CN117170656B - Low-code business form design system based on data visualization - Google Patents

Abstract

The invention provides a low-code service form design system based on data visualization, which comprises: the request generation module is used for acquiring a service form generation request, analyzing the service form generation request and determining the form attribute of the service form to be displayed; the collaborative logic determining module is used for determining a low code module corresponding to the service form to be displayed and target collaborative logic between the low code modules based on the form attribute; the visual editing module is used for acquiring a visual editing interface, performing visual editing on the low-code module based on the target cooperative logic, and completing visual design of the business form to be displayed based on an editing result; the method effectively ensures the intelligence and the effectiveness of the visual design of the service form to be displayed, realizes the application of different modes to the low-code module based on different service forms, and improves the efficiency and the applicability of the service form design.

Description

Low-code business form design system based on data visualization

Technical Field

The invention relates to the technical field of data visualization processing, in particular to a low-code service form design system based on data visualization.

Background

At present, with the continuous development of information digitization, the requirements of business forms in enterprises are increased, and the demand of the business forms in the enterprises is increased continuously, so that in order to improve the visualization efficiency of the business forms, a business form template with a fixed format which is coded in advance is generally used to improve the visualization efficiency of the business forms;

however, due to different service data and different service types, the service form template with a fixed format cannot completely and comprehensively display the service data effectively, and has no applicability, meanwhile, in the prior art, in order to break through the inherent format of the service form template, a plurality of low-code modules are spliced in a low-code mode, but the splicing mode and the low-code module calling mode are usually to realize the extraction of the service form through the operation of technicians, and the intelligent service form design is not realized, so that the design of the service form does not have intelligence and effectiveness;

Therefore, in order to overcome the technical problems, the invention provides a low-code service form design system based on data visualization.

Disclosure of Invention

The invention provides a low-code business form design system based on data visualization, which is used for analyzing a business form generation request so as to determine the form attribute of a business form to be displayed, thereby effectively determining a low-code module of the business form to be displayed, effectively realizing the visual editing of the low-code module by determining target cooperative logic among the low-code modules, effectively ensuring the intelligence and the effectiveness of the visual design of the business form to be displayed, and realizing the application of different modes of the low-code module based on different business forms, thereby improving the efficiency and the applicability of the business form design.

A low code business form design system based on data visualization, comprising:

The request generation module is used for acquiring a service form generation request, analyzing the service form generation request and determining the form attribute of the service form to be displayed;

the collaborative logic determining module is used for determining a low code module corresponding to the service form to be displayed and target collaborative logic between the low code modules based on the form attribute;

and the visual editing module is used for acquiring a visual editing interface, performing visual editing on the low-code module based on the target cooperative logic, and completing visual design of the business form to be displayed based on an editing result.

Preferably, a low-code service form design system based on data visualization, a request generation module, includes:

the request sending unit is used for sending a service form generation request to the analysis terminal based on the client terminal;

The request analysis unit is used for analyzing the service form generation request based on the analysis terminal and determining the form attribute of the service form to be displayed, wherein the form attribute of the service form comprises: form mark type, form layout format, and form header information.

Preferably, a low-code service form design system based on data visualization, a request sending unit, includes:

A request verification Bao Shengcheng subunit, configured to obtain first address end information of the client terminal, read a service form generation request input by the client terminal, obtain a target address identifier of the first address end information, and package the target address identifier and the service form generation request to generate a request verification packet;

The communication link generation subunit is used for acquiring the second address end information of the analysis terminal and determining a communication link according to the first address end information and the second address end information;

and the verification subunit is used for sending the request verification packet to the analysis terminal based on the communication link, verifying the request verification packet based on the analysis terminal, and analyzing the service form generation request when the request verification packet passes the verification successfully.

Preferably, a low-code service form design system based on data visualization, the verification subunit comprises:

the request verification packet reading subunit is used for reading the request verification packet based on the analysis terminal and determining a target address identification of the first address end information and a service form generation request;

A verification subunit configured to:

inputting a target address identification of the first address end information into a preset address management library for matching;

when the address identification matched with the target address identification does not exist in the preset address management library, judging that the request verification packet is not verified successfully;

when the address identification matched with the target address identification exists in the preset address management library, extracting a user information file corresponding to the target address identification from the preset address management library;

Reading the user information file, determining a first service type of a user, and simultaneously reading a service form generation request to determine a second service type corresponding to the service form generation request;

matching the first service type with the second service type, and judging whether the request verification packet passes verification;

when the first service type is matched with the second service type, judging that the request verification packet passes verification;

otherwise, it is determined that the request verification package fails verification.

Preferably, a low-code service form design system based on data visualization, a request analysis unit, includes:

The task acquisition subunit is configured to acquire a request identification task, where the request identification task includes: form marking type recognition task, form layout recognition task and form header recognition task;

a recognition factor building subunit for:

constructing a first recognition factor based on the form mark type recognition task, constructing a second recognition factor based on the form layout recognition task, and constructing a third recognition factor based on the form header recognition task;

Picking corresponding request keywords from the service form generation request based on the first recognition factor, the second recognition factor and the third recognition factor respectively to generate a first keyword set, a second keyword set and a third keyword set;

Form attribute determination subunit configured to:

reading the first keyword set, and determining a form mark type corresponding to the service form generation request;

Reading the second keyword set, and determining a form layout format corresponding to the service form generation request;

and reading the third keyword set, and determining form header information corresponding to the service form generation request.

Preferably, a low-code service form design system based on data visualization, a cooperative logic determination module, includes:

the form attribute reading unit is used for reading the form attribute and determining the form mark type and the form header information corresponding to the form attribute;

a low code module calling unit, configured to:

Acquiring a mark identifier corresponding to the form mark type, and generating a first tag index based on the mark identifier;

Invoking a target first low-code module corresponding to the mark identifier in a preset low-code module library based on the first tag index, wherein the target first low-code module is one and corresponds to the business type of the enterprise one by one;

Reading the form header information, determining a semantic identifier corresponding to the form header, and generating a second tag index based on the semantic identifier;

And invoking a target second low code module set corresponding to the semantic identifier in a preset low code module library based on the second index tag, wherein the number of the second low code modules is equal to or greater than 2, and the second low code modules are in one-to-one correspondence with the number of the form headers.

Preferably, a low-code service form design system based on data visualization, in a low-code module calling unit, a low-code module library is preset, including:

The first sub-low code module library and the second sub-low code module library;

Wherein, include:

A first sub-low code module library for storing sample tag identifications corresponding to a plurality of different sample form tag types and a first set of low code modules corresponding to the different sample form tag types,

Adding a first sample tag for a corresponding first low code module based on a sample tag mark corresponding to each sample form tag type, and generating a first sample tag set;

when a first tag index is input into a preset low-code module library, the first tag index is matched with a first sample tag set in a first sub-low-code module library one by one, and a target first low-code module with highest matching degree is output according to a matching result;

The second sub low code module library is used for storing sample semantic identifiers corresponding to a plurality of different sample form heads and a second low code module set corresponding to the plurality of different sample form heads;

adding a second sample label for a corresponding second low-code module based on the sample semantic identifier corresponding to each sample form header, and generating a second sample label set;

and when the second tag index is input into a preset low-code module library, performing one-to-one matching on the second tag index and a second sample tag set in a second sub-low-code module library, and outputting a target second low-code module with highest matching degree according to a matching result.

Preferably, a low-code service form design system based on data visualization, a cooperative logic determination module, includes:

A low code module determining unit, configured to determine a target first low code module based on a form tag type of the form attribute, and determine a target second low code module set based on form header information;

A target cooperative logic determination unit configured to:

Reading a form typesetting format in the form attribute, and determining a first cooperative logic between the target first low-code module and the target second low-code module set and a second cooperative logic between the second low-code modules in the target second low-code module set based on a reading result;

a target collaboration logic between the low code modules is determined based on the first collaboration logic and the second collaboration logic.

Preferably, a low-code business form design system based on data visualization, a visual editing module, includes:

the interface calling unit is used for calling the visual editing interface;

The first visual editing unit is used for determining a first position relation between a target first low-code module corresponding to the form mark type in the form attribute and a target second low-code module set corresponding to the form head in the form attribute based on a first collaborative logic in the target collaborative logic, and performing first visual editing on the first low-code module in the visual editing interface according to the first position relation;

The second visual editing unit is used for determining a second position relation between each second low code module in the target second low code module set corresponding to the form header in the form attribute based on the second collaborative logic in the target collaborative logic, and performing second visual editing on the second low code module set in the visual editing interface based on the second position relation;

the target visual interface generating unit is used for generating a target visual interface based on the first visual editing result and the second visual editing result.

Preferably, a low-code business form design system based on data visualization, a target visual interface generating unit, includes:

The interface reading subunit is used for reading the target visual interface after the target visual interface is acquired, and the first contour boundary point corresponding to each second low code module in the target visual interface;

the reference size determining subunit is used for reading the information data quantity corresponding to each form header in the service form to be displayed, predicting the reference size of each second low-code module according to the information data quantity corresponding to the form header, and determining the second contour boundary point corresponding to each second low-code module according to the reference size;

a correction determination subunit configured to:

Matching the first contour boundary point with the second contour boundary point, and judging whether the target visual interface needs to be corrected or not;

when the first contour boundary point is matched with the second contour boundary point, the target visual interface is judged to be unnecessary to correct, and the target visual interface is the final business form to be displayed;

Otherwise, judging that the target visual interface needs to be corrected;

A correction subunit for:

When the target visual interface needs to be corrected, reading an error contour boundary point which is not matched with a second contour boundary point in the first contour boundary point, acquiring a first coordinate value corresponding to the error contour boundary point, and simultaneously determining a second coordinate value of a target second contour boundary point corresponding to the error contour boundary point;

And calculating a target difference value between the first coordinate value and the second coordinate value, taking the target difference value as a correction coefficient, correcting the error contour boundary point based on the correction coefficient until the error contour boundary point is matched with the target second contour boundary point, and generating a service form to be displayed based on the correction result.

Compared with the prior art, the invention has the beneficial effects that:

The method and the device have the advantages that the service form generation request is analyzed, the form attribute of the service form to be displayed is further determined, so that the low code module of the service form to be displayed is effectively determined, visual editing of the low code module can be effectively realized by determining target cooperative logic among the low code modules, the intelligence and the effectiveness of visual design of the service form to be displayed are effectively ensured, and different modes of application of the low code module are realized based on different service forms, so that the efficiency and the applicability of the service form design are improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a block diagram of a low-code business form design system based on data visualization in an embodiment of the invention;

FIG. 2 is a block diagram of a request generation module in a low-code business form design system based on data visualization in an embodiment of the present invention;

Fig. 3 is a block diagram of a visual editing module in a low-code service form design system based on data visualization in an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1:

a low code business form design system based on data visualization, as shown in fig. 1, comprising:

The request generation module is used for acquiring a service form generation request, analyzing the service form generation request and determining the form attribute of the service form to be displayed;

the collaborative logic determining module is used for determining a low code module corresponding to the service form to be displayed and target collaborative logic between the low code modules based on the form attribute;

and the visual editing module is used for acquiring a visual editing interface, performing visual editing on the low-code module based on the target cooperative logic, and completing visual design of the business form to be displayed based on an editing result.

In this embodiment, the service form generation request may be a request for generating a service form to be displayed, which is determined based on a client requirement, and includes a mark type (i.e., service type) required by the service form, a form layout format, a form header, and the like.

In this embodiment, the form attributes may be those including: form mark type, form layout format and form header information, wherein the form mark type can be a mode of generating watermark based on business name and the like, and is used for representing attribute and specificity of the form; the form layout format may be the distribution of low code modules in the form; the form header information may be name information corresponding to each low code module.

In this embodiment, the target collaboration logic may be a positional relationship between the low-code modules in the business form to be displayed.

In this embodiment, the visual editing interface is an interface set in advance for editing the low-code module.

The beneficial effects of the technical scheme are as follows: the method and the device can effectively realize the visual editing of the low code modules by determining the target cooperative logic among the low code modules, effectively ensure the intelligence and the effectiveness of the visual design of the service form to be displayed, and realize the application of different modes of the low code modules for different service forms, thereby improving the efficiency and the applicability of the service form design.

Example 2:

On the basis of embodiment 1, this embodiment provides a low-code service form design system based on data visualization, as shown in fig. 2, a request generation module, including:

the request sending unit is used for sending a service form generation request to the analysis terminal based on the client terminal;

The request analysis unit is used for analyzing the service form generation request based on the analysis terminal and determining the form attribute of the service form to be displayed, wherein the form attribute of the service form comprises: form mark type, form layout format, and form header information.

The beneficial effects of the technical scheme are as follows: the service form generation request is effectively acquired, so that the analysis of the service form generation request is realized, and the accuracy of acquiring the form attribute is improved.

Example 3:

on the basis of embodiment 2, this embodiment provides a low-code service form design system based on data visualization, and the request sending unit includes:

A request verification Bao Shengcheng subunit, configured to obtain first address end information of the client terminal, read a service form generation request input by the client terminal, obtain a target address identifier of the first address end information, and package the target address identifier and the service form generation request to generate a request verification packet;

The communication link generation subunit is used for acquiring the second address end information of the analysis terminal and determining a communication link according to the first address end information and the second address end information;

and the verification subunit is used for sending the request verification packet to the analysis terminal based on the communication link, verifying the request verification packet based on the analysis terminal, and analyzing the service form generation request when the request verification packet passes the verification successfully.

In this embodiment, the first address side information may be address information of the client terminal.

In this embodiment, the destination address identification may be a unique attribute that characterizes the first address-side information, thereby distinguishing the respective address-side information.

In this embodiment, the second address end information may be address information of the resolution terminal.

The beneficial effects of the technical scheme are as follows: the construction of the communication link can be effectively realized based on the first address end information and the second address end information, further, the request verification packet is sent to the analysis terminal based on the communication link for verification, and the service form generation request is analyzed after the verification is passed, so that the security and the effectiveness of the service form generation request analysis are ensured.

Example 4:

On the basis of embodiment 3, this embodiment provides a low-code service form design system based on data visualization, and the verification subunit includes:

the request verification packet reading subunit is used for reading the request verification packet based on the analysis terminal and determining a target address identification of the first address end information and a service form generation request;

A verification subunit configured to:

inputting a target address identification of the first address end information into a preset address management library for matching;

when the address identification matched with the target address identification does not exist in the preset address management library, judging that the request verification packet is not verified successfully;

when the address identification matched with the target address identification exists in the preset address management library, extracting a user information file corresponding to the target address identification from the preset address management library;

Reading the user information file, determining a first service type of a user, and simultaneously reading a service form generation request to determine a second service type corresponding to the service form generation request;

matching the first service type with the second service type, and judging whether the request verification packet passes verification;

when the first service type is matched with the second service type, judging that the request verification packet passes verification;

otherwise, it is determined that the request verification package fails verification.

In this embodiment, the preset address management library may be preset to store all address identifiers that have been authorized.

In this embodiment, the user information file may include an enterprise service executed by the user and a first service type corresponding to the enterprise service.

In this embodiment, the second service type may be a type required for a service form to be displayed in the service form generation request.

The beneficial effects of the technical scheme are as follows: the address information of the request verification package can be effectively and accurately verified by matching the target address identification with the preset address management library, meanwhile, when the address information passes the verification, the verification of the request verification package is realized based on the matching service type, the reasonability of the request verification package is ensured by double verification, and the security and the effectiveness of the service form generation request analysis are further ensured.

Example 5:

On the basis of embodiment 2, this embodiment provides a low-code service form design system based on data visualization, and the request parsing unit includes:

The task acquisition subunit is configured to acquire a request identification task, where the request identification task includes: form marking type recognition task, form layout recognition task and form header recognition task;

a recognition factor building subunit for:

constructing a first recognition factor based on the form mark type recognition task, constructing a second recognition factor based on the form layout recognition task, and constructing a third recognition factor based on the form header recognition task;

Picking corresponding request keywords from the service form generation request based on the first recognition factor, the second recognition factor and the third recognition factor respectively to generate a first keyword set, a second keyword set and a third keyword set;

Form attribute determination subunit configured to:

reading the first keyword set, and determining a form mark type corresponding to the service form generation request;

Reading the second keyword set, and determining a form layout format corresponding to the service form generation request;

and reading the third keyword set, and determining form header information corresponding to the service form generation request.

In this embodiment, the first recognition factor may be a tool configured based on the form tag type recognition task to recognize the form tag type in the service form generation request, so as to obtain a first keyword set corresponding to the form tag type.

In this embodiment, the second recognition factor may be a tool configured based on the form layout recognition task to recognize a form layout format in the service form generation request, so as to obtain a second keyword set corresponding to the form layout format.

In this embodiment, the third recognition factor may be a tool configured based on the form header recognition task and used to recognize the form header information in the service form generation request, so as to obtain a third keyword set corresponding to the form header information.

The beneficial effects of the technical scheme are as follows: by constructing the first recognition factor, the second recognition factor and the third recognition factor, the form mark type, the form layout format and the form header information corresponding to the service form generation request can be accurately recognized, and the effectiveness and the accuracy of displaying the service form to be displayed are ensured.

Example 6:

on the basis of embodiment 1, this embodiment provides a low-code service form design system based on data visualization, which is characterized in that the collaborative logic determination module includes:

the form attribute reading unit is used for reading the form attribute and determining the form mark type and the form header information corresponding to the form attribute;

a low code module calling unit, configured to:

Acquiring a mark identifier corresponding to the form mark type, and generating a first tag index based on the mark identifier;

Invoking a target first low-code module corresponding to the mark identifier in a preset low-code module library based on the first tag index, wherein the target first low-code module is one and corresponds to the business type of the enterprise one by one;

Reading the form header information, determining a semantic identifier corresponding to the form header, and generating a second tag index based on the semantic identifier;

And invoking a target second low code module set corresponding to the semantic identifier in a preset low code module library based on the second index tag, wherein the number of the second low code modules is equal to or greater than 2, and the second low code modules are in one-to-one correspondence with the number of the form headers.

In this embodiment, the first index tag may be determined based on a tag identifier corresponding to a form tag type, and used to invoke a target first low-code module consistent with the first index tag in a preset low-code module library, where the tag identifier may be a tag symbol used as the form tag type, and the target first low-code module is used to characterize the low-code module corresponding to the form tag type in the service form generation request.

In this embodiment, the second tag index may be determined based on a semantic identifier corresponding to the form header information, and used to invoke a target second low-code module set consistent with the second tag index in a preset low-code module library, where the semantic identifier may be a flag symbol used as a semantic corresponding to the form header information, and the target second low-code module set is used to characterize the low-code module set corresponding to the form header in the service form generation request.

The beneficial effects of the technical scheme are as follows: and the accuracy and the effectiveness of the visual editing of the service form to be displayed can be ensured by calling the corresponding target first low code module and the target second low code module set in the preset low code module library through different tag indexes.

Example 7:

on the basis of embodiment 6, this embodiment provides a low-code service form design system based on data visualization, and the low-code module library is preset in the low-code module calling unit, which includes:

The first sub-low code module library and the second sub-low code module library;

Wherein, include:

A first sub-low code module library for storing sample tag identifications corresponding to a plurality of different sample form tag types and a first set of low code modules corresponding to the different sample form tag types,

Adding a first sample tag for a corresponding first low code module based on a sample tag mark corresponding to each sample form tag type, and generating a first sample tag set;

when a first tag index is input into a preset low-code module library, the first tag index is matched with a first sample tag set in a first sub-low-code module library one by one, and a target first low-code module with highest matching degree is output according to a matching result;

The second sub low code module library is used for storing sample semantic identifiers corresponding to a plurality of different sample form heads and a second low code module set corresponding to the plurality of different sample form heads;

adding a second sample label for a corresponding second low-code module based on the sample semantic identifier corresponding to each sample form header, and generating a second sample label set;

and when the second tag index is input into a preset low-code module library, performing one-to-one matching on the second tag index and a second sample tag set in a second sub-low-code module library, and outputting a target second low-code module with highest matching degree according to a matching result.

The beneficial effects of the technical scheme are as follows: through determining the first sample tag set and the second sample tag set, accurate retrieval of low codes in a preset low code module library is achieved through the determined first tag index and the determined second tag index, efficiency and accuracy of retrieving the low code modules are improved, and effectiveness and intelligence of service form design are further guaranteed.

Example 8:

On the basis of embodiment 1, this embodiment provides a low-code service form design system based on data visualization, and a collaborative logic determination module, which includes:

A low code module determining unit, configured to determine a target first low code module based on a form tag type of the form attribute, and determine a target second low code module set based on form header information;

A target cooperative logic determination unit configured to:

Reading a form typesetting format in the form attribute, and determining a first cooperative logic between the target first low-code module and the target second low-code module set and a second cooperative logic between the second low-code modules in the target second low-code module set based on a reading result;

a target collaboration logic between the low code modules is determined based on the first collaboration logic and the second collaboration logic.

In this embodiment, the first synergistic logic may be a relative positional relationship between the target first low code module and the target second low code module set.

In this embodiment, the second synergistic logic may be a relative positional interaction relationship between each of the second low code modules in the target set of second low code modules.

The beneficial effects of the technical scheme are as follows: the first collaborative logic and the second collaborative logic are determined to effectively realize visual editing of the to-be-displayed service form, so that the intelligence and the effectiveness of visual design of the to-be-displayed service form are effectively ensured.

Example 9:

On the basis of embodiment 1, this embodiment provides a low-code service form design system based on data visualization, as shown in fig. 3, a visualization editing module, including:

the interface calling unit is used for calling the visual editing interface;

The first visual editing unit is used for determining a first position relation between a target first low-code module corresponding to the form mark type in the form attribute and a target second low-code module set corresponding to the form head in the form attribute based on a first collaborative logic in the target collaborative logic, and performing first visual editing on the first low-code module in the visual editing interface according to the first position relation;

The second visual editing unit is used for determining a second position relation between each second low code module in the target second low code module set corresponding to the form header in the form attribute based on the second collaborative logic in the target collaborative logic, and performing second visual editing on the second low code module set in the visual editing interface based on the second position relation;

the target visual interface generating unit is used for generating a target visual interface based on the first visual editing result and the second visual editing result.

In this embodiment, the first positional relationship may be a positional relationship between the target first low-code module and the target second low-code module set.

In this embodiment, the second positional relationship may be a positional relationship between each of the target second low-code modules in the target second low-code module set.

In this embodiment, the first visual editing may be editing the target first low-code module in a visual editing interface based on a positional relationship between the target second low-code module set.

In this embodiment, the second visual editing may be editing the target second low-code module set in the visual editing interface based on a positional relationship between the plurality of target second low-code modules.

The beneficial effects of the technical scheme are as follows: by determining the first position relation and the second position relation, the first visual editing and the second visual editing are realized, the accuracy and the editing efficiency for editing the to-be-displayed service form are improved, and the applicability and the editing efficiency for editing the specific to-be-displayed service form are realized.

Example 10:

On the basis of embodiment 9, this embodiment provides a low-code service form design system based on data visualization, and a target visual interface generating unit, including:

The interface reading subunit is used for reading the target visual interface after the target visual interface is acquired, and the first contour boundary point corresponding to each second low code module in the target visual interface;

the reference size determining subunit is used for reading the information data quantity corresponding to each form header in the service form to be displayed, predicting the reference size of each second low-code module according to the information data quantity corresponding to the form header, and determining the second contour boundary point corresponding to each second low-code module according to the reference size;

a correction determination subunit configured to:

Matching the first contour boundary point with the second contour boundary point, and judging whether the target visual interface needs to be corrected or not;

when the first contour boundary point is matched with the second contour boundary point, the target visual interface is judged to be unnecessary to correct, and the target visual interface is the final business form to be displayed;

Otherwise, judging that the target visual interface needs to be corrected;

A correction subunit for:

When the target visual interface needs to be corrected, reading an error contour boundary point which is not matched with a second contour boundary point in the first contour boundary point, acquiring a first coordinate value corresponding to the error contour boundary point, and simultaneously determining a second coordinate value of a target second contour boundary point corresponding to the error contour boundary point;

And calculating a target difference value between the first coordinate value and the second coordinate value, taking the target difference value as a correction coefficient, correcting the error contour boundary point based on the correction coefficient until the error contour boundary point is matched with the target second contour boundary point, and generating a service form to be displayed based on the correction result.

In this embodiment, the first contour boundary point may be a contour boundary point corresponding to each of the second low-code modules in the current target visual interface.

In this embodiment, the second contour boundary point may be a reference size of the second low-code module obtained by predicting based on the information data amount corresponding to each header of the to-be-displayed service form, so as to determine a contour boundary point theoretically corresponding to the second low-code module through the reference size.

In this embodiment, the first coordinate value may be a coordinate value corresponding to the error wheel contour boundary point among the first contour boundary points.

In this embodiment, the second coordinate value may be a coordinate value corresponding to a target second contour boundary point corresponding to the error contour boundary point.

The beneficial effects of the technical scheme are as follows: after the target visual interface is determined, by determining the first contour boundary point corresponding to the current visual interface and the theoretical second contour boundary point and correspondingly matching the first contour boundary point with the second contour boundary point, whether the target visual interface needs to be corrected or not is effectively ensured, the accuracy of revising and judging the target visual interface is facilitated, meanwhile, the integrity of displaying information data in the target visual interface is also ensured, and the display effect of the target visual interface is greatly ensured.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (6)

1. A low code business form design system based on data visualization, comprising:

The request generation module is used for acquiring a service form generation request, analyzing the service form generation request and determining the form attribute of the service form to be displayed;

the collaborative logic determining module is used for determining a low code module corresponding to the service form to be displayed and target collaborative logic between the low code modules based on the form attribute;

The visual editing module is used for acquiring a visual editing interface, performing visual editing on the low-code module based on the target cooperative logic, and completing visual design of the business form to be displayed based on an editing result;

A collaborative logic determination module, comprising:

the form attribute reading unit is used for reading the form attribute and determining the form mark type and the form header information corresponding to the form attribute;

a low code module calling unit, configured to:

Acquiring a mark identifier corresponding to the form mark type, and generating a first tag index based on the mark identifier;

Invoking a target first low-code module corresponding to the mark identifier in a preset low-code module library based on the first tag index, wherein the target first low-code module is one and corresponds to the business type of the enterprise one by one;

Reading the form header information, determining a semantic identifier corresponding to the form header, and generating a second tag index based on the semantic identifier;

Invoking a target second low code module set corresponding to the semantic identifier in a preset low code module library based on a second index tag, wherein the number of the second low code modules is equal to or greater than 2, and the second low code modules are in one-to-one correspondence with the number of the form headers;

A collaborative logic determination module, comprising:

A low code module determining unit, configured to determine a target first low code module based on a form tag type of the form attribute, and determine a target second low code module set based on form header information;

A target cooperative logic determination unit configured to:

Reading a form typesetting format in the form attribute, and determining a first cooperative logic between the target first low-code module and the target second low-code module set and a second cooperative logic between the second low-code modules in the target second low-code module set based on a reading result;

Determining a target synergistic logic between the low code modules based on the first synergistic logic and the second synergistic logic;

A visual editing module comprising:

the interface calling unit is used for calling the visual editing interface;

The first visual editing unit is used for determining a first position relation between a target first low-code module corresponding to the form mark type in the form attribute and a target second low-code module set corresponding to the form head in the form attribute based on a first collaborative logic in the target collaborative logic, and performing first visual editing on the first low-code module in the visual editing interface according to the first position relation;

The second visual editing unit is used for determining a second position relation between each second low code module in the target second low code module set corresponding to the form header in the form attribute based on the second collaborative logic in the target collaborative logic, and performing second visual editing on the second low code module set in the visual editing interface based on the second position relation;

The target visual interface generating unit is used for generating a target visual interface based on the first visual editing result and the second visual editing result;

A target visual interface generating unit comprising:

The interface reading subunit is used for reading the target visual interface after the target visual interface is acquired, and the first contour boundary point corresponding to each second low code module in the target visual interface;

the reference size determining subunit is used for reading the information data quantity corresponding to each form header in the service form to be displayed, predicting the reference size of each second low-code module according to the information data quantity corresponding to the form header, and determining the second contour boundary point corresponding to each second low-code module according to the reference size;

a correction determination subunit configured to:

Matching the first contour boundary point with the second contour boundary point, and judging whether the target visual interface needs to be corrected or not;

When the first contour boundary point is matched with the second contour boundary point, the target visual interface is judged to be unnecessary to correct, and the target visual interface is the final display service form;

Otherwise, judging that the target visual interface needs to be corrected;

A correction subunit for:

When the target visual interface needs to be corrected, reading an error contour boundary point which is not matched with a second contour boundary point in the first contour boundary point, acquiring a first coordinate value corresponding to the error contour boundary point, and simultaneously determining a second coordinate value of a target second contour boundary point corresponding to the error contour boundary point;

And calculating a target difference value between the first coordinate value and the second coordinate value, taking the target difference value as a correction coefficient, correcting the error contour boundary point based on the correction coefficient until the error contour boundary point is matched with the target second contour boundary point, and generating a display service form based on the correction result.

2. The low-code business form design system based on data visualization of claim 1, wherein the request generation module comprises:

the request sending unit is used for sending a service form generation request to the analysis terminal based on the client terminal;

The request analysis unit is used for analyzing the service form generation request based on the analysis terminal and determining the form attribute of the service form to be displayed, wherein the form attribute of the service form comprises: form mark type, form layout format, and form header information.

3. A low code traffic form design system based on data visualization according to claim 2, characterized in that the request sending unit comprises:

A request verification Bao Shengcheng subunit, configured to obtain first address end information of the client terminal, read a service form generation request input by the client terminal, obtain a target address identifier of the first address end information, and package the target address identifier and the service form generation request to generate a request verification packet;

The communication link generation subunit is used for acquiring the second address end information of the analysis terminal and determining a communication link according to the first address end information and the second address end information;

and the verification subunit is used for sending the request verification packet to the analysis terminal based on the communication link, verifying the request verification packet based on the analysis terminal, and analyzing the service form generation request when the request verification packet passes the verification successfully.

4. A low code business form design system based on data visualization as in claim 3, wherein the verification subunit comprises:

the request verification packet reading subunit is used for reading the request verification packet based on the analysis terminal and determining a target address identification of the first address end information and a service form generation request;

A verification subunit configured to:

inputting a target address identification of the first address end information into a preset address management library for matching;

when the address identification matched with the target address identification does not exist in the preset address management library, judging that the request verification packet is not verified successfully;

when the address identification matched with the target address identification exists in the preset address management library, extracting a user information file corresponding to the target address identification from the preset address management library;

Reading the user information file, determining a first service type of a user, and simultaneously reading a service form generation request to determine a second service type corresponding to the service form generation request;

matching the first service type with the second service type, and judging whether the request verification packet passes verification;

when the first service type is matched with the second service type, judging that the request verification packet passes verification;

otherwise, it is determined that the request verification package fails verification.

5. The low-code business form design system based on data visualization of claim 2, wherein the request parsing unit comprises:

The task acquisition subunit is configured to acquire a request identification task, where the request identification task includes: form marking type recognition task, form layout recognition task and form header recognition task;

a recognition factor building subunit for:

constructing a first recognition factor based on the form mark type recognition task, constructing a second recognition factor based on the form layout recognition task, and constructing a third recognition factor based on the form header recognition task;

Picking corresponding request keywords from the service form generation request based on the first recognition factor, the second recognition factor and the third recognition factor respectively to generate a first keyword set, a second keyword set and a third keyword set;

Form attribute determination subunit configured to:

reading the first keyword set, and determining a form mark type corresponding to the service form generation request;

Reading the second keyword set, and determining a form layout format corresponding to the service form generation request;

and reading the third keyword set, and determining form header information corresponding to the service form generation request.

6. The system for designing a low-code business form based on data visualization according to claim 1, wherein the low-code module library is preset in the low-code module retrieving unit, and comprises:

The first sub-low code module library and the second sub-low code module library;

Wherein, include:

A first sub-low code module library for storing sample tag identifications corresponding to a plurality of different sample form tag types and a first set of low code modules corresponding to the different sample form tag types,

Adding a first sample tag for a corresponding first low code module based on a sample tag mark corresponding to each sample form tag type, and generating a first sample tag set;

when a first tag index is input into a preset low-code module library, the first tag index is matched with a first sample tag set in a first sub-low-code module library one by one, and a target first low-code module with highest matching degree is output according to a matching result;

The second sub low code module library is used for storing sample semantic identifiers corresponding to a plurality of different sample form heads and a second low code module set corresponding to the plurality of different sample form heads;

adding a second sample label for a corresponding second low-code module based on the sample semantic identifier corresponding to each sample form header, and generating a second sample label set;

and when the second tag index is input into a preset low-code module library, performing one-to-one matching on the second tag index and a second sample tag set in a second sub-low-code module library, and outputting a target second low-code module with highest matching degree according to a matching result.