CN115936017B - Main data management method supporting interface multilingual and data multilingual - Google Patents

Abstract

The invention provides a main data management method supporting interface multilingual and data multilingual, which comprises the following steps: s1: generating interface element translation data of each language in a preset multilingual list and translation master data to be managed based on an interface model of a functional module and the master data to be managed, which are created in a master data management platform; s2: storing interface element translation data and translation main data to be managed in a data table of corresponding languages in a preset database to obtain a translation data table of each language in a preset multilingual list; s3: based on language selection instructions received at the multi-language definition conversion interface, a target translation data table corresponding to a target language is called in a preset database, and a target language display result is obtained; the method is used for generating the interface model and the translation data of the main data to be managed in multiple languages in advance, so that the interface multilingual and data multilingual display mode in the main data system management platform is realized, and the management requirement of the national enterprises on the main data is better met.

Description

Main data management method supporting interface multilingual and data multilingual

Technical Field

The invention relates to the technical field of data management, in particular to a main data management method supporting interface multilingual and data multilingual.

Background

At present, aiming at the main data management requirement of a nationwide enterprise, different languages are generally required to manage and maintain main data, and taking two languages of Chinese and English as examples (more language types are supported), one type of requirement is that certain type of main data only maintains Chinese or English data; another type of requirement is that some type of main data needs to maintain Chinese and English data at the same time, and the switching of Chinese and English data and the same main data coding are realized for the same piece of main data.

However, the existing main data management platform supporting interface multiple languages and data multiple languages supports a default language in most cases, when a user needs an interface or a main data display mode of other languages, interface elements or main data of the main data management platform are translated in real time through language selection instructions or data editing instructions input by the user, so that the interface and the data of the main data management platform are time-consuming, low in efficiency and not intelligent enough in language conversion.

Therefore, the invention provides a main data management method supporting interface multilingual and data multilingual.

Disclosure of Invention

The invention provides a main data management method supporting interface multilingual and data multilingual, which is used for generating an interface model and translation data of main data to be managed in multiple languages in advance, so that the display modes of the interface multilingual and the data multilingual in a main data system management platform are realized, and the management requirement of a national enterprise on the main data is better met.

The invention provides a main data management method supporting interface multilingual and data multilingual, which comprises the following steps:

s1: generating interface element translation data of each language in a preset multilingual list and translation master data to be managed based on an interface model of a functional module and the master data to be managed, which are created in a master data management platform;

s2: storing interface element translation data and translation main data to be managed in a data table of corresponding languages in a preset database to obtain a translation data table of each language in a preset multilingual list;

s3: and calling a target translation data table corresponding to the target language in a preset database based on the language selection instruction received at the multi-language definition conversion interface to obtain a target language display result.

Preferably, the method for managing main data supporting interface multilingual and data multilingual comprises the following steps of S1: generating interface element translation data and translation master data to be managed of each language in a preset multilingual list based on an interface model of a functional module and master data to be managed, which are created in a master data management platform, wherein the method comprises the following steps:

S101: translating interface elements in an interface model of a functional module created by a main data management platform by a user into each language in a preset multilingual list, and obtaining interface element translation data of each language in the preset multilingual list;

s102: classifying the main data to be managed based on a preset data attribute list to obtain a first part of main data to be managed of each data attribute in the preset multilingual list;

s103: determining a corresponding translation data generation strategy based on the display mode of the main data of each data attribute under different languages;

s104: generating a strategy and first part of to-be-managed main data of each data attribute based on the translation data of each data attribute, and generating part of to-be-managed translation main data of each data attribute of each language;

s105: summarizing part of the translation main data to be managed of all the data attributes of each language to obtain the translation main data to be managed of each language in a preset multilingual list.

Preferably, the method for managing main data supporting interface multilingual and data multilingual comprises the following steps of: storing the interface element translation data and the translation main data to be managed in a data table of corresponding languages in a preset database to obtain a translation data table of each language in a preset multilingual list, wherein the method comprises the following steps:

S201: storing interface element translation data in an interface element translation data storage area in a data table of a corresponding language in a preset database, and storing translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database to obtain an initial storage result;

s202: determining unit translation main data of each unit main data in the main data to be managed in all languages under each language from the main data to be managed in all languages;

s203: based on the storage positions of all unit translation main data of each unit main data in the main data to be managed in the initial storage result, carrying out main key association on the unit translation main data of each unit main data in the main data to be managed in each language, and obtaining a main key association result;

s204: and obtaining a translation data table of each language in the preset multilingual list based on the primary key association result and the initial storage result.

Preferably, the method for managing main data supporting interface multilingual and data multilingual comprises S201: storing the interface element translation data in an interface element translation data storage area in a data table of a corresponding language in a preset database, and storing the translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database, so as to obtain an initial storage result, wherein the method comprises the following steps:

Determining an interface partition strategy of the interface model and a data partition strategy of main data to be managed;

partitioning the interface model based on an interface partitioning strategy to obtain a plurality of partial interface region models, and partitioning the interface element translation data based on the interface partitioning strategy to obtain a plurality of partial interface element translation data of each language;

generating an interface partition index of each partial interface region model based on an interface partition strategy, and storing all partial interface element translation data of each language and the corresponding interface partition index in an interface element translation data storage area in a data table of the corresponding language in a preset database in an associated manner to obtain a first storage result;

based on a data partitioning strategy of the main data to be managed, storing the main data to be managed in a main data storage area of the translation to be managed in a data table of a corresponding language in a preset database, and obtaining a second storage result;

based on the first storage result and the second storage result, an initial storage result is obtained.

Preferably, the method for managing main data supporting interface multilingual and data multilingual determines an interface partition policy of an interface model and a data partition policy of main data to be managed, including:

Generating an interface element distribution diagram based on all interface elements in the interface model, and determining a plurality of pairs of adjacent interface element pairs based on the interface element distribution diagram;

determining the co-occurrence times of each pair of adjacent interface elements in all partial interface region models in an interface model library, determining the total co-occurrence interface element times in all partial interface region models in the interface model library, and determining the co-occurrence preference coefficient of the corresponding adjacent interface element pairs based on the co-occurrence times and the total co-occurrence interface element times;

calculating a center coefficient of each interface element based on the co-occurrence preference coefficients of each interface element and all corresponding adjacent interface elements in the interface element distribution diagram;

ordering the center coefficients of all interface elements in the interface element distribution diagram based on the order from large to small to obtain a center coefficient sequence, and taking the interface elements corresponding to all the center coefficients before the first abrupt change point in the center coefficient sequence as center interface elements;

determining an interface partition strategy of the interface model based on the central interface element;

and determining the data partitioning strategy based on the attribute field of the main data to be managed.

Preferably, the method for managing main data supporting interface multilingual and data multilingual determines an interface partition strategy of an interface model based on a central interface element, including:

Randomly dividing all non-central interface elements in the interface element distribution diagram by taking the central interface element as a center to obtain an interface element cluster containing a single central interface element;

based on co-occurrence preference coefficients of each interface element in the interface element clusters and all corresponding adjacent interface elements in the interface element clusters, calculating co-occurrence evaluation values of the interface element clusters, and calculating partition evaluation values based on the commonality evaluation values of all the interface element clusters;

judging whether the partition evaluation value is not smaller than a partition evaluation threshold value, if yes, generating an interface partition strategy of an interface model based on the current interface element cluster;

otherwise, re-dividing all non-central interface elements in the interface element distribution diagram by taking the central interface element as the center to obtain a new interface element cluster containing a single central interface element, and calculating a new partition evaluation value until the new partition evaluation value is not smaller than a partition evaluation threshold value, generating an interface partition strategy of the interface model based on the latest obtained interface element cluster.

Preferably, the method for managing main data supporting interface multilingual and data multilingual determines a data partitioning policy based on an attribute field of main data to be managed, including:

Determining a correlation coefficient between adjacent attribute fields of main data to be managed based on attribute fields contained in all main data sets contained in a main data history management library;

and determining a data partitioning strategy based on the correlation coefficient between attribute fields of the main data to be managed.

Preferably, the method for managing main data supporting interface multilingual and data multilingual stores the translation main data to be managed in a main data storage area to be managed in a data table of a corresponding language in a preset database based on a data partition policy of the main data to be managed, and obtains a second storage result, including:

dividing main data to be managed based on a data partitioning strategy to obtain a plurality of second parts of main data to be managed;

dividing the translation main data to be managed based on a data partitioning strategy to obtain a plurality of partial translation main data to be managed of each language;

generating a data partition index of each second part of the to-be-managed main data based on the data partition strategy, and storing all parts of the to-be-managed translation main data of each language and the corresponding data partition indexes in a to-be-managed translation main data storage area in a data table of the corresponding language in a preset database in an associated manner to obtain a second storage result.

Preferably, the method for managing main data supporting interface multilingual and data multilingual includes S3: based on a language selection instruction received at the multi-language definition conversion interface, a target translation data table corresponding to a target language is called in a preset database, and a target language display result is obtained, wherein the method comprises the following steps:

generating a multi-language conversion window of a multi-language definition conversion interface, and receiving a language selection instruction input by a user in the multi-language conversion window;

calling out a target translation data table corresponding to a target language based on a first target area in an interface model obtained after analyzing a language selection instruction or a target main data set in main data to be managed and the target language;

and importing the target translation data table into a display configuration setting program of the main data management platform to obtain a target language display result.

Preferably, the method for managing main data supporting interface multiple languages and multiple languages of data, based on a first target area in an interface model obtained after analyzing a language selection instruction or a target main data set in main data to be managed and a target language, calls out a target translation data table corresponding to the target language, includes:

Judging whether the analysis language selection instruction is an interface language selection instruction, if so, obtaining a first target area and a target language in an interface model by the analysis language selection instruction, generating a target interface partition index based on the first target area, and calling out a target translation data table of the first target area under a corresponding target language from interface element translation data storage areas in translation data tables of the target language in a preset database based on the target interface partition index;

otherwise, analyzing the language selection instruction to obtain a target main data set and a target language in the main data to be managed, generating a target data partition index based on the target main data set, and calling out a target translation data table of the target main data set in a corresponding target language from a target main data storage area to be managed in a translation data table of the target language in a preset database based on the target data partition index.

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

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

Drawings

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

FIG. 1 is a flow chart of a method for managing main data supporting interface multilingual and data multilingual according to an embodiment of the present invention;

FIG. 2 is a flowchart of another method for managing main data supporting interface multilingual and data multilingual according to an embodiment of the present invention;

FIG. 3 is a flowchart of another method for managing host data supporting interface multilingual and data multilingual according to an embodiment of the present invention.

Detailed Description

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

Example 1:

the invention provides a main data management method supporting interface multilingual and data multilingual, referring to fig. 1, comprising:

s1: generating interface element translation data of each language in a preset multilingual list and translation master data to be managed based on an interface model of a functional module and the master data to be managed, which are created in a master data management platform;

S2: storing interface element translation data and translation main data to be managed in a data table of corresponding languages in a preset database to obtain a translation data table of each language in a preset multilingual list;

s3: and calling a target translation data table corresponding to the target language in a preset database based on the language selection instruction received at the multi-language definition conversion interface to obtain a target language display result.

In this embodiment, the main data management platform is a platform loaded with an application program for implementing main data management by using the main data management method in this embodiment.

In this embodiment, the functional module is a module (e.g., a user management module, a department management module) that is created by a user in the main data management platform and manages main data with different types or different dimensions, and is formed by data selection windows with different attribute fields.

In this embodiment, the interface model is an interface model of a functional module in the main data management platform that performs data interaction with a user (i.e., the user performs selection and retrieval on data in a preset database through data selection windows of different attribute fields in the functional module).

In this embodiment, the main data to be managed is the main data to be managed by the main data management method, and is generally displayed in a table form.

In this embodiment, the preset multilingual list is a preset list including all the language types available in the interface multilingual and data multilingual functions.

In this embodiment, the interface element translation data is translation data (text data) of interface elements in a corresponding language, which is generated in advance based on the interface model and the main data to be managed, and is used for providing the interface model for data interaction with the user in the main data management platform.

In this embodiment, the translation main data to be managed is the translation data which is generated in advance based on the interface model and the main data to be managed and is used for providing the display data of the corresponding language when the user performs editing interaction and other operations on the main data.

In this embodiment, the preset database is a pre-prepared SQL database for storing interface element translation data generated in advance and translation master data to be managed.

In this embodiment, the translation data table is a data table for providing multiple interface languages and data languages for the main data management platform, which is obtained after the interface element translation data and the translation main data are stored in the data table of the corresponding language in the preset database.

In this embodiment, the multi-language definition conversion interface is an interface for receiving a language selection instruction input by a user and implementing language conversion settings for the language of the interface displayed by the main data management platform and the language of the main data.

In this embodiment, the target language display result is a final display result of the language conversion setting obtained after the target translation data table corresponding to the target language is called based on the language conversion instruction received at the multi-language definition conversion interface, and the called target translation data table is imported into the display configuration setting program of the main data management platform (i.e., a program component built in the main data management platform and configured to perform data interaction with the user in the main data management platform).

In this embodiment, the target language is the interface model selected by the user in the language selection instruction or the language type of the main data display.

In this embodiment, the interface multilingual refers to the fact that elements in the interface are presented in a language selected by the user, such as field names in a form, and columns in a form, and the interface multilingual is implemented by a general information system.

In this embodiment, the multiple languages of data are multiple copies of data with different languages for the same piece of main data, and the languages can be selected to perform query and management of the main data.

In the embodiment, when the model is maintained, the interface multilingual is to input translation names in different languages respectively for interface elements, so as to generate interfaces in different languages, and display corresponding interfaces according to the user-specified language;

When the main data is created, the data of each language is respectively stored in tables of different languages, the main keys of the same main data in the tables of different languages are the same, and the main keys are used for associating the main data of different languages.

In this embodiment, the language selection instruction is an instruction input by the user for selecting a language of displaying different areas in the interface model or a part of main data in the main data to be managed, for example, selecting a language of displaying the main data of the corresponding column of the name of the provider in the data set to be managed as chinese.

The beneficial effects of the technology are as follows: the interface model and the translation data table of the main data set in multiple languages are generated in advance and stored in the data table of the corresponding language in the preset database, and the target translation data table of the corresponding target language is called based on the language conversion instruction received by the user input at the multi-language definition conversion interface, so that the interface multi-language and data multi-language display mode in the main data system management platform is realized, and the management requirement of the national enterprises on the main data is better met.

Example 2:

based on embodiment 1, the main data management method supporting interface multilingual and data multilingual is as follows, S1: generating interface element translation data and translation master data to be managed of each language in a preset multilingual list based on an interface model of a functional module and master data to be managed, which are created in a master data management platform, referring to fig. 2, including:

S101: translating interface elements in an interface model of a functional module created by a main data management platform by a user into each language in a preset multilingual list, and obtaining interface element translation data of each language in the preset multilingual list;

s102: classifying the main data to be managed based on a preset data attribute list to obtain a first part of main data to be managed of each data attribute in the preset multilingual list;

s103: determining a corresponding translation data generation strategy based on the display mode of the main data of each data attribute under different languages;

s104: generating a strategy and first part of to-be-managed main data of each data attribute based on the translation data of each data attribute, and generating part of to-be-managed translation main data of each data attribute of each language;

s105: summarizing part of the translation main data to be managed of all the data attributes of each language to obtain the translation main data to be managed of each language in a preset multilingual list.

In this embodiment, the interface elements are text elements in the interface model that need to be translated when the user selects different display languages.

In this embodiment, the preset data attribute list is a list including preset data attributes, for example, data attributes classified according to display policies of data in different languages:

1. The data dictionary attribute supports different languages according to the data dictionary, and when the main data is switched among the different languages, the data dictionary can be automatically stored and converted in the corresponding language;

2. common attributes, which maintain data of the attributes, such as vendor names, under corresponding languages, respectively;

3. when the data are consistent in different languages, the data can be automatically synchronized to other languages by only maintaining in one language, for example, the digital type attribute (height, width and the like) is maintained in an Arabic number mode in different languages;

4. and the reference model attribute is that when different main data models have reference relations, the referenced models are automatically switched to the language designated by the reference models for display and maintenance (namely, when the language type selected by a user for the main data A is A, the display language of the main data B referenced by the main data table A is also set as the language type A).

In this embodiment, the first portion of main data to be managed is main data corresponding to each data attribute obtained after the main data to be managed is classified based on the preset data attribute list.

In this embodiment, the main data of each data attribute is displayed in different languages, for example:

1. The data dictionary attribute supports different languages according to the data dictionary, and when the main data is switched among the different languages, the data dictionary can be automatically stored and converted in the corresponding language;

2. common attributes, which maintain data of the attributes, such as vendor names, under corresponding languages, respectively;

3. when the data are consistent in different languages, the data can be automatically synchronized to other languages by only maintaining in one language, for example, the digital type attribute (height, width and the like) is maintained in an Arabic number mode in different languages;

4. and the referenced model is automatically switched into a language designated by the referenced model for presentation and maintenance when the referenced relation exists among different main data models.

In this embodiment, the translation data generating policy is a generating manner of a part of translation main data to be managed of data corresponding to data attributes determined based on a display manner of main data of each data attribute in different languages;

for example, the main data of the general attribute, the display language of the part of the main data to be translated under all languages is one way, for example: an Arabic number mode is adopted;

And the main data with common attributes is translated into the translation main data to be managed of each language under each language format in a preset multi-language list.

In this embodiment, the part of the to-be-managed translation master data is a translation data table required when each data attribute generated based on the translation data generation policy of each data attribute and the first part of the to-be-managed master data of each data attribute is selected to be displayed in each language.

In this embodiment, the translation master data to be managed is complete translated master data obtained by integrating part of the translation master data to be managed of all data attributes of the same language in all data attributes in the master data to be managed.

The beneficial effects of the technology are as follows: the method comprises the steps of translating interface elements in an interface model based on language types contained in a language catalog to generate corresponding interface element translation data, classifying main data to be managed based on display strategies corresponding to the main data when different languages are switched, generating part of the main data to be managed of each data attribute according to the display strategies of each data attribute, generating translation data of each language in advance, and improving language switching efficiency.

Example 3:

based on embodiment 1, the method for managing main data supporting interface multilingual and data multilingual is as follows, and S2: storing the interface element translation data and the translation main data to be managed in a data table of corresponding languages in a preset database to obtain a translation data table of each language in a preset multilingual list, referring to fig. 3, including:

s201: storing interface element translation data in an interface element translation data storage area in a data table of a corresponding language in a preset database, and storing translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database to obtain an initial storage result;

s202: determining unit translation main data of each unit main data in the main data to be managed in all languages under each language from the main data to be managed in all languages;

s203: based on the storage positions of all unit translation main data of each unit main data in the main data to be managed in the initial storage result, carrying out main key association on the unit translation main data of each unit main data in the main data to be managed in each language, and obtaining a main key association result;

s204: and obtaining a translation data table of each language in the preset multilingual list based on the primary key association result and the initial storage result.

In this embodiment, the data table is a data table corresponding to each language in the preset database, where the data table stores interface element translation data and translation master data to be managed in the corresponding language.

In this embodiment, the interface element translation data storage area is a table storage area for storing interface element translation data in a data table in a preset database.

In this embodiment, the to-be-managed translation master data storage area is a table storage area for storing to-be-managed translation master data in a data table in a preset database.

In this embodiment, the initial storage result is a storage result obtained after storing the interface element translation data in the interface element translation data storage area in the data table of the corresponding language in the preset database, and storing the translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database.

In this embodiment, the unit main data is the main data of the unit data amount in the main data to be managed.

In this embodiment, the unit translation master data is the translation master data of the unit master data in a single language.

In this embodiment, main key association is performed on unit translation main data of each unit main data in main data to be managed in each language, which is:

And setting the unit translation main data of all languages of the same main data as the same main key, and correspondingly associating each piece of main data with the corresponding unit translation main data in all language data tables in the preset database.

In this embodiment, the primary key association result is a result obtained after primary key association is performed on unit translation primary data of each unit primary data in the primary data to be managed in each language.

In this embodiment, based on the primary key association result and the initial storage result, a translation data table of each language in the preset multilingual list is obtained, which is:

and taking the new data table generated in the initial storage result and the latest data table obtained after the primary key association as translation data tables.

The beneficial effects of the technology are as follows: through carrying out primary key association after storing the unit translation primary data of each unit primary data in the primary data to be managed in each language, the interface element translation data and the translation primary data to be managed are respectively stored in an interface element translation data storage area and a translation primary data storage area in a data table of the corresponding language in a preset database, so that the corresponding storage of the translation data is realized, and the corresponding association of the unit translation primary data of each primary data in translation data tables of all the languages in the preset database is realized.

Example 4:

based on embodiment 3, the method for managing main data supporting interface multilingual and data multilingual is as follows, and S201: storing the interface element translation data in an interface element translation data storage area in a data table of a corresponding language in a preset database, and storing the translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database, so as to obtain an initial storage result, wherein the method comprises the following steps:

determining an interface partition strategy of the interface model and a data partition strategy of main data to be managed;

partitioning the interface model based on an interface partitioning strategy to obtain a plurality of partial interface region models, and partitioning the interface element translation data based on the interface partitioning strategy to obtain a plurality of partial interface element translation data of each language;

generating an interface partition index of each partial interface region model based on an interface partition strategy, and storing all partial interface element translation data of each language and the corresponding interface partition index in an interface element translation data storage area in a data table of the corresponding language in a preset database in an associated manner to obtain a first storage result;

Based on a data partitioning strategy of the main data to be managed, storing the main data to be managed in a main data storage area of the translation to be managed in a data table of a corresponding language in a preset database, and obtaining a second storage result;

based on the first storage result and the second storage result, an initial storage result is obtained.

In this embodiment, the interface partitioning policy is a policy for partitioning the interface model.

In this embodiment, the data partition policy is a policy for partitioning main data to be managed.

In this embodiment, the partial interface region model is a partial region in the interface model obtained after the interface model is partitioned based on the interface partitioning strategy.

In this embodiment, the partial interface element translation data is the partial interface element translation data corresponding to each partial interface region model obtained after the interface element translation data is partitioned based on the interface partition policy.

In this embodiment, the interface partition index is an index of a part of the interface region model.

In this embodiment, the first storage result is a result obtained after all the part of interface element translation data of each language and the corresponding interface partition index are stored in the interface element translation data storage area in the data table of the corresponding language in the preset database in an associated manner.

In this embodiment, the second storage result is a storage result obtained after the translation main data to be managed is stored in the translation main data storage area to be managed in the data table of the corresponding language in the preset database.

The beneficial effects of the technology are as follows: based on an interface partition strategy of a standard interface and a data partition strategy of main data to be managed, synchronously dividing an interface model and interface element translation data to obtain a plurality of partial interface region models, corresponding interface partition indexes and corresponding partial interface element translation data, further associating and storing the interface element translation data and the corresponding interface partition indexes in an interface element translation data storage area in a data table of a corresponding language in a preset database, and storing the main data to be managed in a main data storage area to be managed in a data table of the corresponding language in the preset database, so that division association storage of the interface element translation data and the main data to be managed is realized, and the target translation table is convenient to be selectively called based on a language selection instruction input by a user.

Example 5:

based on embodiment 4, the method for managing main data supporting interface multilingual and data multilingual determines an interface partition policy of an interface model and a data partition policy of main data to be managed, including:

Generating an interface element distribution diagram based on all interface elements in the interface model, and determining a plurality of pairs of adjacent interface element pairs based on the interface element distribution diagram;

determining the co-occurrence times of each pair of adjacent interface elements in all partial interface region models in an interface model library, determining the total co-occurrence interface element times in all partial interface region models in the interface model library, and determining the co-occurrence preference coefficient of the corresponding adjacent interface element pairs based on the co-occurrence times and the total co-occurrence interface element times;

calculating a center coefficient of each interface element based on the co-occurrence preference coefficients of each interface element and all corresponding adjacent interface elements in the interface element distribution diagram;

ordering the center coefficients of all interface elements in the interface element distribution diagram based on the order from large to small to obtain a center coefficient sequence, and taking the interface elements corresponding to all the center coefficients before the first abrupt change point in the center coefficient sequence as center interface elements;

determining an interface partition strategy of the interface model based on the central interface element;

and determining the data partitioning strategy based on the attribute field of the main data to be managed.

In this embodiment, the interface element distribution map is a distribution map including positions of all interface elements in the interface model.

In this embodiment, the adjacent interface element pair is the interface element pair whose adjacent positional relationship is in the interface element distribution diagram.

In this embodiment, the interface model library is a database for storing all the partitioned interface models.

In this embodiment, the co-occurrence number is the number of co-occurrence times of adjacent interface element pairs in all the partial interface region models in the interface model library, and when the adjacent interface element pairs are simultaneously present in a certain partial interface region model in the interface model library, the co-occurrence is once.

In this embodiment, the total number of co-occurrence interface elements is the total number of co-occurrence of all interface element pairs in all part of interface region models in the interface model library, that is, the factorization of the total number of all interface elements in the interface model library.

In this embodiment, the co-occurrence preference coefficient is a numerical value representing the co-occurrence degree of the corresponding adjacent interface element pair in all the interface region models in the interface model library.

In this embodiment, the co-occurrence preference coefficient corresponding to the adjacent interface element pair is determined based on the co-occurrence times and the total times of the co-occurrence interface elements, which is: and taking the ratio of the co-occurrence times to the total times of the co-occurrence interface elements as a co-occurrence preference coefficient of the corresponding adjacent interface element pair.

In this embodiment, based on co-occurrence preference coefficients of each interface element and all corresponding adjacent interface elements in the interface element distribution diagram, a center coefficient of the corresponding interface element is calculated, which is:

and taking the average value of the co-occurrence preference coefficients of each interface element and all the corresponding adjacent interface elements as the center coefficient of the corresponding interface element.

In this embodiment, the center coefficient sequence is a sequence obtained by sorting the center coefficients of all the interface elements in the interface element distribution map based on the order from large to small.

In this embodiment, the central interface element is the interface element corresponding to all the central coefficients before the first abrupt change point in the central coefficient sequence.

The beneficial effects of the technology are as follows: the center coefficient of the interface element is determined by determining co-occurrence preference coefficients of adjacent interface elements in the interface model to all partial interface region models in the interface model library, and the center interface element is screened out by screening a center coefficient sequence generated based on the center coefficient, so that the interface element positioned in the center of the partial interface region model in a preference division mode is determined based on the co-occurrence times of the interface element and the corresponding adjacent interface element in the interface model library, further an important basis is provided for determining an interface partition strategy subsequently, and the data partition strategy is determined based on attribute fields of main data to be managed.

Example 6:

based on embodiment 5, the method for managing main data supporting interface multilingual and data multilingual, determines an interface partition policy of an interface model based on a central interface element, includes:

randomly dividing all non-central interface elements in the interface element distribution diagram by taking the central interface element as a center to obtain an interface element cluster containing a single central interface element;

based on co-occurrence preference coefficients of each interface element in the interface element clusters and all corresponding adjacent interface elements in the interface element clusters, calculating co-occurrence evaluation values of the interface element clusters, and calculating partition evaluation values based on the commonality evaluation values of all the interface element clusters;

judging whether the partition evaluation value is not smaller than a partition evaluation threshold value, if yes, generating an interface partition strategy of an interface model based on the current interface element cluster;

otherwise, re-dividing all non-central interface elements in the interface element distribution diagram by taking the central interface element as the center to obtain a new interface element cluster containing a single central interface element, and calculating a new partition evaluation value until the new partition evaluation value is not smaller than a partition evaluation threshold value, generating an interface partition strategy of the interface model based on the latest obtained interface element cluster.

In this embodiment, the interface element cluster is a cluster including a single central interface element and at least one other non-central interface element obtained by randomly dividing all non-central interface elements in the interface element distribution diagram with the central interface element as a center.

In this embodiment, the non-center interface element is the interface element remaining in the interface element distribution diagram except for the center interface element.

In this embodiment, calculating the co-occurrence evaluation value of the interface element cluster based on co-occurrence preference coefficients of each interface element in the interface element cluster and all corresponding adjacent interface elements in the interface element cluster includes:

wherein P is _gx I is the ith interface element in the interface element cluster, and n is the interface element clusterTotal number of interface elements in group, j _i For the j-th adjacent interface element in the interface element cluster, m _i Alpha is the total number of adjacent interface elements in the interface element cluster for the ith interface element in the interface element cluster _gx A co-occurrence preference coefficient for an ith interface element in the interface element cluster and a jth adjacent interface element in the interface element cluster;

Based on the formula, the co-occurrence evaluation value of the co-occurrence degree of all interface elements in the characterization interface element cluster of the interface element cluster in all interface region models in the interface model library can be accurately calculated.

In this embodiment, the calculation of the partition evaluation value based on the commonality evaluation value of all the interface element clusters includes:

wherein P is _fq For the partition evaluation value, q is the total number of interface element clusters, P is the P-th interface element cluster, and P _gx·p The commonality evaluation value of the p-th interface element cluster;

based on the formula, the partition evaluation value representing the dividing fine degree of all the current interface element clusters can be accurately calculated.

In this embodiment, the partition evaluation threshold is a preset judgment threshold for judging whether the partitioning of the interface model based on the plurality of currently obtained interface element clusters meets the requirement.

In this embodiment, an interface partition policy of the interface model is generated based on the current interface element cluster, which is:

and taking a partial interface area model containing all interface elements in a single interface element cluster in the interface model as a partial interface area model, and taking the partitioning mode as an interface partitioning strategy.

In this embodiment, the new interface element cluster is an interface element cluster including a single central interface element obtained by repartitioning all non-central interface elements in the interface element distribution diagram with the central interface element as the center.

In this embodiment, the new partition evaluation value is the partition evaluation value calculated based on the new interface element cluster.

The beneficial effects of the technology are as follows: dividing all non-central interface elements in the interface element distribution diagram through the determined central interface elements, calculating partition evaluation values of corresponding interface element dividing results through calculating common evaluation values of interface element clusters obtained after division, setting a division cut-off judgment threshold value of all non-central interface elements by combining a preset partition evaluation threshold value, and further determining an interface partition strategy based on the partition evaluation values calculated by co-occurrence preference coefficients of each interface element in the interface element clusters and all corresponding adjacent interface elements in the interface element clusters.

Example 7:

based on embodiment 5, the method for managing main data supporting interface multilingual and data multilingual determines a data partitioning policy based on an attribute field of main data to be managed, including:

Determining a correlation coefficient between adjacent attribute fields of main data to be managed based on attribute fields contained in all main data sets contained in a main data history management library;

and determining a data partitioning strategy based on the correlation coefficient between attribute fields of the main data to be managed.

In this embodiment, the master data history management library is a database for storing the history management condition of the master data (i.e., the history data of partitioning the master data set to be managed).

In this embodiment, the main data set is a set of main data obtained after partitioning a main data set to be managed stored in a main data history management library.

In this embodiment, the attribute field is an attribute field of data in the main data set, for example: vendor name, product price, etc.

In this embodiment, based on attribute fields contained in all main data sets contained in the main data history management library, a correlation coefficient between adjacent attribute fields of main data to be managed is determined, which is:

determining all adjacent attribute fields in all main data sets contained in a main data history management base and the number of times of occurrence of the attribute fields of main data to be managed together with each adjacent attribute field;

And taking the ratio of the co-occurrence times of the attribute field of the main data to be managed and the corresponding adjacent attribute field to the total occurrence times of the corresponding attribute field in all main data sets contained in the main data history management library as the correlation coefficient between the adjacent attribute fields, and further accurately determining the correlation coefficient between the adjacent attribute fields of the main data to be managed based on the history division condition in the history management library.

In this embodiment, based on the correlation coefficient between attribute fields of the main data to be managed, the data partitioning policy is determined, which is:

sequencing the correlation coefficients from small to large to obtain a correlation coefficient sequence, and taking adjacent attribute fields corresponding to all the correlation coefficients before the first abrupt change point in the correlation coefficient sequence as attribute field groups to be divided;

and taking the boundary lines among the attribute field groups to be divided as partition boundary lines of the main data to be managed, dividing the main data to be managed based on the partition boundary lines, taking the partition method as a corresponding data partition strategy, and further determining the data partition strategy of the main data to be managed based on the history division condition in the history management library.

The beneficial effects of the technology are as follows: the method and the device have the advantages that the correlation coefficient between the attribute fields of the main data to be managed is determined based on the attribute fields contained in all the main data sets contained in the main data history management library, and the data partitioning strategy is determined based on the correlation coefficient between the attribute fields of the main data to be managed.

Example 8:

based on embodiment 5, the method for managing main data supporting interface multilingual and data multilingual stores the main data to be managed in a main data storage area to be managed in a data table of a corresponding language in a preset database based on a data partition policy of the main data to be managed, and obtains a second storage result, including:

dividing main data to be managed based on a data partitioning strategy to obtain a plurality of second parts of main data to be managed;

dividing the translation main data to be managed based on a data partitioning strategy to obtain a plurality of partial translation main data to be managed of each language;

generating a data partition index of each second part of the to-be-managed main data based on the data partition strategy, and storing all parts of the to-be-managed translation main data of each language and the corresponding data partition indexes in a to-be-managed translation main data storage area in a data table of the corresponding language in a preset database in an associated manner to obtain a second storage result.

In this embodiment, the second portion of main data to be managed is a set formed by main data obtained by dividing the main data to be managed based on a data partition policy.

In this embodiment, the part of the translation master data to be managed is a part of the translation master data to be managed, which is obtained after the division processing is performed on the translation master data to be managed based on the data partition policy.

In this embodiment, the data partition index is an index of the second portion of the to-be-managed main data, and is also an index for providing a retrieval basis for the portion of the to-be-managed translated main data of the second portion of the to-be-managed main data.

The beneficial effects of the technology are as follows: after synchronous division of the main data to be managed and the translation main data to be managed based on the data partition strategy is realized, the main data to be managed and the translation main data to be managed are associated with corresponding data partition indexes and stored in the main data storage areas to be managed in the data tables of corresponding languages in the preset database, and division and storage of the main data to be managed are realized.

Example 9:

based on embodiment 8, the method for managing main data supporting interface multilingual and data multilingual is as follows, and S3: based on a language selection instruction received at the multi-language definition conversion interface, a target translation data table corresponding to a target language is called in a preset database, and a target language display result is obtained, wherein the method comprises the following steps:

generating a multi-language conversion window of a multi-language definition conversion interface, and receiving a language selection instruction input by a user in the multi-language conversion window;

Calling out a target translation data table corresponding to a target language based on a first target area in an interface model obtained after analyzing a language selection instruction or a target main data set in main data to be managed and the target language;

and importing the target translation data table into a display configuration setting program of the main data management platform to obtain a target language display result.

In this embodiment, the multilingual conversion window is a window for receiving a language selection instruction input by a user provided in the multilingual definition conversion interface.

In this embodiment, the first target area is an interface area that is determined after the language selection instruction is parsed and is selected by the user to be displayed in a certain language in the interface model.

In this embodiment, the target main data set is a set formed by selecting main data displayed in a certain language from main data to be managed by a user determined after analyzing a language selection instruction.

In this embodiment, the target language is a target language obtained after analyzing the language selection instruction and after the interface model or the language of the part of the main data set core in the main data to be managed is converted by the user selection.

In this embodiment, the target translation data table is a translation data table obtained based on a target main data set in a first target area or main data to be managed in an interface model obtained after an instruction is selected by an analysis language, and the target language is called out to display the first target area or the target main data set according to the target language.

In this embodiment, the display configuration setting program is a program component built in the main data management platform and used for setting the display configuration of the main data management platform.

The beneficial effects of the technology are as follows: the method and the device have the advantages that based on language selection instructions received by a multi-language conversion window in a multi-language definition conversion interface and input by a user, a first target area in an interface model or a target main data set and target language in main data to be managed are determined, a corresponding target translation data table is called out and then is imported into a display configuration setting program of a main data management platform, and efficient setting display of the interface language and the data language of the main data management platform is achieved.

Example 10:

based on embodiment 9, the method for managing main data supporting interface multiple languages and multiple languages of data, based on a first target area in an interface model obtained after analyzing a language selection instruction or a target main data set in main data to be managed and a target language, calls out a target translation data table corresponding to the target language, includes:

judging whether the analysis language selection instruction is an interface language selection instruction, if so, obtaining a first target area and a target language in an interface model by the analysis language selection instruction, generating a target interface partition index based on the first target area, and calling out a target translation data table of the first target area under a corresponding target language from interface element translation data storage areas in translation data tables of the target language in a preset database based on the target interface partition index;

Otherwise, analyzing the language selection instruction to obtain a target main data set and a target language in the main data to be managed, generating a target data partition index based on the target main data set, and calling out a target translation data table of the target main data set in a corresponding target language from a target main data storage area to be managed in a translation data table of the target language in a preset database based on the target data partition index.

In this embodiment, the interface language selection instruction is an instruction for selecting a display language of a partial region of the interface model.

In this embodiment, the target interface partition index is an index for retrieving, in a target to-be-managed translation master data storage area in a translation data table of a target language in a preset database, a target translation data table corresponding to the first target area.

In this embodiment, the target data partition index is an index of a target translation data table corresponding to the target main data set retrieved from a target to-be-managed translation main data storage area in a translation data table of a target language in a preset database.

The beneficial effects of the technology are as follows: and generating a corresponding target interface partition index or target data partition index based on the first target area in the interface model or the target main data set in the main data to be managed and the target language which are respectively analyzed based on the types of the language selection instructions, and further realizing that the target translation data table of the first target area in the corresponding target language or the target translation data table of the target main data set in the corresponding target language is called out from the translation data table of the target conversion language in the preset database based on the target interface partition index or the target data partition index.

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

Claims (7)

1. A method of master data management supporting interface multilingual and data multilingual, comprising:

s1: generating interface element translation data of each language in a preset multilingual list and translation master data to be managed based on an interface model of a functional module and the master data to be managed, which are created in a master data management platform;

s2: storing interface element translation data and translation main data to be managed in a data table of corresponding languages in a preset database to obtain a translation data table of each language in a preset multilingual list;

s3: based on language selection instructions received at the multi-language definition conversion interface, a target translation data table corresponding to a target language is called in a preset database, and a target language display result is obtained;

step S2: storing the interface element translation data and the translation main data to be managed in a data table of corresponding languages in a preset database to obtain a translation data table of each language in a preset multilingual list, wherein the method comprises the following steps:

S201: storing interface element translation data in an interface element translation data storage area in a data table of a corresponding language in a preset database, and storing translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database to obtain an initial storage result;

s202: determining unit translation main data of each unit main data in the main data to be managed in all languages under each language from the main data to be managed in all languages;

s203: based on the storage positions of all unit translation main data of each unit main data in the main data to be managed in the initial storage result, carrying out main key association on the unit translation main data of each unit main data in the main data to be managed in each language, and obtaining a main key association result;

s204: based on the primary key association result and the initial storage result, obtaining a translation data table of each language in a preset multilingual list;

step S201: storing the interface element translation data in an interface element translation data storage area in a data table of a corresponding language in a preset database, and storing the translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database, so as to obtain an initial storage result, wherein the method comprises the following steps:

Determining an interface partition strategy of the interface model and a data partition strategy of main data to be managed;

partitioning the interface model based on an interface partitioning strategy to obtain a plurality of partial interface region models, and partitioning the interface element translation data based on the interface partitioning strategy to obtain a plurality of partial interface element translation data of each language;

generating an interface partition index of each partial interface region model based on an interface partition strategy, and storing all partial interface element translation data of each language and the corresponding interface partition index in an interface element translation data storage area in a data table of the corresponding language in a preset database in an associated manner to obtain a first storage result;

based on a data partitioning strategy of the main data to be managed, storing the main data to be managed in a main data storage area of the translation to be managed in a data table of a corresponding language in a preset database, and obtaining a second storage result;

obtaining an initial storage result based on the first storage result and the second storage result;

the method for determining the interface partition strategy of the interface model and the data partition strategy of the main data to be managed comprises the following steps:

generating an interface element distribution diagram based on all interface elements in the interface model, and determining a plurality of pairs of adjacent interface element pairs based on the interface element distribution diagram;

Determining the co-occurrence times of each pair of adjacent interface elements in all partial interface region models in an interface model library, determining the total co-occurrence interface element times in all partial interface region models in the interface model library, and determining the co-occurrence preference coefficient of the corresponding adjacent interface element pairs based on the co-occurrence times and the total co-occurrence interface element times;

calculating a center coefficient of each interface element based on the co-occurrence preference coefficients of each interface element and all corresponding adjacent interface elements in the interface element distribution diagram;

ordering the center coefficients of all interface elements in the interface element distribution diagram based on the order from large to small to obtain a center coefficient sequence, and taking the interface elements corresponding to all the center coefficients before the first abrupt change point in the center coefficient sequence as center interface elements;

determining an interface partition strategy of the interface model based on the central interface element;

and determining the data partitioning strategy based on the attribute field of the main data to be managed.

2. The method for managing main data supporting interface multilingual and data multilingual according to claim 1, wherein S1: generating interface element translation data and translation master data to be managed of each language in a preset multilingual list based on an interface model of a functional module and master data to be managed, which are created in a master data management platform, wherein the method comprises the following steps:

S101: translating interface elements in an interface model of a functional module created by a main data management platform by a user into each language in a preset multilingual list, and obtaining interface element translation data of each language in the preset multilingual list;

s102: classifying the main data to be managed based on a preset data attribute list to obtain a first part of main data to be managed of each data attribute in the preset multilingual list;

s103: determining a corresponding translation data generation strategy based on the display mode of the main data of each data attribute under different languages;

s104: generating a strategy and first part of to-be-managed main data of each data attribute based on the translation data of each data attribute, and generating part of to-be-managed translation main data of each data attribute of each language;

s105: summarizing part of the translation main data to be managed of all the data attributes of each language to obtain the translation main data to be managed of each language in a preset multilingual list.

3. The method for master data management supporting interface multilingual and data multilingual according to claim 1, wherein determining the interface partitioning strategy of the interface model based on the center interface element comprises:

Randomly dividing all non-central interface elements in the interface element distribution diagram by taking the central interface element as a center to obtain an interface element cluster containing a single central interface element;

based on co-occurrence preference coefficients of each interface element in the interface element clusters and all corresponding adjacent interface elements in the interface element clusters, calculating co-occurrence evaluation values of the interface element clusters, and calculating partition evaluation values based on the commonality evaluation values of all the interface element clusters;

judging whether the partition evaluation value is not smaller than a partition evaluation threshold value, if yes, generating an interface partition strategy of an interface model based on the current interface element cluster;

otherwise, re-dividing all non-central interface elements in the interface element distribution diagram by taking the central interface element as the center to obtain a new interface element cluster containing a single central interface element, and calculating a new partition evaluation value until the new partition evaluation value is not smaller than a partition evaluation threshold value, generating an interface partition strategy of the interface model based on the latest obtained interface element cluster.

4. The method for managing main data supporting interface multilingual and data multilingual according to claim 1, wherein determining the data partitioning policy based on the attribute field of the main data to be managed comprises:

Determining a correlation coefficient between adjacent attribute fields of main data to be managed based on attribute fields contained in all main data sets contained in a main data history management library;

and determining a data partitioning strategy based on the correlation coefficient between attribute fields of the main data to be managed.

5. The method for managing main data supporting interface multilingual and data multilingual according to claim 1, wherein storing the translation main data to be managed in the translation main data storage area to be managed in the data table of the corresponding language in the preset database based on the data partition policy of the main data to be managed, to obtain the second storage result, comprises:

dividing main data to be managed based on a data partitioning strategy to obtain a plurality of second parts of main data to be managed;

dividing the translation main data to be managed based on a data partitioning strategy to obtain a plurality of partial translation main data to be managed of each language;

generating a data partition index of each second part of the to-be-managed main data based on the data partition strategy, and storing all parts of the to-be-managed translation main data of each language and the corresponding data partition indexes in a to-be-managed translation main data storage area in a data table of the corresponding language in a preset database in an associated manner to obtain a second storage result.

6. The method for managing main data supporting interface multilingual and data multilingual according to claim 5, wherein S3: based on a language selection instruction received at the multi-language definition conversion interface, a target translation data table corresponding to a target language is called in a preset database, and a target language display result is obtained, wherein the method comprises the following steps:

generating a multi-language conversion window of a multi-language definition conversion interface, and receiving a language selection instruction input by a user in the multi-language conversion window;

calling out a target translation data table corresponding to a target language based on a first target area in an interface model obtained after analyzing a language selection instruction or a target main data set in main data to be managed and the target language;

and importing the target translation data table into a display configuration setting program of the main data management platform to obtain a target language display result.

7. The method for managing main data supporting multiple languages of an interface and multiple languages of data according to claim 6, wherein retrieving a target translation data table corresponding to a target language based on a first target area in an interface model obtained after parsing a language selection instruction or a target main data set in main data to be managed and the target language, comprises:

Judging whether the analysis language selection instruction is an interface language selection instruction, if so, obtaining a first target area and a target language in an interface model by the analysis language selection instruction, generating a target interface partition index based on the first target area, and calling out a target translation data table of the first target area under a corresponding target language from interface element translation data storage areas in translation data tables of the target language in a preset database based on the target interface partition index;

otherwise, analyzing the language selection instruction to obtain a target main data set and a target language in the main data to be managed, generating a target data partition index based on the target main data set, and calling out a target translation data table of the target main data set in a corresponding target language from a target main data storage area to be managed in a translation data table of the target language in a preset database based on the target data partition index.