CN117520617B - Data information display method based on chart component - Google Patents

Abstract

The invention discloses a data information display method based on a chart component, which relates to the technical field of data modularization display, and comprises the steps of constructing a query platform, and generating a query data set by a user through intelligent query by using the query platform; graph componentization is carried out on the query data set, component display rules are set, and data information componentization dynamic display is carried out according to the component display rules; and acquiring a plurality of chart components corresponding to the data information componentized dynamic display, binding the chart components to a cross-platform protocol, generating a multiplexing component, constructing data communication between other display platforms and the current query platform, and further performing cross-platform display, thereby realizing data information display based on a chart component mode.

Description

Data information display method based on chart component

Technical Field

The invention relates to the technical field of data modularization display, in particular to a data information display method based on a chart component.

Background

With the advent of big data age, people are faced with massive data information, but means for effectively integrating and displaying the data information are often lacking, meanwhile, due to the fact that the dispersion degree of the data information is too large, users often need to perform tedious inquiry to comprehensively acquire the data information, in addition, how to realize cross-platform display of huge data information on different platforms and how to realize relative independence and high reusability of the data information in a chart component mode are all problems which are needed to be considered at present.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a data information display method based on a graph component.

The aim of the invention can be achieved by the following technical scheme: a data information display method based on a chart component comprises the following steps:

Step S1: constructing a query platform, and enabling a user to conduct intelligent query through the query platform so as to generate a query data set through intelligent query;

step S2: graph componentization is carried out on the query data set, component display rules are set, and data information componentization dynamic display is carried out according to the component display rules;

Step S3: and acquiring a plurality of chart components corresponding to the data information componentized dynamic display, binding the chart components to a cross-platform protocol, generating a multiplexing component, constructing data communication between other display platforms and the current query platform, and further performing cross-platform display.

Further, the process of constructing the query platform includes:

The method comprises the steps of constructing a query platform, wherein the query platform is provided with a user side and a platform side, the user side is provided with a registration unit, a login unit and an auditing unit, the platform side is provided with a communication verification unit and a communication interaction unit, the registration unit is used for registering a user account, the login unit is used for carrying out login operation of a user, the auditing unit is used for carrying out login auditing and client environment auditing, a broken link instruction is generated according to auditing results, the communication verification unit is used for judging whether the broken link instruction exists or not, corresponding operation is executed according to judging results, and the communication interaction unit is used for determining whether communication interaction between the platform side and the user side is carried out or not.

Further, the process of intelligently querying and generating a query data set includes:

After communication interaction between a platform end and a user end is established, reading permission of a database arranged in a query platform is obtained, a plurality of query templates stored in the database are further obtained, writing permission of the query templates is obtained, each query template is written into different intelligent labels, different query templates are associated with different data information, a user inputs query keywords in the query platform to locate and search out the plurality of intelligent labels, and data information corresponding to the plurality of intelligent labels is summarized into a query data set.

Further, the process of graph assembly of the query data set includes:

Acquiring data volume of a query data set, namely R _{Number of digits} , wherein the query data set comprises a plurality of data types and corresponding type labels, the type labels are tags, each data type is preset with a corresponding chart component template, and the component capacity of the chart component templates with different data types is C tag;

Setting a segmentation capacity, marking as R ₁, further dividing X segmentation data sets, wherein X=R _{Number of digits} /R₁ is available, setting a component library for storing a plurality of chart component templates, importing the X segmentation data sets into the component library to generate a plurality of to-be-componentized data sets corresponding to different types of labels, distributing the chart component templates corresponding to the to-be-componentized data sets by the component library, judging whether the chart component templates are full, executing corresponding operation according to a judgment result, and generating a plurality of chart components.

Further, the process of setting the component display rule to dynamically display the data information in a component mode comprises the following steps:

Setting a component display rule, wherein the component display rule comprises a display period, a display type and a display refreshing frequency, the display period comprises a busy period and a general period, and the display type comprises a big component display, a small component display and a linkage component display;

The method comprises the steps of obtaining a current time period for judging a display time period, judging display types, setting corresponding display refreshing frequency for chart components of different display types according to a judging result, and further displaying a plurality of chart components on a set display page.

Further, the process of binding the graph component to the cross-platform protocol generation multiplexing component includes:

Acquiring a plurality of chart components and numbering, wherein the numbering is i, i=1, 2,3, … … and n, n is a natural number larger than 0, associating corresponding component numbers for the chart components with different numbers, summarizing the n chart components to generate a component set, and numbering the current query platform as a reference platform, numbering other display platforms, wherein the numbering is j, j=1, 2,3, … … and m, m is a natural number larger than 0, taking m other display platforms as a migration platform, constructing the association relation between the component set in the reference platform and the migration platform, and marking G as G= < e, j >, writing protocol codes for the component set, binding cross-platform protocols for all chart components in the component set, and checking whether protocol files generated after the protocol code writing are correct;

if yes, generating a configuration file, marking a component set after the configuration file is acquired as a multiplexing component set, and synchronously marking a plurality of chart components in the multiplexing component set as multiplexing components;

if not, the writing of the protocol codes is carried out again until the correct protocol file is generated, and then the subsequent corresponding configuration file generation work is carried out.

Further, the process of constructing the data communication for cross-platform display includes:

Acquiring communication codes corresponding to the current query platform, namely M, acquiring communication codes corresponding to other display platforms, namely M [ j ], wherein j is a number corresponding to the other display platforms, further constructing a communication association code, namely H, wherein H= < M, M [ j >;

The method comprises the steps of obtaining a communication association code H, comparing and matching with a preset communication code table, if the communication association code H is one of the communication code tables, comparing and matching successfully, otherwise, comparing and matching successfully, constructing a communication channel for data communication when the comparing and matching successfully succeeds, performing cross-platform display after the data communication, constructing an encryption channel for data communication when the comparing and matching fail, obtaining corresponding real-time channel parameters in the encryption channel, and importing the corresponding real-time channel parameters into a preset vulnerability maintenance program for risk analysis and risk restoration.

Further, the data communication, risk analysis and risk repair process includes:

Respectively taking the query platform and other display platforms as a data sender and a data receiver for data communication, compressing the multiplexing component set into a data stream at the data sender and transmitting the data stream in association with a compressed logic file, acquiring the data stream by the data receiver and analyzing the compressed logic file, and further restoring a plurality of multiplexing components corresponding to the multiplexing component set and displaying the multiplexing components on the current display platform;

And acquiring real-time channel parameters by a vulnerability overhaul program, comparing the real-time channel parameters with preset overhaul parameters, further carrying out risk analysis to generate different analysis results, if the analysis results are in accordance with the overhaul parameters, the analysis results are safe, no subsequent risk restoration operation is carried out, otherwise, the analysis results are risk-existing, risk restoration operation is carried out, correction parameters are generated according to the difference value between the real-time channel parameters and the overhaul parameters, a plurality of patch files are generated according to the correction parameters, and the real-time channel parameters of the encrypted channel are adjusted through the patch files.

Compared with the prior art, the invention has the beneficial effects that: the query platform is constructed, so that a user can perform intelligent query through the query platform after acquiring the corresponding account number and the corresponding password, on one hand, the query platform realizes efficient acquisition and integration of data information, and on the other hand, the intelligent query simplifies the complexity of the query operation of the user; icon modularization is carried out on a query data set generated by intelligent query, a cross-platform protocol is bound to generate a multiplexing component, and the multiplexing component is displayed according to set component display rules, so that on one hand, the requirement of cross-platform display is met by the multiplexing component, and on the other hand, the data information is efficiently displayed according to the component display rules, and therefore the data information display based on the chart component is achieved.

Drawings

FIG. 1 is a flow chart of the present invention.

Detailed Description

As shown in fig. 1, a data information display method based on a chart component includes the following steps:

Step S1: constructing a query platform, and enabling a user to conduct intelligent query through the query platform so as to generate a query data set through intelligent query;

step S2: graph componentization is carried out on the query data set, component display rules are set, and data information componentization dynamic display is carried out according to the component display rules;

Step S3: and acquiring a plurality of chart components corresponding to the data information componentized dynamic display, binding the chart components to a cross-platform protocol, generating a multiplexing component, constructing data communication between other display platforms and the current query platform, and further performing cross-platform display.

It should be further noted that, in a specific embodiment, the process of constructing the query platform includes:

The method comprises the steps of constructing a query platform, wherein the query platform is provided with a user end and a platform end, the user end is provided with a registration unit, a login unit and an auditing unit, and the platform end is provided with a communication verification unit and a communication interaction unit;

The registering unit is used for registering the user account; acquiring user information of a plurality of users, wherein the user information comprises a user mobile phone number, a user identity card number and a user mailbox, and generating a login account and a login password according to the user mobile phone number and the user identity account;

the login account and the login password are sent to the corresponding user through a user mailbox;

the login unit is used for performing login operation of a user; acquiring a login account and a login password through a login user mailbox, inputting the login account and the login password into a GUI interactive interface of a login unit, and generating an audit instruction after the GUI interactive interface reads the login account and the login password and transferring the audit instruction to an audit unit;

the auditing unit is used for login auditing and user environment auditing; if the login account and the login password are correctly input, the login audit is passed, otherwise, the login audit is not passed, the real-time network parameters of the user side are obtained, the real-time network parameters are compared with preset reference network parameters, further deviation values are obtained, if the deviation values are within the set allowed values, the result of the user side environment audit is passed, otherwise, the result of the user side environment audit is not passed, and when the login audit is not passed, a broken link instruction is generated, and the result is recorded as P ₁;

The communication verification unit is used for judging whether a broken link instruction P ₁ exists or not, executing corresponding operation according to a judging result, if yes, operating a user to exit the query platform, and if not, generating an interaction instruction P ₂ and sending the interaction instruction P ₂ to the communication interaction unit;

The communication interaction unit is used for determining whether to perform communication interaction between the platform end and the user end, and acquiring a real-time interaction environment corresponding to the communication interaction, wherein the real-time interaction environment comprises a safety environment and a dangerous environment, if the environment is the safety environment, the communication interaction between the platform end and the user end is established, and if the environment is the dangerous environment, the communication interaction is forbidden.

It should be further noted that, in a specific embodiment, the process of generating the query data set by performing the intelligent query by the user through the query platform includes:

After communication interaction between a platform end and a user end is established, reading permission of a database arranged in a query platform is obtained, a plurality of query templates stored in the database are obtained through the reading permission, writing permission of the query templates is obtained, the state of the query templates is written into an enabling state through the writing permission, and each query template is written into different intelligent labels;

Corresponding different data information is associated with different query templates, a user inputs a query keyword in a query platform, a plurality of intelligent labels are retrieved through positioning of the query keyword, and the data information corresponding to the intelligent labels is summarized into a query data set;

it should be further noted that, in a specific embodiment, the process of graph assembly for the query dataset includes:

Acquiring a query data set, further acquiring the data volume of the query data set, and recording as R _{Number of digits} , wherein the query data set comprises a plurality of data types, different data types are provided with corresponding type labels, the type labels are tags, each data type is preset with a corresponding chart component template, and the component capacity of the chart component templates of different data types is recorded as C [ tag ];

Setting a segmentation capacity, namely R ₁, further dividing X segmentation data sets, namely X=R _{Number of digits} /R₁, setting a component library, wherein the component library is used for storing a plurality of chart component templates, importing the X segmentation data sets into the component library, associating classification programs with the component library, identifying different types of labels through the classification programs, merging parts of the same type of labels in the different segmentation data sets, and further generating a plurality of to-be-componentized data sets corresponding to the different types of labels;

distributing a chart component template corresponding to the data set to be componentized by the component library, and judging whether the chart component template is full;

recording the data quantity of the data set to be componentized stored into the chart component template as R ₂, if R ₂ is less than C tag, indicating that the chart component template is not full, continuing storing the data set to be componentized, the part of which accords with the corresponding data type, into the corresponding chart component template until R ₂ = C tag is met, stopping the storing operation, and repeating the operation to generate a plurality of chart components;

It should be further noted that, in a specific embodiment, the process of setting the component display rule and performing the dynamic display of the data information in a componentization manner according to the component display rule includes:

Setting a component display rule, wherein the component display rule comprises a display period, a display type and a display refreshing frequency, the display period comprises a busy period and a general period, and the display type comprises a big component display, a small component display and a linkage component display;

The busy time period is recorded as T _A, the general time period is recorded as T _B, the current time period is obtained and recorded as T _c, and further, the display time period is judged according to T _A、T_B and T _c;

If T _c＝T_A is reached, judging that the current period T _c is a busy period, further obtaining a chart component which needs to be displayed currently, judging the corresponding display type of the chart component, and setting the corresponding display refresh frequency according to the display type;

When the display type is large component display, setting the display refresh frequency as f ₁;

when the display type is small component display, setting the display refresh frequency as f ₂;

When the display type is linkage assembly display, the display refresh frequency is set to be f ₃;

f ₃＜f₁＜f₂, displaying a plurality of chart components of the display page set by the query platform according to the set display refreshing frequency;

If T _c＝T_B is reached, the current period T _B is judged to be a general period, the display type of the chart component to be displayed currently is set to be a linkage component, the display refresh frequency is set to be f ₄, f ₄＜f₃ is reached, and the chart component is displayed on a display page.

It should be noted that, different display types have corresponding unit display areas, the linkage assembly display is provided with the carousel time, the linkage assembly display includes big subassembly display and little subassembly display, for the combined form of two, cyclic display in carousel time, corresponding unit display area is the biggest, the unit display area that big subassembly displayed is secondary, little subassembly is secondary again, and unit display area represents the display volume of the data information that shows last time on the display page, the display refresh frequency that the larger corresponding setting of display volume is lower, and the smaller then the display refresh frequency is higher, the data information that has accomplished different display types and kept the same display volume in same a period has been optimized the display of data information to a certain extent, play the effect of dynamic display.

It should be further noted that, in a specific embodiment, the process of binding the graph component to the cross-platform protocol generation multiplexing component includes:

Obtaining a plurality of chart components, numbering the chart components, wherein i=1, 2,3, … … and n are included if the number is i, n is a natural number larger than 0, generating corresponding component numbers of the chart components with different numbers in a random function mode for the chart components with different numbers, the component numbers are character string sequences, summarizing the n chart components to generate a component set, and marking the component set as e;

Taking the current query platform as a reference platform, acquiring the reading rights of other display platforms, numbering the other display platforms, and recording j as j, wherein j=1, 2,3, … … and m, wherein m is a natural number larger than 0, and taking m other display platforms as migration platforms;

Constructing an association relation between a component set in a reference platform and a migration platform, and recording the association relation as G, wherein G= < e, j >, writing a protocol code on the component set, binding a cross-platform protocol for all chart components in the component set, and checking whether a protocol file generated after writing the protocol code is correct;

If yes, continuing to acquire an API (application program interface) associated with the migration platform, further capturing platform parameters associated with the migration platform through the API, and inputting the platform parameters serving as input parameters of a protocol file into the protocol file to further generate a configuration file;

the component set after the configuration file is acquired is marked as a multiplexing component set, and a plurality of chart components in the multiplexing component set are synchronously marked as multiplexing components;

If not, writing the protocol codes again until generating a correct protocol file, and then generating a subsequent corresponding configuration file;

It should be further noted that, in a specific embodiment, the process of constructing data communication between other display platforms and the current query platform, and further performing the cross-platform display includes:

Acquiring communication codes corresponding to the current query platform, namely M, acquiring communication codes corresponding to other display platforms, namely M [ j ], wherein j is a number corresponding to the other display platforms, further constructing a communication association code, namely H, wherein H= < M, M [ j >;

Acquiring a communication association code H, comparing and matching with a preset communication code table, if the communication association code H is one of the communication code tables, comparing and matching successfully, otherwise, comparing and matching failed, and executing corresponding operations according to different comparison and matching results;

When the comparison and the matching are successful, a communication channel is established between the current query platform and other display platforms according to the communication association codes, so that data communication of the two parties is realized through the communication channel, and cross-platform display is realized through the data communication;

When comparison matching fails, a communication channel is established between the current query platform and other display platforms, the communication channel is encrypted, an encrypted channel is generated, data communication is carried out in the encrypted channel, corresponding real-time channel parameters in the encrypted channel are obtained, the real-time channel parameters are imported into a preset vulnerability maintenance program, and risk analysis and risk restoration are carried out by the vulnerability maintenance program;

The data communication, risk analysis and risk repair process comprises the following steps:

Respectively taking the query platform and other display platforms as a data sender and a data receiver, compressing the multiplexing component set into a data stream at the data sender, correlating the data stream with a compression related compression logic file, transmitting the data stream and the compression logic file to the data receiver, acquiring the data stream by the data receiver, analyzing the compression logic file, restoring a plurality of multiplexing components corresponding to the multiplexing component set, and displaying on the current display platform;

Acquiring real-time channel parameters by a loophole maintenance program, comparing the real-time channel parameters with preset maintenance parameters, further performing risk analysis to generate different analysis results, if the parameters accord with the maintenance parameters, the analysis results are "safe" and no subsequent risk repair operation is performed, otherwise, the analysis results are "risk exists", the risk repair operation is performed, and the content of risk repair is as follows: generating correction parameters according to the difference value between the real-time channel parameters and the maintenance parameters, generating a plurality of patch files according to the correction parameters, and adjusting the real-time channel parameters of the encrypted channel through the patch files;

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (3)

1. The data information display method based on the chart component is characterized by comprising the following steps of:

Step S1: constructing a query platform, and enabling a user to conduct intelligent query through the query platform so as to generate a query data set through intelligent query;

step S2: graph componentization is carried out on the query data set, component display rules are set, and data information componentization dynamic display is carried out according to the component display rules;

Step S3: acquiring a plurality of chart components corresponding to the data information componentized dynamic display, binding the chart components to a cross-platform protocol, generating a multiplexing component, constructing data communication between other display platforms and the current query platform, and further performing cross-platform display;

The process of constructing the query platform comprises the following steps:

Constructing a query platform, wherein the query platform is provided with a user side and a platform side, the user side is provided with a registration unit, a login unit and an auditing unit, the platform side is provided with a communication verification unit and a communication interaction unit, the registration unit is used for registering a user account, the login unit is used for carrying out login operation of a user, the auditing unit is used for carrying out login auditing and client environment auditing, a broken link instruction is generated according to auditing results, the communication verification unit is used for judging whether the broken link instruction exists or not, and corresponding operation is executed according to judging results, and the communication interaction unit is used for determining whether communication interaction between the platform side and the user side is carried out or not;

the process of intelligently querying and generating a query dataset includes:

after communication interaction between a platform end and a user end is established, reading permission of a database arranged in a query platform is obtained, a plurality of query templates stored in the database are further obtained, writing permission of the query templates is obtained, each query template is written into different intelligent labels, different query templates are associated with different data information, a user inputs query keywords in the query platform to locate and search out the plurality of intelligent labels, and data information corresponding to the plurality of intelligent labels is summarized into a query data set;

the process of graph componentization of a query dataset includes:

Acquiring data volume of a query data set, namely R _{Number of digits} , wherein the query data set comprises a plurality of data types and corresponding type labels, the type labels are tags, each data type is preset with a corresponding chart component template, and the component capacity of the chart component templates with different data types is C tag;

Setting a segmentation capacity, marking as R ₁, further dividing X segmentation data sets, wherein X=R _{Number of digits} /R₁ is included, setting a component library for storing a plurality of chart component templates, importing the X segmentation data sets into the component library to generate a plurality of to-be-componentized data sets corresponding to different types of labels, distributing the chart component templates corresponding to the to-be-componentized data sets by the component library, judging whether the chart component templates are full, executing corresponding operation according to a judgment result, and generating a plurality of chart components;

the process for setting the assembly display rules to dynamically display the data information in an assembly mode comprises the following steps:

Setting a component display rule, wherein the component display rule comprises a display period, a display type and a display refreshing frequency, the display period comprises a busy period and a general period, and the display type comprises a big component display, a small component display and a linkage component display;

Acquiring a current time period for judging a display time period, judging display types, setting corresponding display refresh frequencies for chart components of different display types according to a judging result, and further displaying a plurality of chart components on a set display page;

The process of binding the chart component to the cross-platform protocol generation multiplexing component comprises the following steps:

Acquiring a plurality of chart components and numbering, wherein the numbering is i, i=1, 2,3, … … and n, n is a natural number larger than 0, associating corresponding component numbers for the chart components with different numbers, summarizing the n chart components to generate a component set, and numbering the current query platform as a reference platform, numbering other display platforms, wherein the numbering is j, j=1, 2,3, … … and m, m is a natural number larger than 0, taking m other display platforms as a migration platform, constructing the association relation between the component set in the reference platform and the migration platform, and marking G as G= < e, j >, writing protocol codes for the component set, binding cross-platform protocols for all chart components in the component set, and checking whether protocol files generated after the protocol code writing are correct;

if yes, generating a configuration file, marking a component set after the configuration file is acquired as a multiplexing component set, and synchronously marking a plurality of chart components in the multiplexing component set as multiplexing components;

if not, the writing of the protocol codes is carried out again until the correct protocol file is generated, and then the subsequent corresponding configuration file generation work is carried out.

2. The method for displaying data information based on graph components according to claim 1, wherein the process of constructing the data communication for cross-platform display comprises:

Acquiring communication codes corresponding to the current query platform, namely M, acquiring communication codes corresponding to other display platforms, namely M [ j ], wherein j is a number corresponding to the other display platforms, further constructing a communication association code, namely H, wherein H= < M, M [ j >;

The method comprises the steps of obtaining a communication association code H, comparing and matching with a preset communication code table, if the communication association code H is one of the communication code tables, comparing and matching successfully, otherwise, comparing and matching successfully, constructing a communication channel for data communication when the comparing and matching successfully succeeds, performing cross-platform display after the data communication, constructing an encryption channel for data communication when the comparing and matching fail, obtaining corresponding real-time channel parameters in the encryption channel, and importing the corresponding real-time channel parameters into a preset vulnerability maintenance program for risk analysis and risk restoration.

3. The method for presenting data information based on graph components according to claim 2, wherein the data communication, risk analysis and risk repair processes include:

Respectively taking the query platform and other display platforms as a data sender and a data receiver for data communication, compressing the multiplexing component set into a data stream at the data sender and transmitting the data stream in association with a compressed logic file, acquiring the data stream by the data receiver and analyzing the compressed logic file, and further restoring a plurality of multiplexing components corresponding to the multiplexing component set and displaying the multiplexing components on the current display platform;

And acquiring real-time channel parameters by a vulnerability overhaul program, comparing the real-time channel parameters with preset overhaul parameters, further carrying out risk analysis to generate different analysis results, if the analysis results are in accordance with the overhaul parameters, the analysis results are safe, no subsequent risk restoration operation is carried out, otherwise, the analysis results are risk-existing, risk restoration operation is carried out, correction parameters are generated according to the difference value between the real-time channel parameters and the overhaul parameters, a plurality of patch files are generated according to the correction parameters, and the real-time channel parameters of the encrypted channel are adjusted through the patch files.