JP7212238B2 - Information processing device, its control method and program - Google Patents

Description

The present invention relates to an information processing apparatus, a control method thereof, and a program for building an application.

Conventionally, there are tools and services that build (generate) applications based on set definitions. Even applications built using such tools and services may behave unexpectedly due to mistakes in application definition settings, so the testing process cannot be omitted. Also, as the scale of the application increases, the number of test processes tends to increase.

Patent Literature 1 discloses a mechanism for generating a test program based on registered test cases.

JP 2010-237841 A

However, with the technique described in Patent Literature 1, there is a possibility that the operation for selecting test cases for each purpose becomes complicated in the test process of a large-scale application. Therefore, there has been a demand for a mechanism for easily selecting target test cases when building an application.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a mechanism for easily selecting test cases.

In order to achieve the above object, the information processing system of the present invention includes:
receiving means for receiving an operation of selecting one of a plurality of types of definition information for constructing an application;
display control means for controlling display of a list of test cases including test procedures related to the type of definition information selected by the operation received by the receiving means;
control means for controlling execution of a test related to the application based on a test case group including a plurality of test cases selected from the list;
characterized by comprising

According to the present invention, it is possible to provide a mechanism for easily setting test cases.

1 is an example of a configuration diagram of a system according to an embodiment of the present invention; FIG. It is a block diagram showing an example of each hardware configuration applicable as an information processor, an application server, a database server, and an application client. It is an example of a block diagram showing a software configuration. 1 is an example of a configuration diagram of a system according to an embodiment of the present invention; FIG. FIG. 10 is a diagram showing an example of a flow chart of application generation; 4A and 4B are diagrams illustrating an example of an application input/output definition screen and an application execution screen; FIG. It is a figure which shows an example of the flowchart of test case definition generation. It is a figure which shows an example of the flowchart of test execution. It is a figure which shows an example of the flowchart of test execution. It is a figure which shows an example of the flowchart of test execution. It is a figure which shows an example of a test case creation menu. It is a figure which shows an example of a test case procedure input screen. It is a figure which shows an example of a test case creation screen. It is a figure which shows an example of a test execution screen. It is a figure which shows an example of a test result screen. It is a figure which shows an example of test case definition information. It is a figure shown as an example of the flowchart of test suite definition preparation. It is a figure which shows an example of a test suite preparation menu screen. It is a figure which shows an example of the flowchart of test suite execution. It is a figure which shows an example of a test suite setting screen. It is a figure which shows an example of a test suite setting screen.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is an example of a configuration diagram of a system according to one embodiment of the present invention.

The information processing apparatus 101 defines a screen layout, a database search instruction, and the like according to a developer's operation. The information processing apparatus 101 generates an application program.

Note that in this embodiment, the application generated by the information processing apparatus 101 is a web application, but the present invention is not limited to this. , may not be an application that utilizes communication by Web technology.

Further, in the present embodiment, the information processing apparatus 101 generates an application program, but the method is not limited to this method. Alternatively, an application (operating environment) may be constructed by generating data, files, or the like in the same way.

The application server 102 executes applications generated and arranged by the information processing apparatus 101 . The application server 102 can also connect to the database server 103 and manipulate data in the database.

The database server 103 is a database used by the generated application. It may also be used during development to confirm operations. Also, the database server 103 may be configured by the same device as the information processing device 101 and the application server 102, or may be arranged in a network 105 such as a LAN.

The application client 104 is an end-user operation terminal that operates an application program developed by the information processing apparatus 101 in cooperation with the application server 102 . This application client 104 may be an information processing device such as a mobile terminal.

A cloud environment 106 is an environment capable of providing dynamically scalable and virtualized resources.

A virtual application server 107 in the cloud environment 106 executes applications generated and arranged in the information processing apparatus 101 . The virtual application server 107 can also connect to the virtual database server 108 and manipulate database data.

A virtual database server 108 in the cloud environment 106 is the database utilized by the generated application. Note that the virtual database server 108 may also be used for operation confirmation during development. Although the cloud environment 106 is an environment capable of supplying dynamically scalable and virtualized resources, this embodiment does not need to have this feature, and the cloud environment 106 As long as it provides the operations of the virtual application server 107 and the virtual database server 108, it does not have to be dynamically scalable and cannot supply virtualized resources.

FIG. 2 is a block diagram showing an example of each hardware configuration applicable as the information processing apparatus 101, the application server 102, the database server 103, and the application client 104. As shown in FIG.

In FIG. 2, a CPU 201 centrally controls each device connected to a system bus 204 .

The ROM 203 or the external memory 211 also stores an operating system (OS), which is a control program for the CPU 201, and programs for realizing various functions of information processing apparatuses such as servers, clients, and apparatuses, which will be described later.

A RAM 202 functions as a main memory, a work area, a temporary save area, and the like for the CPU 201 .

The input controller 205 controls input from the input unit 209 . Examples of the input unit 209 include a keyboard, a pointing device such as a mouse, and a touch panel in the information processing apparatus.

If the input unit 209 is a touch panel, the user can give various instructions by pressing (touching with a finger or the like) an icon, cursor, or button displayed on the touch panel.

Also, the touch panel may be a touch panel, such as a multi-touch screen, capable of detecting positions touched by a plurality of fingers.

The output controller 206 controls the display of the output section 210 . Examples of the output unit 210 include a CRT, a liquid crystal display, and the like. It should be noted that the display of the notebook computer integrated with the main body is also included. Also, it may be a projector.

An external memory controller 207 controls access to an external memory 211 that stores boot programs, various applications, font data, user files, edit files, printer drivers, and the like. The external memory 211 stores various tables and parameters for realizing various functions of each server, client, device, and the like. Examples of the external memory 211 include a hard disk (HD), flexible disk (FD), compact flash (registered trademark) connected to a PCMCIA card slot via an adapter, smart media, and the like.

It should be noted that the CPU 201 enables display on the output unit 210 by executing outline font expansion (rasterization) processing to a display information area in the RAM 202, for example. The CPU 201 also allows the user to issue instructions with a mouse cursor (not shown) or the like on the output unit 210 .

A communication I/F controller 208 executes communication control processing with external devices via a network. For example, communication using TCP/IP is possible.

A program 212 for realizing the embodiment of the present invention is recorded in the external memory 211 and is executed by the CPU 201 by being loaded into the RAM 202 as necessary.

FIG. 3 is an example of a block diagram showing the software configuration of the embodiment of the present invention.

The information processing apparatus 101 includes the following functional units.

The definition information acquisition unit 301 is a functional unit that acquires definition information for constructing an application. Here, the definition information includes application definition 402, input/output definition 403, data model definition 404, business process definition 405, and database definition 406 (see FIG. 4) set in repository definition section 401. FIG.

The test execution unit 302 is a functional unit that executes tests related to applications based on test cases generated using definition information acquired by the definition information acquisition unit 301 . Also, the test execution unit 302 is a functional unit that executes a test related to an application based on a test suite generated by selecting a plurality of test cases. In other words, the test execution unit 302 is a functional unit that tests whether the definition information is defined correctly based on the test case generated using the definition information acquired by the definition information acquisition unit 301. It can also be said. Also, the test execution unit 302 is a functional unit that executes a test using information received by the information reception unit 303 .

The information reception unit 303 is a functional unit that receives information used for the test executed by the test execution unit 302 . As one aspect, the information accepting unit 303 accepts selection of various types of information that are selectably displayed on the output unit 210 by the display control unit 310 . Specifically, the information receiving unit 303 receives selection of test cases to be used for testing. The information reception unit 303 also receives selection of test cases to be set in the test suite used for the test. Furthermore, the information receiving unit 303 receives the start of the test related to the application based on the set test case or test suite. In this embodiment, the information receiving unit 303 receives whether or not the execution button 2005 in FIG. 20 has been selected. In other words, it can be said that the information receiving unit 303 has a function of receiving the start of the test (test start receiving unit).

The test case definition reception unit 304 is a functional unit that receives definitions of test cases.

The test case generation unit 305 is a functional unit that generates test cases based on the definitions received by the test case definition reception unit 304 . The test case generation unit 305 is a functional unit that generates test cases including substituting values received by the substitution value input receiving unit 306 for items. The test case generating unit 305 is a functional unit that generates a test case including comparing the value received by the expected value input receiving unit 307 and the value of the item.

The substitution value input reception unit 306 is a functional unit that receives input of values to be substituted for items included in the definition information acquired by the definition information acquisition unit 301 .

The expected value input reception unit 307 is a functional unit that receives input of values expected to be possessed by items included in the definition information acquired by the definition information acquisition unit 301 .

The test success/failure determination unit 308 is a functional unit that determines the success/failure of the test executed by the test execution unit 302 based on the result of comparing the value received by the expected value input reception unit 307 and the value of the item.

The application construction control unit 309 is a functional unit that controls whether or not to build an application according to the result of the test performed by the test success/failure determination unit 308 .

The display control unit 310 is a functional unit that controls the content displayed on the output unit 210 (for example, the display on the screen of the display). In this embodiment, the display control unit 310 controls the display of each screen related to generation to execution of test cases and test suites such as FIGS. do. In other words, the display control unit 310 has a function of displaying a screen generated by each editor unit described with reference to FIG. Further, when performing a test using a test suite, the display control unit 310 controls to selectably display a test case corresponding to a predetermined condition among the plurality of test cases generated by the test suite generation unit 311. do. Here, the predetermined condition is a condition for narrowing down the display contents of the test cases selected by the user, and is, for example, a condition determined based on the definition information unit or the generated date and time. Specific processing will be described later with reference to FIGS. 17 to 21. FIG.

A test suite generation unit 311 is a functional unit that generates a test suite. The test suite generation unit 311 also has a function of setting the test cases generated by the test case generation unit 305 to a test suite in accordance with user's operation. A test suite is a file with one or more test cases as a unit. A test suite can collectively manage a plurality of test cases set for different purposes. Therefore, even when building a large-scale application, the user can easily manage the contents of the test by generating a test suite for each purpose.

This completes the description of FIG.

FIG. 4 is a configuration diagram of the information processing apparatus 101, the application server 102, and the application client 104. As shown in FIG.

The information processing apparatus 101 includes a repository definition section 401 and an application generation section 410 .

The information processing apparatus 101 generates an application by the application generation unit 410 using each definition of the repository definition unit 401 set by the developer who develops the application.

An application definition 402 , an input/output definition 403 , a data model definition 404 , a business process definition 405 and a database definition 406 are stored in the repository definition section 401 . These 402-406 definitions are input or placed by the developer through the application building tool. Further, the repository definition part 401 stores a test case definition 407, preview data 408, and a test suite definition 409. FIG.

The input/output definition 403 holds definition information of the layout of various items arranged on the application screen. The input/output definition 403 includes input item definition information and output item definition information. The input item definition information is information that defines input items to be input by the end user of the application through the screen of the generated application. The output item definition information is information defining output items to be output to the screen of the generated application. Hereinafter, "input item definition information" and "output item definition information" are collectively referred to as "input/output item definition information".

In the present embodiment, "input item definition information is information defining input items to be input by the end user of the application through the screen of the generated application", and "output item definition information is the generated application "Information that defines output items to be output to the screen", but it is not limited to these. Information defining input items to be input to the application" and "output item definition information may be information defining output items output by the generated application".

The data model definition 404 holds definition information of items in the database table. Each item of the input/output definition 403 can be associated with an item of the data model definition 404 .

The business process definition 405 holds logic definition information for processing data in the application.

The database definition 406 defines information (IP address of the database server 103, connection user, connection password, etc.) related to the database to which the application connects.

The test case definition 407 holds test case definition information.

The preview data 408 holds data for previewing the repository definition part 401 .

The test suite definition 409 holds definition information of the test suite.

The application generation unit 410 analyzes each definition stored in the repository definition unit 401 using the repository definition analysis unit 411 for application generation, and outputs the compiled Java code via the application code generation unit 412 and the source code compilation unit 413. Generate an application containing ® code 441 and HTML/JSP/Javascript ® 442 . That is, the application generation unit 410 is an example of means for generating a program used as an application using the set definition.

The repository definition editor section 420 analyzes the repository definition section 401 using the repository definition reference section 421 . The other repository definition editor unit 422 accepts editing of repository definitions other than the test case definition 407 and test suite definition 409 (that is, other repository definitions).

The test case definition editor section 460 has a test case definition reference section 461 , a target screen input section 462 , a value input section 463 , an action input section 464 , a target item input section 465 and an expected value input section 466 . A test case definition 407 is created by saving the values input from each input section.

The test suite definition editor unit 470 includes a test case definition selection unit 471, an input/output definition selection unit 472, a business process definition selection unit 473, a data model definition selection unit 474, a related test case extraction unit 475, and a definition file It has a modified time condition part 476 and a selected test case definition 477 . The test suite definition editor section 470 creates and edits the test suite definition 409 based on values selected or extracted from these sections.

The test case definition selection unit 471 receives selection of a test case definition 407 included in the repository definition unit 401 and displayed so as to be selectable according to a predetermined condition.

The input/output definition selection unit 472 receives selection of the input/output definition 403 included in the repository definition unit 401 and displayed so as to be selectable according to a predetermined condition.

The business process definition selection section 473 accepts selection of the business process definition 405 included in the repository definition section 401 and displayed so as to be selectable according to a predetermined condition.

The data model definition selection unit 474 receives selection of the data model definition 404 included in the repository definition unit 401 and displayed so as to be selectable according to a predetermined condition.

The related test case extractor 475 extracts test cases that refer to the definitions selected by the input/output definition selector 472 , business process definition selector 473 , and data model definition selector 474 .

The definition file change time condition part 476 extracts the change time of the definition file as a condition when the related test case extraction part 475 extracts the test case definition 407 .

Selected test case definitions 477 are saved in test suite definition 409 as test cases included in the test suite.

The test execution unit 430 acquires the test case definition 407 by the test case definition reception unit 431 and analyzes the contents using the test case definition interpretation unit 433 . The test execution unit (interpreter) 434 uses the test case definition interpretation unit 433 to test execute the application code from the application code access unit 436 .

A test execution unit (interpreter) 434 uses a test execution preparation unit to perform test preprocessing based on the contents interpreted by the test case definition interpretation unit 433, and uses an application code access unit 436 to perform test execution of the application code. .

When all the tests are completed, the test execution unit (interpreter) 435 uses the test end processing unit 437 to perform test end processing.

Finally, the test result acquisition unit 435 is used to acquire the test execution result and display it on the test result display unit 438 .

This completes the description of FIG.

FIG. 5 is a diagram illustrating an example of a flow chart for application generation.

The information processing apparatus 101 manages each definition of the repository definition section 401 as a file using a directory structure. In this embodiment, each definition of the repository definition part 401 is managed as a file using a directory structure. may be managed, or managed using a storage device on a network such as the cloud.

A flow chart for application generation will be described.

In step S<b>501 , the information processing apparatus 101 receives setting of the application definition 402 . Specifically, settings of the input/output definition 403, the data model definition 404, the business process definition 405, and the database definition 406 are accepted from the application developer through the screen of the application construction tool.

In step S501, the received settings of the application definition 402, input/output definition 403, data model definition 404, business process definition 405 and database definition 406 are stored in the repository definition section 401 in XML file format.

In step S502, the information processing apparatus 101 receives an application generation instruction.

In step S<b>503 , the information processing apparatus 101 acquires the application definition 402 from the repository definition unit 401 . The repository definition analysis unit 411 analyzes the read definitions and stores them in the ROM 203, and the analyzed definitions are appropriately referred to by each generation unit.

In step S<b>504 , the information processing apparatus 101 acquires the data model definition 404 from the repository definition unit 401 .

In step S<b>505 , the information processing apparatus 101 acquires the input/output definition 403 from the repository definition unit 401 .

In step S<b>506 , the information processing apparatus 101 acquires the business process definition 405 from the repository definition unit 401 .

In step S<b>507 , the information processing apparatus 101 acquires the database definition 406 from the repository definition unit 401 . That is, steps S501 to S507 are steps showing an example of processing for acquiring definition information for building an application.

In step S<b>508 , the information processing apparatus 101 uses the application generation unit 410 to generate a program used for the web application. That is, step S508 is a step showing an example of processing for generating an application program. Further, step S508 is a step showing an example of processing for constructing an application.

In step S509, the information processing apparatus 101 generates a test case definition (details will be described later with reference to FIG. 7). That is, step S509 is a step showing an example of processing for generating a test case using the acquired definition information. Further, step S509 is a step showing an example of processing for generating a test case based on the received definition.

In step S510, the information processing apparatus 101 executes a test using the test case definition generated in step S509 (details will be described later with reference to FIG. 8). That is, step S510 is a step showing an example of processing for executing a test related to an application based on a test case generated using definition information. Also, step S510 is a step showing an example of processing for executing a test to determine whether the definition information is defined correctly based on the test case generated using the definition information.

At this stage, the application is not placed (deployed) on the application server 102, so the test can be executed without preparing the application server 102 as described above.

In addition, as described above, since the test can be executed without generating an application archive file, transferring it to the application server 102, and deploying it, the time required for testing can be reduced, and development and testing can be performed seamlessly. It can be repeated many times.

Further, as described above, since the application running on the application server 102 can be tested only by the information processing apparatus 101, a plurality of developers can concurrently perform the tests.

In step S511, the information processing apparatus 101 determines whether or not there is a failed test case in the test executed in step S510. That is, step S511 is a step showing an example of processing for controlling whether or not to build an application according to the test result.

In step S<b>512 , the information processing apparatus 101 deploys the program generated in step S<b>508 to the application server 102 .

As a result, it is possible to provide a mechanism for building an application in a server without failure tests. Therefore, if the test takes a long time, the test can be executed at night, and if the test succeeds, it can be deployed to the application server 102 continuously, saving the application manager and operator the trouble. be able to.

In addition, applications with failed tests will not be built on the server, so applications containing defects will not be released, and applications will not output inconsistent data. It is possible to operate highly flexible applications.

This completes the description of FIG.

As described above, processing such as application program generation, test execution, and deployment can be performed with one instruction. Therefore, it is possible to provide a mechanism for efficiently performing tests in the application building tool.

FIG. 6 is a diagram showing an example of an application input/output definition screen and an application execution screen. The input/output definition screen 601 is a screen that displays a list of input/output definitions set for one application.

FIG. 7 is a diagram showing an example of a flow chart of test case definition generation.

In step S701, the information processing apparatus 101 receives an instruction to generate a test case definition from a user. Specifically, pressing of the new test case creation menu 1101 (FIG. 11) is accepted.

In step S702, the information processing apparatus 101 determines whether the application definition 402 has been created in the external memory 211 or not. If it has been created, the process proceeds to step S703, and if it has not been created, this flowchart ends.

In step S703, the information processing apparatus 101 displays the new test case creation dialog 1102 (FIG. 11), accepts input of "code name", "name", and "target application 1103" necessary for creating a new test case, A new test case definition 407 is created in the external memory 211 based on the received information.

In step S704, the information processing apparatus 101 displays the test procedure input screen 1201 (FIG. 12) for inputting the test procedure of the test case created in step S703. At this point, no test procedure has been registered in the test case, so when the "test procedure" tab on the test procedure input screen 1201 is selected, nothing is displayed in the editor section for setting the test procedure. .

In step S<b>705 , the information processing apparatus 101 acquires from the external memory 211 the input/output definition 403 belonging to the “target application 1103 ” whose input was accepted in step S<b>703 .

In step S706, the information processing apparatus 101 repeats steps S707 to S712 by the number of test procedures to be registered.

In step S<b>707 , the information processing apparatus 101 accepts selection of instructions to be simulated during test execution. The command types include, for example, "screen display", "line addition", "item value input", and "item value verification".

Normally, testing an application built by scratch development requires operations such as "screen display", "line addition", "item value input", and visual "item value verification" by test personnel. In the test, the operations and visual observations performed by the test personnel are proceduralized as "instructions" in step S707, and the built application or the generated application program is simulated (pseudo ) By executing the "instruction", the execution and verification of the test can be performed automatically.

In this embodiment, the type of command is selected from the above four types, but is not limited to these four types. operation, operation of a peripheral device such as a camera, voice input, browser operation, waiting for n seconds, unauthorized operation, etc.) may be selected.

In step S708, the information processing apparatus 101 displays the input/output definitions 403 belonging to the "target application 1103" as options based on the input/output definitions 403 acquired in step S705 (1203 in FIG. 12).

In step S709, the information processing apparatus 101 receives selection of the input/output definition 403 used for test execution from the options displayed in step S708.

In step S710, the information processing apparatus 101 displays the input/output items belonging to the input/output definition 403 selected in step S709 as options (1204 in FIG. 12). For example, in step S707, when "enter item value" is selected as the command, options narrowed down to items for which values can be entered are displayed among the input/output items.

In step S711, the information processing apparatus 101 receives selection of an input/output item to be used for test execution from the options displayed in step S710.

In step S<b>712 , the information processing apparatus 101 receives an input of an argument to an input/output item used when executing a test command.

For example, in FIG. 12, the arguments to the input/output items "ID", "password", and "name" of the group item "G user master" are input. A group item is a table having multiple input/output items (eg, 602 in FIG. 6). 1302 (FIG. 13) shows this command with the line number and argument input. 1302 (FIG. 13) means that "1", "yamada" and "Yamada" are input to the input/output items "ID", "password" and "name" on the line "1" of the description in the group item, respectively.

Also, when the command is "item value verification", it means that it is judged whether or not the value of the "input/output item" is equal to the value of the "argument" when the test is executed (see FIG. 13). 1303). Here, after performing "item value input" in 1302 and performing UPDATE processing in "execute action", it is determined whether or not the value of "ID" is equal to "1". That is, if "ID"=1 at that point, the test procedure is judged to be successful, and if "ID" is not equal to 1, the test procedure is judged to be failed (see step S911 in FIG. 9 for details). later).

In this embodiment, the "input/output item value" is given as an example of the "argument", but the "argument" is not limited to the "input/output item value". It may be information related to the position, color, size, content, etc. related to the output. In addition, if it is information used for test execution, such as information given to processing such as display, authentication, search, addition, update or deletion, or information sent to peripheral devices such as cameras, other It may be information.

That is, step S712 is a step showing an example of processing for receiving information used in the test to be executed. Further, step S712 is a step showing an example of a process of accepting an input of a value to be assigned to an item included in the acquired definition information. Further, step S712 is a step showing an example of a process of accepting an input of a value expected to be possessed by an item included in the acquired definition information.

That is, steps S706 to S712 are steps showing an example of the process of accepting the test case definition.

In step S713, the information processing apparatus 101 generates a test case definition 407 as shown in FIG. 16 based on the test case procedure (eg, 1301 in FIG. 13) created by repeating steps S706 to S712, and stores the test case definition 407 in the external memory. 211.

Specifically, the test case definition 407 is generated by converting each test case procedure 1301 into an element <autotest-step> of the test case definition 407 . Similarly, the “command” of the test case procedure 1301 is the element <command> of the test case definition 407, the “input/output” is <object_01>, the “input/output item” is <object_02>, and the “line number” is < object — 03> and “argument” to <argument>.

In this embodiment, the test case definition 407 is an XML file as shown in FIG. 16, but it is not limited to the XML file. or information other than the database.

That is, step S713 is a step showing an example of processing for generating a test case using the acquired definition information. Further, step S713 is a step showing an example of processing for generating a test case based on the received definition. Further, step S713 is a step showing an example of processing for generating a test case including substituting the accepted value for an item. In other words, step S713 is a step showing an example of processing for generating a test case including comparing the received value and the value of the item.

This completes the description of FIG.

As described above, it is possible to easily generate a test case for an application using the definition information for constructing the application. Also, using definition information for building an application, it becomes possible to easily generate a test case for testing whether the definition information is defined correctly.

8, 9, and 10 are diagrams showing an example of a flow chart of test execution.

In step S801, the information processing apparatus 101 receives a test execution instruction. Specifically, pressing of the execution menu 1401 (FIG. 14) is accepted.

In step S802, the information processing apparatus 101 determines whether or not the application code 440 of the target application (FIG. 11) related to the test case definition to be tested has been created. If it has been created, the process proceeds to step S803, and if it has not been created, this flowchart ends.

In step S803, the information processing apparatus 101 uses the test execution unit (interpreter) 434 and the test case definition interpretation unit 433 to generate the test case definition 407 corresponding to the test case selected when the execution menu 1401 was pressed in step S801. is acquired from the external memory 211 .

In step S804, the information processing apparatus 101 counts the number of test cases and the number of test procedures included in the test case definition 407 acquired in step S803 using the test execution unit (interpreter) 434 and the test case definition interpretation unit 433. do.

In step S805, the information processing apparatus 101 displays the test view 1403 (FIG. 14).

In step S806, the information processing apparatus 101 displays the test progress bar 1404 (FIG. 14) in an empty state.

In step S807, the information processing apparatus 101 displays the test case names (eg, user registration form check, product registration form check) and Display the test procedure (1. screen display, 2. line addition, 3. . . . ).

In step S808, the information processing apparatus 101 displays the message "executing..." on the test information details pane 1407 (FIG. 14).

In step S<b>809 , the information processing apparatus 101 uses the test execution preparation unit 432 to prepare for test execution. Specifically, in the pre-test preparation, sessions, cookies, threads, and the like are generated, and application data similar to when the user actually executes the application using the browser is generated. This enables efficient testing in application building tools without using browsers, end-user operations, application servers, and the like.

In step S901, the information processing apparatus 101 repeats steps S902 to S1001 for the number of test cases to be tested.

In step S902, the information processing apparatus 101 repeats steps S903 to S915, S921, or S925 by the number of test procedures of the test case to be tested.

In step S903, the information processing apparatus 101 determines whether or not pressing of the forced termination button 1405 (FIG. 14) has been accepted.

In step S904, the information processing apparatus 101 updates the test progress bar 1404 to gray 100%, suspends the test even if there is an unexecuted test case or test procedure, and terminates this flowchart.

In step S<b>905 , the information processing apparatus 101 uses the test case definition interpretation unit 433 to acquire the test procedure information 1203 .

In step S906, the information processing apparatus 101 determines whether or not the test instruction in the test procedure information is of the input type. If it is of the input type, the process proceeds to step S907.

In step S<b>907 , the information processing apparatus 101 uses the application code access unit 436 to pseudo-input a value to the generated application code 440 . After that, the application code access unit is used to receive the execution result from the application code 440, and the test result acquisition unit 435 is used to obtain the test result. That is, step S907 is a step showing an example of processing for executing a test using the information received in step S712.

In step S908, the information processing apparatus 101 determines whether or not the test instruction in the test procedure information is of the execution type.

In step S<b>909 , the information processing apparatus 101 uses the application code access unit 436 to send a pseudo action request to the generated application code 440 . After that, the application code access unit 436 is used to receive the execution result from the application code 440, and the test result acquisition unit 435 is used to obtain the test result.

In step S<b>910 , the information processing apparatus 101 uses the application code access unit 436 to acquire verification target information from the generated application code 440 .

In step S<b>911 , the information processing apparatus 101 determines that verification target information (if the verification target is an item included in definition information, information related to the item (eg, value or attribute value of the item)) is a condition (eg ; If the verification is successful (matches the conditions), proceed to step S916; if unsuccessful (does not match the conditions) The process proceeds to step S912.

For example, in the case of 1303 in FIG. 13, after performing "item value input" in 1302 and performing UPDATE (update) in "execute action", it is checked whether the value of "ID" is equal to "1". judge. That is, if "ID"=1 at that point, the test procedure is determined to be "successful", and if "ID"≠1, the test procedure is determined to be "failed".

In this embodiment, "item value verification" is given as an example of the verification system, but it is not limited to item values. etc. may be verified. In addition, time required for processing such as display, authentication, search, addition, update or deletion, CPU usage rate, free storage space, or information that can be obtained from peripheral devices such as cameras, etc., obtained during test execution Other verifications may be used as long as they are verifications related to possible information.

That is, step S911 is a step showing an example of processing for executing a test using the information received in step S712. Further, step S911 is a step showing an example of processing for determining the success or failure of the test to be executed based on the result of comparing the received value and the value of the item.

In step S<b>912 , the information processing apparatus 101 stores the status of the test procedure as “failure” in the RAM 202 .

In step S913, the information processing apparatus 101 updates the number of verification failures using the test result acquisition unit 435 and the test result display unit 438 (1503 in FIG. 15).

In step S914, the information processing apparatus 101 updates the number of test procedures using the test result acquisition unit 435 and the test result display unit 438 (1502 in FIG. 15).

In step S915, the information processing apparatus 101 uses the test result acquisition unit 435 and the test result display unit 438 to update the progress bar to red (1505 in FIG. 15).

In step S916, the information processing apparatus 101 confirms that no application error has occurred. If no error has occurred, the process proceeds to step S922, and if an error has occurred, the process proceeds to step S917.

In step S917, the information processing apparatus 101 stores the status of the test procedure in the RAM 202 as "test failure".

In step S918, the information processing apparatus 101 updates the number of test failures using the test result acquisition unit 435 and the test result display unit 438 (1504 in FIG. 15).

In step S919, the information processing apparatus 101 updates the number of test procedures using the test result acquisition unit 435 and the test result display unit 438 (1502 in FIG. 15).

In step S920, the information processing apparatus 101 uses the test result acquisition unit 435 and the test result display unit 438 to update the progress bar to red (1505 in FIG. 15).

In step S921, the information processing apparatus 101 updates the number of test cases using the test result display unit 438 (1501 in FIG. 15). After that, even if unexecuted test procedures are included in the test case being executed, they are not executed, and the next scheduled test case is executed. Return to step S902.

In step S922, the information processing apparatus 101 registers the status of the test procedure as "success" (1507 in FIG. 15).

In step S923, the information processing apparatus 101 uses the test result display unit 438 to update the number of test procedures (1502 in FIG. 15).

In step S924, the information processing apparatus 101 determines whether or not both the test failure and the verification failure are 0 in the status of the test procedure so far. Step S925 is not performed.

In step S1001, the information processing apparatus 101 updates the number of test cases using the test result display unit 438 (1501 in FIG. 15).

In step S<b>1002 , the information processing apparatus 101 uses the test end processing unit 437 to end test execution. Specifically, in the test execution end process, the session, cookie, thread, etc. generated in step S809 are closed.

In step S1003, the information processing apparatus 101 updates the test execution time using the test result display unit 438 (1506 in FIG. 15).

In step S1004, the information processing apparatus 101 uses the test result acquisition unit 435 and the test result display unit 438 to display the log output during the test in the application log view (1509 in FIG. 15).

As described above, even if the application to be tested is not in an operable state, the application construction tool can test only the definition of the test target, so that the test can be efficiently performed.

This concludes the description of FIGS. 8, 9 and 10. FIG.

Next, a test suite definition creation flow will be described with reference to FIG.

In step S1701, the information processing apparatus 101 receives an instruction to create a test case definition from the user. Specifically, the selection of the new test suite generation acceptance display 1801 (FIG. 18) is accepted. Here, an example of the test suite creation menu screen of FIG. 18 will be described. The information processing apparatus 101 receives an instruction to create a test suite definition from the user in accordance with the selection of the new test suite generation reception display 1801 .

In step S1702, the information processing apparatus 101 determines whether the test case definition 407 has been created in the external memory 211 or not. If the test case definition 407 has already been created, the information processing apparatus 101 advances to step S1703, and if the test case definition 407 has not been created yet, ends the test suite definition creating process.

In step S1703, the information processing apparatus 101 displays the new test suite generation menu screen 1802 (FIG. 18), and creates the test suite definition 409 in the external memory 211 based on the information input to the screen. The new test suite generation menu screen 1802 receives various information (eg, name, code and other identification information) for identifying the test suite to be generated, and selection of test cases. Here, the generated test suite definition is set with the code and name input in the input field 1804 of the new test suite generation menu screen 1802 . Also, the items selected in the target test case 1803 are set as the initial settings of the test cases of the generated test suite definition.

In step S1704, the information processing apparatus 101 displays the test suite setting screen 2000 (FIG. 20) on which the test case definitions 407 stored in the repository definition unit 401 can be selected. A test suite setting screen 2000 in FIG. 20 can select a test suite to be set from a plurality of test cases stored in the test suite definition.

Also, the test suite setting screen 2000 is displayed with the test case 2001 selected in the target test case 1803 already selected (FIG. 20). The user arbitrarily selects test cases to be included in the test suite definition from the test suite setting screen 2000 . The information processing apparatus 101 then saves the selected test case in the test suite definition 409 . In other words, it can be said that the information processing apparatus 101 sets test case selection information in the test suite definition.

In step S1705, the information processing apparatus 101 receives an instruction from the user to narrow down test case definitions. Specifically, the information processing apparatus 101 determines whether the tab 2002 indicating the repository definition is selected.

In step S<b>1706 , the information processing apparatus 101 displays test cases corresponding to the repository definition indicated by the selected tab 2002 . Taking the test suite setting screen 2000 as an example, the information processing apparatus 101 displays a list of test cases including the input/output definition 403 in the repository definition section 401 in the test procedure by selecting the "IO" tab 2002. indicate. The information processing apparatus 101 accepts selection of the displayed test cases. Further, the information processing apparatus 101 displays a list of test cases including the data model definition 404 in the repository definition part 401 in the test procedure by selecting the "DM" tab 2002 . Further, the information processing apparatus 101 displays a list of test cases including the business process definition 405 in the repository definition section 401 in the test procedure by selecting the “BP” tab 2002 .

In step S<b>1707 , the information processing apparatus 101 receives an instruction from the user to narrow down the test case definitions by the definition file change time condition unit 476 . Specifically, the information processing apparatus 101 controls display based on change information stored in the definition file change time condition section 476 . The information processing apparatus 101 receives the input of the change time condition 2004 (FIG. 20) and compares the input condition with the condition stored in the definition file change time condition section 476 . The information processing apparatus 101 displays test case definitions stored after the change time condition 2004 using the comparison result.
In step S1708, the information processing apparatus 101 displays test cases including repository information updated after the input time. Specifically, the information processing apparatus 101 sorts and displays the test case definitions 407 stored in the definition file modification time condition part 476 and containing repository information updated after the modification time condition 2004 .

In step S1709, the information processing apparatus 101 accepts selection of the test case definition 407 displayed under a predetermined condition. Specifically, the information processing apparatus 101 can select or cancel the check box 2009 . The information processing apparatus 101 sets the selected test case as a test suite definition and updates the test suite definition 409 . The information processing apparatus 101 displays the selected test cases in a hierarchical structure with the test suite definition as the parent, as indicated by a selection result 2202 (FIG. 22).

Next, the execution flow of the test suite and screen display in each flow will be described with reference to FIGS. 19, 20, and 21. FIG.

In step S1901, the information processing apparatus 101 receives an instruction to start test execution. Specifically, the instruction is accepted according to the selection of the execution button 2005 (FIG. 20). Note that the information processing apparatus 101 may execute a plurality of test suites in parallel. By executing a plurality of test suites in parallel, the information processing apparatus 101 can reduce the number of man-hours required for testing compared to testing one by one. In this embodiment, the information processing apparatus 101 simultaneously executes the test suites displayed in the overall test view 2006 (FIG. 20). Further, the information processing apparatus 101 may execute only the test suite definition selected by the check box 2010 among the test suite definitions displayed in the overall test view 2006 according to the selection of the execution button.

In step S1902, the information processing apparatus 101 displays the overall test view 2006 (FIG. 20). The overall test view 2006 displays a list of set test suite definitions 409 . The overall test view 2006 can then display the results of the executed tests in an identifiable manner in units of test suites. Also, the overall test view 2006 displays a test progress bar 2007 and a test information display area 2008 . The test progress bar 2007 does not necessarily have to be a bar-shaped indicator. The test progress bar 2007 may be circular, for example. in short. The test progress bar 2007 may be at least information that allows visual recognition of the progress rate in all processes of the test suite definition 409 being executed. The test information display section 2008 displays the progress and results of the test suite definition 409 being executed in text. The test information display unit 2008 displays, for example, "executing", "execution completed", "error", and the like.

In step S1903, the information processing apparatus 101 displays the test progress bar 2007 in an empty state. That is, the information processing apparatus 101 indicates that the progress of the test according to the test suite definition 409 is "0".

In step S1904, the information processing apparatus 101 displays on the test information display section 2008 to indicate that the test is being executed. In the present embodiment, the information processing apparatus 101 displays the text "executing..." on the test information display section 2008. FIG.

In step S1905, the information processing apparatus 101 repeats the following steps until there is no more target test suite.

In step S1906, the information processing apparatus 101 reads the test suite definition 409 of the target test suite.

In step S1907, the information processing apparatus 101 creates threads as many as the number of target test suites. When multiple test suites are run, multiple threads are created and run in parallel. The information processing apparatus 101 displays the created thread in the overall test view 2006 .

In step S1908, the information processing apparatus 101 reads test case definitions included in the target test suite.
In step S1909, the information processing apparatus 101 repeats the following steps until there are no more test cases read in step S1908.

In step S1910, the information processing apparatus 101 executes a test based on the read test definition.

In step S1911, the information processing apparatus 101 updates the test progress bar 2007 according to the test execution status. A single test progress bar represents how much work has been completed for a single test suite.

In step S<b>1912 , the information processing apparatus 101 displays the test results on the test suite setting screen 2100 . Here, a method of displaying test results using the test suite definition will be described with reference to FIG. A test suite setting screen 2100 is an example of a screen when the test suite for which test execution was started on the test suite setting screen 2050 ends. In FIG. 21, a test progress bar 2101 indicates that the test has been completed. In this embodiment, the progress bar for "Suite1.wptx" in the test progress bar 2101 indicates that the test was completed without any errors. On the other hand, the progress bar for "Suite2.wptx" indicates that the test was completed with errors. As shown in the test suite configuration screen 2100, the progress bar for each test suite definition is displayed in a different color so that the user can visually see whether the tests have been completed without errors. Also, next to the progress bar for each test suite definition, an icon 2103 is displayed with which the results are identifiable. By viewing the icon 2103, the user can recognize in which test suite the error occurred. Also, next to the test cases included in each test suite definition, an icon 2104 is displayed with which the results can be identified. By viewing the icon 2104, the user can recognize in which of the test cases included in the test suite an error has occurred. An icon 2105 that can identify the test result is displayed for each step of each test case. By viewing the icon 2105, the user can recognize in which step the error occurred in the test case.

Note that an application building tool like this embodiment tests whether the definition information set for building an application is set as expected. In other words, in this embodiment, the correctness of the definition information on which the construction or generation is based is tested, not the application construction or program generation itself by the application construction tool.

As described above, according to the above-described embodiments, the information processing apparatus generates a plurality of test cases using definition information for constructing an application, and tests corresponding to predetermined conditions among the plurality of generated test cases. Make cases selectable. Then, the information processing device sets a test case selected from among the displayed test cases as a test suite, and executes a test related to the application based on the set test suite. Therefore, it is possible to provide a mechanism for easily setting test cases in the application building tool.

In addition, the information processing device displays the generated test cases in units of definition information, and displays the displayed test cases in units of definition information in a selectable manner. Therefore, the information processing apparatus enables the user to easily select a test case corresponding to each definition information.

In addition, the information processing device displays definition information updated after a predetermined date and time among the plurality of generated test cases, and displays the displayed test cases in a selectable manner. Therefore, the information processing apparatus can display information corresponding to the update history, and the user can easily make a selection.

In addition, when the information processing apparatus accepts the start of the test, the information processing apparatus displays the progress of the test in an identifiable manner for each test suite. Therefore, the information processing apparatus enables the user to recognize the progress of the test for each test suite. Furthermore, the information processing device can display the progress of the test in a identifiable manner in units of test cases or steps. Therefore, the information processing apparatus enables the user to recognize the progress of the test in units of test cases or steps.

Of course, using the test cases generated according to the embodiment of the present invention, not only is the test subject limited to the definition information, but also the entire application can be tested by operating the constructed or generated application. You may want to do a broader test.

As described above, a recording medium recording a program for realizing the functions of the above-described embodiments is supplied to a system or device, and the computer (or CPU or MPU) of the system or device reads the program stored in the recording medium. Needless to say, the object of the present invention can also be achieved by reading and executing.

In this case, the program itself read from the recording medium implements the novel functions of the present invention, and the recording medium recording the program constitutes the present invention.

Examples of recording media for supplying programs include flexible disks, hard disks, optical disks, magneto-optical disks, CD-ROMs, CD-Rs, DVD-ROMs, magnetic tapes, non-volatile memory cards, ROMs, EEPROMs, silicon A disk or the like can be used.

Further, by executing the program read by the computer, not only the functions of the above-described embodiments are realized, but also based on the instructions of the program, the OS (operating system) and the like running on the computer are actually executed. Needless to say, a case where part or all of the processing is performed and the functions of the above-described embodiments are realized by the processing are included.

Furthermore, after the program read from the recording medium is written in the memory provided in the function expansion board inserted into the computer or the function expansion unit connected to the computer, the function expansion board is read according to the instruction of the program code. , a CPU or the like provided in the function expansion unit may perform a part or all of the actual processing, and the processing may realize the functions of the above-described embodiments.

Moreover, the present invention may be applied to a system composed of a plurality of devices or to an apparatus composed of a single device. Further, it goes without saying that the present invention can be applied to the case where it is achieved by supplying a program to a system or device. In this case, by loading a recording medium storing a program for achieving the present invention into the system or device, the system or device can enjoy the effects of the present invention.

The program may be in the form of object code, program code executed by an interpreter, script data supplied to an OS (operating system), or the like.

Furthermore, by downloading and reading out the program for achieving the present invention from a server, database, etc. on the network using a communication program, the system or device can enjoy the effects of the present invention. It should be noted that all configurations obtained by combining each of the above-described embodiments and modifications thereof are also included in the present invention.

101 information processing device 102 application server 103 database server 104 application client 105 network 302 test execution unit 305 test case generation unit 311 test suite generation unit

Claims (11)

receiving means for receiving an operation of selecting one of a plurality of types of definition information for constructing an application;
display control means for controlling display of a list of test cases including test procedures related to the type of definition information selected by the operation received by the receiving means ;
control means for controlling execution of a test related to the application based on a test case group including a plurality of test cases selected from the list ;
An information processing system comprising: The display control means controls to display a plurality of options respectively corresponding to the plurality of types, and controls to display the list in response to selection of one of the options. The information processing system according to claim 1. 3. The information processing system according to claim 1, wherein said plurality of types include input/output definition, data model definition, and business process definition. The display control means displays a list of test cases including test procedures related to the input/output definition when the input/output definition is selected from among the plurality of types, and displays a list of test cases including test procedures related to the input/output definition when the data model definition is selected from the plurality of types. Displaying a list of test cases including test procedures related to data model definition, and controlling to display a list of test cases including test procedures related to business process definition when business process definition is selected from among the plurality of types. 4. The information processing system according to claim 3, characterized by: 5. The information processing system according to any one of claims 1 to 4, wherein said display control means performs control so that the progress of the test is displayed in an identifiable manner for each test case group . 6. The information processing system according to any one of claims 1 to 5, wherein said display control means performs control so that test results can be displayed in an identifiable manner for each test case group . 7. The information processing according to any one of claims 1 to 6, wherein said display control means performs control so that test results for each of a plurality of test cases included in a test case group are displayed in an identifiable manner. system. 8. The method according to any one of claims 1 to 7, wherein said display control means performs control so as to distinguishably display a test result for each test procedure among a plurality of test procedures included in a test case. Information processing system as described. 9. The information processing system according to any one of claims 1 to 8, wherein said test case comprises a plurality of test procedures. a receiving step for receiving an operation of selecting one of a plurality of types of definition information for constructing an application;
a display control step for controlling display of a list of test cases including test procedures related to the type of definition information selected by the operation received in the receiving step ;
a control step of controlling execution of a test related to the application based on a test case group including a plurality of test cases selected from the list ;
A control method for an information processing system , comprising: A program for causing at least one computer to function as the information processing system according to any one of claims 1 to 9 .

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