CN111429088A - Process test result sending method and device, computer equipment and storage medium - Google Patents

Abstract

The application relates to the technical field of nuclear power informatization construction, and relates to a process test result sending method, a device, computer equipment and a storage medium. The method comprises the following steps: acquiring a work order containing a plurality of to-be-executed working procedures; dividing the work order into at least one sub-work order according to an execution area corresponding to a to-be-executed process; each sub-work order is sent to a terminal corresponding to a corresponding execution area to be executed; when a test result of one to-be-executed process in a corresponding sub-work order returned by a terminal is received, determining whether to-be-executed processes in other sub-work orders needing to depend on the test result exist; and if so, sending the test result to the terminal corresponding to the other sub-worksheets. By adopting the method, the communication efficiency of operators in different areas can be improved.

Description

Process test result sending method and device, computer equipment and storage medium

Technical Field

The application relates to the technical field of nuclear power informatization construction, in particular to a process test result sending method and device, computer equipment and a storage medium.

Background

Nuclear power plants generate electricity from the thermal energy generated by nuclear fuel in nuclear reactors. Due to the particularity of nuclear power plants, test operators are required to perform periodic tests on equipment within the nuclear power plant in order to ensure the basic safety of the nuclear power plant. The regular test is a process of executing and recording results item by item according to the content of a program file by taking a regular test work order automatically generated by a preventive maintenance plan as a carrier. There may be dependency between a plurality of processes of a complete periodic test, for example, the test result of the B process needs to be calculated according to the test result of the a process, or the B process must be executed after the a process is completed. However, when the dependent process of the same work order needs to be executed in multiple areas, for example, the same work order needs to be divided into sub-work orders corresponding to the multiple areas and executed in different areas, which results in unsmooth communication between test operators in different areas.

In the prior art, operators in different areas generally confirm test results of dependent processes by means of telephones, instant messaging tools and the like, so that communication efficiency between the test operators in different areas is low.

Disclosure of Invention

In view of the above, it is desirable to provide a process test result transmission method, device, computer equipment, and storage medium capable of improving communication efficiency between operators in different areas.

A method of messaging, the method comprising:

acquiring a work order containing a plurality of to-be-executed working procedures;

dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process;

each sub-work order is sent to a terminal corresponding to a corresponding execution area to be executed;

when a test result of one to-be-executed process in a corresponding sub-work order returned by a terminal is received, determining whether to-be-executed processes in other sub-work orders needing to depend on the test result exist;

and if so, sending the test result to the terminal corresponding to the other sub-work orders.

In one embodiment, the sending each sub-work order to the terminal corresponding to the corresponding execution area for execution includes:

when a sub work order downloading request sent by a terminal is received, determining a communication identifier for sending the sub work order downloading request; the sub work order downloading request comprises a sub work order mark;

acquiring a dependency relationship between a communication identifier and an execution area;

judging whether the terminal corresponding to the communication identifier has the downloading authority for downloading the sub-work order corresponding to the sub-work order identifier or not based on the dependency relationship;

and when the terminal has the download right, issuing the sub work sheet corresponding to the sub work sheet identifier to the terminal corresponding to the communication identifier.

In one embodiment, the method further comprises:

when a prompt message for starting execution of a to-be-executed process in a corresponding work order returned by a terminal is received, determining whether to-be-executed processes in other work orders which need to depend on the test result of the to-be-executed process exist;

and if so, sending the starting execution prompt message to the terminals corresponding to the other sub-work orders.

In one embodiment, when receiving a prompt message for starting execution of one to-be-executed process in a corresponding work order returned by a terminal, the determining whether to have the to-be-executed process in another work order that needs to depend on the test result of the to-be-executed process includes:

determining the sub-work order identification of the sub-work order in which each to-be-executed work procedure is located in the work order;

determining the dependency relationship among the sub-work orders based on the sub-work order identification;

and determining whether the to-be-executed process in other sub-work orders which need to depend on the test result of the to-be-executed process exists according to the dependency relationship among the sub-work orders.

In one embodiment, when a test result of one to-be-executed process in a corresponding work order returned by the terminal is received, the determining whether to have the to-be-executed process in another work order that needs to depend on the test result includes:

determining the dependency relationship among the test results of the to-be-executed working procedures based on the work order;

and determining whether the to-be-executed working procedures in other sub-work orders needing to depend on the test results exist or not based on the dependency relationship among the test results.

In one embodiment, if yes, sending the test result to the terminal corresponding to the other sub-work orders includes:

determining a process identification of a to-be-executed process which needs to depend on the test result;

determining the sub-work order identification of the sub-work order where the to-be-executed work procedure needs to depend on the test result according to the procedure identification;

inquiring the communication identification of the terminal receiving the sub work order according to the sub work order identification;

and sending the test result to a corresponding terminal based on the communication identifier.

In one embodiment, the sending the test result to the corresponding terminal based on the communication identifier includes:

and sending the test result to a corresponding terminal based on the communication identifier so that the corresponding terminal unlocks the test result input box according to the test result.

A process test result transmitting apparatus, the apparatus comprising:

the sub-work order acquisition module is used for acquiring a work order containing a plurality of to-be-executed processes; dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process;

the sub-work order sending module is used for sending each sub-work order to a terminal corresponding to the corresponding execution area for execution;

the test result sending module is used for determining whether the to-be-executed process in other sub-work orders which need to depend on the test result exists or not when the test result of the to-be-executed process in the corresponding sub-work order returned by the terminal is received; and if so, sending the test result to the terminal corresponding to the other sub-work orders.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

acquiring a work order containing a plurality of to-be-executed working procedures;

dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process;

each sub-work order is sent to a terminal corresponding to a corresponding execution area to be executed;

when a test result of one to-be-executed process in a corresponding sub-work order returned by a terminal is received, determining whether to-be-executed processes in other sub-work orders needing to depend on the test result exist;

and if so, sending the test result to the terminal corresponding to the other sub-work orders.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

acquiring a work order containing a plurality of to-be-executed working procedures;

dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process;

each sub-work order is sent to a terminal corresponding to a corresponding execution area to be executed;

when a test result of one to-be-executed process in a corresponding sub-work order returned by a terminal is received, determining whether to-be-executed processes in other sub-work orders needing to depend on the test result exist;

and if so, sending the test result to the terminal corresponding to the other sub-work orders.

The process test result sending method, the process test result sending device, the computer equipment and the storage medium can divide the work order according to the execution area by acquiring the work order containing a plurality of processes to be executed to obtain at least one sub-work order; each sub-work order is sent to a terminal corresponding to a corresponding execution area, so that test operators in the execution areas can perform periodic tests based on the sub-work orders in the terminals; when a test result of a to-be-executed process returned by the terminal is received, whether the to-be-executed process in other sub-work orders which need to depend on the test result exists is determined, and when the to-be-executed process in other sub-work orders which need to depend on the test result exists, the test result can be sent to the terminal corresponding to the other sub-work orders, so that the terminal corresponding to the other sub-work orders can perform subsequent operation according to the test result. When the to-be-executed process in other work orders which need to depend on the test result is determined, the test result can be automatically forwarded to the terminal corresponding to the other work orders, so that test operators corresponding to the other work orders can confirm the test result without the help of telephones, instant messaging tools and the like, and the communication efficiency among the test operators in different areas is improved.

Drawings

FIG. 1 is a diagram of an exemplary process test result delivery method;

FIG. 2 is a schematic flow chart illustrating a method for sending process test results according to an embodiment;

FIG. 3 is a schematic diagram of a work order page in one embodiment;

FIG. 4 is a schematic diagram of a page of periodically trial APP in one embodiment;

FIG. 5 is a flowchart illustrating a method for rights verification according to one embodiment;

FIG. 6 is a block diagram showing the structure of a process test result transmitting device according to one embodiment;

FIG. 7 is a block diagram showing the structure of a process test result transmitting apparatus according to another embodiment;

FIG. 8 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The process test result method provided by the application can be applied to the application environment shown in fig. 1. Wherein, the first terminal 102 communicates with the server 104 through the network, and the second terminal 106 communicates with the server 104 through the network; the first terminal 102 communicates with the second terminal 106 through a network. The terminals 102 and 106 may be, but are not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the server 104 may be implemented by an independent server or a server cluster composed of a plurality of servers. The server 104 prestores a work order containing a plurality of to-be-executed processes, and the server 104 divides the work order according to an execution area to obtain a plurality of sub-work orders and issues the sub-work orders to corresponding terminals. When the server 104 receives the test result of the to-be-executed process sent by the first terminal 102, the server 104 checks whether the to-be-executed process needing to depend on the test result exists, determines the terminal identifier of the second terminal 106 where the to-be-executed process needing to depend on the test result exists, and then sends the test result to the second terminal 106 based on the terminal identifier.

In one embodiment, as shown in fig. 2, a method for sending process test results is provided, which is described by taking the method as an example applied to the server in fig. 1, and includes the following steps:

step 202, a work order including a plurality of to-be-executed processes is obtained.

The work order is a table that is generated after each executable step in a specific periodic test is split and includes information such as a process identifier and a process execution area, as shown in fig. 3. The process refers to each executable step in the periodic test, for example, the process may be to determine the operating parameters of the engine in region a, or to determine the operating parameters of the engine in region a based on the operating parameters of the engine in region B, etc. FIG. 3 is a schematic diagram of a work order page in one embodiment.

Specifically, a test operator of the nuclear power plant determines a periodic test to be performed, formulates a corresponding work order based on each operation step in the periodic test, then sends the work order to the server, sets a corresponding work order identifier for each received work order by the server, and correspondingly stores the work order identifier, the test identifier of the periodic test and the corresponding work order. For example, when test operators have made corresponding work orders a for the periodic test a and corresponding work orders B for the periodic test B, the server will compare { a: work orders: a } and { B: work orders: b is stored in the database.

In another embodiment, the test operator may record the specific description of each to-be-executed process, the dependency relationship between each to-be-executed process, the execution sequence and the execution area in the regular test in the EXCE L table, extract the specific description, the dependency relationship, the execution sequence and the execution area from the EXCE L table according to preset keywords by the server, and generate a corresponding work order according to the specific description, the dependency relationship, the execution sequence and the execution area.

In another embodiment, the server has a work order generation application program, and the test operator may directly input the work order identifier, the process identifiers of the plurality of to-be-executed processes included in the work order, and the process detailed description, the dependency relationship, the execution order, and the execution area corresponding to each process identifier in the work order generation application program, so that the work order generation application program generates the corresponding work order according to the input information of the operator.

It is easy to understand that the above-mentioned work order generation method may be completed at the terminal, and then the terminal sends the generated work order to the server.

And S204, dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process.

The execution area refers to an area where equipment for operating a to-be-executed process is located, and since the nuclear power plant is a large nuclear power plant, the operation of the nuclear power plant depends on the mutual cooperation of a plurality of different pieces of equipment, and the areas where the different pieces of equipment are located may be different, the work order can be divided into at least one sub-work order according to the execution area corresponding to the to-be-executed process.

Specifically, the server determines an execution area of each to-be-executed process in the work order, and divides the to-be-executed processes according to the area to obtain at least one sub-work order. The execution area of each to-be-executed process in the sub work order is the same. Meanwhile, the server sets corresponding sub-work order identifications for the sub-work orders obtained through division, and correspondingly stores the work order identifications, the sub-work order identifications and the sub-work orders.

In another embodiment, the sub-work order identifier may be set based on the work order identifier so that subsequent computer devices may quickly query for the corresponding work order identifier based on the sub-work order identifier. For example, when the work order identifier is a, the sub-work order identifier of the sub-work order obtained based on the division of the a work order may be a-a.

And S206, sending each sub-work order to a terminal corresponding to the corresponding execution area for execution.

Wherein, the terminal operation has periodic test APP, as shown in fig. 4, can show the experimental requirement of each step process in the sub-worksheet based on periodic test APP, and experimental operating personnel tests according to the experimental requirement is manual. And inputting the test result at the corresponding position of the working procedure. FIG. 4 is a schematic diagram of a page for periodically testing APP in one embodiment.

Specifically, when the test operator needs to perform a periodic test in a corresponding execution area based on the terminal, the test operator can download the corresponding sub-worksheet from the server to the terminal, and the terminal analyzes the sub-worksheet, so that the test requirements of each step of the working procedure in the sub-worksheet are displayed based on the periodic test APP. For example, when the generator parameter test needs to be performed in the area a, the test operator queries the sub work order corresponding to the generator parameter test in the area a in the server and downloads the sub work order to the terminal, so that the test operator can perform a periodic test according to the downloaded sub work order.

In another embodiment, when the server determines whether the sub-work order exists in the terminal according to the sub-work order identifier, when the sub-work order exists, the server determines the download time for the terminal to download the existing sub-work order, and if the download time is less than a preset time threshold, the server sends a prompt message to the terminal to prompt the test operator to download the sub-work order repeatedly.

In another embodiment, when the sub-work order is being edited, the server sets the download-prohibited identifier of the sub-work order to prohibit the terminal from downloading the sub-work order. By setting the downloading identification of the sub work order, unnecessary downloading interaction between the terminal and the server can be reduced.

In another embodiment, the server stores the correspondence between the execution area and the communication identifier of the terminal in advance. The communication identifier is information that can uniquely identify a terminal, and for example, the communication identifier may be a telephone number, i.e., a communication number of a communication tool, or the like. When a certain periodic test needs to be carried out, the server determines the sub-work orders related to the periodic test, determines the execution areas in the sub-work orders, and distributes the sub-work orders to the corresponding terminals based on the corresponding relation between the execution areas and the communication identifiers of the terminals. By actively issuing the sub work orders to the corresponding terminals, manual operation can be reduced, and the work order issuing efficiency is improved.

S208, when a test result of one to-be-executed process in the corresponding sub-work order returned by the terminal is received, whether to-be-executed processes in other sub-work orders which need to depend on the test result exist is determined.

Specifically, when an operator inputs an operation result in a result input box of a process to be executed based on the periodic test APP, the periodic test APP determines a process identifier of the current process to be executed and a sub-work order identifier of the sub-work order where the current process to be executed is located, generates a test result of the current process to be executed according to the process identifier, the sub-work order identifier and the operation result, and sends the test result to the server. And the server extracts the sub-work order identification and the process identification from the test result, determines the work order based on the sub-work order identification, and inquires the current process to be executed corresponding to the process identification in the work order. The server judges whether other to-be-executed processes needing to depend on the test result of the current to-be-executed process exist according to the dependency relationship among the to-be-executed processes in the work order, when the other to-be-executed processes exist, the server determines the sub-work order identification of the sub-work order where the other to-be-executed processes exist, compares the sub-work order identification of the sub-work order where the other to-be-executed processes exist with the work order identification of the sub-work order where the current to-be-executed process exists, and can determine that the to-be-executed processes in the other sub-work orders needing to depend on the test result of the current to-be-executed process exist in the work order when the sub-work order identification of the sub-work order where the other to-executed processes exist is different from the work order identification of the sub-work order where.

In another embodiment, the process identifiers in the sub-work orders are the same as the process identifiers in the work orders, and the process identifiers between the sequentially executed processes to be executed are continuous. For example, there are A, B and C three processes to be performed in sequence in a periodic test, and in this case, the process identifiers of A, B and C may be 1, 2 and 3. After the terminal determines the test result of the current to-be-executed process, the terminal determines the process identifier of the to-be-executed process positioned in the next sequence of the current to-be-executed process according to the execution sequence among the to-be-executed processes in the sub-work orders, judges whether the process identifier of the to-be-executed process in the next sequence and the process identifier of the current to-be-executed process are continuous identifiers or not, if the process identifiers are not the continuous identifiers, the to-be-executed process in the next sequence can be considered to exist in other sub-work orders, and then the terminal sends the test result of the current sequence to the server. If the identification is continuous, the terminal can determine that the to-be-executed process which needs to depend on the test result of the current to-be-executed process does not exist in other sub-work orders, and then the terminal stops sending the test result to the server.

In another embodiment, the work order has a dependency relationship between each to-be-executed process, and when the sub-work order is divided, the computer device stores the dependency relationship between each to-be-executed process in the work order into the sub-work order. When the terminal determines that the test operator is ready to start to execute the current to-be-executed process, the terminal judges whether the current to-be-executed process needs to depend on the test results of the to-be-executed processes in other sub-work orders or not based on the dependency relationship, and if the current to-be-executed process needs to depend on the test results, the terminal sends a test result obtaining request to the server, so that when the server receives the test results of the to-be-executed processes in other sub-work orders, the server forwards the test results to the terminal corresponding to the current to-be-executed process.

And S210, if so, sending the test result to the terminal corresponding to the other sub-worksheets.

Specifically, when the server determines the sub-work order where other to-be-executed work procedures are located, which needs to depend on the test result of the current to-be-executed work procedure, the server extracts the execution area in the sub-work order, and determines the communication identifier of the terminal receiving the sub-work order where the other to-be-executed work procedures are located according to the execution area. And sending the test result of the current procedure to be executed to the corresponding terminal according to the communication identifier. For the convenience of the following description, a terminal where a currently to-be-performed process is located is referred to as a first terminal, a terminal depending on the currently to-be-performed process is referred to as a second terminal, and a to-be-performed process in other sub-work orders that need to depend on the currently to-be-performed process is referred to as a dependent process.

And the second terminal receives the test result of the current to-be-executed procedure, and judges whether to calculate the test result of the dependent procedure based on the test result of the current to-be-executed procedure or to determine the test parameter of the dependent procedure based on the test result of the current to-be-executed procedure according to a preset rule. When the test result of the dependent process needs to be calculated based on the test result of the current process to be executed, the second terminal obtains the intermediate result of the next process input by the operator, and calculates the intermediate result and the test result of the current process to be executed, so that the final test result of the dependent process is obtained. For example, when the dependent process is to check the consistency between the first parameter and the second parameter, the second terminal obtains an intermediate result (second parameter) of the dependent process, and determines the consistency between the first parameter and the second parameter based on a test result (first parameter) of the current process to be executed and the intermediate result. When the test parameters of the dependent process are required to be determined based on the test result of the current process to be executed, the second terminal obtains the preset calculation rule, and the test parameters of the dependent process are calculated based on the preset calculation rule, so that test operators can complete periodic tests based on the test parameters.

In the process test result sending method, the work order including a plurality of processes to be executed is obtained, and the work order can be divided according to the execution area to obtain at least one sub-work order; each sub-work order is sent to a terminal corresponding to a corresponding execution area, so that test operators in the execution areas can perform periodic tests based on the sub-work orders in the terminals; when a test result of a to-be-executed process returned by the terminal is received, whether the to-be-executed process in other sub-work orders which need to depend on the test result exists is determined, and when the to-be-executed process in other sub-work orders which need to depend on the test result exists, the test result can be sent to the terminal corresponding to the other sub-work orders, so that the terminal corresponding to the other sub-work orders can perform subsequent operation according to the test result. When the to-be-executed process in other work orders which need to depend on the test result is determined, the test result can be automatically forwarded to the terminal corresponding to the other work orders, so that test operators corresponding to the other work orders can confirm the test result without the help of telephones, instant messaging tools and the like, and the communication efficiency among the test operators in different areas is improved.

In an embodiment, as shown in fig. 5, the step of sending each sub-work order to the terminal corresponding to the corresponding execution area for execution includes:

s302, when a sub work order downloading request sent by a terminal is received, a communication identifier for sending the sub work order downloading request is determined.

S304, acquiring the dependency relationship between the communication identification and the execution area.

S306, judging whether the terminal corresponding to the communication identifier has the downloading authority for downloading the sub-work order corresponding to the sub-work order identifier or not based on the dependency relationship.

And S308, when the terminal has the download right, issuing the sub work sheet corresponding to the sub work sheet identifier to the terminal corresponding to the communication identifier.

In this embodiment, before the terminal sends the sub work order downloading request, the test operation manager may set the downloading permission of each terminal, and limit the sub work orders in the execution area that can be downloaded by the terminal. For example, the test operation manager may set that the first terminal can only download the sub-work order with the execution area a, and set that the second terminal can only download the sub-work order with the execution area b. And the server correspondingly stores the communication identifier of the terminal and the execution area according to the setting operation of the experiment operation manager. When a sub-work order downloading request sent by a first terminal is received, the server determines a communication identifier of the first terminal, extracts a sub-work order identifier from the sub-work order downloading request, and determines a corresponding sub-work order based on the sub-work order identifier.

The server extracts the execution area from the sub-work order, judges whether the first terminal has the downloading authority for downloading the sub-work order corresponding to the sub-work order identification or not based on the incidence relation between the communication identification and the execution area, and issues the sub-work order corresponding to the sub-work order identification to the terminal corresponding to the communication identification when the first terminal has the downloading authority.

In this embodiment, by determining whether the corresponding terminal has the download right to download the sub-job ticket, and only issuing the sub-job ticket to the corresponding terminal when the corresponding terminal has the download right, the probability that the terminal mistakenly pulls the sub-job ticket exceeding the corresponding right can be reduced, thereby greatly improving the safety of issuing the sub-job ticket.

In one embodiment, the method for sending the process test result further includes: when a prompt message for starting execution of a to-be-executed process in a corresponding work order returned by a terminal is received, determining whether to-be-executed processes in other work orders which need to depend on a test result of the to-be-executed process exist; and if so, sending the start execution prompt message to terminals corresponding to other sub-work orders.

Specifically, the first terminal monitors input information of an operator in the APP, and judges whether a current process to be executed starts to be executed or not based on the input information. When the current procedure to be executed starts to be executed, the first mobile terminal generates a prompt message for starting execution based on the procedure identification and the test identification, and sends the prompt message for starting execution to the server. The server inquires the corresponding work order based on the test identification in the start execution prompt message, inquires in the work order based on the process identification whether the to-be-executed process in other sub-work orders which need to depend on the test result of the current to-be-executed process exists, namely, inquires in the work order whether the process identification which needs to depend on the process which depends on the test result of the current to-be-executed process exists. When a dependent process needing to depend on the test result of the current process to be executed exists, the server determines a sub-work order where the dependent process is located according to the process identification of the dependent process, determines a communication identification of a second terminal downloading the sub-work order, and then sends a starting execution prompt message to a terminal corresponding to the communication identification, so that an operator of the dependent process can start preparation work of a next process after seeing the prompt message.

In another embodiment, the first mobile terminal extracts a process identification of a current process to be executed and a test identification of a periodic test to which the current process to be executed belongs, generates a query instruction based on the process identification and the test identification, and then sends the query instruction to the server. And the server inquires whether a process identification of a dependent process needing to depend on the test result of the current process to be executed exists in the work order according to the inquiry instruction. When a dependent process needing to depend on the test result of the current process to be executed exists, the server determines the sub-work order where the dependent process is located, determines the communication identification of a second terminal downloading the sub-work order, and returns the terminal identification of the second terminal to the first terminal, so that the first terminal sends the prompt message to the second terminal.

In this embodiment, when the to-be-executed process starts to be executed, the start-execution prompt message is sent to the terminal corresponding to the dependent process, so that after an operator in the dependent process sees the prompt message, the operator in the dependent process can start the preparation work of the next process, thereby improving the test efficiency of the periodic test.

In one embodiment, when receiving a prompt message for starting execution of one to-be-executed process in a corresponding work order returned by a terminal, determining whether to have the to-be-executed process in another work order which needs to depend on a test result of the executed process includes: determining the sub-work order identification of the sub-work order in which each to-be-executed work procedure is located in the work order; determining the dependency relationship among the sub-work orders based on the sub-work order identification; and determining whether the to-be-executed process in other sub-work orders which need to depend on the test result of the to-be-executed process exists according to the dependency relationship among the sub-work orders.

Specifically, when the server receives the prompt message for starting execution, the server extracts the test identifier from the prompt message for starting execution, and determines the corresponding work order according to the test identifier. The server judges that the work order is divided into two or more than two sub-work orders, if so, the sub-work orders are considered to have an association relation, the processes to be executed in the sub-work orders possibly have a dependency relation, so that the subsequent server can determine the communication identification of the terminal downloading the sub-work orders and the target communication identification of the terminal sending the start execution prompting message, and forwards the start execution prompting message to the terminals except the terminal corresponding to the target communication identification based on the communication identification.

In this embodiment, when one work order is divided into a plurality of sub work orders, the to-be-executed processes in each sub work order may have a dependency relationship, and therefore, by judging whether the work order in which the current to-be-executed process corresponding to the start-to-be-executed prompt message is located is divided into a plurality of sub work orders when the start-to-be-executed prompt message is received, the start-to-be-executed prompt message can be quickly forwarded to other terminals when the work order is divided into a plurality of sub work orders, so that the efficiency of sending the work order message is improved.

In one embodiment, when a test result of one to-be-executed process in a corresponding sub-work order returned by a terminal is received, determining whether to have the to-be-executed process in other sub-work orders which need to depend on the test result includes: determining the dependency relationship among the test results of each to-be-executed procedure based on the work order; and determining whether the to-be-executed working procedures in other sub-work orders needing to depend on the test results exist or not based on the dependency relationship among the test results.

Specifically, the work order has a dependency relationship between the test results. The first terminal monitors input operation of an operator, when the operator is determined to input a test result in the result input box and clicks the confirmation key, the current process to be executed can be considered to be completed, at the moment, the first terminal extracts the test result from the input box, generates a process completion message based on the test identifier and the test result, and then sends the process completion message to the server. The server receives the procedure completion message, extracts the test identification and the test result from the procedure completion message, determines a corresponding work order based on the test identification, and determines a procedure identification dependent on the test result of the current procedure to be executed from the work order based on the test result. The server determines the sub-work order where the dependent process is located according to the process identification, determines the communication identification of the terminal downloading the dependent process, namely the server determines the communication identification of the second mobile terminal according to the test result, and sends the test result of the current process to be executed to the second mobile terminal based on the communication identification.

In this embodiment, the dependency relationship between the test results is determined, so that the test result of the current process to be executed can be automatically sent to the corresponding terminal, and the corresponding terminal can perform subsequent operations according to the test result.

In one embodiment, if yes, sending the test result to the terminal corresponding to the other sub-worksheets includes: determining a process identification of a to-be-executed process which needs to depend on a test result; determining the sub-work order identification of the sub-work order where the to-be-executed work procedure needs to depend on the test result according to the procedure identification; inquiring the communication identification of the mobile terminal receiving the sub work order according to the sub work order identification; and sending the test result to the corresponding terminal based on the communication identifier.

Specifically, the server determines a procedure identifier of a dependent procedure which needs to depend on a test result of a current procedure to be executed according to the dependency relationship among the procedures, and determines a sub-work order identifier of a sub-work order where the dependent procedure is located according to the procedure identifier. When the server distributes the sub-work orders to each terminal, the server correspondingly stores the communication identification of each terminal and the sub-work order identification, so that the server inquires and receives the communication identification of the terminal corresponding to the sub-work order based on the sub-work order identification, and sends the test result of the current to-be-executed process to the corresponding terminal based on the inquired communication identification.

In this embodiment, by determining the process identifier of the to-be-executed process that needs to depend on the test result, the sub-work order identifier of the corresponding sub-work order may be queried based on the process identifier; through confirming the terminal of downloading the sub work order that corresponds, can send the test result to corresponding terminal to make the test operation personnel in different regions can obtain the test result automatically, and need not to confirm the test result based on manual operation again, and then promoted the efficiency that the process test result was sent.

In one embodiment, the sending the test result to the corresponding terminal based on the communication identifier comprises: and sending the test result to the corresponding terminal based on the communication identifier so that the corresponding terminal unlocks the test result input box according to the test result.

Specifically, in order to improve the accuracy of the operation sequence between the dependent processes, the server may determine the execution sequence of each process based on the process identifier in the work order, and lock the test result input box in the terminal corresponding to the subsequent process before the previous process of the two dependent processes having the dependency relationship is completely executed. For example, before a message that a previous process having a dependency relationship is executed is not received, the result input box is set to a read-only state, so that the test operator is prohibited from inputting the test result of a subsequent process having a dependency relationship. For another example, the result input box is set to an unavailable state, so that the operator is prohibited from inputting the execution result of the subsequent process having the dependency relationship. When the second mobile terminal receives the test result of the previous process with the dependency relationship forwarded by the server, the second mobile terminal sets the input box to be in a readable and writable state or an available state, so that the test operator can write the test result into the input box after the test of the next process with the dependency relationship is finished.

In the embodiment, the accuracy of the operation sequence among the working procedures with the dependency relationship can be improved by locking the test result input box, so that the accuracy of the periodic test is improved.

It should be understood that although the steps in the flowcharts of fig. 2 and 5 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 2 and 5 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or alternately with other steps or at least some of the other steps or stages.

In one embodiment, as shown in fig. 6, there is provided a process test result transmitting apparatus 600 including: a work order obtaining module 602, a work order sending module 604, and a test result sending module 606, wherein:

a sub work order obtaining module 602, configured to obtain a work order including a plurality of to-be-executed processes; and dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process.

And a sub-work-order sending module 604, configured to send each sub-work-order to a terminal corresponding to the corresponding execution area for execution.

The test result sending module 606 is configured to determine whether to have a to-be-executed process in another sub-work order that needs to depend on a test result when receiving the test result of one to-be-executed process in the corresponding sub-work order returned by the terminal; and if so, sending the test result to the terminal corresponding to the other sub-worksheets.

In an embodiment, as shown in fig. 7, the sub-work-order sending module 604 further includes an authority verification module 6041, configured to determine, when receiving a sub-work-order downloading request sent by a terminal, a communication identifier for sending the sub-work-order downloading request; the sub work order downloading request comprises a sub work order mark; acquiring a dependency relationship between a communication identifier and an execution area; judging whether the terminal corresponding to the communication identifier has the downloading authority for downloading the sub-work order corresponding to the sub-work order identifier or not based on the dependency relationship; and when the terminal has the download right, issuing the sub work sheet corresponding to the sub work sheet identifier to the terminal corresponding to the communication identifier.

In an embodiment, the process test result sending apparatus 600 is further configured to determine whether there is a to-be-executed process in another sub-work order that needs to depend on the test result of the to-be-executed process when receiving a prompt message for starting execution of one to-be-executed process in the corresponding sub-work order returned by the terminal; and if so, sending the start execution prompt message to terminals corresponding to other sub-work orders.

In one embodiment, the process test result sending device 600 is further configured to determine a sub-work order identifier of a sub-work order in which each to-be-executed process is located in the work order; determining the dependency relationship among the sub-work orders based on the sub-work order identification; and determining whether the to-be-executed process in other sub-work orders which need to depend on the test result of the to-be-executed process exists according to the dependency relationship among the sub-work orders.

In one embodiment, the test result sending module 606 further includes a dependency relationship determining module 6061, configured to determine, based on the work order, a dependency relationship between test results of the to-be-executed processes; and determining whether the to-be-executed working procedures in other sub-work orders needing to depend on the test results exist or not based on the dependency relationship among the test results.

In one embodiment, the test result sending 606 further includes a communication identifier determining module 6062 configured to determine a process identifier of a process to be performed that needs to depend on the test result; determining the sub-work order identification of the sub-work order where the to-be-executed work procedure needs to depend on the test result according to the procedure identification; inquiring the communication identification of the mobile terminal receiving the sub work order according to the sub work order identification; and sending the test result to the corresponding terminal based on the communication identifier.

In one embodiment, the communication identifier determining module 6062 is further configured to send the test result to the corresponding terminal based on the communication identifier, so that the corresponding terminal unlocks the test result input box according to the test result.

For specific limitations of the process test result transmitting device, reference may be made to the above limitations of the process test result transmitting method, which are not described herein again. All or part of each module in the process test result transmitting device can be realized by software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, and its internal structure diagram may be as shown in fig. 8. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer equipment is used for storing process test result sending data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a process test result transmission method.

Those skilled in the art will appreciate that the architecture shown in fig. 8 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory and a processor, the memory having a computer program stored therein, the processor implementing the following steps when executing the computer program:

acquiring a work order containing a plurality of to-be-executed working procedures;

dividing the work order into at least one sub-work order according to an execution area corresponding to the process to be executed;

each sub-work order is sent to a terminal corresponding to a corresponding execution area to be executed;

when a test result of one to-be-executed process in the corresponding sub-work order returned by the terminal is received, determining whether to-be-executed processes in other sub-work orders which need to depend on the test result exist;

and if so, sending the test result to the terminal corresponding to the other sub-worksheets.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when a sub work order downloading request sent by a terminal is received, determining a communication identifier for sending the sub work order downloading request; the sub work order downloading request comprises a sub work order mark;

acquiring a dependency relationship between a communication identifier and an execution area;

judging whether the terminal corresponding to the communication identifier has the downloading authority for downloading the sub-work order corresponding to the sub-work order identifier or not based on the dependency relationship;

and when the terminal has the download right, issuing the sub work sheet corresponding to the sub work sheet identifier to the terminal corresponding to the communication identifier.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

when a prompt message for starting execution of a to-be-executed process in a corresponding work order returned by a terminal is received, determining whether to-be-executed processes in other work orders which need to depend on a test result of the to-be-executed process exist;

and if so, sending the start execution prompt message to terminals corresponding to other sub-work orders.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

determining the sub-work order identification of the sub-work order in which each to-be-executed work procedure is located in the work order;

determining the dependency relationship among the sub-work orders based on the sub-work order identification;

and determining whether the to-be-executed process in other sub-work orders which need to depend on the test result of the to-be-executed process exists according to the dependency relationship among the sub-work orders.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

determining the dependency relationship among the test results of each to-be-executed procedure based on the work order;

and determining whether the to-be-executed working procedures in other sub-work orders needing to depend on the test results exist or not based on the dependency relationship among the test results.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

determining a process identification of a to-be-executed process which needs to depend on a test result;

determining the sub-work order identification of the sub-work order where the to-be-executed work procedure needs to depend on the test result according to the procedure identification;

inquiring the communication identification of the mobile terminal receiving the sub work order according to the sub work order identification;

and sending the test result to the corresponding terminal based on the communication identifier.

In one embodiment, the processor, when executing the computer program, further performs the steps of:

and sending the test result to the corresponding terminal based on the communication identifier so that the corresponding terminal unlocks the test result input box according to the test result.

In one embodiment, a computer-readable storage medium is provided, having a computer program stored thereon, which when executed by a processor, performs the steps of:

acquiring a work order containing a plurality of to-be-executed working procedures;

dividing the work order into at least one sub-work order according to an execution area corresponding to the process to be executed;

each sub-work order is sent to a terminal corresponding to a corresponding execution area to be executed;

when a test result of one to-be-executed process in the corresponding sub-work order returned by the terminal is received, determining whether to-be-executed processes in other sub-work orders which need to depend on the test result exist;

and if so, sending the test result to the terminal corresponding to the other sub-worksheets.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when a sub work order downloading request sent by a terminal is received, determining a communication identifier for sending the sub work order downloading request; the sub work order downloading request comprises a sub work order mark;

acquiring a dependency relationship between a communication identifier and an execution area;

judging whether the terminal corresponding to the communication identifier has the downloading authority for downloading the sub-work order corresponding to the sub-work order identifier or not based on the dependency relationship;

and when the terminal has the download right, issuing the sub work sheet corresponding to the sub work sheet identifier to the terminal corresponding to the communication identifier.

In one embodiment, the computer program when executed by the processor further performs the steps of:

when a prompt message for starting execution of a to-be-executed process in a corresponding work order returned by a terminal is received, determining whether to-be-executed processes in other work orders which need to depend on a test result of the to-be-executed process exist;

and if so, sending the start execution prompt message to terminals corresponding to other sub-work orders.

In one embodiment, the computer program when executed by the processor further performs the steps of:

determining the sub-work order identification of the sub-work order in which each to-be-executed work procedure is located in the work order;

determining the dependency relationship among the sub-work orders based on the sub-work order identification;

and determining whether the to-be-executed process in other sub-work orders which need to depend on the test result of the to-be-executed process exists according to the dependency relationship among the sub-work orders.

In one embodiment, the computer program when executed by the processor further performs the steps of:

determining the dependency relationship among the test results of each to-be-executed procedure based on the work order;

and determining whether the to-be-executed working procedures in other sub-work orders needing to depend on the test results exist or not based on the dependency relationship among the test results.

In one embodiment, the computer program when executed by the processor further performs the steps of:

determining a process identification of a to-be-executed process which needs to depend on a test result;

determining the sub-work order identification of the sub-work order where the to-be-executed work procedure needs to depend on the test result according to the procedure identification;

inquiring the communication identification of the mobile terminal receiving the sub work order according to the sub work order identification;

and sending the test result to the corresponding terminal based on the communication identifier.

In one embodiment, the computer program when executed by the processor further performs the steps of:

and sending the test result to the corresponding terminal based on the communication identifier so that the corresponding terminal unlocks the test result input box according to the test result.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A method for transmitting a process test result, the method comprising:

acquiring a work order containing a plurality of to-be-executed working procedures;

dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process;

each sub-work order is sent to a terminal corresponding to a corresponding execution area to be executed;

when a test result of one to-be-executed process in a corresponding sub-work order returned by a terminal is received, determining whether to-be-executed processes in other sub-work orders needing to depend on the test result exist;

and if so, sending the test result to the terminal corresponding to the other sub-work orders.

2. The method according to claim 1, wherein the sending each sub-work order to the terminal corresponding to the corresponding execution area for execution comprises:

when a sub work order downloading request sent by a terminal is received, determining a communication identifier for sending the sub work order downloading request; the sub work order downloading request comprises a sub work order mark;

acquiring a dependency relationship between a communication identifier and an execution area;

judging whether the terminal corresponding to the communication identifier has the downloading authority for downloading the sub-work order corresponding to the sub-work order identifier or not based on the dependency relationship;

and when the terminal has the download right, issuing the sub work sheet corresponding to the sub work sheet identifier to the terminal corresponding to the communication identifier.

3. The method of claim 1, further comprising:

when a prompt message for starting execution of a to-be-executed process in a corresponding work order returned by a terminal is received, determining whether to-be-executed processes in other work orders which need to depend on the test result of the to-be-executed process exist;

and if so, sending the starting execution prompt message to the terminals corresponding to the other sub-work orders.

4. The method according to claim 3, wherein the determining whether the to-be-executed process in the other sub-work orders which need to depend on the test result of the to-be-executed process exists or not when receiving the prompt message for starting execution of the to-be-executed process in the corresponding sub-work order returned by the terminal comprises the following steps:

determining the sub-work order identification of the sub-work order in which each to-be-executed work procedure is located in the work order;

determining the dependency relationship among the sub-work orders based on the sub-work order identification;

and determining whether the to-be-executed process in other sub-work orders which need to depend on the test result of the to-be-executed process exists according to the dependency relationship among the sub-work orders.

5. The method according to claim 1, wherein the determining whether the to-be-executed process in the other sub-work orders which need to depend on the test result exists when the test result of one to-be-executed process in the corresponding sub-work order returned by the terminal is received comprises:

determining the dependency relationship among the test results of the to-be-executed working procedures based on the work order;

and determining whether the to-be-executed working procedures in other sub-work orders needing to depend on the test results exist or not based on the dependency relationship among the test results.

6. The method of claim 1, wherein if the test result is sent to the terminal corresponding to the other sub-worksheets, the sending the test result to the terminal corresponding to the other sub-worksheets comprises:

determining a process identification of a to-be-executed process which needs to depend on the test result;

determining the sub-work order identification of the sub-work order where the to-be-executed work procedure needs to depend on the test result according to the procedure identification;

inquiring the communication identification of the terminal receiving the sub work order according to the sub work order identification;

and sending the test result to a corresponding terminal based on the communication identifier.

7. The method of claim 6, wherein the sending the test result to the corresponding terminal based on the communication identifier comprises:

and sending the test result to a corresponding terminal based on the communication identifier so that the corresponding terminal unlocks the test result input box according to the test result.

8. A process test result transmitting apparatus, comprising:

the sub-work order acquisition module is used for acquiring a work order containing a plurality of to-be-executed processes; dividing the work order into at least one sub-work order according to the execution area corresponding to the to-be-executed process;

the sub-work order sending module is used for sending each sub-work order to a terminal corresponding to the corresponding execution area for execution;

the test result sending module is used for determining whether the to-be-executed process in other sub-work orders which need to depend on the test result exists or not when the test result of the to-be-executed process in the corresponding sub-work order returned by the terminal is received; and if so, sending the test result to the terminal corresponding to the other sub-work orders.

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

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

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