CN117251154A - Data visualization-based low-code large-screen design system capable of being rapidly expanded - Google Patents

Abstract

The invention provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, which comprises the following components: the component library generating module is used for constructing a plurality of sample display components based on the low codes, storing the sample display components and generating a low code sample display component library; the data to be displayed acquisition module is used for acquiring data to be displayed, reading the data to be displayed, and matching a target sample display assembly in the low-code sample display assembly library based on a reading result; the template generation module is used for acquiring a display panel, typesetting the target sample display assembly in the display panel, and generating a template to be displayed based on typesetting results; and the visual display module is used for mapping the data to be displayed in the template to be displayed and completing visual display of the data to be displayed. The waste caused by repeated development of the display assembly is avoided, the display effect of the data to be displayed is ensured, and a large amount of manpower and material resources are saved.

Description

Data visualization-based low-code large-screen design system capable of being rapidly expanded

Technical Field

The invention relates to the technical field of data processing, in particular to a low-code large-screen design system capable of being rapidly expanded based on data visualization.

Background

At present, with the continuous development of enterprise management, the digitalized transformation of enterprise information becomes an indispensable part, and in order to better access and understand enterprise data, the data visualization can effectively improve the efficiency of data reading;

however, in the process of data visualization in the prior art, the visualized content is often encoded by research personnel, and different visualized data are encoded differently, so that a large amount of research and development cost is consumed, the data visualization efficiency is low, and in the prior art, the encoded display components cannot be subjected to self-adaptive typesetting, so that the display intelligence is reduced;

therefore, in order to overcome the technical problems, the invention provides a low-code large-screen design system capable of being rapidly expanded based on data visualization.

Disclosure of Invention

The invention provides a data visualization-based low-code large-screen design system which is used for constructing a plurality of sample display components by adopting low codes and constructing a sample display component library by the sample display components, thereby providing convenience for data visualization display, analyzing data to be displayed, accurately and effectively determining required target sample display components, typesetting the target sample display components by a display panel, accurately and effectively displaying the data to be displayed by typesetting results, improving the efficiency of visual display of the data to be displayed, avoiding waste caused by repeated development of the display components, and saving a large amount of manpower and material resources while guaranteeing the display effect of the data to be displayed.

The invention provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, which comprises the following components:

the component library generating module is used for constructing a plurality of sample display components based on the low codes, storing the sample display components and generating a low code sample display component library;

the data to be displayed acquisition module is used for acquiring data to be displayed, reading the data to be displayed, and matching a target sample display assembly in the low-code sample display assembly library based on a reading result;

the template generation module is used for acquiring a display panel, typesetting the target sample display assembly in the display panel, and generating a template to be displayed based on typesetting results;

and the visual display module is used for mapping the data to be displayed in the template to be displayed and completing visual display of the data to be displayed.

Preferably, a low-code large-screen design system capable of being quickly expanded based on data visualization, a component library generating module comprises:

the low-code construction unit is used for acquiring an enterprise structure, setting display requirements according to the enterprise structure, editing codes according to the display requirements, and generating a plurality of sample display components based on editing results;

The storage unit is used for acquiring the component identification of the sample display component, constructing a component storage node based on the component identification of the sample display component, storing the corresponding sample display component based on the component storage node, and generating a low-code sample display component library based on the storage result.

Preferably, a data visualization-based low-code large-screen design system capable of being quickly expanded, a low-code construction unit comprises:

the first coding subunit is used for reading the enterprise structure, determining M enterprise services corresponding to the enterprise structure, and simultaneously, carrying out first coding according to the enterprise services to obtain M first sub-display components;

the second coding subunit is used for acquiring N corresponding business items in each enterprise business, and carrying out second coding on the interiors of the corresponding first sub-display assemblies according to the business items to acquire N second sub-display assemblies in the interiors of the first sub-display assemblies;

the third coding subunit is used for acquiring the data display requirement of the service item, reading the data display requirement of the service item, determining Q requirement display elements corresponding to the data display requirement, and carrying out third coding in the second sub-display assembly based on the Q requirement display elements to acquire Q third sub-display assemblies in the second display assembly;

The sample display component acquisition subunit is configured to form a sample display component corresponding to each service type in the enterprise based on the first sub-display component, the second sub-display component in the first sub-display component, and the third sub-display component in the second sub-display component.

Preferably, a low-code large-screen design system capable of being quickly expanded based on data visualization, a storage unit comprises:

the component identifier obtaining subunit is used for obtaining the enterprise service corresponding to each sample display component, obtaining the service name of the enterprise service, inputting the service name into a preset enterprise management library for matching, determining the service number of the enterprise service, and taking the service number of the enterprise service as the component identifier of the corresponding sample display component;

and the storage subunit is used for constructing a component storage node by taking the component identification as a node element, constructing a target relation between the sample display component and the component storage node based on the component identification, storing the sample display component into the corresponding component storage node based on the target relation, and generating a low-code sample display component library.

Preferably, a low-code large-screen design system capable of being expanded rapidly based on data visualization, a data acquisition module to be displayed, comprises:

The information determining unit is used for determining data source information of the data to be displayed and enterprise information of a target enterprise in the data to be displayed after the data to be displayed is acquired;

the to-be-displayed verification request acquisition unit is used for integrating the data source information of the to-be-displayed data and the enterprise information of the target enterprise in the to-be-displayed data to obtain a to-be-displayed verification request;

the visual verification unit is used for transmitting the verification request to be displayed to the preset verification terminal for visual verification, and reading and displaying the data to be displayed when the verification request to be displayed passes the visual verification.

Preferably, a low-code large-screen design system capable of being rapidly expanded based on data visualization, a visual verification unit comprises:

the invoking subunit is used for invoking a preset visual source information set and a preset enterprise management set at a preset verification terminal;

a first visual verification subunit for:

carrying out first matching on the data source information in the verification request to be displayed and the visual source information set, and judging whether the verification request to be displayed passes the first visual verification;

when the data source information in the verification request to be displayed has information consistent with the data source information in the visual source information set, judging that the verification request to be displayed passes the first visual verification;

Otherwise, judging that the verification request to be displayed fails the first visual verification;

a second visual verification subunit for:

performing second matching on enterprise information of a target enterprise in the verification request to be displayed and a preset enterprise management set, and judging whether the verification request to be displayed passes second visual verification;

when the enterprise information of the target enterprise in the verification request to be displayed and the preset enterprise management set have information consistent with the enterprise information of the target enterprise, judging that the verification request to be displayed passes the second visual verification;

otherwise, judging that the verification request to be displayed does not pass the second visual verification;

the display subunit is used for reading and displaying the data to be displayed when the data to be displayed passes the first visual verification and passes the second visual verification when the verification request to be displayed passes the first visual verification; otherwise, the data to be displayed cannot be displayed.

Preferably, a low-code large-screen design system capable of being rapidly expanded based on data visualization, a visual verification unit comprises:

a data reading subunit for:

when the verification request to be displayed passes the visual verification, reading the data to be displayed, and determining the data keywords of the data to be displayed;

Wherein, the data keywords of the data to be displayed comprise: the method comprises the steps of target enterprise business, target business items corresponding to the target enterprise business and target display elements corresponding to the target business items;

and the target sample display component determining subunit is used for matching the target sample display component in the low-code sample display component library based on the data keyword of the data to be displayed and calling the target sample display component.

Preferably, a low-code large-screen design system capable of being quickly expanded based on data visualization, a template generating module comprises:

the panel acquisition unit is used for acquiring the obtained display panel, extracting configuration information of the display panel, and analyzing the configuration information to obtain the target size of the displayable area in the display panel;

typesetting unit, is used for:

the method comprises the steps of obtaining target sample display components, analyzing attribute information of the target sample display components, and determining display weight and component contour characteristics of each target sample display component;

determining a target display area of a target sample display assembly in a displayable area based on the display weight, and dividing the displayable area in the display panel based on the target size of the displayable area, the target display area of the target sample display assembly in the displayable area and the assembly contour characteristics of each target sample display assembly to obtain sub-display areas;

Determining corresponding initial fixed point positions in the corresponding sub-display areas based on component profile features of the target sample display components with maximum display weights, setting the initial fixed point positions as position index values of the residual target sample display components, and determining relative fixed point positions of the residual target sample display components based on the position index values;

performing first typesetting on the displayable region of the target sample display assembly in the display panel based on the target fixed point position and the relative fixed point position, and extracting splicing characteristics of splicing seams of adjacent target sample display assemblies based on a first typesetting result;

determining the type of the splicing seam of the adjacent target sample display assembly based on the splicing characteristics, determining compatible parameters of the adjacent target sample display assembly based on the assembly contour characteristics when the type of the splicing seam does not meet the preset typesetting requirement, and adapting the splicing seam of the adjacent target sample display assembly based on the low code according to the compatible parameters;

smoothing the splicing seams based on the adapting result, performing second typesetting on the adjacent target sample display components by the smoothing result, and summarizing the first typesetting and the second typesetting to obtain target typesetting parameters of the target sample display components;

And the template generating unit is used for controlling a preset computer to perform simulated typesetting on the target sample display assembly based on the target typesetting parameters, and obtaining the template to be displayed based on the simulated typesetting.

Preferably, a low-code large-screen design system capable of being quickly expanded based on data visualization, a template generating unit comprises:

the simulation typesetting subunit is used for obtaining simulation typesetting results of the preset computer for performing simulation typesetting on the target sample display components, and determining the display integrity of each target sample display component on the display panel based on the simulation typesetting results;

the abnormal component determining subunit is used for acquiring the display duty ratio and the reference display duty ratio of different target sample display components on the display panel when the display integrity is incomplete, and determining the abnormal target sample display components and the duty ratio adjustment coefficients of the abnormal target sample display components based on the display duty ratio and the reference display duty ratio;

and the adjustment subunit is used for adjusting the display duty ratio of the abnormal target sample display component based on the duty ratio adjustment coefficient and obtaining the template to be displayed based on the adjustment result.

Preferably, a low-code large-screen design system capable of being rapidly expanded based on data visualization, a visual display module, comprises:

The data calling unit is used for obtaining the obtained data to be displayed, analyzing the data to be displayed and determining the target display requirement of the data to be displayed;

the data mapping unit is used for determining the mapping relation between the data to be displayed and the template to be displayed based on the target display requirement and mapping the data to be displayed to the template to be displayed based on the mapping relation;

and the data visualization unit is used for rendering the template to be displayed based on the mapping result and performing visual display on the data to be displayed on the template to be displayed based on the rendering result.

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

1. the sample display components are constructed through the low codes, the sample display component library is constructed through the sample display components, convenience is brought to data visual display, secondly, the required target sample display components are accurately and effectively determined through analysis of the data to be displayed, finally, the target sample display components are subjected to self-adaptive typesetting through the display panel, the display intelligence is effectively improved, the data to be displayed is accurately and effectively displayed through the typesetting result, the visual display efficiency of the data to be displayed is improved, waste caused by repeated development of the display components is avoided, and a large amount of manpower and material resources are saved while the display effect of the data to be displayed is ensured.

2. The configuration information of the display panel is analyzed, the accurate and effective determination of the target size of a displayable region in the display panel is realized, the corresponding display weight is locked through the attribute information of the target sample display assembly, the effective determination of the positions of different target sample display assemblies in the display panel according to the display weight is realized, finally, the different target sample display assemblies are typeset in the display panel according to the determined positions, the splice joint between the typeset adjacent target sample display assemblies is optimized, the effective typesetting of the target samples in the display panel is finally realized, the adaptive typesetting is performed on the target sample display assemblies through the display panel, the display intelligence is effectively improved, the visual display efficiency of the data to be displayed is improved, and the waste caused by repeated development of the display assemblies is avoided.

The sample display components are constructed through the low codes, the sample display component library is constructed through the sample display components, convenience is brought to data visual display, secondly, the required target sample display components are accurately and effectively determined through analysis of the data to be displayed, finally, the target sample display components are subjected to self-adaptive typesetting through the display panel, the display intelligence is effectively improved, the data to be displayed is accurately and effectively displayed through the typesetting result, the visual display efficiency of the data to be displayed is improved, waste caused by repeated development of the display components is avoided, and a large amount of manpower and material resources are saved while the display effect of the data to be displayed is ensured.

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 large-screen design system capable of being quickly expanded based on data visualization in an embodiment of the invention;

FIG. 2 is a block diagram of a component library generation module in a low-code large-screen design system capable of being quickly expanded based on data visualization in an embodiment of the invention;

fig. 3 is a block diagram of a data acquisition module to be displayed in a low-code large-screen design system capable of being quickly expanded 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:

the embodiment provides a data visualization-based low-code large-screen design system capable of being rapidly expanded, as shown in fig. 1, which comprises:

the component library generating module is used for constructing a plurality of sample display components based on the low codes, storing the sample display components and generating a low code sample display component library;

the data to be displayed acquisition module is used for acquiring data to be displayed, reading the data to be displayed, and matching a target sample display assembly in the low-code sample display assembly library based on a reading result;

the template generation module is used for acquiring a display panel, typesetting the target sample display assembly in the display panel, and generating a template to be displayed based on typesetting results;

and the visual display module is used for mapping the data to be displayed in the template to be displayed and completing visual display of the data to be displayed.

In this embodiment, the sample display component may be a visualization component that is generated from low code and that is used when the data is visualized.

In this embodiment, the low-code sample display component library may be a set of all sample display components obtained after storing the plurality of sample display components obtained.

In this embodiment, the data to be displayed may be data that needs to be visualized.

In this embodiment, the target sample display component may be a sample display component adapted to display the current data to be displayed, one or more combinations in a library of low-code sample display components.

In this embodiment, the display panel may be a device that visually displays data to be displayed.

In this embodiment, the purpose of typesetting the target sample display components in the display panel is to ensure that each target sample display component can effectively display in the display panel, so as to ensure that the data to be displayed is effectively visually displayed, where the template to be displayed is a template that is obtained by typesetting the target sample display components in the display template and can directly visually display the data to be displayed.

In this embodiment, mapping the data to be displayed in the template to be displayed may be filling the data to be displayed in a corresponding position in the template to be displayed, so as to realize effective display of the data to be displayed.

The beneficial effects of the technical scheme are as follows: the sample display components are constructed through the low codes, the sample display component library is constructed through the sample display components, convenience is brought to data visual display, secondly, the required target sample display components are accurately and effectively determined through analysis of the data to be displayed, finally, the target sample display components are subjected to self-adaptive typesetting through the display panel, the display intelligence is effectively improved, the data to be displayed is accurately and effectively displayed through the typesetting result, the visual display efficiency of the data to be displayed is improved, waste caused by repeated development of the display components is avoided, and a large amount of manpower and material resources are saved while the display effect of the data to be displayed is ensured.

Example 2:

on the basis of embodiment 1, this embodiment provides a low-code large-screen design system capable of being quickly expanded based on data visualization, as shown in fig. 2, a component library generating module includes:

the low-code construction unit is used for acquiring an enterprise structure, setting display requirements according to the enterprise structure, editing codes according to the display requirements, and generating a plurality of sample display components based on editing results;

The storage unit is used for acquiring the component identification of the sample display component, constructing a component storage node based on the component identification of the sample display component, storing the corresponding sample display component based on the component storage node, and generating a low-code sample display component library based on the storage result.

In this embodiment, the enterprise structure may be information such as a category of departments included in the enterprise and a type of service performed.

In this embodiment, the display requirements are determined according to the enterprise structure, and are used to characterize the requirements of different enterprises on the display style, the display format, and the like of the data to be displayed.

In this embodiment, the component identification may be a label tag that is used to distinguish between different sample display components.

In this embodiment, the storage node may be a space for storing the sample display component.

The beneficial effects of the technical scheme are as follows: the method comprises the steps of determining display requirements accurately and effectively according to enterprise structures, editing codes according to the display requirements, making a plurality of display components accurately and effectively, and finally, storing different sample display components to corresponding component storage nodes according to component identification to determine the component storage nodes of the different sample display components, so that the low-code sample display component library is constructed accurately and effectively, and convenience is provided for carrying out accurate and effective visual display on data to be displayed.

Example 3:

on the basis of embodiment 2, this embodiment provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, a low-code construction unit includes:

the first coding subunit is used for reading the enterprise structure, determining M enterprise services corresponding to the enterprise structure, and simultaneously, carrying out first coding according to the enterprise services to obtain M first sub-display components;

the second coding subunit is used for acquiring N corresponding business items in each enterprise business, and carrying out second coding on the interiors of the corresponding first sub-display assemblies according to the business items to acquire N second sub-display assemblies in the interiors of the first sub-display assemblies;

the third coding subunit is used for acquiring the data display requirement of the service item, reading the data display requirement of the service item, determining Q requirement display elements corresponding to the data display requirement, and carrying out third coding in the second sub-display assembly based on the Q requirement display elements to acquire Q third sub-display assemblies in the second display assembly;

the sample display component acquisition subunit is configured to form a sample display component corresponding to each service type in the enterprise based on the first sub-display component, the second sub-display component in the first sub-display component, and the third sub-display component in the second sub-display component.

In this embodiment, the first code may be a low-code edit according to the enterprise service, so as to obtain a display component corresponding to the current enterprise service, i.e., a first sub-display component.

In this embodiment, the service items may be information such as different service directions and corresponding specific service flows included in the enterprise service.

In this embodiment, the second encoding may be performed in the first sub-display assembly according to the service item, so as to ensure the comprehensiveness and reliability of the finally obtained display assembly, where the result of performing the second encoding in the first sub-display assembly is the second sub-display assembly and is a part of the components in the first sub-display assembly.

In this embodiment, the requirement display element may be specific information that different business items need to be displayed when being displayed, for example, may be information such as names or types of businesses.

In this embodiment, the third encoding may be performed again inside the second display component, where the third sub-display component is the result of the third encoding and is part of the second sub-display component.

The beneficial effects of the technical scheme are as follows: the first coding, the second coding and the third coding are respectively carried out according to the enterprise structure, the business project and the requirement display element, so that detail perfection from a large display assembly frame is realized, a required sample display assembly is finally obtained, the accuracy and the reliability of the obtained sample display assembly are ensured, and convenience is provided for data visual display.

Example 4:

on the basis of embodiment 1, this embodiment provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, a storage unit includes:

the component identifier obtaining subunit is used for obtaining the enterprise service corresponding to each sample display component, obtaining the service name of the enterprise service, inputting the service name into a preset enterprise management library for matching, determining the service number of the enterprise service, and taking the service number of the enterprise service as the component identifier of the corresponding sample display component;

and the storage subunit is used for constructing a component storage node by taking the component identification as a node element, constructing a target relation between the sample display component and the component storage node based on the component identification, storing the sample display component into the corresponding component storage node based on the target relation, and generating a low-code sample display component library.

In this embodiment, the preset enterprise management library is set in advance, and is used to store service numbers of different enterprise services, where the service numbers are guiding parameters for distinguishing different services.

In this embodiment, the node element may be reference information of the constructed component storage node, so as to ensure that the constructed component storage node can orderly store the corresponding sample display component.

In this embodiment, the target relationship is used to characterize the correspondence between the sample display components and the component storage nodes, thereby facilitating the storage of different sample display components to the respective component storage nodes.

The beneficial effects of the technical scheme are as follows: by determining the service names of different enterprise services, accurate and effective acquisition of service numbers of corresponding enterprise services from a preset enterprise management library according to the service names is realized, and then service codes of the different enterprise services are used as component identifications to construct corresponding component storage nodes, so that different sample display components are orderly stored to the corresponding component storage nodes, the obtained low-code sample display component library is ensured to be comprehensive and reliable, and convenience is provided for data visualization.

Example 5:

on the basis of embodiment 1, this embodiment provides a low-code large-screen design system capable of being quickly expanded based on data visualization, as shown in fig. 3, a data acquisition module to be displayed includes:

the information determining unit is used for determining data source information of the data to be displayed and enterprise information of a target enterprise in the data to be displayed after the data to be displayed is acquired;

The to-be-displayed verification request acquisition unit is used for integrating the data source information of the to-be-displayed data and the enterprise information of the target enterprise in the to-be-displayed data to obtain a to-be-displayed verification request;

the visual verification unit is used for transmitting the verification request to be displayed to the preset verification terminal for visual verification, and reading and displaying the data to be displayed when the verification request to be displayed passes the visual verification.

In this embodiment, the data source information may be a source of the data to be displayed, that is, an enterprise service type corresponding to the data to be displayed.

In this embodiment, the enterprise information includes information such as structural features of the enterprise and business items of the enterprise.

In this embodiment, the verification request to be displayed is determined according to the data source information and the enterprise information of the target enterprise in the data to be displayed, and is specific information for verifying the data to be displayed.

In this embodiment, the preset verification terminal is set in advance, and is a specific execution terminal for verifying the verification request to be displayed.

The beneficial effects of the technical scheme are as follows: the method comprises the steps of analyzing the obtained data to be displayed, effectively obtaining data source information and enterprise information corresponding to the data to be displayed, generating a corresponding verification request to be displayed according to the data source information and the enterprise information, transmitting the verification request to be displayed to a preset verification terminal for visual verification, and finally reading and displaying the data to be displayed after the visual verification is passed, so that the obtained data to be displayed meets the visual display requirement, and the accuracy and the safety of visual display of the data are guaranteed.

Example 6:

on the basis of embodiment 5, this embodiment provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, a visual verification unit, comprising:

the invoking subunit is used for invoking a preset visual source information set and a preset enterprise management set at a preset verification terminal;

a first visual verification subunit for:

carrying out first matching on the data source information in the verification request to be displayed and the visual source information set, and judging whether the verification request to be displayed passes the first visual verification;

when the data source information in the verification request to be displayed has information consistent with the data source information in the visual source information set, judging that the verification request to be displayed passes the first visual verification;

otherwise, judging that the verification request to be displayed fails the first visual verification;

a second visual verification subunit for:

performing second matching on enterprise information of a target enterprise in the verification request to be displayed and a preset enterprise management set, and judging whether the verification request to be displayed passes second visual verification;

when the enterprise information of the target enterprise in the verification request to be displayed and the preset enterprise management set have information consistent with the enterprise information of the target enterprise, judging that the verification request to be displayed passes the second visual verification;

Otherwise, judging that the verification request to be displayed does not pass the second visual verification;

the display subunit is used for reading and displaying the data to be displayed when the data to be displayed passes the first visual verification and passes the second visual verification when the verification request to be displayed passes the first visual verification; otherwise, the data to be displayed cannot be displayed.

In this embodiment, the preset visual source information set is known in advance for characterizing all data source information that can be visually presented.

In this embodiment, the preset enterprise management set is set in advance, and is used to characterize all enterprise types and enterprise structures that can be visually displayed.

In this embodiment, the first matching may be to match the data source information included in the verification request to be displayed with the visual source information set, so as to determine whether the data source meets the data visualization requirement, where the first matching result is the first visual verification.

In this embodiment, the second matching may be to match the enterprise information with a preset enterprise management set, so as to determine whether there is information matching with the current enterprise information in the preset enterprise management set, where the second matching result is the second visual verification.

The beneficial effects of the technical scheme are as follows: by specifically limiting the verification process of the verification request to be displayed, the accuracy of visual verification of the verification request to be displayed is ensured, and the accuracy and reliability of visual display of the data to be displayed are ensured.

Example 7:

on the basis of embodiment 5, this embodiment provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, a visual verification unit, comprising:

a data reading subunit for:

when the verification request to be displayed passes the visual verification, reading the data to be displayed, and determining the data keywords of the data to be displayed;

wherein, the data keywords of the data to be displayed comprise: the method comprises the steps of target enterprise business, target business items corresponding to the target enterprise business and target display elements corresponding to the target business items;

and the target sample display component determining subunit is used for matching the target sample display component in the low-code sample display component library based on the data keyword of the data to be displayed and calling the target sample display component.

In this embodiment, the data keyword may be a data segment capable of characterizing the gist content of the data to be displayed, which is a part of the data to be displayed.

The beneficial effects of the technical scheme are as follows: by explaining the data to be displayed which passes the visual verification, accurate and effective acquisition of the data keywords of the data to be displayed is realized, and the matching of the corresponding target sample display components from the low-code sample display component library according to the data keywords is realized, so that the accuracy of displaying the data to be displayed is ensured, the efficiency of visually displaying the data to be displayed is improved, and the waste caused by repeatedly developing the display components is avoided.

Example 8:

on the basis of embodiment 1, the present embodiment provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, and a template generation module includes:

the panel acquisition unit is used for acquiring the obtained display panel, extracting configuration information of the display panel, and analyzing the configuration information to obtain the target size of the displayable area in the display panel;

typesetting unit, is used for:

the method comprises the steps of obtaining target sample display components, analyzing attribute information of the target sample display components, and determining display weight and component contour characteristics of each target sample display component;

determining a target display area of a target sample display assembly in a displayable area based on the display weight, and dividing the displayable area in the display panel based on the target size of the displayable area, the target display area of the target sample display assembly in the displayable area and the assembly contour characteristics of each target sample display assembly to obtain sub-display areas;

Determining corresponding initial fixed point positions in the corresponding sub-display areas based on component profile features of the target sample display components with maximum display weights, setting the initial fixed point positions as position index values of the residual target sample display components, and determining relative fixed point positions of the residual target sample display components based on the position index values;

performing first typesetting on the displayable region of the target sample display assembly in the display panel based on the target fixed point position and the relative fixed point position, and extracting splicing characteristics of splicing seams of adjacent target sample display assemblies based on a first typesetting result;

determining the type of the splicing seam of the adjacent target sample display assembly based on the splicing characteristics, determining compatible parameters of the adjacent target sample display assembly based on the assembly contour characteristics when the type of the splicing seam does not meet the preset typesetting requirement, and adapting the splicing seam of the adjacent target sample display assembly based on the low code according to the compatible parameters;

smoothing the splicing seams based on the adapting result, performing second typesetting on the adjacent target sample display components by the smoothing result, and summarizing the first typesetting and the second typesetting to obtain target typesetting parameters of the target sample display components;

And the template generating unit is used for controlling a preset computer to perform simulated typesetting on the target sample display assembly based on the target typesetting parameters, and obtaining the template to be displayed based on the simulated typesetting.

In this embodiment, the configuration information may be parameters capable of characterizing the size information, model information, and format requirements when displaying the data, etc.

In this embodiment, the target size may be the size of the length and width of a display area in the display panel where effective data display is enabled.

In this embodiment, the attribute information may be structural features of the target sample display component, an adaptive display requirement range, and the like.

In this embodiment, the display weights may be indicative of how much the different target sample display components are contributing to the data visualization.

In this embodiment, the component outline feature may be a boundary condition of different target sample display components, for example, may be a circle or a square, etc., so as to facilitate typesetting of different target sample display components in the display panel.

In this embodiment, the target display area may be a display position of different target sample display components in the display panel, which is determined according to the display weight, and the more conspicuous the target sample display components with a larger display weight are located in the display panel, for example, may be closer to the center of the display panel, or the like.

In this embodiment, the sub-display area may be a different display area obtained by dividing the displayable area in the display panel, and is a part of the displayable area in the original display panel.

In this embodiment, the starting fixed point position may be a specific typesetting position corresponding to a displayable area of the target sample display component representing the maximum value of the display weight in the display panel, so as to lock the typesetting positions of other target sample display components according to the starting fixed point position, thereby ensuring typesetting accuracy.

In this embodiment, the position index value may be a reference basis for determining the position of the other target sample display component for display in the realistic area in the display panel.

In this embodiment, the relative setpoint position may be the final layout position determined by the other target sample display component from the starting setpoint position.

In this embodiment, the first typesetting may be to typeset the displayable region of the target sample display component in the display panel according to the target fixed point position and the relative fixed point position.

In this embodiment, the stitching feature is used to characterize the engagement between adjacent target sample display elements.

In this embodiment, the splice seam type may be one of overlap, seam presence, and just a seamless splice.

In this embodiment, the preset typesetting requirements are known in advance, namely just seamless splicing (no gaps or overlaps exist).

In this embodiment, the compatibility parameter is used to characterize the display coordination data between the adjacent target sample display components, so as to optimize the splicing between the adjacent target sample display components and ensure the accuracy and reliability of the splicing.

In this embodiment, the second typesetting may be a result of optimizing and then rearranging the splice joints of the adjacent target sample display components in the displayable region in the display panel.

In this embodiment, the target layout parameter may be a result obtained by summarizing the first layout and the second layout, and is used to characterize a final layout result of different target sample display components in the display panel.

The beneficial effects of the technical scheme are as follows: the configuration information of the display panel is analyzed, the accurate and effective determination of the target size of a displayable region in the display panel is realized, the corresponding display weight is locked through the attribute information of the target sample display assembly, the effective determination of the positions of different target sample display assemblies in the display panel according to the display weight is realized, finally, the different target sample display assemblies are typeset in the display panel according to the determined positions, the splice joint between the typeset adjacent target sample display assemblies is optimized, the effective typesetting of the target samples in the display panel is finally realized, the adaptive typesetting is performed on the target sample display assemblies through the display panel, the display intelligence is effectively improved, the visual display efficiency of the data to be displayed is improved, and the waste caused by repeated development of the display assemblies is avoided.

Example 9:

on the basis of embodiment 8, the present embodiment provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, and a template generating unit, which includes:

the simulation typesetting subunit is used for obtaining simulation typesetting results of the preset computer for performing simulation typesetting on the target sample display components, and determining the display integrity of each target sample display component on the display panel based on the simulation typesetting results;

the abnormal component determining subunit is used for acquiring the display duty ratio and the reference display duty ratio of different target sample display components on the display panel when the display integrity is incomplete, and determining the abnormal target sample display components and the duty ratio adjustment coefficients of the abnormal target sample display components based on the display duty ratio and the reference display duty ratio;

and the adjustment subunit is used for adjusting the display duty ratio of the abnormal target sample display component based on the duty ratio adjustment coefficient and obtaining the template to be displayed based on the adjustment result.

In this embodiment, the preset computer is set in advance, and can perform analog typesetting on the determined typesetting scheme.

In this embodiment, the display integrity is used to characterize the display condition of different target sample display components in the display panel, i.e. whether the entire display content of the target sample display components can be displayed.

In this embodiment, the reference display duty cycle is known in advance for characterizing the area ratio of the occupied area of the different target sample display components in the display panel.

In this embodiment, the abnormal target sample display component may be a target sample display component that does not satisfy the reference display duty.

In this embodiment, the duty ratio adjustment coefficient may be a specific parameter that characterizes adjustment of the duty ratio of the abnormal target sample display component, that is, a specific degree of adjustment, for example, a certain value may be enlarged or reduced.

The beneficial effects of the technical scheme are as follows: the analysis is carried out on the obtained simulated typesetting result, so that the display integrity of different target sample display components in the display panel is accurately and effectively determined, and when the target sample display components which cannot be completely displayed exist, the display duty ratio of the abnormal target sample display components is adjusted, so that the accuracy and the reliability of the finally obtained template to be displayed are ensured, the efficiency of visually displaying the data to be displayed is also improved, the waste caused by repeatedly developing the display components is avoided, and a large amount of manpower and material resources are saved while the display effect of the data to be displayed is ensured.

Example 10:

on the basis of embodiment 1, this embodiment provides a low-code large-screen design system capable of being rapidly expanded based on data visualization, a visual display module, comprising:

the data calling unit is used for obtaining the obtained data to be displayed, analyzing the data to be displayed and determining the target display requirement of the data to be displayed;

the data mapping unit is used for determining the mapping relation between the data to be displayed and the template to be displayed based on the target display requirement and mapping the data to be displayed to the template to be displayed based on the mapping relation;

and the data visualization unit is used for rendering the template to be displayed based on the mapping result and performing visual display on the data to be displayed on the template to be displayed based on the rendering result.

In this embodiment, the target display requirement may be a specific area for representing and displaying different data to be displayed when the data to be displayed is displayed.

In this embodiment, the mapping relationship may be a correspondence relationship between the data to be displayed and the display template, that is, a specific position condition where different data to be displayed are displayed in the display template.

In this embodiment, rendering the template to be displayed based on the mapping result may be adjusting the color of the template to be displayed according to the target display requirement, so as to complete the visual display of the data to be displayed.

The beneficial effects of the technical scheme are as follows: the mapping relation between the data to be displayed and the templates to be displayed is determined according to the target display requirement, the data to be displayed is accurately mapped to the corresponding positions in the templates to be displayed according to the mapping relation, and the templates to be displayed are rendered after the mapping is completed, so that the data to be displayed is accurately and effectively visualized, the waste caused by repeated development of the display assembly is avoided, the display effect of the data to be displayed is ensured, and a large amount of manpower and material resources are saved.

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 (10)

1. A data visualization-based, rapidly expandable, low-code, large-screen design system, comprising:

the component library generating module is used for constructing a plurality of sample display components based on the low codes, storing the sample display components and generating a low code sample display component library;

The data to be displayed acquisition module is used for acquiring data to be displayed, reading the data to be displayed, and matching a target sample display assembly in the low-code sample display assembly library based on a reading result;

the template generation module is used for acquiring a display panel, typesetting the target sample display assembly in the display panel, and generating a template to be displayed based on typesetting results;

and the visual display module is used for mapping the data to be displayed in the template to be displayed and completing visual display of the data to be displayed.

2. The data visualization-based rapidly expandable low-code large-screen design system of claim 1, wherein the component library generation module comprises:

the low-code construction unit is used for acquiring an enterprise structure, setting display requirements according to the enterprise structure, editing codes according to the display requirements, and generating a plurality of sample display components based on editing results;

the storage unit is used for acquiring the component identification of the sample display component, constructing a component storage node based on the component identification of the sample display component, storing the corresponding sample display component based on the component storage node, and generating a low-code sample display component library based on the storage result.

3. A data visualization based rapidly expandable low code large screen design system as in claim 2, wherein the low code construction unit comprises:

the first coding subunit is used for reading the enterprise structure, determining M enterprise services corresponding to the enterprise structure, and simultaneously, carrying out first coding according to the enterprise services to obtain M first sub-display components;

the second coding subunit is used for acquiring N corresponding business items in each enterprise business, and carrying out second coding on the interiors of the corresponding first sub-display assemblies according to the business items to acquire N second sub-display assemblies in the interiors of the first sub-display assemblies;

the third coding subunit is used for acquiring the data display requirement of the service item, reading the data display requirement of the service item, determining Q requirement display elements corresponding to the data display requirement, and carrying out third coding in the second sub-display assembly based on the Q requirement display elements to acquire Q third sub-display assemblies in the second display assembly;

the sample display component acquisition subunit is configured to form a sample display component corresponding to each service type in the enterprise based on the first sub-display component, the second sub-display component in the first sub-display component, and the third sub-display component in the second sub-display component.

4. A data visualization based, rapidly expandable, low code, large screen design system as in claim 2, wherein the memory unit comprises:

the component identifier obtaining subunit is used for obtaining the enterprise service corresponding to each sample display component, obtaining the service name of the enterprise service, inputting the service name into a preset enterprise management library for matching, determining the service number of the enterprise service, and taking the service number of the enterprise service as the component identifier of the corresponding sample display component;

and the storage subunit is used for constructing a component storage node by taking the component identification as a node element, constructing a target relation between the sample display component and the component storage node based on the component identification, storing the sample display component into the corresponding component storage node based on the target relation, and generating a low-code sample display component library.

5. The quick extensible low-code large-screen design system based on data visualization of claim 1, wherein the data acquisition module to be displayed comprises:

the information determining unit is used for determining data source information of the data to be displayed and enterprise information of a target enterprise in the data to be displayed after the data to be displayed is acquired;

The to-be-displayed verification request acquisition unit is used for integrating the data source information of the to-be-displayed data and the enterprise information of the target enterprise in the to-be-displayed data to obtain a to-be-displayed verification request;

the visual verification unit is used for transmitting the verification request to be displayed to the preset verification terminal for visual verification, and reading and displaying the data to be displayed when the verification request to be displayed passes the visual verification.

6. A rapidly expandable low code large screen design system based on data visualization as in claim 5, wherein the visual verification unit comprises:

the invoking subunit is used for invoking a preset visual source information set and a preset enterprise management set at a preset verification terminal;

a first visual verification subunit for:

carrying out first matching on the data source information in the verification request to be displayed and the visual source information set, and judging whether the verification request to be displayed passes the first visual verification;

when the data source information in the verification request to be displayed has information consistent with the data source information in the visual source information set, judging that the verification request to be displayed passes the first visual verification;

otherwise, judging that the verification request to be displayed fails the first visual verification;

A second visual verification subunit for:

performing second matching on enterprise information of a target enterprise in the verification request to be displayed and a preset enterprise management set, and judging whether the verification request to be displayed passes second visual verification;

when the enterprise information of the target enterprise in the verification request to be displayed and the preset enterprise management set have information consistent with the enterprise information of the target enterprise, judging that the verification request to be displayed passes the second visual verification;

otherwise, judging that the verification request to be displayed does not pass the second visual verification;

the display subunit is used for reading and displaying the data to be displayed when the data to be displayed passes the first visual verification and passes the second visual verification when the verification request to be displayed passes the first visual verification; otherwise, the data to be displayed cannot be displayed.

7. A rapidly expandable low code large screen design system based on data visualization as in claim 5, wherein the visual verification unit comprises:

a data reading subunit for:

when the verification request to be displayed passes the visual verification, reading the data to be displayed, and determining the data keywords of the data to be displayed;

wherein, the data keywords of the data to be displayed comprise: the method comprises the steps of target enterprise business, target business items corresponding to the target enterprise business and target display elements corresponding to the target business items;

And the target sample display component determining subunit is used for matching the target sample display component in the low-code sample display component library based on the data keyword of the data to be displayed and calling the target sample display component.

8. The data visualization-based rapidly expandable low-code large-screen design system of claim 1, wherein the template generation module comprises:

the panel acquisition unit is used for acquiring the obtained display panel, extracting configuration information of the display panel, and analyzing the configuration information to obtain the target size of the displayable area in the display panel;

typesetting unit, is used for:

the method comprises the steps of obtaining target sample display components, analyzing attribute information of the target sample display components, and determining display weight and component contour characteristics of each target sample display component;

determining a target display area of a target sample display assembly in a displayable area based on the display weight, and dividing the displayable area in the display panel based on the target size of the displayable area, the target display area of the target sample display assembly in the displayable area and the assembly contour characteristics of each target sample display assembly to obtain sub-display areas;

Determining corresponding initial fixed point positions in the corresponding sub-display areas based on component profile features of the target sample display components with maximum display weights, setting the initial fixed point positions as position index values of the residual target sample display components, and determining relative fixed point positions of the residual target sample display components based on the position index values;

performing first typesetting on the displayable region of the target sample display assembly in the display panel based on the target fixed point position and the relative fixed point position, and extracting splicing characteristics of splicing seams of adjacent target sample display assemblies based on a first typesetting result;

determining the type of the splicing seam of the adjacent target sample display assembly based on the splicing characteristics, determining compatible parameters of the adjacent target sample display assembly based on the assembly contour characteristics when the type of the splicing seam does not meet the preset typesetting requirement, and adapting the splicing seam of the adjacent target sample display assembly based on the low code according to the compatible parameters;

smoothing the splicing seams based on the adapting result, performing second typesetting on the adjacent target sample display components by the smoothing result, and summarizing the first typesetting and the second typesetting to obtain target typesetting parameters of the target sample display components;

And the template generating unit is used for controlling a preset computer to perform simulated typesetting on the target sample display assembly based on the target typesetting parameters, and obtaining the template to be displayed based on the simulated typesetting.

9. The data visualization-based rapidly expandable low-code large-screen design system of claim 8, wherein the template generation unit comprises:

the simulation typesetting subunit is used for obtaining simulation typesetting results of the preset computer for performing simulation typesetting on the target sample display components, and determining the display integrity of each target sample display component on the display panel based on the simulation typesetting results;

the abnormal component determining subunit is used for acquiring the display duty ratio and the reference display duty ratio of different target sample display components on the display panel when the display integrity is incomplete, and determining the abnormal target sample display components and the duty ratio adjustment coefficients of the abnormal target sample display components based on the display duty ratio and the reference display duty ratio;

and the adjustment subunit is used for adjusting the display duty ratio of the abnormal target sample display component based on the duty ratio adjustment coefficient and obtaining the template to be displayed based on the adjustment result.

10. A rapidly expandable low code large screen design system based on data visualization as in claim 1, wherein the visualization display module comprises:

The data calling unit is used for obtaining the obtained data to be displayed, analyzing the data to be displayed and determining the target display requirement of the data to be displayed;

the data mapping unit is used for determining the mapping relation between the data to be displayed and the template to be displayed based on the target display requirement and mapping the data to be displayed to the template to be displayed based on the mapping relation;

and the data visualization unit is used for rendering the template to be displayed based on the mapping result and performing visual display on the data to be displayed on the template to be displayed based on the rendering result.