associated with the same target resource bit and each first data object is successively dropped into the target resource bit in a carousel manner, the detail page of the resource bit is unchanged until the next first data object is dropped into the target resource bit, and until the first data object is dropped into the target resource bit, the target page is regenerated according to the next first data object and the target aggregation manner information, and the detail page of the target resource bit is updated to the regenerated target page, so that when a request for operating the target resource bit is received later, the regenerated target page can be provided.

In the above triggering manner, after a data object is released in a target resource bit, only one operation of generating a detail page needs to be executed, so that a subsequent user operation request for the resource bit can be supported, and the detail page of the resource bit is updated until the data object released in the resource bit is updated. Therefore, the efficiency is high, and the occupation of system resources is less.

Another triggering manner may be that, when an operation request for a specific resource bit is received, the first data object currently released by the resource bit and aggregation manner information corresponding to the resource bit are determined, and a subsequent operation of generating a detail page is performed. The scenario for this approach may be: in some pages, personalization may be required for different second users, for example, recommendation according to preference information, historical operation behavior information, and the like of the second users. That is, different second users, in the same resource location in the same page, may see different data objects at the same time, which is often referred to as "thousands of people. For this situation, a plurality of different first data objects may be launched in the same resource bit on the same page at the same time, if the detail page is dynamically generated after the first data object is launched into the resource bit, the workload may be large, and not all the second users may operate the resource bit (in fact, the second users actually operating the resource bit usually occupy a smaller proportion), so if the detail page is dynamically generated for each launch request, a large amount of waste of system resources may be caused. Therefore, in another triggering mode, when a request of a second user client for operating a resource location is received, the first data object currently released by the resource location and the corresponding aggregation mode information are determined, the detail page is dynamically generated through the subsequent steps, and the generated detail page is provided for the second user client which currently sends the request.

S203: generating a target page according to the first data object and the target aggregation mode information, wherein the target page comprises a plurality of second data objects related to the first data object;

specifically, when the target page is generated according to the first data object and the target aggregation mode information, a specific operation may be executed according to the specific aggregation mode information. For example, the aggregation mode information may include aggregation dimension information, and at this time, the attribute value information of the first data object in the aggregation dimension may be extracted, and a plurality of second data objects that meet a condition may be searched from a preset data source according to the attribute value information. And then, generating a search result page according to the plurality of second data objects, and determining the search result page as the target page.

Specifically, if the aggregation dimension is a first user dimension to which a data object belongs, in particular, during aggregation, first user identification information to which the first data object belongs may be extracted, then, a plurality of second data objects associated with the first user identification are searched from a preset data source, and the search result page is generated.

And if the aggregation dimension is the brand dimension to which the data object belongs, extracting brand identification information of the first data object during aggregation, then searching a plurality of second data objects associated with the brand identification from a preset data set, and generating the search result page.

If the aggregation dimension is a category dimension of the data object, the aggregation mode information may further include target hierarchy information of the category, and at this time, specifically, during aggregation, the target category information on the target hierarchy to which the first data object belongs may be extracted, and then, a plurality of second data objects under the target category are searched from a preset data set, and the search result page is generated.

If the aggregation dimension comprises multiple dimensions, the attribute value information of the first data object in the multiple dimensions can be extracted, then multiple second data objects with attribute values in the multiple dimensions meeting the conditions are searched from a preset data source, and the search result page is generated.

In each of the above cases, the specific data sources may be the same, for example, in order to support the search function in the e-commerce platform, the platform may provide a database storing all data object information, and therefore, in the embodiment of the present application, the database may also be used as a data source, and the like. It should be noted that, in the process of searching for a data object, there are two specific search methods, one is to search according to a keyword, and this way generally matches the keyword with a text in a title of the data object, and a successful match can be returned as a search result. Another way is to search based on the attribute values of the data objects, i.e. data objects having some or some of the attribute values may be searched. In the embodiment of the present application, the above two manners may be both, however, information such as a title of a data object is generally provided by a publisher, where the information may be inaccurate, and therefore, a manner of keyword search is generally not accurate enough, for example, a related description of a certain brand exists in a title of a certain data object, but actually, the data object may not belong to the brand, and so on. Therefore, in a preferred implementation, the search can be performed mainly by using the second method, which can obtain a search result with high accuracy. It should be noted that, the first user information, the brand information, the category information, and the like to which the data object belongs may be stored in the database by using a specific attribute field, and therefore, the first user information, the brand information, the category information, and the like may be obtained by querying the database.

In addition, if the aggregation configuration information further includes filtering information, that is, data object flag information for filtering the data object, the search result may also be filtered, and then the target page is generated. Specifically, the flag information carried by the second data object may be determined, then, the second data object is filtered according to the flag information, and the search result page is generated according to the filtering result. Specifically, when filtering is performed according to the flag information, the method may include forward filtering or backward filtering, for example, only the second data object with the specified flag is retained, or the second data object with the specified flag is filtered out, and so on. The flag information of the data object can be stored in the data object database, so that whether the data object carries some kind of flag can be obtained by reading the database.

For example, reference may be made to the above description for various aggregation dimensions and filtering flags, which are not described herein again.

S204: and determining the target page as a detail page of the target resource bit so as to provide the target page when the target resource bit is operated.

After the target page is generated according to the aggregation mode information, the target page can be determined as a detail page of the target resource position, so that the target page can be provided when the target resource position is clicked and the like.

In the method, the detail page associated with the resource bits may not be an existing page, and it is not necessary to design or build a page in advance, but aggregation mode information may be configured in advance, for example, aggregation dimensions, filtering flag information, and the like may be included, and the detail page corresponding to the resource bits may be dynamically generated according to data objects actually delivered in the resource bits and the aggregation mode information. Therefore, for a resource bit, in the process of displaying a data object, if the resource bit is operated, the resource bit can jump to a data object information aggregation page, the page comprises a plurality of associated data objects, and the design and construction work of the target page is not required to be carried out in advance, so that the efficiency of the resource bit can be improved, and the system and human resources are saved.

Example two

The second embodiment corresponds to the first embodiment and is introduced from the perspective of the client. Specifically, referring to fig. 3, a second embodiment provides a page information processing method, which may include the following steps:

s301: a client displays a page provided by a server, wherein the page comprises a resource bit;

s302: when the target resource bit is operated, submitting an operation request to a server so that the server provides a target page, wherein the target page is generated by the following method: determining a first data object currently launched by the target resource position and corresponding target aggregation mode information, generating a target page according to the first data object and the target aggregation mode information, and determining the target page as a detail page of the target resource position, wherein the target page comprises a plurality of second data objects related to the first data object;

s303: and receiving and displaying the target page provided by the server.

Since the second embodiment corresponds to the first embodiment, the related specific implementation may refer to the record in the first embodiment, and is not described herein again.

EXAMPLE III

As described in the foregoing, in an embodiment of the present application, a configuration tool may be provided for a page developer to configure aggregation mode information of resource bits in a page, and from the perspective of the configuration tool, a third embodiment provides a page resource bit information processing method, referring to fig. 4, where the method may include the following steps:

s401: providing a resource bit list to be configured in a page;

s402: when one resource bit is selected, providing a configuration interface, wherein the configuration interface comprises an operation option for configuring the aggregation mode information;

s403: receiving aggregation mode information through the operation options;

s404: and saving the corresponding relation between the resource bit and the aggregation mode information so as to dynamically generate a detail page of the target resource bit by using the first data object and the aggregation mode information.

Specifically, when the detail page of the target resource bit is dynamically generated by using the first data object and the aggregation manner information, a first data object currently released in the target resource bit and corresponding target aggregation manner information may be first determined, then a target page is generated according to the first data object and the target aggregation manner information, the target page includes a plurality of second data objects associated with the first data object, and then the target page is determined as the detail page of the target resource bit, so that when the target resource bit is operated, the target page is provided.

For specific implementation in the third embodiment, reference may also be made to the description of the foregoing content, which is not described herein again.

Corresponding to the first embodiment, an embodiment of the present application further provides a page resource bit information processing apparatus, and referring to fig. 5, the apparatus may specifically include:

a saving unit 501, configured to pre-save data object aggregation mode information, where the data object aggregation mode information is configured for resource bits in a page;

an information determining unit 502, configured to determine a first data object currently released in a target resource location, and determine, from the data object aggregation mode information, target aggregation mode information corresponding to the first data object;

a page generating unit 503, configured to generate a target page according to the first data object and the target aggregation manner information, where the target page includes a plurality of second data objects associated with the first data object;

a detail page determining unit 504, configured to determine the target page as a detail page of the target resource bit, so as to provide the target page when the target resource bit is operated.

Wherein the aggregation mode information includes aggregation dimension information, and the page generating unit includes:

an attribute value extraction subunit, configured to extract attribute value information of the first data object in the aggregation dimension;

the data object searching subunit is used for searching a plurality of second data objects meeting the conditions from a preset data source according to the attribute value information;

and the search result page generating subunit is configured to generate a search result page according to the plurality of second data objects, and determine the search result page as the target page.

The aggregation dimension includes a first user dimension to which the data object belongs, and the attribute value extraction subunit may be specifically configured to:

extracting first user identification information to which the first data object belongs;

the data object search subunit may be specifically configured to:

and searching a plurality of second data objects associated with the first user identification from a preset data source, and generating the search result page.

Or, in another implementation manner, the aggregation dimension includes a brand dimension to which the data object belongs, and the attribute value extraction subunit may specifically be configured to:

extracting brand identification information of the first data object;

the data object search subunit may be specifically configured to:

and searching a plurality of second data objects associated with the brand identifier from a preset data set, and generating the search result page.

Or, the aggregation dimension includes a category dimension of the data object, and the pre-stored information further includes target level information of the category;

the attribute value extraction subunit may be specifically configured to:

extracting target category information on a target level to which the first data object belongs;

the data object search subunit may be specifically configured to:

and searching a plurality of second data objects under the target category from a preset data set, and generating the search result page.

In a specific implementation, the aggregation dimension includes multiple dimensions, and the attribute value extraction subunit may specifically be configured to:

extracting attribute value information of the first data object in multiple dimensions;

the attribute value extraction subunit may be specifically configured to:

and searching a plurality of second data objects with attribute values on the plurality of dimensions meeting the conditions from a preset data source, and generating the search result page.

Wherein the aggregation mode information further includes: the data object flag information for filtering the data object, after searching a plurality of second data objects meeting the condition from a preset data source according to the attribute value information, further includes:

a flag information determination unit, configured to determine flag information carried by the second data object;

and the data object filtering unit is used for filtering the second data object according to the mark information and generating the search result page according to the filtering result.

Wherein the data object flag information for filtering the data object includes: a brand new for the data object, a brand participating in a pre-set event, or a brand identity for the off-line physical store.

In addition, the apparatus may further include:

the event detection unit is used for detecting a data object delivery event in the target resource position;

and the first triggering unit is used for triggering and executing the steps of determining the currently launched first data object in the target resource position and the corresponding target aggregation mode information when the first data object is launched to the target resource position.

In addition, the same target resource position is associated with a plurality of first data objects, and the first data objects are successively released into the target resource position in a carousel mode;

the apparatus may further include:

and the updating unit is used for regenerating a target page according to the next first data object and the target aggregation mode information when the next first data object is launched to the target resource bit, and updating the detail page of the target resource bit into the regenerated target page so as to provide the regenerated target page when the target resource bit is operated.

In a specific implementation, the apparatus may further include:

and the second triggering unit is used for triggering and executing the steps of determining the currently launched first data object in the target resource position and the corresponding target aggregation mode information when the target resource position is operated.

In addition, the saving unit may specifically include:

the resource bit list providing subunit is used for providing a resource bit list to be configured in the page;

the configuration interface providing subunit is used for providing a configuration interface after one resource bit is selected, wherein the configuration interface comprises an operation option for configuring the aggregation mode information;

the aggregation mode receiving subunit is used for receiving the aggregation mode information through the operation options;

and the saving subunit is used for saving the corresponding relation between the resource bit and the aggregation mode information.

Corresponding to the second embodiment, an embodiment of the present application further provides a page resource bit information processing apparatus, where the apparatus is applied to a client, and referring to fig. 6, the apparatus may specifically include:

a page display unit 601, configured to display a page provided by a server, where the page includes a resource location;

an operation request submitting unit 602, configured to submit an operation request to a server when a target resource bit is operated, so that the server provides a target page, where the target page is generated by: determining a first data object currently launched by the target resource position and corresponding target aggregation mode information, generating a target page according to the first data object and the target aggregation mode information, and determining the target page as a detail page of the target resource position, wherein the target page comprises a plurality of second data objects related to the first data object;

and a destination page display unit 603, configured to receive and display the destination page provided by the server.

Corresponding to the three phases of the embodiment, the embodiment of the present application further provides a method for processing page resource bit information, and referring to fig. 7, the apparatus may specifically include:

a resource bit list providing unit 701, configured to provide a resource bit list to be configured in a page;

a configuration interface providing unit 702, configured to provide a configuration interface after one of the resource bits is selected, where the configuration interface includes an operation option for configuring aggregation mode information;

an aggregation mode information receiving unit 703 configured to receive aggregation mode information through the operation option;

a saving unit 704, configured to save a corresponding relationship between the resource bit and the aggregation manner information, so as to dynamically generate a detail page of the target resource bit by using the first data object and the aggregation manner information.

In a specific implementation, the apparatus may further include:

the information determining unit is used for determining a first data object currently released in the target resource position and corresponding target aggregation mode information;

a target page generating unit, configured to generate a target page according to the first data object and the target aggregation mode information, where the target page includes a plurality of second data objects associated with the first data object;

a detail page determining unit, configured to determine the target page as a detail page of the target resource bit, so as to provide the target page when the target resource bit is operated.

Through the embodiment of the application, the detail page associated with the resource bit may not be a certain existing page, and it is not necessary to design or build a page in advance, but aggregation mode information may be configured in advance, for example, the aggregation mode information may include aggregation dimensions, filtering flag information, and the like, and the detail page corresponding to the resource bit may be dynamically generated according to the data object actually put in the resource bit and the aggregation mode information. Therefore, for a resource bit, in the process of displaying a data object, if the resource bit is operated, the resource bit can jump to a data object information aggregation page, the page comprises a plurality of associated data objects, and the design and construction work of the target page is not required to be carried out in advance, so that the efficiency of the resource bit can be improved, and the system and human resources are saved.

From the above description of the embodiments, it is clear to those skilled in the art that the present application can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present application may be essentially or partially implemented in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The method and the device for processing page resource bit information provided by the present application are introduced in detail, and a specific example is applied in the text to explain the principle and the implementation of the present application, and the description of the above embodiment is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, the specific embodiments and the application range may be changed. In view of the above, the description should not be taken as limiting the application.

Claims (18)

1. A page resource bit information processing method is characterized by comprising the following steps:

pre-storing data object aggregation mode information, wherein the data object aggregation mode information is configured for resource bits in a page;

determining a first data object currently released in a target resource position, and determining target aggregation mode information corresponding to the first data object from the data object aggregation mode information;

generating a target page according to the first data object and the target aggregation mode information, wherein the target page comprises a plurality of second data objects related to the first data object;

and determining the target page as a detail page of the target resource bit so as to provide the target page when the target resource bit is operated.

2. The method of claim 1, wherein the aggregation mode information includes aggregation dimension information, and generating a target page according to the first data object and the target aggregation mode information includes:

extracting attribute value information of the first data object in the aggregation dimension;

searching a plurality of second data objects meeting the conditions from a preset data source according to the attribute value information;

and generating a search result page according to the plurality of second data objects, and determining the search result page as the target page.

3. The method of claim 2, wherein the aggregate dimension comprises a first user dimension to which the data object belongs, and wherein extracting attribute value information of the first data object in the aggregate dimension comprises:

extracting first user identification information to which the first data object belongs;

the searching a plurality of second data objects meeting the conditions from a preset data source according to the attribute value information comprises:

and searching a plurality of second data objects associated with the first user identification from a preset data source, and generating the search result page.

4. The method of claim 2, wherein the aggregate dimension comprises a brand dimension to which the data object belongs, and wherein extracting attribute value information of the first data object in the aggregate dimension comprises:

extracting brand identification information of the first data object;

the searching a plurality of second data objects meeting the conditions from a preset data source according to the attribute value information comprises:

and searching a plurality of second data objects associated with the brand identifier from a preset data set, and generating the search result page.

5. The method of claim 2, wherein the aggregate dimension comprises a category dimension of the data objects, and wherein the pre-saved information further comprises category target level information;

the extracting attribute value information of the first data object in the aggregation dimension includes:

extracting target category information on a target level to which the first data object belongs;

the searching a plurality of second data objects meeting the conditions from a preset data source according to the attribute value information comprises:

and searching a plurality of second data objects under the target category from a preset data set, and generating the search result page.

6. The method of claim 2, wherein the aggregated dimension comprises a plurality of dimensions, and wherein extracting attribute value information of the first data object in the aggregated dimension comprises:

extracting attribute value information of the first data object in multiple dimensions;

the searching a plurality of second data objects meeting the conditions from a preset data source according to the attribute value information comprises:

and searching a plurality of second data objects with attribute values on the plurality of dimensions meeting the conditions from a preset data source, and generating the search result page.

7. The method of claim 2, wherein the aggregation mode information further comprises: the data object flag information for filtering the data object, after searching a plurality of second data objects meeting the condition from a preset data source according to the attribute value information, further includes:

determining the mark information carried by the second data object;

and filtering the second data object according to the mark information, and generating the search result page according to the filtering result.

8. The method of claim 7, wherein the data object flag information for filtering the data objects comprises: a brand new for the data object, a brand participating in a pre-set event, or a brand identity for the off-line physical store.

9. The method according to any one of claims 1 to 8, wherein before determining the first data object currently released in the target resource slot and determining the target aggregation mode information corresponding to the first data object from the data object aggregation mode information, further comprising:

detecting a data object delivery event in a target resource position;

and when the first data object is launched to the target resource position, triggering and executing the step of determining the currently launched first data object in the target resource position and the corresponding target aggregation mode information.

10. The method according to claim 9, wherein the same target resource location is associated with a plurality of first data objects, and each first data object is successively launched into the target resource location in a carousel manner;

the method further comprises the following steps:

and when the next first data object is launched to the target resource bit, regenerating a target page according to the next first data object and the target aggregation mode information, and updating the detail page of the target resource bit into the regenerated target page so as to provide the regenerated target page when the target resource bit is operated.

11. The method according to any one of claims 1 to 8, wherein before determining the first data object currently released in the target resource slot and determining the target aggregation mode information corresponding to the first data object from the data object aggregation mode information, further comprising:

and when the target resource position is operated, triggering and executing the step of determining the first data object currently released in the target resource position and the corresponding target aggregation mode information.

12. The method according to any one of claims 1 to 8, wherein the pre-saving of the data object aggregation mode information configured for resource bits in the page includes:

providing a resource bit list to be configured in a page;

when one resource bit is selected, providing a configuration interface, wherein the configuration interface comprises an operation option for configuring the aggregation mode information;

receiving aggregation mode information through the operation options;

and storing the corresponding relation between the resource bit and the aggregation mode information.

13. A page resource bit information processing method is characterized by comprising the following steps:

a client displays a page provided by a server, wherein the page comprises a resource bit;

when the target resource bit is operated, submitting an operation request to a server so that the server provides a target page, wherein the target page is generated by the following method: determining a first data object currently launched by the target resource position and corresponding target aggregation mode information, generating a target page according to the first data object and the target aggregation mode information, and determining the target page as a detail page of the target resource position, wherein the target page comprises a plurality of second data objects related to the first data object;

and receiving and displaying the target page provided by the server.

14. A page resource bit information processing method is characterized by comprising the following steps:

providing a resource bit list to be configured in a page;

when one resource bit is selected, providing a configuration interface, wherein the configuration interface comprises an operation option for configuring the aggregation mode information;

receiving aggregation mode information through the operation options;

and saving the corresponding relation between the resource bit and the aggregation mode information so as to dynamically generate a detail page of the target resource bit by using the first data object and the aggregation mode information.

15. The method of claim 14, further comprising:

determining a first data object currently put in a target resource position and corresponding target aggregation mode information;

generating a target page according to the first data object and the target aggregation mode information, wherein the target page comprises a plurality of second data objects related to the first data object;

and determining the target page as a detail page of the target resource bit so as to provide the target page when the target resource bit is operated.

16. A page resource bit information processing apparatus, comprising:

the device comprises a storage unit, a processing unit and a processing unit, wherein the storage unit is used for storing data object aggregation mode information in advance, and the data object aggregation mode information is configured for resource bits in a page;

the information determining unit is used for determining a first data object currently released in a target resource position and determining target aggregation mode information corresponding to the first data object from the data object aggregation mode information;

a page generating unit, configured to generate a target page according to the first data object and the target aggregation manner information, where the target page includes a plurality of second data objects associated with the first data object;

a detail page determining unit, configured to determine the target page as a detail page of the target resource bit, so as to provide the target page when the target resource bit is operated.

17. A page resource bit information processing device applied to a client comprises:

the page display unit is used for displaying a page provided by the server, and the page comprises a resource bit;

an operation request submitting unit, configured to submit an operation request to a server when a target resource bit is operated, so that the server provides a target page, where the target page is generated by: determining a first data object currently launched by the target resource position and corresponding target aggregation mode information, generating a target page according to the first data object and the target aggregation mode information, and determining the target page as a detail page of the target resource position, wherein the target page comprises a plurality of second data objects related to the first data object;

and the target page display unit is used for receiving and displaying the target page provided by the server.

18. A page resource bit information processing apparatus, comprising:

the resource bit list providing unit is used for providing a resource bit list to be configured in the page;

the configuration interface providing unit is used for providing a configuration interface after one resource bit is selected, and the configuration interface comprises operation options for configuring the aggregation mode information;

the aggregation mode information receiving unit is used for receiving the aggregation mode information through the operation options;

and the saving unit is used for saving the corresponding relation between the resource bit and the aggregation mode information so as to dynamically generate a detail page of the target resource bit by using the first data object and the aggregation mode information.

Images