CN112307374B - To-do-based jump method, device, equipment and storage medium - Google Patents

Abstract

The invention relates to the field of big data, and provides a to-do-based jumping method, a device, equipment and a storage medium, which are applied to the field of intelligent medical treatment and are used for improving the processing efficiency of to-do-things. The backlog-based jump method comprises the following steps: matching corresponding target authorities from the configuration information according to the user identification number information and the service information in the query information; acquiring a current service state according to the service information, and searching a preset mapping list according to the service state and the target authority to obtain a processing jump route address; converting and splicing the target authority, the service state, the processing jump routing address and the retrieval condition to obtain a target query statement; and searching the service inquiry list through the target inquiry statement to obtain a target backlog, and jumping to a service processing page corresponding to the target backlog through the processing jump route address. In addition, the invention also relates to a blockchain technology, and user identification number information and service information can be stored in the blockchain.

Description

To-do-based jump method, device, equipment and storage medium

Technical Field

The present invention relates to the field of data processing of big data, and in particular, to a to-do-based jumping method, apparatus, device, and storage medium.

Background

With the development of computer technology and internet technology, business systems for processing business data are widely used. At present, when a service system processes backlog, service event data is generally screened and filtered in a service module selected by a user according to a service state input by the user to obtain the backlog, and a current page is jumped to a page corresponding to the backlog through a jump address fixed to the page.

However, in the above manner, the service module is selected by the user, so that the call of the service module is missed, and further, the backlog processed across a plurality of service modules cannot be acquired or is incomplete, if the complete and accurate backlog is to be acquired, multiple inputs, screening and filtering are required, and confirmation and verification are performed on the content of the backlog, and when the jump address of the page of the backlog is the jump address with the fixed page, the front page also needs to be correspondingly changed, so that the problem of low processing efficiency of the backlog is caused.

Disclosure of Invention

The invention provides a backlog-based jump method, a backlog-based jump device and a backlog-based jump storage medium, which are used for improving the processing efficiency of backlogs.

The first aspect of the present invention provides a to-do-based jump method, including:

acquiring user identification number information and query information, and extracting service information in the query information;

acquiring preset configuration information, and matching corresponding target authorities from the configuration information according to the user identification number information and the service information;

acquiring a current service state according to the service information, generating access keys of the service state and the target authority, performing key value pair matching on a preset mapping list through the access keys to obtain a target value, and setting the target value as a processing jump routing address;

converting and splicing the target authority, the service state, the processing jump routing address and preset retrieval conditions to obtain a target query statement;

and searching a preset service query list through the target query statement to obtain a target backlog, and jumping to a service processing page corresponding to the target backlog through the processing jump route address.

Optionally, in a first implementation manner of the first aspect of the present invention, the converting and splicing the target authority, the service state, the processing jump routing address and a preset search condition to obtain a target query statement includes:

generating initial structured query sentences of the target authority, the service state, the processing jump routing address and preset search conditions respectively to obtain a plurality of structured query sentences;

splicing the plurality of structured query sentences according to preset search setting conditions to obtain initial query sentences;

and performing redundant field filtering and grammar detection on the initial query statement to obtain a target query statement.

Optionally, in a second implementation manner of the first aspect of the present invention, the splicing the plurality of structured query terms according to a preset search setting condition to obtain an initial query term includes:

sequencing the plurality of structured query sentences according to the priority in the preset search setting conditions to obtain a sequence structured query sentence;

splicing the sequential structured query statement through a preset query logic grammar to obtain a spliced structured query statement;

And comparing and analyzing the spliced structured query statement with a preset query statement template to obtain an initial query statement.

Optionally, in a third implementation manner of the first aspect of the present invention, the obtaining preset configuration information, according to the user identification number information and the service information, matching a corresponding target authority from the configuration information includes:

acquiring preset configuration information and query interface information corresponding to the service information, traversing the configuration information to obtain initial permission corresponding to the user identification number information, wherein the service information comprises medicine order information and medical supplies order information, and the initial permission comprises a plurality of functional permissions and a plurality of user query permissions;

judging whether the initial authority has information corresponding to the query interface information or not;

and if the information corresponding to the query interface information exists in the initial authority, determining the initial authority as a target authority.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the retrieving, by the target query statement, the preset service query list to obtain a target backlog, and jumping to a service processing page corresponding to the target backlog by the processing jump routing address includes:

Searching a preset service query list through the target query statement to obtain a target backlog;

acquiring current route operation information and receiving a jump instruction triggered on the basis of the target backlog;

and acquiring a processing route according to the jump instruction and the current route operation information, and jumping to a service processing page corresponding to the processing route through the processing jump route address.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the obtaining, according to the jump instruction and the current route operation information, a processing route, through the processing jump route address, jumps to a service processing page corresponding to the processing route, includes:

judging whether the uniform resource locator path identifier in the current route operation information is updated to the uniform resource locator path identifier of the processing jump route address according to the jump instruction;

if the uniform resource locator path identifier in the current route operation information is updated to the uniform resource locator path identifier of the processing jump route address, matching the corresponding processing route according to the processing jump route address;

And jumping to a service processing page corresponding to the processing route through a preset component and the processing jump route address.

Optionally, in a sixth implementation manner of the first aspect of the present invention, the retrieving, by the target query statement, the preset service query list to obtain a target backlog, and after skipping to a service processing page corresponding to the target backlog by the processing skip route address, the method further includes:

obtaining the jump accuracy and the jump time of the business processing page corresponding to the target backlog, and matching the corresponding class to be optimized from a preset optimizing list according to the jump accuracy and the jump time;

and generating a visual chart according to the jump accuracy, the jump time and the grade to be optimized, and sending the visual chart to a preset optimization adjustment end.

The second aspect of the present invention provides a to-do-based jumping apparatus, including:

the extraction module is used for acquiring the user identification number information and the query information and extracting service information in the query information;

the matching module is used for acquiring preset configuration information and matching corresponding target authorities from the configuration information according to the user identification number information and the service information;

The retrieval module is used for acquiring the current service state according to the service information, generating access keys of the service state and the target authority, carrying out key value pair matching on a preset mapping list through the access keys to obtain a target value, and setting the target value as a processing jump route address;

the conversion splicing module is used for converting and splicing the target authority, the service state, the processing jump routing address and preset retrieval conditions to obtain a target query statement;

and the skip module is used for searching a preset service query list through the target query statement to obtain a target backlog, and skipping to a service processing page corresponding to the target backlog through the processing skip route address.

Optionally, in a first implementation manner of the second aspect of the present invention, the conversion stitching module includes:

the generating unit is used for respectively generating the target authority, the service state, the processing jump routing address and an initial structured query statement of a preset search condition to obtain a plurality of structured query statements;

the splicing unit is used for splicing the plurality of structured query sentences according to preset search setting conditions to obtain initial query sentences;

And the detection unit is used for carrying out redundant field filtering and grammar detection on the initial query statement to obtain a target query statement.

Optionally, in a second implementation manner of the second aspect of the present invention, the splicing unit is specifically configured to:

sequencing the plurality of structured query sentences according to the priority in the preset search setting conditions to obtain a sequence structured query sentence;

splicing the sequential structured query statement through a preset query logic grammar to obtain a spliced structured query statement;

and comparing and analyzing the spliced structured query statement with a preset query statement template to obtain an initial query statement.

Optionally, in a third implementation manner of the second aspect of the present invention, the matching module is specifically configured to:

acquiring preset configuration information and query interface information corresponding to the service information, traversing the configuration information to obtain initial permission corresponding to the user identification number information, wherein the service information comprises medicine order information and medical supplies order information, and the initial permission comprises a plurality of functional permissions and a plurality of user query permissions;

judging whether the initial authority has information corresponding to the query interface information or not;

And if the information corresponding to the query interface information exists in the initial authority, determining the initial authority as a target authority.

Optionally, in a fourth implementation manner of the second aspect of the present invention, the skip module includes:

the searching unit is used for searching a preset service query list through the target query statement to obtain a target backlog;

the receiving unit is used for acquiring current route operation information and receiving a jump instruction triggered on the basis of the target backlog;

and the jump unit is used for acquiring a processing route according to the jump instruction and the current route operation information, and jumping to a service processing page corresponding to the processing route through the processing jump route address.

Optionally, in a fifth implementation manner of the second aspect of the present invention, the jump unit is specifically configured to:

judging whether the uniform resource locator path identifier in the current route operation information is updated to the uniform resource locator path identifier of the processing jump route address according to the jump instruction;

if the uniform resource locator path identifier in the current route operation information is updated to the uniform resource locator path identifier of the processing jump route address, matching the corresponding processing route according to the processing jump route address;

And jumping to a service processing page corresponding to the processing route through a preset component and the processing jump route address.

Optionally, in a sixth implementation manner of the second aspect of the present invention, the to-do-based jumping device further includes:

the acquisition matching module is used for acquiring the jump accuracy and the jump time of the service processing page corresponding to the target backlog, and matching the corresponding class to be optimized from a preset optimization list according to the jump accuracy and the jump time;

and the generation and transmission module is used for generating a visual chart according to the jump accuracy, the jump time and the grade to be optimized, and transmitting the visual chart to a preset optimization adjustment end.

A third aspect of the present invention provides a to-do-based jump apparatus, comprising: a memory and at least one processor, the memory having instructions stored therein; the at least one processor invokes the instructions in the memory to cause the backlog-based jump device to perform the backlog-based jump method described above.

A fourth aspect of the present invention provides a computer-readable storage medium having instructions stored therein that, when executed on a computer, cause the computer to perform the backlog-based jump method described above.

In the technical scheme provided by the invention, user identification number information and query information are acquired, and service information in the query information is extracted; acquiring preset configuration information, and matching corresponding target authority from the configuration information according to user identification number information and service information; acquiring a current service state according to service information, generating access keys of the service state and a target authority, performing key value pair matching on a preset mapping list through the access keys to obtain a target value, and setting the target value as a processing jump routing address; converting and splicing the target authority, the service state, the processing jump routing address and preset retrieval conditions to obtain a target query statement; and searching a preset service query list through the target query statement to obtain a target backlog, and jumping to a service processing page corresponding to the target backlog through the processing jump route address. In the embodiment of the invention, the target authority is matched according to the user identification number information and the service information, the preset mapping list is searched according to the service state and the target authority to obtain the corresponding processing jump routing address, the target backlog is obtained through the target inquiry statement, the processing jump routing address jumps to the service processing page corresponding to the target backlog, the backlog to be processed can be summarized, the centralized processing of the backlog is convenient, the complete and accurate target backlog can be effectively obtained, the jumping flexibility is improved, and the processing efficiency of the backlog is further improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a backlog-based jump method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of another embodiment of a backlog-based jump method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an embodiment of a backlog-based jump device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of another embodiment of a backlog-based jump device according to an embodiment of the present invention;

fig. 5 is a schematic diagram of an embodiment of a to-do-based jump device according to an embodiment of the present invention.

Detailed Description

The embodiment of the invention provides a to-do-based jumping method, a to-do-based jumping device, to-do-based jumping equipment and a storage medium, and improves the processing efficiency of the to-do.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments described herein may be implemented in other sequences than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or apparatus.

For ease of understanding, a specific flow of an embodiment of the present invention is described below, referring to fig. 1, and an embodiment of a to-do-based jump method in an embodiment of the present invention includes:

101. and acquiring the user identification number information and the query information, and extracting service information in the query information.

It may be understood that the execution body of the present invention may be a backlog-based jump device, and may also be a terminal or a server, which is not limited herein. The embodiment of the invention is described by taking a server as an execution main body as an example.

The user logs in a preset service management system through the user side, and inputs query information on a preset display interface corresponding to the service management system, wherein the query information can comprise at least one of a service state range and service information, for example, the query information input by the user is ' checking of medical instrument orders ', the medical instrument orders ' are the service information, the ' checking ' is the service state range, the checking can comprise to-be-checked, checking and checked, a server reads user identification number (identity document, id) information and query information which are authorized to log in by the service management system, and the service information is extracted from the query information, and can be a service executable by the user, such as medical instrument order information and performance list information.

102. And acquiring preset configuration information, and matching corresponding target authority from the configuration information according to the user identification number information and the service information.

The server configures the user identification number information, the service information and the rights according to the corresponding target rights matched by the user identification number information and the service information to obtain a configuration file. After obtaining the user identification number information and the service information, the server reads a preset configuration file, analyzes the configuration file to obtain configuration information, traverses the configuration information according to the user identification number information to obtain corresponding initial rights, traverses the initial rights according to the service information to obtain corresponding target rights, wherein the target rights comprise functional rights and user query rights, the functional rights are rights corresponding to the service information which can be queried or processed, for example, order query rights, and the user query rights are job service data of departments which can be queried by a user, for example: and if the user A is a product post personnel of the A department, the user A has user inquiry authority for inquiring relevant service data of the products of the A department, and if the user B is a manager of the A department and the B department, the user B has user inquiry authority for inquiring all relevant service data of the A department and the B department.

103. And acquiring the current service state according to the service information, generating access keys of the service state and the target authority, performing key value pair matching on a preset mapping list through the access keys to obtain a target value, and setting the target value as a processing jump route address.

The service states are a plurality of states contained in the service, for example, the plurality of states contained in the service ' order ' are ' product to be checked ' and ' to be placed. The preset mapping list includes a transaction source (service information), a service status, a corresponding operation authority (target authority), and a processing jump routing address, as shown in table 1. The server classifies the service information to obtain a service state range (i.e., a current service state) that the current user needs to track, for example, the current order state is: 1-draft, 2-product to be audited, 3-product audit not passed, 4-to be ordered, 5-to be ordered for overranging, 6-finance to be audited, 7-finance audit not passed, 8-order execution, 9-order completion and 10-ERP processing. The server receives an object mapping configuration request sent by a preset terminal, creates mapping object classes of each service state, each target authority and each processing jump route address according to the object mapping configuration request, writes the mapping object classes into a corresponding mapping file (the mapping file can be a table excel) so as to configure mapping relations among each service state, each target authority and each processing jump route address, thereby obtaining a preset mapping list, and caches the preset mapping list in a Key-Value database Redis. The server can generate access keys corresponding to the service state and the target authority through Key Value pairs Key-Value database Redis, match Key Value pairs corresponding to the processing jump route addresses in a preset mapping list cached by the Key-Value database Redis through the access keys to obtain corresponding target values, judge whether the target values are null values or not, if yes, the fact that no corresponding processing jump route addresses exist is indicated, and if no, the target values are set to the processing jump route addresses.

Table 1 preset mapping list

104. And converting and splicing the target authority, the service state, the processing jump routing address and the preset retrieval condition to obtain a target query statement.

Wherein, the preset search conditions comprise a time range, a service number, a creator and the like. The server converts the target authority, the service state, the processing jump routing address and the preset retrieval condition into character strings, sequences the character strings according to the sequence from big to small of the pre-configured weights, and splices the sequenced character strings to obtain a target query statement, wherein the pre-configured weights are as follows: and if the target authority is 40%, the service state is 30%, the processing jump routing address is 10% and the preset retrieval condition is 20%, the sequenced character strings are the character strings respectively corresponding to the target authority, the service state, the preset retrieval condition and the processing jump routing address, and the sequenced character strings are connected through a preset character string function strat () function to obtain the target query statement.

105. And searching a preset service query list through the target query statement to obtain a target backlog, and jumping to a service processing page corresponding to the target backlog through the processing jump route address.

The server queries and judges all fields in a preset service query list through a target query statement to obtain a first initial backlog, extracts keywords from target authority, service states, processing jump routing addresses and preset retrieval conditions to obtain a plurality of keywords, retrieves preset service query list data through the keywords to obtain a second initial backlog, calculates the similarity between the first initial backlog and the second initial backlog, and determines the first initial backlog with the similarity larger than a second preset threshold as the target backlog. After the server obtains the target backlog, the processing jump route address is jumped in a push mode or a hash mode, so that the current page is jumped to a service processing page corresponding to the target backlog.

In the embodiment of the invention, the target authority is matched according to the user identification number information and the service information, the preset mapping list is searched according to the service state and the target authority to obtain the corresponding processing jump routing address, the target backlog is obtained through the target inquiry statement, the processing jump routing address jumps to the service processing page corresponding to the target backlog, the backlog to be processed can be summarized, the centralized processing of the backlog is convenient, the complete and accurate target backlog can be effectively obtained, the jumping flexibility is improved, and the processing efficiency of the backlog is further improved. The scheme can be applied to the intelligent medical field, so that the construction of the intelligent city is promoted.

Referring to fig. 2, another embodiment of a backlog-based jump method according to an embodiment of the present invention includes:

201. and acquiring the user identification number information and the query information, and extracting service information in the query information.

The user logs in a preset service management system through the user side, and inputs query information on a preset display interface corresponding to the service management system, wherein the query information can comprise at least one of a service state range and service information, for example, the query information input by the user is 'order checking', the 'order' is the service information, the 'checking' is the service state range, the checking can comprise to-be-checked, checking and checked, the server reads user identification number (identity document, id) information and query information which are authorized to log in by the service management system, and the service information is extracted from the query information, and can be a service executable by the user, for example, order information and a performance list information.

202. And acquiring preset configuration information, and matching corresponding target authority from the configuration information according to the user identification number information and the service information.

Specifically, the server acquires preset configuration information and query interface information corresponding to service information, and traverses the configuration information to obtain initial permission corresponding to user identification number information, wherein the service information comprises medicine order information and medical supply order information, and the initial permission comprises a plurality of functional permissions and a plurality of user query permissions; judging whether information corresponding to the query interface information exists in the initial authority; if the information corresponding to the query interface information exists in the initial authority, determining the initial authority corresponding to the query interface information as the target authority.

For example, one function authority corresponds to one query (interface), the service information includes but is not limited to medicine order information and medical supplies order information, the service information can be audit information of a medicine order or audit information of a medical supplies order, the server reads a preset configuration file, traverses the preset configuration file to obtain initial authority 1, initial authority 2, initial authority 3 and initial authority 4 corresponding to user identification number information, the initial authority 1 and the initial authority 2 are function authorities, the initial authority 3 and the initial authority 4 are user query authorities, the server acquires query interface information corresponding to the order audit information, judges whether the query interface information corresponds to the initial authority 1, the initial authority 2, the initial authority 3 and/or the initial authority 4, namely whether uniform resource location system (uniform resource locator, URL) information corresponding to the query interface information exists in the initial authority 1, the initial authority 2, the initial authority 3 and/or the initial authority 4, if yes, the authority (order query authority) corresponding to the query interface information is contained in the initial authority 1, the initial authority 2, the initial authority 3 and the initial authority 4, and the query is determined to be a target, and if no, the query authority 1 and no initial authority 1 can be executed.

203. And acquiring the current service state according to the service information, generating access keys of the service state and the target authority, performing key value pair matching on a preset mapping list through the access keys to obtain a target value, and setting the target value as a processing jump route address.

The execution of step 203 is similar to that of step 103 described above, and will not be described again here.

204. And respectively generating initial structured query sentences of the target authority, the service state, the processing jump routing address and the preset retrieval conditions to obtain a plurality of structured query sentences.

For example, department is sales center, business status is to be audited, preset search conditions are time range 2020.5.5-2020.5.6, business number 0069 and creator A, process jump route address is http:// localhost 4003/#/b? id=8, the server generates an initial structured query statement of the target authority, the service state, the processing jump routing address and the preset search condition respectively, and a plurality of structured query statements are obtained: and partial_code= 'salescenter', state= '2', api = http:// localhost 4003/#/bid = 8, time= '2020.5.5-2020.5.6', typeno= '0069' and creator= 'nail'.

205. And splicing the plurality of structured query sentences according to preset search setting conditions to obtain an initial query sentence.

Specifically, the server sorts the plurality of structured query sentences according to the priority in the preset search setting conditions to obtain a sequence structured query sentence; splicing the sequential structured query sentences through a preset query logic grammar to obtain spliced structured query sentences; and comparing and analyzing the spliced structured query statement with a preset query statement template to obtain an initial query statement.

For example, the priority order in the preset search setting condition is: the method comprises the steps of sorting a structured query statement corresponding to a target authority, a service state, a preset search condition and a processing skip route address according to the priority and a preset query logic grammar to obtain a spliced structured query statement, calculating a similarity value between the spliced structured query statement and a preset query statement template, judging whether the similarity value is larger than a first preset threshold, if not, sorting the structured query statement corresponding to the target authority, the service state, the preset search condition and the processing skip route address according to the priority and the preset query logic grammar again to obtain the spliced structured query statement, if yes, determining the corresponding spliced structured query statement as an initial query statement, wherein the preset search setting condition is statement setting of the structured query statement, and, that is, a plurality of conditions are required to be met, for example: and partial_code= 'salescenter' and state= '2' and api=http:// localhost 4003/#/bid=8 and time= '2020.5.5-2020.5.6'and TypeNo = '0069' and creator= 'methyl'.

206. And performing redundant field filtering and grammar detection on the initial query statement to obtain a target query statement.

The server removes redundant fields in the initial query statement, detects whether the initial query statement with the redundant fields removed accords with preset query statement grammar, if yes, the initial query statement with grammar detection is determined to be a target query statement, if not, the content which does not accord with the query statement grammar in the initial query statement is fed back to a preset correcting end, and the preset correcting end carries out manual correction.

207. And searching a preset service query list through the target query statement to obtain a target backlog, and jumping to a service processing page corresponding to the target backlog through the processing jump route address.

Specifically, the server searches a preset service query list through a target query statement to obtain a target backlog; acquiring current route operation information and receiving a jump instruction triggered based on a target backlog; and acquiring a processing route according to the jump instruction and the current route operation information, and jumping to a service processing page corresponding to the processing route by processing the jump route address.

Specifically, the server judges whether the uniform resource locator path identifier in the current route operation information is updated to the uniform resource locator path identifier for processing the jump route address according to the jump instruction; if the uniform resource locator path identifier in the current route operation information is updated to be the uniform resource locator path identifier of the processing jump route address, matching the corresponding processing route according to the processing jump route address; and jumping to a service processing page corresponding to the processing route through a preset component and the processing jump route address.

When the current route operation information is the route address information of a current query page or a page of which the query result of the target backlog is obtained, a jump instruction triggered based on the target backlog is triggered by clicking a preset button on a preset display interface by a user, for example, a server reads the route address information of the current query page or the page of which the query result of the target backlog is obtained, the target backlog is C1, C2 and C3, the user clicks a preset button corresponding to C1 on the preset display interface, the jump instruction of C1 is triggered, after the jump instruction of C1 is triggered, the server changes the current route operation information, when the fact that a uniform resource locator path identifier in the current route operation information is updated to a uniform resource locator path identifier for processing the jump route address is detected, the corresponding processing route is matched, the processing route corresponding to the processing jump route address is searched and matched through the current route preset component, and if the matching is successful, the processing route is jumped to the corresponding business processing page;

if the matching is unsuccessful, a matching result of the unmatched processing route is fed back, when the unified resource locator path identifier in the current route operation information is detected to be not updated, after a preset period, whether the unified resource locator path identifier in the current route operation information is updated to be the unified resource locator path identifier of the processing jump route address is detected again, and if the unified resource locator path identifier in the current route operation information is detected to be not updated after the preset period, a detection result of the routing jump address which cannot be jumped is returned.

Specifically, the server searches a preset service query list through a target query statement to obtain a target backlog, and after the target backlog is jumped to a service processing page corresponding to the target backlog through processing a jumped route address, the server also obtains the jumped accuracy and the jumped time of the service processing page corresponding to the target backlog, and matches the corresponding class to be optimized from the preset optimization list according to the jumped accuracy and the jumped time; and generating a visual chart according to the jump accuracy, the jump time and the grade to be optimized, and sending the visual chart to a preset optimization adjustment end.

The server acquires the jump accuracy of the business processing page corresponding to the target backlog and input by the user on the preset page, extracts the jump time of the business processing page corresponding to the target backlog from the operation log information, and searches the preset optimization list according to the jump accuracy and the jump time to obtain a corresponding to-be-optimized grade, wherein the to-be-optimized grade is used for predicting the whole execution process and the degree of the execution step of the jump of the business processing page corresponding to the target backlog, and can be high, medium and low, and can be a score, such as: the class to be optimized is 85 points, and more than 80 points of the class to be optimized require policy adjustment and policy optimization for the whole execution process and execution step of the jump of the business processing page corresponding to the target backlog. The server generates a visual chart according to the jump accuracy, the jump time and the grade to be optimized, and sends the visual chart to a preset optimization adjusting end, and the preset optimization adjusting end performs strategy adjustment and strategy optimization on the whole execution process and execution steps of the jump of the business processing page corresponding to the target backlog according to the content and the optimization requirement of the visual chart so as to improve the processing efficiency of the backlog.

In the embodiment of the invention, the target authority is matched according to the user identification number information and the service information, the preset mapping list is searched according to the service state and the target authority to obtain the corresponding processing jump routing address, the target backlog is obtained through the target inquiry statement, the processing jump routing address jumps to the service processing page corresponding to the target backlog, the backlog to be processed can be summarized, the centralized processing of the backlog is convenient, the complete and accurate target backlog can be effectively obtained, the jumping flexibility is improved, and the processing efficiency of the backlog is further improved. The scheme can be applied to the intelligent medical field, so that the construction of the intelligent city is promoted.

The to-do based jump method in the embodiment of the present invention is described above, and the to-do based jump device in the embodiment of the present invention is described below, referring to fig. 3, and one embodiment of the to-do based jump device in the embodiment of the present invention includes:

the extracting module 301 is configured to obtain user identification number information and query information, and extract service information in the query information;

the matching module 302 is configured to obtain preset configuration information, and match corresponding target rights from the configuration information according to the user identification number information and the service information;

The retrieval module 303 is configured to obtain a current service state according to the service information, generate an access key of the service state and the target authority, perform key value pair matching on a preset mapping list through the access key, obtain a target value, and set the target value as a processing jump routing address;

the conversion splicing module 304 is configured to convert and splice the target authority, the service state, the processing jump routing address and the preset search condition to obtain a target query statement;

the skip module 305 is configured to retrieve a preset service query list through a target query statement, obtain a target backlog, and skip to a service processing page corresponding to the target backlog through processing a skip route address.

The function implementation of each module in the to-do-based jump device corresponds to each step in the to-do-based jump method embodiment, and the function and implementation process thereof are not described in detail herein.

In the embodiment of the invention, the target authority is matched according to the user identification number information and the service information, the preset mapping list is searched according to the service state and the target authority to obtain the corresponding processing jump routing address, the target backlog is obtained through the target inquiry statement, the processing jump routing address jumps to the service processing page corresponding to the target backlog, the backlog to be processed can be summarized, the centralized processing of the backlog is convenient, the complete and accurate target backlog can be effectively obtained, the jumping flexibility is improved, and the processing efficiency of the backlog is further improved. The scheme can be applied to the intelligent medical field, so that the construction of the intelligent city is promoted.

Referring to fig. 4, another embodiment of a to-do-based jump apparatus according to an embodiment of the present invention includes:

the extracting module 301 is configured to obtain user identification number information and query information, and extract service information in the query information;

the matching module 302 is configured to obtain preset configuration information, and match corresponding target rights from the configuration information according to the user identification number information and the service information;

the retrieval module 303 is configured to obtain a current service state according to the service information, generate an access key of the service state and the target authority, perform key value pair matching on a preset mapping list through the access key, obtain a target value, and set the target value as a processing jump routing address;

the conversion splicing module 304 is configured to convert and splice the target authority, the service state, the processing jump routing address and the preset search condition to obtain a target query statement;

the conversion splicing module 304 specifically includes:

the generating unit 3041 is configured to generate an initial structured query statement of the target authority, the service state, the processing jump routing address and the preset search condition, respectively, to obtain a plurality of structured query statements;

the splicing unit 3042 is configured to splice a plurality of structured query sentences according to a preset search setting condition, so as to obtain an initial query sentence;

The detection unit 3043 is used for performing redundant field filtering and grammar detection on the initial query statement to obtain a target query statement;

the skip module 305 is configured to retrieve a preset service query list through a target query statement, obtain a target backlog, and skip to a service processing page corresponding to the target backlog through processing a skip route address.

Optionally, the splicing unit 3042 may be specifically configured to:

sequencing the plurality of structured query sentences according to the priority in the preset search setting conditions to obtain a sequence structured query sentence;

splicing the sequential structured query sentences through a preset query logic grammar to obtain spliced structured query sentences;

and comparing and analyzing the spliced structured query statement with a preset query statement template to obtain an initial query statement.

Optionally, the matching module 302 may be further specifically configured to:

acquiring preset configuration information and query interface information corresponding to service information, traversing the configuration information to obtain initial permission corresponding to user identification number information, wherein the service information comprises medicine order information and medical supplies order information, and the initial permission comprises a plurality of functional permissions and a plurality of user query permissions;

Judging whether information corresponding to the query interface information exists in the initial authority;

if the information corresponding to the query interface information exists in the initial authority, determining the initial authority corresponding to the query interface information as the target authority.

Optionally, the skip module 305 includes:

the retrieving unit 3051 is configured to retrieve a preset service query list through a target query statement, so as to obtain a target backlog;

the receiving unit 3052 is configured to obtain current route operation information, and receive a jump instruction triggered based on a target backlog;

and the jumping unit 3053 is used for acquiring the processing route according to the jumping instruction and the current route operation information, and jumping to a service processing page corresponding to the processing route through processing the address of the jumping route.

Optionally, the jumping unit 3053 may be further specifically configured to:

judging whether the uniform resource locator path identifier in the current route operation information is updated to be the uniform resource locator path identifier for processing the jump route address according to the jump instruction;

if the uniform resource locator path identifier in the current route operation information is updated to be the uniform resource locator path identifier of the processing jump route address, matching the corresponding processing route according to the processing jump route address;

And jumping to a service processing page corresponding to the processing route through a preset component and the processing jump route address.

Optionally, the to-do-based jumping device further includes:

the obtaining matching module 306 is configured to obtain a skip accuracy and a skip time of a service processing page corresponding to the target to-do item, and match a corresponding to-be-optimized level from a preset optimization list according to the skip accuracy and the skip time;

the generating and transmitting module 307 is configured to generate a visual chart according to the skip accuracy, the skip time and the level to be optimized, and transmit the visual chart to a preset optimization adjustment end.

The function implementation of each module and each unit in the to-do-based jump device corresponds to each step in the to-do-based jump method embodiment, and the function and implementation process thereof are not described in detail herein.

In the embodiment of the invention, the target authority is matched according to the user identification number information and the service information, the preset mapping list is searched according to the service state and the target authority to obtain the corresponding processing jump routing address, the target backlog is obtained through the target inquiry statement, the processing jump routing address jumps to the service processing page corresponding to the target backlog, the backlog to be processed can be summarized, the centralized processing of the backlog is convenient, the complete and accurate target backlog can be effectively obtained, the jumping flexibility is improved, and the processing efficiency of the backlog is further improved. The scheme can be applied to the intelligent medical field, so that the construction of the intelligent city is promoted.

Fig. 3 and fig. 4 above describe the backlog-based jumping apparatus in the embodiment of the present invention in detail from the point of view of the modularized functional entity, and the backlog-based jumping device in the embodiment of the present invention is described in detail from the point of view of the hardware processing.

Fig. 5 is a schematic structural diagram of a to-do-based jump device 500 according to an embodiment of the present invention, where the to-do-based jump device 500 may have a relatively large difference due to different configurations or performances, and may include one or more processors (central processing units, CPU) 510 (e.g., one or more processors) and a memory 520, and one or more storage media 530 (e.g., one or more mass storage devices) storing application programs 533 or data 532. Wherein memory 520 and storage medium 530 may be transitory or persistent storage. The program stored on the storage medium 530 may include one or more modules (not shown), each of which may include a series of instruction operations on the backlog-based jump device 500. Still further, the processor 510 may be configured to communicate with the storage medium 530 to execute a series of instruction operations in the storage medium 530 on the backlog-based jump device 500.

The backlog-based jump device 500 may also include one or more power supplies 540, one or more wired or wireless network interfaces 550, one or more input/output interfaces 560, and/or one or more operating systems 531, such as Windows Serve, mac OS X, unix, linux, freeBSD, and the like. It will be appreciated by those skilled in the art that the backlog-based jump device structure shown in fig. 5 is not limiting of the backlog-based jump device and may include more or fewer components than shown, or may combine certain components, or may be a different arrangement of components.

The present invention also provides a computer readable storage medium, which may be a non-volatile computer readable storage medium, and which may also be a volatile computer readable storage medium, having stored therein instructions that, when executed on a computer, cause the computer to perform the steps of a backlog-based jump method.

Further, the computer-readable storage medium may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function, and the like; the storage data area may store data created from the use of blockchain nodes, and the like.

The blockchain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanism, encryption algorithm and the like. The Blockchain (Blockchain), which is essentially a decentralised database, is a string of data blocks that are generated by cryptographic means in association, each data block containing a batch of information of network transactions for verifying the validity of the information (anti-counterfeiting) and generating the next block. The blockchain may include a blockchain underlying platform, a platform product services layer, an application services layer, and the like.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, which are not repeated herein.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in essence or a part contributing to the prior art or all or part of the technical solution in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods of the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a read-only memory (ROM), a random access memory (random access memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The to-do-based jump method is characterized by comprising the following steps:

acquiring user identification number information and query information, and extracting service information in the query information;

acquiring preset configuration information, and matching corresponding target authorities from the configuration information according to the user identification number information and the service information;

acquiring a current service state according to the service information, generating access keys of the service state and the target authority, performing key value pair matching on a preset mapping list through the access keys to obtain a target value, and setting the target value as a processing jump routing address;

Converting and splicing the target authority, the service state, the processing jump routing address and preset retrieval conditions to obtain a target query statement;

searching a preset service inquiry list through the target inquiry statement to obtain a target backlog, and jumping to a service processing page corresponding to the target backlog through the processing jumping route address;

the converting and splicing the target authority, the service state, the processing jump routing address and the preset search condition to obtain a target query statement, which comprises the following steps:

generating initial structured query sentences of the target authority, the service state, the processing jump routing address and preset search conditions respectively to obtain a plurality of structured query sentences;

splicing the plurality of structured query sentences according to preset search setting conditions to obtain initial query sentences;

performing redundant field filtering and grammar detection on the initial query statement to obtain a target query statement;

splicing the plurality of structured query sentences according to preset search setting conditions to obtain initial query sentences, wherein the method comprises the following steps:

Sequencing the plurality of structured query sentences according to the priority in the preset search setting conditions to obtain a sequence structured query sentence;

splicing the sequential structured query statement through a preset query logic grammar to obtain a spliced structured query statement;

and comparing and analyzing the spliced structured query statement with a preset query statement template to obtain an initial query statement.

2. The to-do-based jump method according to claim 1, wherein the obtaining preset configuration information, according to the user identification number information and the service information, matches a corresponding target authority from the configuration information, includes:

acquiring preset configuration information and query interface information corresponding to the service information, traversing the configuration information to obtain initial permission corresponding to the user identification number information, wherein the service information comprises medicine order information and medical supplies order information, and the initial permission comprises a plurality of functional permissions and a plurality of user query permissions;

judging whether the initial authority has information corresponding to the query interface information or not;

And if the information corresponding to the query interface information exists in the initial authority, determining the initial authority as a target authority.

3. The to-do-based jump method according to claim 1, wherein the retrieving, by the target query statement, the preset service query list to obtain a target to-do, and jumping to a service processing page corresponding to the target to-do by the processing jump routing address includes:

searching a preset service query list through the target query statement to obtain a target backlog;

acquiring current route operation information and receiving a jump instruction triggered on the basis of the target backlog;

and acquiring a processing route according to the jump instruction and the current route operation information, and jumping to a service processing page corresponding to the processing route through the processing jump route address.

4. The to-do-based jump method according to claim 3, wherein said obtaining a processing route according to the jump instruction and the current route operation information, jumping to a service processing page corresponding to the processing route through the processing jump route address, comprises:

Judging whether the uniform resource locator path identifier in the current route operation information is updated to the uniform resource locator path identifier of the processing jump route address according to the jump instruction;

if the uniform resource locator path identifier in the current route operation information is updated to the uniform resource locator path identifier of the processing jump route address, matching the corresponding processing route according to the processing jump route address;

and jumping to a service processing page corresponding to the processing route through a preset component and the processing jump route address.

5. The to-do-based jump method according to any one of claims 1-4, wherein the retrieving, by the target query statement, a preset service query list to obtain a target to-do, and after jumping to a service processing page corresponding to the target to-do by the processing jump routing address, further includes:

obtaining the jump accuracy and the jump time of the business processing page corresponding to the target backlog, and matching the corresponding class to be optimized from a preset optimizing list according to the jump accuracy and the jump time;

And generating a visual chart according to the jump accuracy, the jump time and the grade to be optimized, and sending the visual chart to a preset optimization adjustment end.

6. A backlog-based jump device, the backlog-based jump device comprising:

the extraction module is used for acquiring the user identification number information and the query information and extracting service information in the query information;

the matching module is used for acquiring preset configuration information and matching corresponding target authorities from the configuration information according to the user identification number information and the service information;

the retrieval module is used for acquiring the current service state according to the service information, generating access keys of the service state and the target authority, carrying out key value pair matching on a preset mapping list through the access keys to obtain a target value, and setting the target value as a processing jump route address;

the conversion splicing module is used for converting and splicing the target authority, the service state, the processing jump routing address and preset retrieval conditions to obtain a target query statement;

the skip module is used for searching a preset service inquiry list through the target inquiry statement to obtain a target backlog, and skipping to a service processing page corresponding to the target backlog through the processing skip route address;

The conversion splicing module comprises:

the generating unit is used for respectively generating the target authority, the service state, the processing jump routing address and an initial structured query statement of a preset search condition to obtain a plurality of structured query statements;

the splicing unit is used for splicing the plurality of structured query sentences according to preset search setting conditions to obtain initial query sentences;

the detection unit is used for carrying out redundant field filtering and grammar detection on the initial query statement to obtain a target query statement;

the splicing unit is specifically used for:

sequencing the plurality of structured query sentences according to the priority in the preset search setting conditions to obtain a sequence structured query sentence;

splicing the sequential structured query statement through a preset query logic grammar to obtain a spliced structured query statement;

and comparing and analyzing the spliced structured query statement with a preset query statement template to obtain an initial query statement.

7. The to-do-based jump device of claim 6, wherein the matching module is specifically configured to:

acquiring preset configuration information and query interface information corresponding to the service information, traversing the configuration information to obtain initial permission corresponding to the user identification number information, wherein the service information comprises medicine order information and medical supplies order information, and the initial permission comprises a plurality of functional permissions and a plurality of user query permissions;

Judging whether the initial authority has information corresponding to the query interface information or not;

and if the information corresponding to the query interface information exists in the initial authority, determining the initial authority as a target authority.

8. The to-do-based jump apparatus of claim 6, wherein the jump module comprises:

the searching unit is used for searching a preset service query list through the target query statement to obtain a target backlog;

the receiving unit is used for acquiring current route operation information and receiving a jump instruction triggered on the basis of the target backlog;

and the jump unit is used for acquiring a processing route according to the jump instruction and the current route operation information, and jumping to a service processing page corresponding to the processing route through the processing jump route address.

9. A backlog-based jump device, the backlog-based jump device comprising: a memory and at least one processor, the memory having instructions stored therein;

the at least one processor invoking the instructions in the memory to cause the backlog-based jump device to perform the backlog-based jump method of any of claims 1-5.

10. A computer readable storage medium having instructions stored thereon, which when executed by a processor implement the backlog-based jump method of any of claims 1-5.