CN111367514B - Page card development method and device, computing device and storage medium - Google Patents

Abstract

The invention discloses a page card development method and device, computing equipment and storage medium. The development method comprises the following steps: responding to the operation of a user on a visual interface, acquiring one or more effect modules from an effect module library, wherein the effect modules in the effect module library respectively correspond to the types of elements to be presented on a page card and the presentation modes of the elements, and at least one effect module respectively corresponds to at least one field in an entity database; and respectively arranging the acquired one or more effect modules on the card template to obtain a page card style. Therefore, the visual construction of the page card is realized rapidly and simply, and the efficiency of constructing the page card is improved. Furthermore, the scheme can be applied to large-scale development of page cards, and the page development efficiency is greatly improved.

Description

Page card development method and device, computing device and storage medium

Technical Field

The present invention relates to the field of internet technologies, and in particular, to a method and apparatus for developing a page card, a method and apparatus for displaying a search result, a method and apparatus for displaying page content, a computing device, and a storage medium.

Background

With the continuous development of internet information technology, the iteration of Web front-end technology is also changing day by day. At the same time, users have also placed higher demands on the design and functionality of view pages.

The whole development flow of the traditional front-end page needs different developers or development tools to finish respectively: the requirements of newly building or modifying the page card are put forward by a product staff (PM) or an Operator (OM), the page card design diagram is produced by a user experience designer (UE), and the back-end developer (RD), the front-end developer (FE), the PHP developer and the like respectively perform respective work to communicate so as to realize the overall function of the page card. The FE personnel are also required to accurately restore the design drawing, and the PHP personnel are required to align the related data. The whole development flow of the page card based on the development mode is complex, has a large amount of low-added-value work and poor reusability, and seriously affects the development efficiency of the page card.

Thus, there remains a need for an efficient and convenient page card development scheme.

Disclosure of Invention

The purpose of the present disclosure is to provide a method and an apparatus for developing a page card with high efficiency, high speed and convenience, so that a relevant user on a visual interface side can develop a page card more conforming to the expectations of relevant businesses with high efficiency, reduce the manpower communication cost and the time cost, and improve the development efficiency of the page card.

According to a first aspect of the present disclosure, there is provided a method of developing a page card, including: responding to the operation of a user on a visual interface, acquiring one or more effect modules from an effect module library, wherein the effect modules in the effect module library respectively correspond to the types of elements to be presented on a page card and the presentation modes of the elements, and at least one effect module respectively corresponds to at least one field in an entity database; and respectively arranging the acquired one or more effect modules on the card template to obtain a page card style.

Optionally, the method may further include: setting an index item for the page card style; for the at least one effect module, acquiring content data of corresponding fields from the entity database according to the index item; and filling the acquired content data into the setting areas of the corresponding effect modules on the page card style respectively, so as to form the page card.

Optionally, the elements may include functional elements and/or content elements, and the at least one effect module corresponds to content elements to be presented on the page card, respectively.

Optionally, two or more effect modules disposed in the same disposed area of the card template are presented with at least one effect of: a union effect; an intersection effect; and difference set effects.

Optionally, generating one or more page card styles for the same type of entity object; and/or generating page card patterns corresponding to the entity objects respectively aiming at the entity objects of multiple types.

Optionally, the method may further include: and respectively setting corresponding display weights for various page card styles of the same type of entity object, wherein the display weights are used for determining page card styles selected for page display to service users.

Optionally, the method may further include: and modifying or resetting the display weight based on the historical service data of the service user.

Optionally, the method may further include: the library of effect modules is maintained, wherein the library of effect modules includes effect modules of multiple dimensions, each dimension including one or more effect modules.

Optionally, the step of maintaining the effect module library may include: binding and packaging module data corresponding to the preset module style based on the effect module style to obtain one or more effect modules in the effect module library.

Optionally, the module data corresponding to the predetermined module style may include at least one of: a data field for describing a presentation effect of the effect module; data fields for describing one or more visual interface operations; data fields for implementing the functions of the effects module.

Optionally, the operation of the user on the visual interface may include a click operation and/or a drag operation.

Optionally, the user's operation on the visual interface may further include an attribute setting/modifying operation for the one or more obtained effect modules.

Alternatively, the operations may be implemented based on at least one of: a mouse; a keyboard; a touch screen; and speech.

According to a second aspect of the present disclosure, there is also provided a search result presentation method, including: acquiring a query statement input by a service user; determining a page card style suitable for the query statement; generating a search result page card for presenting search results corresponding to the query statement based on the determined page card style; and presenting the search result page card to the business user.

Alternatively, the page card style may be developed based on any of the page card development methods described above.

Optionally, the step of generating a search result page card for presenting search results corresponding to the query statement based on the determined page card style may include: setting an index item for the page card style; aiming at least one effect module in the page card style, which corresponds to at least one field in the entity database, content data of corresponding fields are obtained from the entity database according to the index item; and filling the acquired content data into the setting areas of the corresponding effect modules on the page card style respectively, so as to form the search result card.

Optionally, the query sentence includes a search keyword, where the search keyword corresponds to one type of entity object, multiple page card styles are generated for the one type of entity object, and corresponding presentation weights are set for the multiple page card styles respectively, and the step of determining the page card style that is suitable for the query sentence may include: and determining page card styles suitable for the query sentences based on the presentation weights.

Optionally, the step of determining a page card style suitable for the query statement may include: and determining page card patterns suitable for the query sentences based on the browsing preference of the service users.

According to a third aspect of the present disclosure, there is also provided a page content presentation method, including: determining a page card style suitable for page content to be presented to a user, wherein the page card style is developed based on any one of the page card development methods; generating a page card for presenting the page content based on the determined page card style; and presenting the page card to the business user.

According to a fourth aspect of the present disclosure, there is also provided a development device for a page card, including: the system comprises a module acquisition device, a display device and a display device, wherein the module acquisition device is used for responding to the operation of a user on a visual interface, acquiring one or more effect modules from an effect module library, wherein the effect modules in the effect module library respectively correspond to the types of elements to be presented on a page card and the presentation modes of the elements, and at least one effect module respectively corresponds to at least one field in an entity database; and the card arrangement device is used for respectively arranging the acquired one or more effect modules on the card template to obtain a page card style.

Optionally, the development device may further include: index setting means for setting an index item for the page card style; content data obtaining means for obtaining content data of a corresponding field from the entity database according to the index item for the at least one effect module; and the content data filling device is used for respectively filling the acquired content data into the setting areas of the corresponding effect modules on the page card style, so as to form the page card.

Optionally, the development device may further include: the weight setting device is used for setting corresponding display weights for various page card styles aiming at the same type of entity object respectively, wherein the display weights are used for determining page card styles selected for page display to service users.

Optionally, the development device may further include: and the effect module device is used for maintaining the effect module library, wherein the effect module library comprises effect modules with multiple dimensions, and each dimension comprises one or more effect modules.

According to a fifth aspect of the present disclosure, there is also provided a search result presentation apparatus, including: the input device is used for acquiring query sentences input by the service user; the card style determining device is used for determining a page card style which is suitable for the query statement; page card development means for generating a search result page card for presenting search results corresponding to the query sentence based on the determined page card style; and the page card presenting device is used for presenting the search result page card to the service user.

Alternatively, the page card style may be developed based on any of the page card development methods described above.

Optionally, the page card development device may include: index setting means for setting an index item for the page card style; the content data acquisition device is used for acquiring content data of corresponding fields from the entity database according to the index item aiming at least one effect module in the page card style, wherein the effect module corresponds to at least one field in the entity database; and the content data filling device is used for respectively filling the acquired content data into the setting areas of the corresponding effect modules on the page card style, so as to form the search result card.

Optionally, the query sentence may include a search keyword, where the search keyword corresponds to one type of entity object, multiple page card styles are generated for the one type of entity object, corresponding presentation weights are set for the multiple page card styles respectively, and the card style determining device may be configured to determine a page card style that is suitable for the query sentence based on the presentation weights.

According to a sixth aspect of the present disclosure, there is also provided a page content presentation apparatus, including: a card style determining means for determining a page card style adapted to page content to be presented to a user, wherein the page card style is developed based on any one of the methods described above; page card development means for generating a page card for presenting the page content based on the determined page card style; and the page card presenting device is used for presenting the page card to the business user.

According to a seventh aspect of the present disclosure, there is also provided a computing device, comprising: a processor; and a memory having executable code stored thereon which, when executed by the processor, causes the processor to perform the method of any of the above.

According to an eighth aspect of the present disclosure, there is also provided a non-transitory machine-readable storage medium having stored thereon executable code, which when executed by a processor of an electronic device, causes the processor to perform the method of any of the above.

Therefore, according to the page card development scheme, the visual effect module is provided for the relevant user on the visual interface side, so that the visual construction of the page card can be quickly and simply realized by the relevant user through simple operation on the visual interface side, the manpower communication cost and the time cost are reduced, and the development efficiency of the page card is improved. Further, the page card development scheme can be also used for mass production of page cards, so that the development efficiency of the page cards is greatly improved.

Drawings

The foregoing and other objects, features and advantages of the disclosure will be apparent from the following more particular descriptions of exemplary embodiments of the disclosure as illustrated in the accompanying drawings wherein like reference numbers generally represent like parts throughout exemplary embodiments of the disclosure.

FIG. 1 illustrates a schematic diagram of the development principle of a page card according to one embodiment of the present disclosure.

FIG. 2 illustrates a flow diagram of page card development according to one embodiment of the present disclosure.

FIG. 3 shows a flow diagram of a method of developing a page card according to one embodiment of the present disclosure.

FIG. 4 illustrates a flow diagram of a search result presentation method according to one embodiment of the present disclosure.

Fig. 5 is a schematic block diagram showing the structure of a development device of a page card according to an embodiment of the present disclosure.

Fig. 6 is a schematic block diagram showing the structure of a search result presentation apparatus according to an embodiment of the present disclosure.

FIG. 7 illustrates a schematic diagram of a computing device, according to an embodiment of the invention.

Detailed Description

Preferred embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

[ scheme overview ]

As described above, the current development flow of the page cards is complicated, the whole development of each page card needs to be realized by the cooperation and communication of technicians or non-technicians, and the development efficiency of the page cards is seriously reduced due to a large amount of low-added-value work and poor reusability.

In view of this, the invention provides a development scheme of the page card, which enables related users on the visual interface side to operate only through visual convenience, efficiently builds page card patterns more in line with the expectations of related businesses, reduces manpower communication cost and time cost, and improves the development efficiency of the page card. Furthermore, the development scheme can also realize the mass production of the page cards so as to greatly improve the development efficiency of the page cards.

The development scheme of the page card disclosed by the invention can be applied to pages at the terminal side of the desktop equipment and pages at the terminal side of the portable mobile equipment. Moreover, the development scheme of the page card can be applied to any business scenario, including but not limited to a search engine, an electronic commerce platform, a news information platform and the like, and the present disclosure is not limited thereto.

In the following examples of the disclosure, the effect modules in the maintained effect module library have reusability and can be repeatedly used for building multiple page card patterns so as to display service data corresponding to services thereof to service users in different service scenes based on the corresponding page card patterns.

In the following examples of the present disclosure, when an effect module library is maintained, according to the composition of pages, the effect modules in the effect module library may be established based on multiple dimensions. Based on the complex application of the page card under different service scenes and the function realization thereof, the interactive data and/or the functional data related to the page composition or the page elements can be respectively bound and packaged to realize the effect module. Therefore, the user at the visual interface side can visually build the expected page card style based on the effect modules in the effect module library without communicating with related technicians, so that the communication cost and the time cost can be greatly reduced, and the page card development efficiency is improved.

It should be appreciated that in the examples of this disclosure, "user" includes an effects module and a plurality of developer users involved in the overall development of page cards, which may include, for example, but not limited to, user experience designer (UE), front end developer (FE), back end developer (RD), PHP developer, product Person (PM), operator (OM), etc. The "business users" may then include users for whom the developed page cards are oriented in the actual business scenario, such as search users, online shopping users, news browsing users, and the like.

The development scheme of the page card of the invention is described in detail below with reference to the drawings and the embodiments.

Principle of developing page card

FIG. 1 illustrates a schematic diagram of the development principle of a page card according to one embodiment of the present disclosure.

As shown in fig. 1, based on the differences in the subjects involved in the development of the page card of the present disclosure, it can be largely divided into two ends, such as one side of a user interface (UI as shown in fig. 1) and one side of related Data (Data).

In this context, a User Interface (UI) is a visual Interface described in other examples of the disclosure, and is a medium for interaction and information exchange between a development system and a developer User, so as to implement a conversion between an internal form of information and a human acceptable form.

On this side, a modular/componentized base module style for multiple elements required for page development, such as a frame style, a control style, an element style, a picture style, a sample style, etc., may be designed or produced.

The data may include data fields related to the internal form of the information, for example, data fields for describing presentation effects, data fields for describing interactive operations, data fields for implementing functions, data fields for content data for presentation, and so forth. The related data processing can be performed on the side based on the module style provided by the user interface side, so that the data format of the related data can keep a one-to-one unified mode with the effect modules.

Therefore, the related development paradigm of the present disclosure can be obtained by binding the patterns and related data, and the invisible data format is displayed in the form of an explicit and visual effect module/component, so that a user (such as UE, PM, OM, etc. as described above) of a related developer on the user interface side can directly operate the visual effect module to build a page card pattern more conforming to the related business expectations, which not only can reduce the manpower communication cost, but also can make the building of the page card pattern faster and simpler and greatly reduce the time cost.

Further, based on the effect module and/or the page card style and the data format corresponding to the effect module, the large-scale production of the page card can be performed for different types of entity objects or for the same type of entity objects based on different page card styles, so that the development efficiency of the page card is greatly improved.

FIG. 2 illustrates a flow diagram of page card development according to one embodiment of the present disclosure.

As shown in fig. 2, as an example of the present disclosure, developer users involved in the development flow of the page card may include, for example, UE, PM, and OM on the user interface side, and may also include FE, PHP, and RD on the data side.

The user interface side may, for example, provide, by the UE, an effect module style required for developing the page card, may include a commonly used usage style, may include a specific usage style, and may include a custom extension to the effect module style. The user interface side may also provide, for example, a design drawing of a page card style, etc.

The data side can provide data related to the effect module style, process the related data and bind the related data so as to obtain a plurality of effect modules capable of being used for developing page cards, and maintain a corresponding effect module library.

Among other things, front-end code development associated with the effects module, including basic HTML and CSS, javaScript/ajax, etc., may be implemented by front-end personnel FE, for example.

The relevant data needed for realizing the functions of the effect module may be provided by the back-end developer RD, for example, it may comprise background programming, database design, dynamic code writing, etc., and may also comprise other data related to how the functions are realized, the access of the data, the stability and performance of the platform, etc., such as the flow, business logic, status and/or business or rules, etc. of interacting with the database to handle the corresponding business. In a preferred example, the related data may be in XML document format to facilitate data transmission between the client and server sides.

As one example of the present disclosure, PHP (PHP: hypertext Preprocessor, hypertext preprocessor) technology may be employed to pre-bind and package the above-described related data to obtain one or more effect modules in the maintained library of effect modules.

The effect modules are independent of each other and have certain business logic, when a relevant user (such as UE, PM, OM and the like shown in fig. 2) on the visual interface side needs to develop a new page card style, the visual operation (such as clicking, dragging and the like) on the visual interface side can be directly performed on a plurality of effect modules required for constructing the page card style, so as to obtain the new page card style.

Therefore, the user on the user interface side can visually build the page card style which meets the expectations of related businesses without communicating with the data side technician for many times, the page card style development flow is quicker and simpler, the manpower communication cost and the time cost are reduced, and the development efficiency of the page card style development is greatly improved.

When the user at the user interface side (including UE, PM, OM, etc.) has a need for modifying the developed page style, it may also directly perform corresponding operations (such as clicking, dragging, modifying attributes, replacing modules, etc.) on the relevant effect modules in the original page card style at the visual interface side, so as to modify or update the original page card style. Therefore, a plurality of low-added-value works can be avoided to a great extent, and the maintenance efficiency of the page card style is improved.

As an example of the present disclosure, index items may be set for the developed page card style, and the front-end or back-end data and the data format of the effect module may have a one-to-one unified mode. Therefore, for a plurality of entity objects of the same type, the development of a plurality of page cards respectively corresponding to the plurality of entity objects can be rapidly realized based on one page card style, so that the large-scale production of the page cards can be realized, and more entity object cards can be provided for business users with lower development cost.

In the following examples, the development scheme of the page card of the present disclosure will be described in detail step by step from three aspects of maintaining an effect module library, building page card patterns, and developing page cards.

Maintenance effects module library

The effects module, which may also be referred to as a page component, is a modular implementation of the various elements required by the user to build the page card style. The effect module style may correspond to a presentation effect corresponding to an element to be presented on the page card.

The effects module library may include multiple dimensions of effects modules, each of which may include one or more effects modules corresponding to different states, different business logic, different business rules, different style effects, and so on. And the effect modules in the maintained effect module library have reusability and can be repeatedly used for building various page card patterns so as to display service data corresponding to the service user based on the corresponding page card patterns in different service scenes.

As one example, the plurality of dimensions may include, for example, a framework dimension, a control dimension, an element dimension, and/or a sample library dimension.

Specifically, the frame dimension and its corresponding effects module may include, for example, pre-construction of effects based on frame effects of page card style, such as natural results, system recommendations, collapsed state, expanded state, MAX state, and so on.

The control dimensions and their corresponding effects modules may include, for example, effect pre-construction based on control effects that make up a page card style, such as a subtitle style, a picture style, a tab style, a selector style, a property style, and so on.

The element dimension and its corresponding effect module may include, for example, effect pre-construction from the effect of the elements that make up the page card style, such as color, text, lines, projections, and so on.

The sample library dimension and its corresponding effects module may include, for example, pre-building effects according to more discrete samples available in the component page card style, such as a graph sample, a status bar sample, a load status style, and so on.

The maintenance of the library of effect modules may include an initial set up of the library of effect modules, and may also include a subsequent maintenance of the library of effect modules.

When the effect module library is initially established, each effect module can be realized in advance based on a common use pattern of the page card in the past. Then, in the use process, along with the change of the service environment, the increase of information or the change of the user experience requirement, the module effect in the module effect library can be added, modified or deleted so as to enrich or update the module effect library. The method is particularly low, and the module can be customized and expanded based on the initial effect module library according to the service requirement, so that the effect module library is gradually enriched in the development situation of a tree structure.

When the effect module library is built or maintained, module data corresponding to the effect module style can be bound and packaged based on the preset effect module style, so that one or more effect modules in the effect module library are obtained, and therefore a hidden (namely, invisible at the visual interface side) data format is displayed in a dominant (namely, visible at the visual interface side) style.

The predetermined effect module style may include a usage style commonly used in the history page display, a new style designed by a related designer, and a specific style designed for a specific scene/user.

The module data corresponding to the effect module style may include data related to the effect or function thereof in which the effect module is implemented and may be provided by a related person on the data side as described above.

For example, the module data described above may include, but is not limited to, data fields for describing the presentation effect of the effects module; data fields for describing one or more visual interface operations; and data fields (e.g., procedures, business logic, status, and/or business rules, etc. related to interacting with a database to perform related processing) for implementing the functionality of the effects module (on the page card style on which it is built). As a preferred example, the module data may also include data fields of content data that can be presented at the corresponding effects module, which is not limiting of the present disclosure.

Wherein, the module style of the effect module and the data format of the module data preferably keep a one-to-one unified mode. The data fields required by the module can be standardized based on the design of the effect module style, so that the design style and the data format keep the same mode corresponding to each other one by one.

As one example of the present disclosure, the above data may be bound and packaged based on PHP to obtain one or more effect modules in the effect module library of the present disclosure. And, the related interfaces of the attribute setting/modification can also be used for enabling the related users at the user interface side to set or modify the attribute of the effect module in the effect module library. Specific implementation of this technology can be found in the related PHP technology, and this disclosure is not repeated here.

It should be appreciated that when maintaining a plurality of effect modules in the effect module library, their respective module data is not exactly the same, depending on the different types of elements corresponding to the effect modules. For example, for a functional element (e.g., a frame or control, etc.), the data fields described above for describing an effect, operation, or function may be bound thereto. For content elements (e.g., search boxes, title boxes, text content boxes, etc.), then data fields for content data that can be presented at the corresponding effects module can also be bound for.

The maintained library of effects modules may be stored at the server side and may interface with the page card development platform at the client side via a related interface such that a user at the page card development platform side may operate and/or control the effects module via a visual interface.

In the case that the client side and the server side adopt the same architecture (the same language or technical stack), the effect module can be directly displayed in the form of a visual component on the visual interface side. Under the condition that the client side and the server side are heterogeneous, namely adopt different architectures (different languages or technical stacks), the acquired effect modules can be translated at the client side so as to be converted into visual components which can be visually presented at the client side, so that a user at a visual interface side can accurately operate and control the components, and visual construction of page card styles is realized.

Therefore, the data are bound in advance to realize a plurality of effect modules in the effect module library, and the pre-maintained visualization modules/components are provided for related users (such as UE, PM, OM and the like) at the visualization interface side, so that the users can build page card patterns more in line with related services and the page card patterns through autonomous operation of the users at the visualization interface side without communicating with other people, thereby reducing the labor communication cost and the time cost and providing good support for improving the development efficiency of the page card.

Development of page card styles

FIG. 3 shows a flow diagram of a method of developing a page card according to one embodiment of the present disclosure. The method can be implemented on a client side, namely a visual interface side, and the maintained effect module library can be on a server side.

As shown in fig. 3, at step S310, one or more effect modules are obtained from the library of effect modules in response to a user operation on the visual interface. Thereafter, in step S320, the obtained one or more effect modules are respectively arranged on the card templates to obtain a page card style. The built page card style can be used as a basic page card style used when corresponding service data is presented to a service user in a page form.

Wherein the library of effect modules may be maintained in advance based on presentation styles of multiple elements required for page card development, may include effect modules of multiple dimensions, each dimension may include one or more effect modules. The effect modules in the effect module library may correspond to the types of elements to be presented on the page card and the manner in which they are presented, respectively, including, but not limited to, a frame module, an element module, a text module, a picture module, a control module, and the like. The maintenance of the library of effect modules may be found in the relevant description above and will not be described in detail here.

The effect module can be displayed in a visual component mode on the visual interface side, and a user can operate the visual component in a plurality of simple operation modes to obtain a corresponding page card style.

As one example of the present disclosure, the user's operation on the visual interface may include at least a click operation and/or a drag operation. And, the operation may be achieved by at least one of: mouse, keyboard, touch screen, and voice.

When a user uses a mouse to operate, the mouse can be set for each effect module in a dragging mode, a single click mode, a double click mode, a multi-click mode and the like. In this case, different operating behaviors can also be produced by the effect module by means of different operating gestures.

For example, when the user clicks on an effect module with a mouse, the effect module is temporarily bound to the mouse arrow and is movable with the movement of the mouse arrow, and when the effect module is moved to an appropriate position of the card template to click on the effect module again, the effect module is placed in the current setting area.

For another example, when the user double-clicks the effect module through the mouse, the effect module performs a zoom-in operation around its center, and when the user double-clicks the effect module again through the mouse, the zoom-in operation is stopped.

The operation mode of the touch screen is similar to the operation mode of the mouse, when the user uses the operation mode of the touch screen, the user can set each effect module by touching the display screen, and the specific implementation of the touch screen can be seen in the above related description of the operation mode of the mouse, and the detailed description is omitted here.

When the user uses the voice control operation mode, the user can make different effect modules generate different operation behaviors through simple voice control instructions, such as a voice instruction of moving xx modules to (X, Y) positions, so as to obtain corresponding page card styles.

Therefore, different operation modes are used for enabling the effect module to generate different operation behaviors, and the purpose of visually building the page card style is achieved.

After the user sees the visual components corresponding to the effect modules at the visual interface side, the user can select the visual components of one or more effect modules according to related business requirements or a pre-designed page card style design drawing through operation modes such as single click, double click, multiple click and the like, and drag the selected components to drag the components on the card template to build the required page card style. The method comprises the steps of selecting and dragging a required effect module each time, or selecting a plurality of required effect modules in batches, and dragging the selected effect modules to a card template successively, so that the effect modules are combined on the card template to obtain a required page card style.

Therefore, the user can build the page card style more in line with related business and the page card style by the autonomous operation of the user on the visual interface side without communicating with other people by providing the visual module/assembly maintained in advance for the user on the visual interface side, thereby reducing the manual communication cost and the time cost and providing good support for improving the development efficiency of the page card.

As an example of the present disclosure, the client side or the server side may be based on the same architecture or may be based on different architectures. Under the condition that the client side and the server side adopt the same architecture (same language or technical stack), the effect module can be directly displayed in a visual component mode on the visual interface side. Under the condition that the client side and the server side are heterogeneous, namely adopt different architectures (different languages or technical stacks), the acquired effect modules can be translated at the client side so as to be converted into visual components which can be visually presented at the client side, and therefore accurate operation control is conveniently carried out on the components by a user at the visual interface side, and visual construction of page card styles is realized. It should be appreciated that in the disclosed examples, a user's operation of a visualization component at a visualization interface may be considered as his operation of the corresponding effects module.

Based on the constitution of the page card patterns, two or more effect modules may exist in the same setting area of the card template, and according to the building requirements of different page card patterns, the effect modules can present different effects on the card template to obtain the corresponding page card patterns.

As one example of the present disclosure, two or more effect modules provided in the same setting area of a card template may be presented with at least one effect of: union effects, intersection effects, and difference effects. The union effect may be, for example, displayed for all of the plurality of effect modules. The intersection effect can be, for example, displayed according to the intersection part of the effect modules for the display positions of the effect modules on the card template. The difference effect may be, for example, displayed according to the difference portion of the effect modules, with respect to the display positions of the effect modules on the card template.

In addition, when the page card style is built, on the visual interface side, the attribute of the selected effect module can be set or modified through the attribute setting/modifying operation for the obtained one or more effect modules, so that the built page card style is more in line with the related business expectations.

In a specific application, the implementation flow of the overall construction of the page card style is not limited by the present disclosure. As an example, on the visual interface side, for each required effect module, the overall development flow of one effect module required for building the page card style is realized step by step through clicking the effect module, dragging the effect module, arranging the effect module on the card template, setting/modifying the attribute of the effect module, and the like.

Further, the elements may include functional elements and/or content elements based on the differences in the roles that the page elements play in the page card. The functional elements may include elements that can function in the page, for example, some frame elements, control elements, and the like. The content elements may include elements in the page that are related to the text content, for example, some title boxes, subtitle boxes, text content boxes, search boxes, and so forth.

At least one effect module in the library of effect modules may correspond to content elements to be presented on the page card, respectively, and to at least one field in the entity database, respectively. Therefore, when the page card style built based on the effect modules is used for displaying the page to the service user, the content data corresponding to the corresponding fields can be acquired based on the corresponding fields in the entity database corresponding to the effect modules, and the acquired content data are respectively filled into the setting areas of the corresponding effect modules on the page card style, so that the page of the related service data is displayed to the service user.

As one example of the present disclosure, index items (e.g., titles, subtitles, etc.) may be set for the page card styles described above. When the page card style is used for displaying the page to the service user, based on the fields corresponding to the index items, structured content data related to the service are obtained, and based on the fields respectively corresponding to the corresponding effect modules on the page card style, the content data respectively corresponding to the relevant fields in the obtained structured content data are filled into the setting areas of the corresponding effect modules on the page card style, so that the page displaying of the related service data is performed to the service user.

Therefore, based on the field corresponding to the effect module corresponding to the content element on the page card style, the page display of relevant service data to the service user can be realized rapidly.

As one example of the present disclosure, the page card style described above may be generated for physical object (e.g., character, plant, animal, etc.) construction. For multiple types of entity objects, page card styles corresponding to the entity objects can be generated respectively. And, one or more page card styles may be generated for the same type of physical object. The effect modules included in different types of page card styles may or may not be identical.

Therefore, by building multiple page card patterns aiming at multiple types of entity objects, richer page card patterns are provided for service users, page presentation can be carried out on the service users based on the page card patterns which are more interested by the service users, and user experience is improved.

As an example of the present disclosure, corresponding presentation weights may also be set for multiple page card styles for the same type of entity object, respectively, and the presentation weights may be used to determine a page card style selected for page presentation to a business user. For the same type of entity object, the page card style with the largest display weight value can be selected for page display.

Taking a search engine service scene as an example, ten different page card patterns are built aiming at 'star characters', and the ten page card patterns are respectively and correspondingly provided with presentation weights of 0.95, 0.90, 0.85, 0.80, 0.75, 0.70, 0.65, 0.60, 0.55 and 0.50. When a service user sends out a search aiming at 'Liu Dehua', the entity type of 'Liu Dehua' is determined to be 'star character', and the first page card style with the maximum display weight value of 0.95 is used as a basic page card style for displaying the search result to the service user based on the display weights respectively corresponding to the ten page card styles corresponding to the 'star character', so that page display is performed to the service user.

It should be appreciated that the above example is merely illustrative of one example of setting presentation weights for page card styles of the present disclosure for selective application in a related business scenario, and is not intended to be limiting of any of the present disclosure.

And the display weight initially set for the page card style can be modified or reset based on the historical service data of the service user, so that the page card style which better accords with the service environment and the interest of the service user can be selected for the service user according to the change of the service environment or the interest change of the service user, and the user experience is improved. In some cases, the established page card style may be modified or a new page card style may be established based on the historical service data of the service user, so as to adapt to the change of the service environment or the interest change of the service user.

Therefore, through the visual page card style construction scheme, in the development flow of the page card style, the manpower communication cost between different developer users can be reduced, so that the page card style more in line with related business and the page card style can be constructed more quickly and conveniently. In addition, when the related user on the visual interface side has new or improved requirements on the page card style, the related user does not need to communicate with the technician again, and the related page card style can be built or modified on the user interface side autonomously, so that the time cost is greatly reduced. Further, good support can be provided for the development of the page card aiming at the entity object, so that the development efficiency of the page card is greatly improved.

Development of page cards

As one example of the present disclosure, page cards for different physical objects may be developed based on page card styles as set forth above.

In which at least one effect module in the library of effect modules may correspond to at least one field in the entity database, respectively, the at least one effect module may correspond to a content element to be presented on the page card, respectively. Thus, page card styles built based on these effect modules can be correlated with entity objects in the entity database to develop page cards for different entity objects.

The association of page card styles with entity objects in the entity database may be one-touch.

As an example of the present disclosure, an index item may be set for a page card style, and for the at least one effect module (i.e., an effect module corresponding to a content element), content data of a corresponding field may be acquired from an entity database according to the index item, and the acquired content data may be filled into a setting area of the corresponding effect module on the page card style, thereby forming the page card.

The effect module used for building the page card style can keep a uniform mode corresponding to the data format of the entity data in the entity database, and the content data in the entity database is preferably structured data. Therefore, the required content data can be quickly acquired based on the corresponding fields in the effect module and the entity database, and the acquired content data is quickly filled into the setting area of the corresponding effect module on the page card, so that the page card is formed.

The index item may be, for example, a data field corresponding to a title or a subtitle in the page card style, a name (or other identifier) of a specific entity object that is named and stored, or other index items with an index function, which is not limited in this disclosure.

The page card style and the entity object can be associated and bound based on the index item, so that a page card corresponding to the entity is formed.

For example, the index entry may be a field for "person name", for example. For the "person name" field, an entity object related to the "person name" may be determined from an entity database, and based on the entity object, content data of corresponding fields corresponding to other content elements in the page card style may be acquired from the entity database, and the acquired content data may be respectively filled into setting areas of corresponding effect modules on the page card style, so as to form the page card described above.

Thus, based on a page card style, the entity object corresponding to the page card style in the entity database can be associated with the page card style to obtain the page card for the entity object.

It should be understood that the above-described index entries, the data fields corresponding to the index entries, and the types of entity objects, etc. are all illustrative and not intended to be limiting of the present disclosure. In other examples of the present disclosure, the entity object may be a plant, an animal, or other entities, and the data field corresponding to the index item may be a field with finer granularity, such as "plant name", "animal name", or family/order to which the plant/animal belongs, which is not limited in this disclosure.

Further, based on the fact that the built page card style is respectively associated with the related data of the plurality of entity objects of the same type, large-scale production of the plurality of page cards corresponding to the plurality of entity objects can be achieved, and development efficiency of the page cards is improved.

Furthermore, based on the generated one or more page card styles aiming at the same type of entity object or the page card styles corresponding to the plurality of types of entity objects, the generation scale of the page card can be further enlarged, so that the development efficiency of the page card is greatly improved with minimum cost.

Presentation of page content

Through the development scheme of the page card, page card patterns suitable for any business scene or page cards aiming at various entity objects can be developed, including but not limited to search engines, e-commerce platforms, news information platforms and the like, and the disclosure is not limited to the above. Under different service scenes, various page card styles can be built in advance, and page display is carried out to service users in practical application,

As one example of the present disclosure, a variety of page card styles may be developed and stored through a page card development scheme as described above.

In a particular business scenario, a page card style that is appropriate for the page content to be presented to the business user may be first determined. Thereafter, a page card for presenting the page content is generated based on the determined page card style. And finally, presenting the page card to the business user. Therefore, the corresponding content is displayed to the business user in the form of the page card.

Under the scene of the search engine, the search result can be displayed correspondingly.

FIG. 4 illustrates a flow diagram of a search result presentation method according to one embodiment of the present disclosure.

As shown in fig. 4, in step S410, a query sentence input by a service user is acquired.

In step S420, a page card style that is compatible with the query statement is determined.

In step S430, a search result page card for presenting search results corresponding to the query statement is generated based on the determined page card style.

At step S440, the search results page card is presented to the business user.

The service user is the searching user, and the query statement is the searching text or the searching voice input by the searching user.

The page card style may be a variety of page card styles developed based on the page card development scheme as described above. The page card style adapted to the query statement may be a page card style adapted to present its search results to the search service and corresponding to the query statement.

The query sentence may include a search keyword, which may correspond to one type of entity object, for which a plurality of page card styles are generated, and for which corresponding presentation weights are set, respectively.

As one example of the present disclosure, at step S420, a page card style appropriate for the query statement may be determined based on the presentation weight. For example, among the plurality of page card styles corresponding to the entity types corresponding to the search keyword, the page card style in which the maximum presentation weight data is set.

When the search result card is generated, the determined search result card style and the search result data corresponding to the query statement can be associated to obtain the search result card.

Specifically, in step S430, an index item may be set for the page card style; aiming at least one effect module in the page card style, which corresponds to at least one field in the entity database, content data of corresponding fields are obtained from the entity database according to the index item; and then, respectively filling the acquired content data into the setting areas of the corresponding effect modules on the page card style, thereby forming the search result card.

In addition, the search user may also personalize his search/browse preferences. As another example of the present disclosure, a page card style appropriate for the query statement may be determined based on the search/browse preferences of the business user at step S420.

Wherein user interest tags may be associated in advance for page card styles. In step S420, first, the interest tags of the service user are acquired, then the interest tags are respectively compared and matched with the user interest tags associated with the page card patterns, and one successfully matched page card pattern is determined as the page card pattern suitable for the query statement. In the case where there are two or more page card patterns in which the interest tags are successfully matched, a page card pattern may be determined in a random manner as a page card pattern that is compatible with the query statement.

Thus far, one example of an application of a page card based on the development scheme of the page card of the present disclosure has been described in connection with the presentation of search result cards in a search engine business scenario. Specific implementations of the development of page cards may be found in the following description of the present disclosure, and are not described herein.

Therefore, by providing the visual effect module library and the visual construction scheme of the page card patterns, under the condition that the requirement of newly building or modifying the page card patterns exists, the visual construction or modification of various page card patterns can be realized by the related user on the visual interface side through simple operation of the effect module, the page card patterns which are more in line with the expectations of related businesses are constructed efficiently, and the construction process of the page card patterns is faster and simpler without the need of communicating with other people for many times as the development process of the traditional page card patterns. Based on the built page card style, the large-scale production of a plurality of page cards aiming at a plurality of entity objects can be realized, the time cost and the labor cost are greatly reduced, and the development efficiency of the page cards is remarkably improved.

[ device ]

Fig. 5 is a schematic block diagram showing the structure of a development device of a page card according to an embodiment of the present disclosure. Fig. 6 is a schematic block diagram showing the structure of a search result presentation apparatus according to an embodiment of the present disclosure. Wherein the functional modules of the apparatus may be implemented by hardware, software, or a combination of hardware and software that implements the principles of the invention. Those skilled in the art will appreciate that the functional modules depicted in fig. 5 may be combined or divided into sub-modules to implement the principles of the invention described above. Accordingly, the description herein may support any possible combination, or division, or even further definition of the functional modules described herein.

The following is a brief description of the functional modules that the apparatus may have and the operations that each functional module may perform, and details related thereto may be referred to the above related description, which is not repeated herein.

As shown in fig. 5, the page card development device 500 of the present disclosure may include a module acquisition device 510 and a card arrangement device 520.

The module obtaining device 510 may obtain, in response to an operation of the user on the visual interface, one or more effect modules from an effect module library, where the effect modules in the effect module library respectively correspond to types of elements to be presented on the page card and presentation manners thereof, and at least one effect module respectively corresponds to at least one field in the entity database.

The card placement device 520 may place the acquired one or more effect modules on the card template, respectively, to obtain a page card style.

As an example of the present disclosure, the development device 500 may further include an index setting device, a content data acquisition device, and a content data population device (not shown in the figure).

The index setting means may set an index item for the page card style.

The content data obtaining means may obtain, for the at least one effect module, content data of a corresponding field from the entity database according to the index item.

The content data filling device can respectively fill the acquired content data into the setting areas of the corresponding effect modules on the page card style, so as to form the page card.

As an example of the present disclosure, the developing apparatus 500 may further include a weight setting apparatus (not shown in the drawing).

The weight setting device may set corresponding presentation weights for a plurality of page card styles for the same type of entity object, respectively. The display weight is used for determining a page card style selected for page display to the service user.

As an example of the present disclosure, the development device 500 may further include an effect module device (not shown in the drawings). The effect module device is used for maintaining the effect module library. Wherein the library of effect modules comprises effect modules of multiple dimensions, each dimension comprising one or more effect modules.

As shown in fig. 6, the search result presentation apparatus 600 of the present disclosure may include an input apparatus 610, a card style determination apparatus 620, a page card development apparatus 630, and a page card presentation apparatus 640.

The input device 610 may obtain a query statement entered by a business user.

The card style determination means 620 may determine a page card style that is appropriate for the query statement. The page card style can be developed based on the page card development method.

The page card development device 630 may generate a search result page card for presenting search results corresponding to the query statement based on the determined page card style; and

the page card presentation means 640 may present the search results page card to the business user.

The page card development device 630 includes: index setting means, content data acquisition means, and content data filling means (not shown in the figure).

The index setting means may set an index item for the page card style.

The content data obtaining device may obtain, for at least one effect module in the page card style, content data of a corresponding field from the entity database according to the index item, where the effect module corresponds to at least one field in the entity database.

The content data filling device can fill the acquired content data into the setting areas of the corresponding effect modules on the page card style respectively, so that the search result card is formed.

As an example of the present disclosure, the query sentence may include a search keyword, which may correspond to one type of entity object, for which a plurality of page card styles are generated, and for which corresponding presentation weights are set, respectively. The card style determining device may determine a page card style suitable for the query statement based on the presentation weight.

In other business scenarios, the corresponding page content presentation device may also include a card style determination device, a page card development device, and a page card presentation device.

The card style determination means may determine a page card style that is appropriate for the page content to be presented to the user.

The page card development device may generate a page card for presenting the page content based on the determined page card style.

The page card presentation device may present the page card to the business user.

The implementation of the functions of the above devices is the same as or similar to that of the corresponding methods, and specific reference may be made to the above related description, which is not repeated here.

FIG. 7 illustrates a schematic diagram of a computing device, according to an embodiment of the invention.

Referring to fig. 7, a computing device 700 includes a memory 710 and a processor 720.

Processor 720 may be a multi-core processor or may include multiple processors. In some embodiments, processor 720 may include a general-purpose host processor and one or more special coprocessors such as, for example, a Graphics Processor (GPU), a Digital Signal Processor (DSP), etc. In some embodiments, processor 720 may be implemented using custom circuitry, for example, an application specific integrated circuit (ASIC, application Specific Integrated Circuit) or a field programmable gate array (FPGA, field Programmable Gate Arrays).

Memory 710 may include various types of storage units, such as system memory, read Only Memory (ROM), and persistent storage. Where the ROM may store static data or instructions that are required by the processor 720 or other modules of the computer. The persistent storage may be a readable and writable storage. The persistent storage may be a non-volatile memory device that does not lose stored instructions and data even after the computer is powered down. In some embodiments, the persistent storage device employs a mass storage device (e.g., magnetic or optical disk, flash memory) as the persistent storage device. In other embodiments, the persistent storage may be a removable storage device (e.g., diskette, optical drive). The system memory may be a read-write memory device or a volatile read-write memory device, such as dynamic random access memory. The system memory may store instructions and data that are required by some or all of the processors at runtime. Furthermore, memory 710 may include any combination of computer-readable storage media including various types of semiconductor memory chips (DRAM, SRAM, SDRAM, flash memory, programmable read-only memory), magnetic disks, and/or optical disks may also be employed. In some embodiments, memory 710 may include readable and/or writable removable storage devices such as Compact Discs (CDs), digital versatile discs (e.g., DVD-ROMs, dual layer DVD-ROMs), blu-ray discs read only, super-density discs, flash memory cards (e.g., SD cards, min SD cards, micro-SD cards, etc.), magnetic floppy disks, and the like. The computer readable storage medium does not contain a carrier wave or an instantaneous electronic signal transmitted by wireless or wired transmission.

The memory 710 has stored thereon a processable code which, when processed by the processor 720, causes the processor 720 to perform the methods described above.

The page card development method and apparatus according to the present invention have been described in detail above with reference to the accompanying drawings.

Furthermore, the method according to the invention may also be implemented as a computer program or computer program product comprising computer program code instructions for performing the steps defined in the above-mentioned method of the invention.

Alternatively, the invention may also be embodied as a non-transitory machine-readable storage medium (or computer-readable storage medium, or machine-readable storage medium) having stored thereon executable code (or a computer program, or computer instruction code) which, when executed by a processor of an electronic device (or computing device, server, etc.), causes the processor to perform the steps of the above-described method according to the invention.

Those of skill would further appreciate that the various illustrative logical blocks, modules, circuits, and algorithm steps described in connection with the disclosure herein may be implemented as electronic hardware, computer software, or combinations of both.

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems and methods according to various embodiments of the present invention. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The foregoing description of embodiments of the invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the improvement of technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (25)

1. A method of developing a page card, comprising:

responding to the operation of a user on a visual interface, acquiring one or more effect modules from an effect module library, wherein the effect modules in the effect module library respectively correspond to the types of elements to be presented on a page card and the presentation modes of the elements, and at least one effect module respectively corresponds to at least one field in an entity database;

arranging the obtained one or more effect modules on the card template respectively to obtain a page card style;

setting corresponding showing weights for various page card styles of the same type of entity object respectively, wherein the showing weights are used for determining page card styles selected for page showing to a service user; and

and modifying or resetting the display weight based on the historical service data of the service user.

2. The method as recited in claim 1, further comprising:

setting an index item for the page card style;

for the at least one effect module, acquiring content data of corresponding fields from the entity database according to the index item;

And filling the acquired content data into the setting areas of the corresponding effect modules on the page card style respectively, so as to form the page card.

3. The method according to claim 1, wherein the elements comprise functional elements and/or content elements, and the at least one effect module corresponds to content elements to be presented on a page card, respectively.

4. The method of claim 1, wherein two or more effect modules disposed in a same disposed area of the card template are presented with at least one effect of:

a union effect;

an intersection effect;

the difference effects.

5. The method of claim 1, wherein the step of determining the position of the substrate comprises,

generating one or more page card styles for the same type of entity object; and/or

And respectively generating page card styles corresponding to the entity objects aiming at the entity objects of multiple types.

6. The method as recited in claim 1, further comprising:

the library of effect modules is maintained and,

wherein the library of effect modules comprises effect modules of multiple dimensions, each dimension comprising one or more effect modules.

7. The method of claim 6, wherein the step of maintaining a library of effects modules comprises:

based on the effect module style, binding and packaging module data corresponding to the preset module style to obtain one or more effect modules in the effect module library.

8. The method of claim 7, wherein the module data corresponding to the predetermined module pattern comprises at least one of:

a data field for describing a presentation effect of the effect module;

data fields for describing one or more visual interface operations;

data fields for implementing the functions of the effects module.

9. The method of claim 1, wherein the user operation on the visual interface comprises a click operation and/or a drag operation.

10. The method of claim 9, wherein the user's operation on the visualization interface further comprises an attribute setup/modification operation for the one or more effect modules acquired.

11. The method of claim 9 or 10, wherein the operation is based on at least one of: a mouse; a keyboard; a touch screen; and speech.

12. A search result presentation method, comprising:

acquiring a query statement input by a service user;

determining a page card style suitable for the query statement;

generating a search result page card for presenting search results corresponding to the query statement based on the determined page card style; and

presenting the search results page card to the business user, the page card style developed based on the method of any one of claims 1-11.

13. The method of claim 12, wherein the step of generating a search results page card for presenting search results corresponding to the query statement based on the determined page card style comprises:

setting an index item for the page card style;

aiming at least one effect module in the page card style, which corresponds to at least one field in the entity database, content data of corresponding fields are obtained from the entity database according to the index item;

and filling the acquired content data into the setting areas of the corresponding effect modules on the page card style respectively, so as to form the search result card.

14. The method of claim 12, wherein the query term includes a search keyword, the search keyword corresponding to one type of entity object, a plurality of page card styles are generated for the one type of entity object, corresponding presentation weights are set for the plurality of page card styles, respectively,

the step of determining the page card style suitable for the query statement comprises the following steps:

and determining page card styles suitable for the query sentences based on the presentation weights.

15. The method of claim 12, wherein the step of determining a page card style that is compatible with the query statement comprises:

and determining page card patterns suitable for the query sentences based on the browsing preference of the service users.

16. A method for displaying page content, comprising:

determining a page card style adapted to the page content to be presented to the user, wherein the page card style is developed based on the method according to any one of claims 1-11;

generating a page card for presenting the page content based on the determined page card style; and

And presenting the page card to the service user.

17. A page card development device, comprising:

the system comprises a module acquisition device, a display device and a display device, wherein the module acquisition device is used for responding to the operation of a user on a visual interface, acquiring one or more effect modules from an effect module library, wherein the effect modules in the effect module library respectively correspond to the types of elements to be presented on a page card and the presentation modes of the elements, and at least one effect module respectively corresponds to at least one field in an entity database;

the card arrangement device is used for respectively arranging the acquired one or more effect modules on the card template to obtain a page card style;

a weight setting device for setting corresponding display weights for various page card styles of the same type of entity object, wherein the display weights are used for determining the page card style selected for page display to the service user,

the weight setting device is further configured to modify or reset the presentation weight based on historical service data of the service user.

18. The apparatus as recited in claim 17, further comprising:

index setting means for setting an index item for the page card style;

Content data obtaining means for obtaining content data of a corresponding field from the entity database according to the index item for the at least one effect module;

and the content data filling device is used for respectively filling the acquired content data into the setting areas of the corresponding effect modules on the page card style, so as to form the page card.

19. The apparatus as recited in claim 17, further comprising:

an effect module means for maintaining said library of effect modules,

wherein the library of effect modules comprises effect modules of multiple dimensions, each dimension comprising one or more effect modules.

20. A search result presentation apparatus, comprising:

the input device is used for acquiring query sentences input by the service user;

the card style determining device is used for determining a page card style which is suitable for the query statement;

page card development means for generating a search result page card for presenting search results corresponding to the query sentence based on the determined page card style; and

page card presentation means for presenting said search result page card to said business user, said page card style being developed based on the method of any one of claims 1-11.

21. The apparatus of claim 20, wherein the page card development apparatus comprises:

index setting means for setting an index item for the page card style;

the content data acquisition device is used for acquiring content data of corresponding fields from the entity database according to the index item aiming at least one effect module in the page card style, wherein the effect module corresponds to at least one field in the entity database;

and the content data filling device is used for respectively filling the acquired content data into the setting areas of the corresponding effect modules on the page card style, so as to form the search result card.

22. The apparatus of claim 20, wherein the query term includes a search keyword, the search keyword corresponding to one type of entity object, a plurality of page card styles for the one type of entity object are generated, respective presentation weights are set for the plurality of page card styles,

the card style determining device is used for determining the page card style which is suitable for the query statement based on the display weight.

23. A page content presentation apparatus, comprising:

Card style determining means for determining a page card style adapted to page content to be presented to a user, wherein the page card style is developed based on the method according to any one of claims 1-11;

page card development means for generating a page card for presenting the page content based on the determined page card style; and

and the page card presenting device is used for presenting the page card to the service user.

24. A computing device, comprising:

a processor; and

a memory having executable code stored thereon, which when executed by the processor causes the processor to perform the method of any of claims 1-16.

25. A non-transitory machine-readable storage medium having stored thereon executable code, which when executed by a processor of an electronic device, causes the processor to perform the method of any of claims 1 to 16.

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