CN112307024B

CN112307024B - Data solidification method, device, computer equipment and computer readable storage medium

Info

Publication number: CN112307024B
Application number: CN202011179373.1A
Authority: CN
Inventors: 沙沛磊
Original assignee: Ping An Puhui Enterprise Management Co Ltd
Current assignee: Guangzhou Zhongtian Technology Consulting Co ltd
Priority date: 2020-10-29
Filing date: 2020-10-29
Publication date: 2024-04-02
Anticipated expiration: 2040-10-29
Also published as: CN112307024A

Abstract

The application discloses a data curing method, a device, computer equipment and a computer readable storage medium, which relate to the technical field of Internet, and are used for classifying application information when a user submits the application information, determining the data type indicated by preset curing content of each preset curing link, curing the sub-data with the same determined data type in the preset curing links of the preset products, and directly classifying and curing at the application stage, so that simultaneous curing of multiple types of data is realized, the curing process is simplified, and the efficiency is improved. The method comprises the following steps: when application information submitted by a user is received, analyzing the application information according to the data type to obtain sub-data; obtaining a preset product, and determining a preset curing link and preset curing content in the preset product; establishing an association relationship between a preset solidification link and sub-data according to the data type indicated by the preset solidification content; and according to the association relation, the sub-data is solidified to a preset solidification link of a preset product.

Description

Data solidification method, device, computer equipment and computer readable storage medium

Technical Field

The present disclosure relates to the field of internet technologies, and in particular, to a data solidification method, apparatus, computer device, and computer readable storage medium.

Background

With the continuous development of internet technology, many businesses in companies and enterprises are placed on-line, and customers can apply corresponding products to the companies or enterprises on-line. After a customer applies for a product, a company or an enterprise verifies and evaluates data submitted by the customer in the application process, the accuracy of verification and evaluation is an important basis for providing the product for the customer, and the service experience of the customer is determined, so that in order to prevent the data in certain aspects from being lost in the verification and evaluation process, when the customer applies for certain products, the data required for verification and evaluation are usually cured in the process of the product, so that the operations of fairness and fairness are performed in the follow-up process based on the cured data.

In the related art, after receiving data submitted by a customer, determining a product applied by the customer, analyzing and processing the data submitted by the customer when the product application flow is executed to a designated link, determining the data required to be solidified in the designated link, and solidifying the determined data.

In carrying out the present application, the applicant has found that the related art has at least the following problems:

the appointed link in each product application process can only solidify appointed data in data submitted by a customer, and the data submitted by the customer needs to be analyzed to determine which data to solidify when the same customer applies for different products, even if various products applied by the customer belong to the same type of products, the data needing to be solidified are identical, or the analysis and solidification processes of the data need to be executed respectively, so that the solidified data in the data solidification process are single, the solidification process of the data is complex, the efficiency of customer assessment is reduced, and the consistency of the solidified data in different links of different processes is difficult to be ensured.

Disclosure of Invention

In view of this, the present application provides a data curing method, apparatus, computer device and computer readable storage medium, and mainly aims to solve the problems that the data cured in the current data curing process is single, the curing process of the data is complicated, the efficiency of evaluating clients is reduced, and the consistency of the data cured in different links of different processes is difficult to be ensured.

According to a first aspect of the present application, there is provided a data curing method comprising:

when application information submitted by a user is received, analyzing the application information according to the data type to obtain at least one piece of sub-data;

acquiring a plurality of preset products, and determining a plurality of preset curing links and a plurality of preset curing contents in the plurality of preset products, wherein the plurality of preset curing contents are contents with curing requirements indicated by each preset curing link in the plurality of preset curing links;

establishing an association relationship between the plurality of preset solidification links and the at least one piece of sub-data according to the data types indicated by the plurality of preset solidification contents;

and curing the at least one piece of sub-data to the preset curing links of the preset products according to the association relation.

In another embodiment, the parsing the application information according to the data type to obtain at least one sub-data includes:

reading data items included in the application information, splitting the application information, and obtaining a plurality of member information corresponding to the data items;

and respectively determining the data type of each data item in the data items, and dividing member information corresponding to the data items with the same data type into the same group to obtain the at least one piece of sub data.

In another embodiment, the establishing an association between the plurality of preset solidification links and the at least one sub-data according to the data types indicated by the plurality of preset solidification contents includes:

for the plurality of preset solidified contents, determining the data type indicated by the preset solidified contents;

reading the data type of the at least one piece of sub data, and determining target sub data with the data type consistent with the data type indicated by the preset solidification content in the at least one piece of sub data;

binding a preset solidification link corresponding to the preset solidification content with the target sub-data, and establishing an association relationship between the preset solidification link and the target sub-data;

determining a preset product belonging to the preset curing link, and marking the associated preset curing link and the target sub-data by adopting the product name of the preset product, the preset curing content and the data type indicated by the preset curing content;

and respectively establishing a related association relation for a preset curing link corresponding to each preset curing content in the preset curing contents to obtain the association relation between the preset curing links and the at least one piece of sub-data.

In another embodiment, after the association relationship between the plurality of preset solidification links and the at least one sub-data is established according to the data types indicated by the plurality of preset solidification contents, the method includes:

creating a data configuration storage table, and adding the association relation between the plurality of preset solidification links and the at least one piece of sub data to the data configuration storage table;

determining a preset product and a data type corresponding to each preset curing link in the plurality of preset curing links, and adding the preset product and the data type corresponding to each preset curing link to the data configuration storage table.

In another embodiment, the curing the at least one sub-data to the plurality of preset curing links of the plurality of preset classes of products includes:

for each piece of sub data in the at least one piece of sub data, determining a target preset solidification link and a target preset product class, wherein the association relation exists between the target preset solidification link and the sub data;

marking the sub-data based on the link name of the target preset solidification link and the product type of the target preset product;

And storing the marked sub data as a big data field or a text field into a database.

In another embodiment, after the storing the marked sub-data as a big data field or a text field in the database, the method further includes:

determining a storage position of the marked sub data in the database, and taking the storage position as a solidification path of the sub data;

and acquiring a data configuration storage table, and adding the curing path to a position corresponding to the sub-data in the data configuration storage table, wherein the data configuration storage table is used for storing the association relation between the plurality of preset curing links and the at least one sub-data.

In another embodiment, the method further comprises:

when the user is detected to be in a designated link in an application process, acquiring a target product applied by the user, wherein the designated link is a link with a data acquisition requirement in the application process of the target product;

determining a specified preset product class to which the target product belongs, and inquiring a specified preset solidification link corresponding to the specified preset product class;

extracting target sub-data from the appointed preset solidification link, and processing the target sub-data according to the operation indicated by the appointed link.

According to a second aspect of the present application, there is provided a data curing apparatus comprising:

the analysis module is used for analyzing the application information according to the data type when receiving the application information submitted by the user, so as to obtain at least one piece of sub-data;

the determining module is used for obtaining a plurality of preset products, determining a plurality of preset curing links and a plurality of preset curing contents in the preset products, wherein the preset curing contents are contents with curing requirements indicated by each preset curing link in the preset curing links;

the establishing module is used for establishing the association relationship between the preset solidification links and the at least one piece of sub data according to the data types indicated by the preset solidification contents;

and the curing module is used for curing the at least one piece of sub-data to the preset curing links of the preset products according to the association relation.

In another embodiment, the parsing module includes:

the splitting unit is used for reading the data items included in the application information, splitting the application information and obtaining a plurality of member information corresponding to the plurality of data items;

The dividing unit is used for respectively determining the data type of each data item in the data items, and dividing member information corresponding to the data items with the same data type into the same group to obtain the at least one piece of sub data.

In another embodiment, the establishing module includes:

a determining unit, configured to determine, for the plurality of preset cured contents, a data type indicated by the preset cured contents;

the reading unit is used for reading the data type of the at least one piece of sub data, and determining target sub data with the data type consistent with the data type indicated by the preset solidification content in the at least one piece of sub data;

the binding unit is used for binding the preset solidification links corresponding to the preset solidification content with the target sub-data and establishing an association relationship between the preset solidification links and the target sub-data;

the marking unit is used for determining a preset product belonging to the preset curing link, and marking the associated preset curing link and the target sub-data by adopting the product name of the preset product, the preset curing content and the data type indicated by the preset curing content;

The binding unit is further configured to establish a related association relationship for a preset curing link corresponding to each preset curing content in the plurality of preset curing contents, so as to obtain an association relationship between the plurality of preset curing links and the at least one sub-data.

In another embodiment, the apparatus comprises:

the creation module is used for creating a data configuration storage table, and adding the association relation between the plurality of preset solidification links and the at least one piece of sub data to the data configuration storage table;

the adding module is used for determining a preset product and a data type corresponding to each preset curing link in the plurality of preset curing links, and adding the preset product and the data type corresponding to each preset curing link to the data configuration storage table.

In another embodiment, the curing module includes:

the first determining unit is used for determining a target preset solidification link and a target preset product with the association relation between each piece of sub data in the at least one piece of sub data;

the marking unit is used for marking the sub-data based on the link name of the target preset solidification link and the product type of the target preset product;

And the storage unit is used for storing the marked sub data as a big data field or a text field to a database.

In another embodiment, the curing module further comprises:

a second determining unit, configured to determine a storage location of the marked sub-data in the database, and take the storage location as a solidification path of the sub-data;

the adding unit is used for obtaining a data configuration storage table, adding the curing path to the position corresponding to the sub-data in the data configuration storage table, and the data configuration storage table is used for storing the association relation between the plurality of preset curing links and the at least one sub-data.

In another embodiment, the apparatus further comprises:

the acquisition module is used for acquiring a target product applied by the user when the user is detected to be in a designated link in an application process, wherein the designated link is a link with a data acquisition requirement in the application process of the target product;

the query module is used for determining a specified preset product class to which the target product belongs and querying a specified preset solidification link corresponding to the specified preset product class;

and the processing module is used for extracting target sub-data in the appointed preset solidification link and processing the target sub-data according to the operation indicated by the appointed link.

According to a third aspect of the present application there is provided a computer device comprising a memory storing a computer program and a processor implementing the steps of the method of the first aspect described above when the computer program is executed by the processor.

According to a fourth aspect of the present application there is provided a computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the method of the first aspect described above.

By means of the technical scheme, the data curing method, the device, the computer equipment and the computer readable storage medium provided by the application are used for classifying application information when a user submits the application information, dividing the application information into sub-data of different data types, determining preset curing links of each preset type product needing to be subjected to data curing, determining the data type of which sub-data the preset curing content needing to be cured indicates in each preset curing link is consistent with the data type of the sub-data, curing the sub-data with the consistent determined data type in the preset curing links of the preset type product, and directly classifying and curing the application information provided by the user in the application stage of the user, so that simultaneous curing of multiple types of data is realized, and the curing operation of the data is not required to be executed when the corresponding links of the product are executed.

The foregoing description is only an overview of the technical solutions of the present application, and may be implemented according to the content of the specification in order to make the technical means of the present application more clearly understood, and in order to make the above-mentioned and other objects, features and advantages of the present application more clearly understood, the following detailed description of the present application will be given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

fig. 1 shows a flow chart of a data curing method according to an embodiment of the present application;

fig. 2 shows a flow chart of a data curing method according to an embodiment of the present application;

fig. 3A shows a schematic structural diagram of a data curing device according to an embodiment of the present application;

fig. 3B is a schematic structural diagram of a data curing device according to an embodiment of the present disclosure;

fig. 3C illustrates a schematic structural diagram of a data curing device according to an embodiment of the present application;

Fig. 3D is a schematic structural diagram of a data curing device according to an embodiment of the present application;

fig. 3E shows a schematic structural diagram of a data curing device according to an embodiment of the present application;

fig. 3F shows a schematic structural diagram of a data curing device according to an embodiment of the present application;

fig. 3G illustrates a schematic structural diagram of a data curing device according to an embodiment of the present application;

fig. 4 shows a schematic device structure of a computer device according to an embodiment of the present application.

Detailed Description

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

The embodiment of the application provides a data curing method, as shown in fig. 1, which comprises the following steps:

101. when application information submitted by a user is received, the application information is analyzed according to the data type, and at least one piece of sub data is obtained.

102. Obtaining a plurality of preset products, and determining a plurality of preset curing links and a plurality of preset curing contents in the plurality of preset products, wherein the plurality of preset curing contents are contents with curing requirements indicated by each preset curing link in the plurality of preset curing links.

103. And establishing an association relationship between a plurality of preset curing links and at least one piece of sub data according to the data types indicated by the plurality of preset curing contents.

104. And according to the association relation, curing at least one piece of sub data into a plurality of preset curing links of a plurality of preset products.

According to the method provided by the embodiment of the application information, when a user submits the application information, the application information is classified into the sub-data with different data types, the preset solidification links of each preset product needing to be subjected to data solidification are determined, the data type indicated by the preset solidification content needing to be solidified in each preset solidification link is consistent with the data type of the sub-data, the sub-data with the consistent determined data type is solidified in the preset solidification link of the preset product, the application information provided by the user is directly classified and solidified at the application stage of the user, simultaneous solidification of multiple types of data is realized, the solidification operation of the data is not needed to be executed when the corresponding links of the product are executed, the solidification flow of the data is simplified, the evaluation efficiency is improved, and the consistency of the data is ensured.

The embodiment of the application provides a data curing method, as shown in fig. 2, which comprises the following steps:

201. when application information submitted by a user is received, the application information is analyzed according to the data type, and at least one piece of sub data is obtained.

Applicants have recognized that current data curing is a single form of curing of data, where curing of particular data is only achieved at particular links, and where data other than the particular data is not cured. The data to be solidified are different each time, so that application information provided by a customer is needed to be analyzed in the data solidification process of each time to know which data is needed to be solidified at present, a large amount of repeated work exists in the data solidification operation, the risk that the data consistency is difficult to guarantee exists when the same data is solidified in links with solidification requirements in different processes, different results are likely to be obtained when the same data is solidified in different environments, the influence on the results of various follow-up wind control operations is very easy, and the customer experience is reduced. Therefore, the application provides a data curing method, when a customer submits data, the data are classified into sub-data with different data types, preset curing links of each preset product needing to be subjected to data curing are determined, the data type indicated by preset curing content of each preset curing link is determined to be consistent with the data type of which sub-data, the sub-data with consistent determined data type is cured in the preset curing link of the preset product, the application information provided by the user is directly cured in the application stage of the user, and the curing operation of the data is not required to be executed when the corresponding links of the product are executed. In addition, when the solidified data is needed to be used subsequently, the solidified data can be directly extracted from the database according to the product of the current application and the preset solidification link of the product, so that the data analysis is realized only once when a client submits the data, the analysis and the processing of the data are not needed to be carried out in each data solidification, a large amount of repeated workload is reduced, and the consistency of the data solidification in different links is also ensured.

Therefore, when application information submitted by a user is received, the application information needs to be analyzed according to the data type to obtain at least one piece of sub-data with different data types, so that the classification and solidification of the application information can be realized based on the data type later. The application information may include a user name, identification card information, school status information, degree information, contact information, and the like. It should be noted that, if the user designates the product of interest in the platform, the user may also be required to provide the application information according to the information required by the product application. If the user does not specify, the user can be required to provide the most comprehensive application information according to the default information content so as to respectively meet the requirements of different preset curing links of a plurality of different preset products on the data to be cured.

When dividing the application information, firstly, reading data items included in the application information, splitting the application information, and obtaining a plurality of member information corresponding to the data items. For example, the client information, the identification card information, the learning history information, the student status information and the learning level information are all data items, so that each piece of information can be used as a piece of member information, and thus a plurality of pieces of member information can be obtained. Then, since some data are independent data, not belonging to the same general category as other data, such as customer name and identity card information, but some data are of substantially the same type and have substantially the same attribute, such as learning information, learning state information and learning level information, which are substantially basic education information, it is necessary to determine the data type of each of the data items, respectively, and divide member information corresponding to the data items of the same data type into the same group to obtain at least one piece of sub data. The data types are classified into String (single) type, map (single bar) type, and List (List) type. Specifically, the String type is a single data type, such as a customer name and identification card information, which is data including only one piece of data, and thus the corresponding data type is the String type. The Map type is a single data information type, that is, a piece of information includes a plurality of data contents, for example, for basic education information, this is a large class, and the following may include learning information, learning level information, and the like, and thus the data types corresponding to all the information included in this large class of basic education information are Map type. The List type is a plurality of data types, that is, the same type of information has a plurality of pieces of information, and each piece of information comprises a plurality of data contents, such as contact information, and can comprise a plurality of contacts, and each contact can specifically comprise the name, the mobile phone number, the relation and the like of the contact, so that the data types corresponding to the contact information and all the contents below the contact are of the List type. Thus, the grouping can be performed according to the data types corresponding to the member information, and at least one piece of sub data belonging to different data types can be obtained.

202. Obtaining a plurality of preset products, and determining a plurality of preset curing links and a plurality of preset curing contents in the preset products.

In the embodiment of the application, after the analysis of the application information is completed, determining which link of which product has the curing requirement in the current products of various types so as to establish the association relationship among the sub-data, the products, the links and the content, and realizing targeted data curing. Where the products are products offered to customers in a company or enterprise, they are generally classified into several types, e.g., mortgage-free products, custom-made products, etc., which are also a plurality of preset-type products in this embodiment. Further, each preset product is provided with a fixed link for data curing, for example, no mortgage product needs to be subjected to data curing in a 0301 link, and a mortgage product needs to be subjected to data curing in a 0208 link, so that links with curing requirements are determined in a plurality of preset products to serve as a plurality of preset curing links. In addition, each preset curing link is also specifically cured by data, not all data need to be cured, for example, a mortgage-free product needs to cure String-type data in the 0301 link, so that the content with curing requirements indicated by each preset curing link in a plurality of preset curing links needs to be determined as a plurality of preset curing contents for subsequent curing operation. Specifically, the preset curing content not only can indicate the data type corresponding to the content with the curing requirement, but also can indicate which data is needed to be cured, for example, the curing of the client name and the identity card information in the String data can be indicated, so that different curing requirements of different preset curing links on the content to be cured are met.

In the embodiment of the present application, it is noted that, considering that links of similar products having curing requirements and curing contents specified in the links are consistent, for example, for a product a and a product B without mortgage, string type data needs to be cured in the link 0301, so in the embodiment, the content of which link of the product needs to be cured is determined according to the type of the product, similar products are integrally managed, and management pressure on the data is reduced. In the actual application process, a preset curing link and preset curing content can be determined for each product respectively, so that the data curing precision is improved.

203. And establishing an association relationship between a plurality of preset curing links and at least one piece of sub data according to the data types indicated by the plurality of preset curing contents.

In the embodiment of the application, a plurality of preset type products are determined, after a plurality of preset curing links and a plurality of preset curing contents are determined in the plurality of preset type products, according to the data types indicated by the plurality of preset curing contents, sub-data matched with each preset curing content is determined in at least one sub-data, and the preset curing links corresponding to the preset curing contents are associated with the matched sub-data, so that the sub-data can be directly cured in a certain link of a certain product in the follow-up process, and the classified curing of the data in the application dimension of the product is realized. Specifically, for each preset curing content in the plurality of preset curing contents, the process of establishing the association relationship between the preset curing links and the sub data is as follows:

Any one of the plurality of preset solidified contents is taken as an example for explanation. Firstly, determining the data type indicated by the preset solidification content, reading the data type of at least one piece of sub-data, and determining target sub-data with the data type consistent with the data type indicated by the preset solidification content in the at least one piece of sub-data. For example, assuming that the data type indicated by a certain preset solidified content is String type, string type data in at least one sub data is used as target sub data. And then binding a preset solidification link corresponding to the preset solidification content with the target sub-data, and establishing an association relation between the preset solidification link and the target sub-data. For example, assuming that the link corresponding to the preset solidification content is a 0301 link, and the target sub-data extracted according to the preset solidification content is String type data, binding the 0301 link with the extracted String type target sub-data, and establishing an association relationship between the 0301 link and the target sub-data. After the establishment of the association relation is completed, determining the preset product to which the preset curing link belongs, and marking the associated preset curing link and the target sub-data by adopting the product name, the preset curing content and the data type indicated by the preset curing content, so that the generated association relations are clearer and are easy to integrate and manage. And by repeatedly executing the process of establishing the association relationship, establishing the related association relationship for the preset curing links corresponding to each preset curing content in the preset curing contents respectively, so as to obtain the association relationship between the preset curing links and at least one piece of sub data.

204. Creating a data configuration storage table, adding the association relation between a plurality of preset curing links and at least one piece of sub data to the data configuration storage table, determining the preset type products and the data types corresponding to each preset curing link in the plurality of preset curing links, and adding the preset type products and the data types corresponding to each preset curing link to the data configuration storage table.

In order to record the association relationship established in the above process, a data configuration storage table for storing the association relationship between a plurality of preset curing links and at least one sub data may be created. The specific process is as follows: first, a data configuration storage table is created, and the association relation between a plurality of preset solidification links and at least one piece of sub data is added to the data configuration storage table. And then, determining a preset product and a data type corresponding to each preset curing link in the plurality of preset curing links, and adding the preset product and the data type corresponding to each preset curing link to the data configuration storage table. The generated data configuration storage table may be as shown in table 1 below.

Data type	Preset product	Presetting a solidification link	Sub data
				String type	Mortgage-free product	0301 link	Customer name, identification card information
Map type	Mortgage products	0208 link	Basic educational information
				…	…	…	…

TABLE 1

It should be noted that some preset solidification links may not solidify all the sub-data in the corresponding data types, for example, taking the link 0301 in table 1 as an example, it is likely that in the actual application process, the link 0301 only solidifies the customer name in the String type data and does not solidify the identity card information, and in the data configuration storage table, the sub-data only fills in the customer name actually solidified in the link 0301, and does not need to fill in the identity card information, thereby ensuring that the content recorded in the data configuration storage table accords with the actual solidification condition.

205. And according to the association relation, curing at least one piece of sub data into a plurality of preset curing links of a plurality of preset products.

In this embodiment of the present application, after the establishment of the association relationship is completed, it is also clear which preset curing link of which preset product needs to cure which sub-data, so that the data curing operation can be started to be performed, and according to the association relationship, at least one sub-data is cured to a plurality of preset curing links of a plurality of preset products, and a specific curing process is as follows:

For each sub data in at least one sub data, firstly, determining a target preset solidification link and a target preset product with an association relation with the sub data. And then marking the sub-data based on the link name of the target preset solidification link and the product type of the target preset product. And finally, storing the marked sub data into a database. It should be noted that, when storing the marked sub data, two modes may be adopted, one mode is to store the sub data as a large data field in a database, where the large data field may be specifically in a form of a CLOB (Character Large Object, large character object), and the CLOB form can store larger data, which is not limited by a field length, and further, there is no limitation of data solidification caused by a problem of a data length. And the data is stored in a CLOB form, and the complete data can be stored together, so that the data analysis carried out later is convenient. For example, assuming that the current sub data includes the learning information and the contact information, when the sub data is stored in the form of a CLOB, the sub data in the form of a CLOB is split into a form of VARCHAR (a character data) to obtain one piece of data of the related learning information in the form of VARCHAR, and the other piece of data of the related contact information in the form of VARCHAR, thereby solidifying and storing the two pieces of data in the form of VARCHAR, and realizing the storage of the sub data in the form of a large data field. Alternatively, the marked sub-data is stored directly as text fields in a database, i.e. the marked sub-data is stored in text form. The manner in which the data is stored in the database during solidification is not particularly limited in this application. In addition, the database in the application can be an ORACLE (relational database management system) database, and the data storage is perpetuated by utilizing the characteristics of the ORACLE database.

Further, in order to define the solidification position of the data and facilitate the subsequent tracing of the data, after the storage of the sub-data is completed, the storage position of the marked sub-data in the database is determined, the storage position is used as the solidification path of the sub-data, a data configuration storage table is obtained, and the solidification path is added at the corresponding position of the sub-data in the data configuration storage table. Note that, a column of the curing paths may be added to table 1, and the curing paths corresponding to each sub-data may be stored in the column, so as to record the curing paths.

Through the above-mentioned processes in step 201 to step 205, the operation of solidifying the application information provided by the user in the application dimension is achieved. In the actual application process, the cured data can be used in the subsequent links of the product application process, and the specific process of using the cured data is as follows:

when the user is detected to be in a designated link in the application flow, acquiring a target product applied by the user, wherein the designated link is a link with a data acquisition requirement in the application flow of the target product. In the actual application process, the designated link may be a risk control link, a risk assessment link, and the like. Then, because the application information provided by the user in the application stage is solidified in the corresponding link in the application dimension, the appointed preset type product to which the target product belongs is determined, and the appointed preset solidification link corresponding to the appointed preset type product is inquired. Namely, inquiring the link in which the target product applied by the user specifically solidifies the data. And finally, extracting target sub-data in the appointed preset solidification link, and processing the target sub-data according to the operation indicated by the appointed link. Namely, inquiring the sub-data with association relation with the appointed preset product as target sub-data according to the appointed preset solidification link and the appointed preset product, extracting the target sub-data, and processing the target sub-data according to the operation indicated by the appointed link. For example, assuming that the target product applied by the user is a mortgage-free product, a belongs to a mortgage-free product, when the fact that the user is in a 0305 link in the flow of the application a is detected, the 0305 link is a risk assessment link, data solidified in the 0301 link needs to be acquired, target sub-data related to the 0301 link of the mortgage-free product is queried, the target sub-data is client name and identity card information, and thus risk assessment is carried out on the client name and the identity card information.

Further, as a specific implementation of the method shown in fig. 1, an embodiment of the present application provides a data curing device, as shown in fig. 3A, where the device includes: the device comprises an analysis module 301, a determination module 302, a building module 303 and a curing module 304.

The parsing module 301 is configured to parse the application information according to a data type when receiving the application information submitted by a user, so as to obtain at least one piece of sub-data;

The determining module 302 is configured to obtain a plurality of preset products, determine a plurality of preset curing links and a plurality of preset curing contents in the plurality of preset products, where the plurality of preset curing contents are contents indicated by each preset curing link in the plurality of preset curing links and have curing requirements;

the establishing module 303 is configured to establish an association relationship between the plurality of preset curing links and the at least one sub-data according to the data types indicated by the plurality of preset curing contents;

the curing module 304 is configured to cure the at least one sub-data to the plurality of preset curing links of the plurality of preset products according to the association relationship.

In a specific application scenario, as shown in fig. 3B, the parsing module 301 includes: split unit 3011 and divide unit 3012.

The splitting unit 3011 is configured to read a data item included in the application information, split the application information, and obtain a plurality of member information corresponding to a plurality of data items;

the dividing unit 3012 is configured to determine a data type of each data item in the data items, and divide member information corresponding to the data items with the same data type into the same group, so as to obtain the at least one sub-data.

In a specific application scenario, as shown in fig. 3C, the establishing module 303 includes: a determining unit 3031, a reading unit 3032, a binding unit 3033 and a marking unit 3034.

The determining unit 3031 is configured to determine, for the plurality of preset cured contents, a data type indicated by the preset cured contents;

the reading unit 3032 is configured to read a data type of the at least one sub-data, and determine, in the at least one sub-data, target sub-data whose data type is consistent with a data type indicated by the preset cured content;

the binding unit 3033 is configured to bind a preset curing link corresponding to the preset curing content with the target sub-data, and establish an association relationship between the preset curing link and the target sub-data;

the marking unit 3034 is configured to determine a preset product belonging to the preset curing link, and mark the associated preset curing link and the target sub-data by using a product name of the preset product, the preset curing content and a data type indicated by the preset curing content;

the binding unit 3033 is further configured to establish a related association relationship for a preset curing link corresponding to each preset curing content in the plurality of preset curing contents, so as to obtain an association relationship between the plurality of preset curing links and the at least one sub-data.

In a specific application scenario, as shown in fig. 3D, the apparatus includes: a creation module 305 and an addition module 306.

The creating module 305 is configured to create a data configuration storage table, and add association relationships between the plurality of preset curing links and the at least one sub-data to the data configuration storage table;

the adding module 306 is configured to determine a preset product and a data type corresponding to each preset curing link in the plurality of preset curing links, and add the preset product and the data type corresponding to each preset curing link to the data configuration storage table.

In a specific application scenario, as shown in fig. 3E, the curing module 304 includes: a first determination unit 3041, a marking unit 3042, and a storage unit 3043.

The first determining unit 3041 is configured to determine, for each piece of the at least one piece of sub-data, a target preset curing link and a target preset product of the type, where the association relationship exists between the target preset curing link and the piece of sub-data;

the marking unit 3042 is configured to mark the sub-data based on the link name of the target preset curing link and the product type of the target preset product;

The storage unit 3043 is configured to store the marked sub data as a big data field or a text field in a database.

In a specific application scenario, as shown in fig. 3F, the curing module 304 further includes: a second determining unit 3044 and an adding unit 3045.

The second determining unit 3044 is configured to determine a storage location of the marked sub-data in the database, and take the storage location as a solidification path of the sub-data;

the adding unit 3045 is configured to obtain a data configuration storage table, and add the curing path to a position corresponding to the sub-data in the data configuration storage table, where the data configuration storage table is configured to store association relations between the plurality of preset curing links and the at least one sub-data.

In a specific application scenario, as shown in fig. 3G, the apparatus further includes: an acquisition module 307, a query module 308 and a processing module 309.

The obtaining module 307 is configured to obtain a target product applied by the user when it is detected that the user is in a specified link in an application flow, where the specified link is a link with a data obtaining requirement in an application flow of the target product;

The query module 308 is configured to determine a specified preset product class to which the target product belongs, and query a specified preset curing link corresponding to the specified preset product class;

the processing module 309 is configured to extract target sub-data in the specified preset curing link, and process the target sub-data according to the operation indicated by the specified link.

According to the device provided by the embodiment of the application information classifying and curing method, when a user submits application information, the application information is classified into sub-data of different data types, the preset curing links of each preset product needing to be subjected to data curing are determined, the data types indicated by the preset curing content needing to be cured in each preset curing link are consistent with the data types of the sub-data, the determined sub-data with consistent data types are cured in the preset curing links of the preset product, the application information provided by the user is directly classified and cured at the application stage of the user, simultaneous curing of multiple types of data is realized, the curing operation of the data is not required to be executed again when the corresponding links of the product are executed, the curing flow of the data is simplified, the evaluation efficiency is improved, and the consistency of the data is ensured.

It should be noted that, for other corresponding descriptions of each functional unit related to the data curing apparatus provided in the embodiment of the present application, reference may be made to corresponding descriptions in fig. 1 and fig. 2, and no further description is given here.

In an exemplary embodiment, referring to fig. 4, there is further provided a device 400 including a communication bus, a processor, a memory, and a communication interface, and may further include an input-output interface, and a display device, wherein the functional units may communicate with each other via the bus. The memory stores a computer program and a processor for executing the program stored in the memory to perform the data solidification method in the above embodiment.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of the data solidification method.

From the above description of the embodiments, it will be apparent to those skilled in the art that the present application may be implemented in hardware, or may be implemented by means of software plus necessary general hardware platforms. Based on such understanding, the technical solution of the present application may be embodied in the form of a software product, which may be stored in a non-volatile storage medium (may be a CD-ROM, a U-disk, a mobile hard disk, etc.), and includes several instructions for causing a computer device (may be a personal computer, a server, or a network device, etc.) to perform the methods described in various implementation scenarios of the present application.

Those skilled in the art will appreciate that the drawings are merely schematic illustrations of one preferred implementation scenario, and that the modules or flows in the drawings are not necessarily required to practice the present application.

Those skilled in the art will appreciate that modules in an apparatus in an implementation scenario may be distributed in an apparatus in an implementation scenario according to an implementation scenario description, or that corresponding changes may be located in one or more apparatuses different from the implementation scenario. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

The foregoing application serial numbers are merely for description, and do not represent advantages or disadvantages of the implementation scenario.

The foregoing disclosure is merely a few specific implementations of the present application, but the present application is not limited thereto and any variations that can be considered by a person skilled in the art shall fall within the protection scope of the present application.

Claims

1. A method of data solidification comprising:

when application information submitted by a user is received, analyzing the application information according to data types to obtain at least one piece of sub-data, wherein data items included in the application information are read, the application information is split to obtain a plurality of pieces of member information corresponding to a plurality of data items, the data types of each data item in the data items are respectively determined, and the member information corresponding to the data items with the same data types is divided into the same group to obtain the at least one piece of sub-data;

establishing an association relationship between the preset curing links and the at least one piece of sub-data according to the data types indicated by the preset curing contents, determining the data types indicated by the preset curing contents for the preset curing contents, reading the data types of the at least one piece of sub-data, determining target sub-data with the data types consistent with the data types indicated by the preset curing contents in the at least one piece of sub-data, binding the preset curing links corresponding to the preset curing contents with the target sub-data, establishing the association relationship between the preset curing links and the target sub-data, determining the preset product to which the preset curing links belong, marking the associated preset curing links and the target sub-data by adopting the product name of the preset product, the preset curing contents and the data types indicated by the preset curing contents, and establishing the association relationship between the preset curing links corresponding to each preset curing content in the preset curing contents to obtain the association relationship between the preset curing links and the at least one piece of sub-data;

2. The method according to claim 1, wherein after establishing the association relationship between the plurality of preset solidification links and the at least one sub data according to the data types indicated by the plurality of preset solidification contents, the method comprises:

3. The method of claim 1, wherein said curing said at least one sub-data to said plurality of preset curing links for said plurality of preset classes of products comprises:

4. A method according to claim 3, wherein after storing the marked sub-data as a big data field or a text field in a database, the method further comprises:

5. The method according to claim 1, wherein the method further comprises:

6. A data curing apparatus, comprising:

the analysis module is used for analyzing the application information according to the data type to obtain at least one piece of sub-data when receiving the application information submitted by a user, wherein the application information is read to comprise data items, the application information is split to obtain a plurality of pieces of member information corresponding to a plurality of data items, the data type of each data item in the data items is respectively determined, and the pieces of member information corresponding to the data items with the same data type are divided into the same group to obtain the at least one piece of sub-data;

The establishing module is used for establishing an association relation between the preset curing links and the at least one piece of sub-data according to the data types indicated by the preset curing contents, wherein for the preset curing contents, the data types indicated by the preset curing contents are determined, the data types of the at least one piece of sub-data are read, target sub-data with the data types consistent with the data types indicated by the preset curing contents are determined in the at least one piece of sub-data, the preset curing links corresponding to the preset curing contents are bound with the target sub-data, the association relation between the preset curing links and the target sub-data is established, a preset product which the preset curing links belong to is determined, and the associated preset curing links and the target sub-data are marked by adopting the product name of the preset product, the preset curing contents and the data types indicated by the preset curing contents, so that an association relation is established for the preset curing links corresponding to each preset curing link in the preset curing contents respectively, and the association relation between the preset curing links and the at least one piece of sub-data is obtained;

7. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any one of claims 1 to 5 when the computer program is executed.

8. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 5.