JP2021174123A - Package generation device, package management system, and package generation method - Google Patents

Abstract

To shorten time for constructing a work environment for implementing a process even when the process changes by tailoring.SOLUTION: A package generation device having a processor and a memory includes a process data acquisition unit for accepting process data in which one or more roles are defined, a data analysis unit which extracts environmental data for each role contained in the process data, and an integrated file generation unit which generates one of more packages by combining environment construction element corresponding to the extracted environmental data for each role, generates an environment construction batch file in which an execution order of the package is set, and generates an integrated package file containing the package and the environment construction batch file.SELECTED DRAWING: Figure 1

Description

The present invention relates to a software package generation device, a management system, and a generation method.

According to Patent Document 1, "Determining the process for developing work was difficult for an inexperienced manager. Therefore, the organization defines and deals with a standard development process. However, such a development process was formed to fit all the projects of the organization and tended to be an excessive process for small projects. " The risk calculation unit 11 for determining the permissible risk rate based on the risk data for each activity of the development process and the input data that is the basis of the risk, and each activity that constitutes the standard development process based on the permissible risk rate. Is provided with a tailoring unit 12 that determines whether or not to incorporate it into the project management process ”(see the abstract of Patent Document 1).

Patent Document 2 states, "When installing application software on a computer, it is possible to execute an operation based on an arbitrarily set setup process before and after installation of the application software, and to take measures for recovery in case of installation failure. As a solution, create an installation execution definition file by specifying the installer that installs the application software on the computer, and describe the instructions for the customization process for the installation of the application software performed by the specified installer. It is disclosed that by creating the setup instruction file, the customization process is instructed when the application software is installed by the specified installer "(see the abstract of Patent Document 2).

Patent Document 3 has an object of "providing a system, a method, and a computer program product for expressing at least one system function as a software package in a software package management system" as a solution thereof. Includes creating at least one system function package that represents at least one system function. At least one system function package is installed on the information system via a software package management system. At least one system function package. Is stored in the software package database. The system function package conforms to the software package structure, whereby the system function package is managed by the software package management system. ”(Refer to the abstract of Patent Document 3). ).

Patent Document 4 has an object of "reducing software installation time", and as a solution to the problem, "the information processing apparatus 10 is a file installed at the time of installation of related software for each of a plurality of software candidates for installation. Based on the above, a plurality of files to be installed at the time of installation of the plurality of software candidates for installation are estimated. Next, the information processing apparatus 10 includes a plurality of estimated files among the plurality of software candidates for installation and installs the software. Identify one or more software with less duplication of installation of the same file than when installing multiple candidate software, and the information processing device 10 performs the installation of the specified software. " Is disclosed (see abstract of Patent Document 4).

Japanese Unexamined Patent Publication No. 2003-296528 Japanese Unexamined Patent Publication No. 2011-203917 Japanese Unexamined Patent Publication No. 2007-128522 Japanese Unexamined Patent Publication No. 2019-040400

Tailoring refers to rearranging a standard process such as a standard process into a process suitable for the characteristics of a certain project. A standard process is a process defined as a standard for processes within an organization in order to maintain the efficiency and quality of work.

If the process changes due to tailoring, the required work environment changes, and each time the environment construction method must be redefined, the work environment of all project members must be constructed.

Patent Document 1 provides a technique for improving the quality and efficiency of process tailoring, but does not consider a method for constructing a working environment required for actually carrying out the process.

Patent Documents 2, 3 and 4 provide a technique for improving the reliability and efficiency of environment construction, but do not consider a method for dealing with a situation where the required working environment changes.

In the above-mentioned prior art, when tailoring is performed to rearrange the reference process into a process for a project suitable for the characteristics of a certain project, each person's process depends on the roles of all the members involved in the project and the process for the project. There was a problem that it took a huge amount of man-hours to build a work environment.

Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to shorten the time for constructing a working environment for carrying out a process even when the process is changed by tailoring.

The present invention is a package generator having a processor and a memory, and is a process data acquisition unit that accepts process data in which one or more roles are defined, and data analysis that extracts environment data for each role included in the process data. The unit and the environment construction element corresponding to the extracted environment data are combined for each role to generate one or more packages, and environment construction batch information in which the execution order of the packages is set is generated, and the package and the package are generated. It has an integrated package file generation unit that generates integrated package information including the environment construction batch information.

According to the present invention, even when the process is changed by tailoring, it is possible to shorten the construction time of the working environment required when executing the process.

Issues, configurations and effects other than those described above will be clarified by the description of the following embodiments.

It is a figure which shows Example 1 of this invention and shows the outline of the software package management system. It is a block diagram which shows Example 1 of this invention and shows an example of the structure of the software package management system. It is a figure which shows Example 1 of this invention and shows an example of the structure of the integrated package file. It is a figure which shows Example 1 of this invention and shows an example of the tailoring operation screen of a process management system. It is a figure which shows Example 1 of this invention and shows an example of the process data output operation screen of a process management system. It is a figure which shows Example 1 of this invention and shows an example of the process outline screen and activity detail screen of a process management system. FIG. 1 is a diagram showing Example 1 of the present invention and showing an example of a screen output by the environment construction unit. It is a flowchart which shows Example 1 of this invention and shows an example of the process performed in the software package management system. It is a flowchart which shows Example 1 of this invention and shows an example of a package generation process. FIG. 1 is a diagram showing Example 1 of the present invention and showing an example of the correspondence between the data structure of process data and the environmental data of each role. FIG. 2 shows Example 2 of the present invention, and is a diagram showing an example of the correspondence between the data structure of process data and the environmental data of each role. FIG. 3 is a flowchart showing Example 3 of the present invention and showing an example of processing performed by the software package management system. FIG. 5 is a flowchart showing Example 4 of the present invention and showing an example of processing performed by the software package management system.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a diagram showing an outline of the software package management system of the first embodiment. In this embodiment, the software package management system of the present invention generates the integrated package file 113 based on the process of the project, and constructs the environment necessary for executing the process on the end user terminal 115 according to the project and the role. It makes it possible.

The software package combines application software, data files, etc. into one, and defines metadata that describes information about those software and data files, files required for installation on a computer (end user terminal 115), and installation procedures. It was done.

Hereinafter, the software package is simply referred to as a package in the present specification. The integrated package file 113 refers to a file that integrates packages and defines necessary files and installation procedures in order to install a plurality of packages together on a computer.

The process management system 101 of FIG. 1 is a system (or computer) that provides functions that support process management, such as definition of a project process, process sharing, and tailoring. The process manager 102 is a user of the process management system 101 who uses the process management system 101 to define and tailor the standard process 103.

The tailoring of this embodiment refers to a process of rearranging a reference process such as a standard process into a process suitable for the characteristics of a certain project, as shown in the above-mentioned problems.

Tailored process data 104 is created by the process manager 102 tailoring the predefined standard process 103 for the project using the process management system 101. Activity 105 shows an example of the activity included in the tailored process data 104.

Activity 105 is assigned roles A and C. Further, the activity 105 is associated with the environmental data 106 necessary for the role C to carry out the activity 105.

An activity is a step in a process. The role represents a role assigned to a member of the project (end user 114). Environmental data defines information about the work environment that a role needs to perform an activity. Examples of the information included in the environmental data include metadata such as an identification name and setting information.

The standard process 103 is also process data including activities and the like like the tailored process data 104. Tailored process data As shown in 104, process data includes at least one or more activities. The activity is associated with at least one role related to the activity and the environmental data of each role. Process data can include any other information about the process.

In tailoring, the activities defined in the standard process 103 are selected, the flow is rearranged, and the environmental data associated with the activities is customized. As a result, the tailored process data 104 becomes project-specific process data.

After the tailoring is performed, the process management system 101 transmits the information contained in the tailored process data 104 to the package generation system 109 in order to generate the package by the package generation system 109.

The package generation system 109 is a system (or computer) that generates an integrated package file 113 for constructing a work environment necessary for executing a process based on the tailored process data 104 received from the process management system 101. ..

First, the package generation system 109 extracts only the environment data from the tailored process data 104, aggregates it for each role without duplication, and creates the environment data 110 for each role. The environment data 106 included in the environment data 110 for each role is obtained by extracting the environment data included in the tailored process data 104.

Next, the package generation system 109 combines the environment construction components based on the environment data 110 for each role to generate the integrated package file 113. The environment construction component is a component of the integrated package file 113 in the form of a file or the like. The components of the integrated package file 113 will be described later with reference to FIG.

As will be described later, the package generation system 109 reflects the definition contents of the environment data 106 customized by tailoring in the integrated package file 113 by selecting and combining the environment construction components 112 to generate the package. ..

The environment construction component DB (DataBase) 111 is a database system for storing the environment construction component 112.

The integrated package files 113a, 113b, and 113c indicate the integrated package files 113 generated for roles A, B, and C, respectively. The environment construction component 112 shows an example of the environment construction component (environment construction element) 112 that constructs the environment data 106, and is incorporated in the integrated package file 113c for role C.

Next, the package generation system 109 registers the integrated package file 113 for each generated role in the process management system 101. Registering the integrated package file 113 in the process management system 101 has an effect of enabling the process management system 101 to manage the work of constructing the environment necessary for executing the process as an activity.

Further, by this registration process, the end user 114 of the end user terminal 115 using the process management system 101 can access the process management system 101 and obtain the integrated package file 113.

The registration method in this embodiment will be described. The environment construction activity 107 is an example of an activity for constructing the environment necessary for executing the process, and is assigned to all roles. Reference numerals 108a, 108b, and 108c indicate environmental data for roll A, roll B, and roll C, respectively. The environmental data 106 indicates general-purpose environmental data, and is different from the environmental data 108a to 108c specialized for roles A to C.

The package generation system 109 registers the integrated package files 113a, 113b, 113c for each generated role in the environment data 108a, 108b, 108c, respectively. This is an example of a registration method, and other methods may be used.

The end user 114 shows an example of a user of the process management system 101 who operates the end user terminal 115 to browse the process and related information of the process management system 101. By accessing the process management system 101, the end user 114 can obtain information related to the process of the project and role he / she is in charge of.

The end user terminal 115 shows an example of an information processing terminal used by the end user 114, and is a computer system for which an environment is constructed. The end user 114 browses the tailored process data 104 of the process management system 101 and downloads the integrated package file 113 of the role assigned to him / her on the end user terminal 115.

FIG. 1 shows a case where the end user 114 is assigned the role C as an example. In this case, the end user 114 of the end user terminal 115 obtains the integrated package file 113c for role C from the environment data 108c for his / her own role C, and executes the environment construction of the end user terminal 115.

The end user terminal 115 reads the installation file 117 from the installation file DB 116 according to the contents of the integrated package file 113c, and constructs an environment entity such as a tool or a template.

The installation file DB 116 is a database system that stores the installation file 117. The installation file 117 shows an example of the installation file. The installation file is the actual state of the file required when constructing the environment, and specific examples include a software installer and a template file of a product created in the process. The installation file 117 stored in the installation file DB 116 is referred to by the environment construction component 112 stored in the environment construction component DB 111.

The tool environment 118 shows an example of the usage environment of a certain tool constructed on the end user terminal 115, and represents the environment constructed according to the definition of the environment data 106 reflected in the integrated package file 113c.

The process management system 101 may be configured as a process management device, or the package generation system 109 may be configured as a package generation device.

FIG. 2 is a functional block diagram showing an example of a software package management system configuration that realizes this embodiment.

The software package management system of this embodiment is composed of three systems of a package generation system 109, a process management system 101, and an end user terminal 115, and three database systems of an environment construction component DB 111, a process management DB 209, and an installation file DB 116. NS.

Each system 109, 101, and end user terminal 115 has CPUs 202a, 202b, 202c, memories 201a, 201b, 201c, and communication devices 220a, 220b, 220c, and each processing unit described later executes them in each CPU. Will be done. Each unit is connected via a bus (not shown), and each system 109, 101, end user terminal 115, and DB 116 are connected by a network 50 via communication devices 220a to 220c.

When the individual is not specified, the code "202" with the subscript omitted is used as the code of the CPU. The same applies to the codes of other components.

Further, each of the systems 109 and 101 and the end user terminal 115 has input / output devices 221a, 221b and 221c, respectively. The input / output device 221 is composed of, for example, an input device of a mouse, a keyboard or a touch panel, and an output device such as a display. Each system 109, 101, end user terminal 115, and DB 111, 209, 116 may be constructed on different terminals, or a plurality of them may be combined and arranged on the same terminal.

Since the description of the environment construction component DB111 and the installation file DB116 is as described above, they will be omitted here.

The process management system 101 has a process management unit 207, a data output unit 208, and a process management DB 209. The process management unit 207 accepts a user operation, defines a process, tailors it, and issues a data output command to the data output unit 208.

The data output unit 208 receives a data output command from the process management unit 207, and transmits the instructed data to the package generation system 109 and the end user terminal 115. The process management DB 209 is a database system that stores process data and related files managed by the process management unit 207. The process data refers to the standard process 103 and the tailored process data 104.

Each function unit of the process management unit 207 and the data output unit 208 is loaded into the memory 201b as a program.

The CPU 202b operates as a functional unit that provides a predetermined function by executing processing according to a program of each functional unit. For example, the CPU 202b functions as the process management unit 207 by executing the process according to the process management program. The same applies to other programs. Further, the CPU 202b also operates as a functional unit that provides each function of a plurality of processes executed by each program. A computer and a computer system are devices and systems including these functional parts.

The package generation system 109 includes a process data acquisition unit 203, a data analysis unit 204, an integrated package file creation unit 205, a file transfer unit 206, and an environment construction component DB 111.

The process data acquisition unit 203 receives the tailored process data 104 transmitted from the process management system 101 and outputs it to the data analysis unit 204. The data analysis unit 204 creates environment data 110 for each role from the tailored process data 104 input by the process data acquisition unit 203 as described later, and outputs the environment data 110 to the integrated package file creation unit 205.

The integrated package file creation unit 205 creates an integrated package file 113 for each role from the environment data 110 for each role input by the data analysis unit 204, as will be described later.

The file transfer unit 206 registers the integrated package file 113 for each role created by the integrated package file creation unit 205 in the process management system 101.

The end user terminal 115 has an environment construction unit 210. The environment construction unit 210 builds the environment of the end user terminal 115. The environment construction unit 210 is implemented as, for example, application software called a package management system. A package management system is a system that manages the introduction or deletion of packages, and is also called a package manager.

FIG. 3 is a diagram showing an example of the data structure of the integrated package file 113 created by the integrated package file creation unit 205.

The integrated package file 113 includes one environment construction batch file 301 and at least one or more packages 302.

The environment construction batch file 301 is a file that describes a script that controls the entire environment construction process. The environment construction batch file 301 includes a pre-processing 303, a package list 304, and a post-processing 305.

Pre-processing 303 describes a script that implements the necessary setup before executing the environment construction processing. In the package list 304, the distinguished names of the packages 302 included in the integrated package file 113 are described as a list in the order of introduction. Post-processing 305 describes a script that executes the setup required after executing the environment construction processing.

The package 302 is defined for each implementation unit of environment construction, and is composed of one package definition file 306, one parameter list 307, at least one or more setting files 308, and at least one or more setting files 308. NS.

In order to define a package in which a plurality of packages are combined, the package 302 can be composed of one package definition file 306 and one or more packages 302.

The package definition file 306 describes the metadata 309, the installation file list 310, the installation pre-process 311 and the installation process 312 and the installation post-process 313.

The metadata 309 describes, as an example, a package name, an outline description of the package, version information, and the like. The installation file list 310 describes a list of storage location addresses for the installation files 117 required for installing the package 302. As described above, the installation file 117 is stored in the installation file DB 116 and is referenced by the installation file list 310.

The installation pre-process 311 describes a script that executes the necessary setup before executing the installation process 312. The installation process 312 describes the installation procedure of the package 302 as a script. The installation post-processing 313 describes a script that executes the setup required after the installation process 312 is executed.

The parameter list 307 is a table that describes the parameter names of the environment included in the environment data 110 for each role and the set values thereof. A parameter is a setting information that takes uncertain values or data until a process for a project is defined. Examples include the address of the data storage location of the project, the identification name of the project, and the like.

The configuration file 308 indicates a file to be read in each installation process 311, 312, 313. Examples include a file in which a script for a part of each installation process 311, 312, and 313 is described, a file in which execution options of a software installer are defined, and the like.

The configuration file 308 has a role of expressing a variation of the introduction method of the package 302, and when the package is generated, the configuration file 308 is selected and combined according to the contents of the environment data customized by tailoring.

For example, if the environment T has an introduction method A and an introduction method B, setting files A and B describing the respective introduction procedures and data are created in the package 302 of the environment T. When the introduction method A is defined in the environment data related to the environment T, the package generation system 109 deletes the setting file B from the package 302 of the environment T and leaves only the setting file A, so that the package generation system 109 can display the contents of the environment data. Reflect in package 302.

The environment construction batch file 301 and the package 302 are components of the integrated package file 113, and are stored in the environment construction component DB 111 as the environment construction component 112. When storing these environment construction component 112 in the environment construction component DB 111, the package 302 includes the package definition file 306, the parameter list 307, and all the setting files 308 created for the package 302.

A default value is described in the setting value of each parameter in the parameter list 307. When the package generation system 109 generates a package, the required package 302 is duplicated and edited according to the contents of the environment data 110 for each role to generate integrated package files 113a, 113b, 113c for each role.

FIG. 4 is a diagram showing an example of an interface screen 410 in which the process management system 101 accepts a tailoring start operation by the process manager 102. The interface screen 410 is output to the input / output device 221b of the process management system 101.

The interface screen 410 includes an area 401 showing an outline of process data to be tailored, and a tailoring button 402 that accepts a tailoring start operation from the input / output device 221b operated by the process manager 102.

FIG. 5 is a diagram showing an example of an interface screen 510 in which the process management system 101 accepts a process data output operation by the process manager 102. The interface screen 510 is output to the input / output device 221b of the process management system 101.

The interface screen 510 includes an area 501 showing an outline of the process data to be output, and a process data output button 502 that accepts a process data output operation from the input / output device 221b operated by the process manager 102.

FIG. 6 is a diagram showing an example of a process outline screen 601 in which the process management system 101 accepts an output operation of the integrated package file 113 by the end user 114. The process outline screen 601 is output to the input / output device 221c of the end user terminal 115 operated by the end user 114.

When the end user terminal 115 of the end user 114 accesses the process management system 101 and browses the process corresponding to the project and role assigned to the end user 114, the process management system 101 outputs a process summary screen 601 for the process. ..

Reference numeral 602 in the figure is a button for accepting a transition operation to the activity detail screen 603 regarding the environment construction activity 107 shown in FIG.

When the button 602 is operated by the end user 114 while the process outline screen 601 is being displayed, the process transitions to the activity detail screen 603. The activity details screen 603 includes a download link 604 that accepts an output operation of the integrated package file 113 from the end user 114.

The end user 114 acquires the integrated package file 113 by clicking the download link 604 via the input / output device 221c.

FIG. 7 is a diagram showing an example of a screen 701 in which the environment construction unit 210 of the end user terminal 115 shows the progress and result of the environment construction process to the end user 114. The screen 701 is displayed on the input / output device 221c of the end user terminal 115.

FIG. 8 is a flowchart showing an example of processing performed by the software package management system. The processes of steps S801 to S803 and S807 and S808 are performed by the process management system 101. The processing of steps S804 to S806 is performed by the package generation system 109. The processing of steps S809 and S810 is performed by the environment construction unit 210 of the end user terminal 115.

The process management unit 207 of the process management system 101 accepts the tailoring start operation by the process manager 102 (S801), reads the standard process 103 from the process management DB 209, executes the tailoring process (S802), and tailored the process data. Output 104 (S803).

The tailoring start operation is input, for example, by the process manager 102 operating the tailoring button 402 of FIG. The process management unit 207 stores the created tailored process data 104 in the process management DB 209.

The process management unit 207 receives the process data output command operated by the process manager 102, reads the tailored process data 104 from the process management DB 209, and outputs the tailored process data 104 to the data output unit 208. The process data output command is input, for example, by the process manager 102 operating the process data output button 502 of FIG. 5 via the input / output device 221b.

The data output unit 208 converts the input tailored process data 104 into a specific output format and transmits it to the process data acquisition unit 203 of the package generation system 109. Hereinafter, when the process data 104 is referred to as the process data 104 unless otherwise specified, it means the tailored process data 104. The output format of the process data 104 may be any format as long as the activity, role, and environment data are included in a state in which their associations are maintained.

When the process data acquisition unit 203 of the package generation system 109 is implemented as a service resident in the system, the process data acquisition unit 203 transitions to step S804 by detecting the input of the process data 104 from the process management system 101. ..

Alternatively, the process management unit 207 of the process management system 101 can execute a script that describes the process of activating the process data acquisition unit 203 of the package generation system 109, so that the process transitions to step S804 can be implemented. The startup script may be executed via another system to which the process management system 101 can cooperate.

In step S804, the process data acquisition unit 203 of the package generation system 109 receives the tailored process data 104 transmitted from the data output unit 208 of the process management system 101, and the data analysis unit 204 receives the tailored process data 104. Is output.

In step S805, the data analysis unit 204 analyzes the tailored process data 104 input from the process data acquisition unit 203, creates the environment data 110 for each role, and creates the environment data 110 for each role in the integrated package file creation unit 205 for each role. The data 110 is output.

The integrated package file creation unit 205 reads the environment data 110 for each role input from the data analysis unit 204, combines the environment construction components 112, and creates the integrated package file 113 for each role. The integrated package file creation unit 205 outputs the integrated package file 113 for each created role to the file transfer unit 206. Details of the process in step S805 will be described later with reference to FIG.

In step S806, the file transfer unit 206 registers the integrated package file 113 for each role input from the integrated package file creation unit 205 in the process management DB 209 of the process management system 101.

The registration in step S806 refers to a process of making the integrated package file 113 for each role visible from the process management system 101. In FIG. 1, the registration method described using the environment construction activity 107 is an example.

As an example of the process of realizing the registration method described using the environment construction activity 107 in FIG. 1, the file transfer unit 206 includes the environment construction activity 107 included in the tailored process data 104 stored in the process management DB 209. Is to store the address data of the storage location of the integrated package file 113 for each role.

As another example, it is conceivable that the file transfer unit 206 stores the integrated package file 113 for each role in the process management DB 209. Not limited to these, any process that enables the end user 114 to access the process management system 101 from the end user terminal 115 and browse the process information of the end user to obtain the integrated package file 113 for his / her role. , Any implementation is acceptable.

In addition to the integrated package file 113 for each role, the file transfer unit 206 may notify the process manager 102 of the report of the package generation processing result or register it in the process management DB 209 of the process management system 101. In the processing result report, the environment data 110 for each role and any information obtained in the process of the package generation processing may be output. Examples of the report include information on add-ons installed in application software and the aggregated results of the number of licenses used, but this is not the case.

Further, in step S806, the file transfer unit 206 does not register the integrated package file 113 in the process management DB 209 of the process management system 101, but the file transfer unit 206 directly sends the end user terminal 115 to the end user 114. The integrated package file 113 may be distributed.

As an example of the distribution method, a method in which the file transfer unit 206 directly transmits the integrated package file 113 to the end user terminal 115 or a shared data storage area accessible to the end user terminal 115 of the end user 114 is separately prepared. A method in which the file transfer unit 206 stores the integrated package file 113 in the storage area can be mentioned, but other means may also be used.

In step S807, the process management unit 207 of the process management system 101 receives an output operation of the integrated package file 113 by the end user terminal 115 of the end user 114. The process management unit 207 reads the integrated package file 113 registered in the process being viewed by the end user 114 from the process management DB 209, and outputs the integrated package file 113 to the data output unit 208. The output operation of the integrated package file 113 is input, for example, by the end user 114 operating the download link 604 of FIG. In step 808, the data output unit 208 transmits the input integrated package file 113 to the end user terminal 115.

In step S809, the end user terminal 115 receives the integrated package file 113 transmitted from the data output unit 208 of the process management system 101. The end user terminal 115 receives an execution command of the environment construction batch file 301 by the end user 114, and activates the environment construction unit 210 of the end user terminal 115. As shown in FIG. 3, the environment construction batch file 301 is included in the integrated package file 113.

In step S810, the environment construction unit 210 of the end user terminal 115 executes the preprocessing 303 of the environment construction batch file 301, and then starts the environment construction according to the contents of the package list 304. As shown in FIG. 7, the environment construction unit 210 may output the progress of the process in step S810 to the screen of the input / output device 221c of the end user terminal 115.

The environment construction unit 210 reads the packages 302 in the order described in the package list 304 of the environment construction batch file 301, acquires the necessary installation files 117 from the installation file DB 116 according to the installation file list 310, and shows each of them in FIG. The installation processes 311, 312, and 313 are executed in order. The environment construction unit 210 performs these processes for all the packages 302 included in the integrated package file 113.

After completing the introduction of all the packages, the environment construction unit 210 executes the post-processing 305 of the environment construction batch file 301. After that, the environment construction process is terminated.

FIG. 9 is a flowchart showing details of the process of step S805 of FIG. 8 and an example of data input. The software package management system proceeds to step S901 of FIG. 9 after performing the process of step S804 of FIG.

In step S901, the data analysis unit 204 of the package generation system 109 reads the tailored process data 104 input from the process data acquisition unit 203 and the data analysis script 911, and analyzes the tailored process data 104.

The data analysis script 911 is a script that describes the data analysis process of the tailored process data 104. The data analysis script 911 is created in advance by an administrator or the like according to the output format of the tailored process data 104.

The data analysis unit 204 analyzes the tailored process data 104, extracts the environment data 106 included in the tailored process data 104 for each roll, and creates the environment data 110 for each role.

As a result of the data analysis unit 204 extracting the environmental data included in the tailored process data 104, if the same environmental data is included more than once in one role, the duplicated environmental data is deleted.

After that, the data analysis unit 204 outputs the environment data 110 for each role to the integrated package file creation unit 205.

In step S902, the integrated package file creation unit 205 reads the environment data 110 for each role input from the data analysis unit 204 and the environment construction component list 912 acquired from the environment construction component DB 111, and obtains the necessary environment construction component 913. Identify and list. The environment construction component list 912 is a table listing the correspondence between the identification name of the environment data of the process management system 101 and the environment construction component 112 stored in the environment construction component DB 111. The necessary environment construction component 913 is a group of environment construction components acquired from the environment construction component DB 111 by the integrated package file creation unit 205. Specifically, the environment construction batch file 301 and the package 302 shown in FIG. 3 are included in the necessary environment construction component 913.

In step S903, the integrated package file creation unit 205 acquires a copy of the necessary environment construction component 913 specified in step S902 from the environment construction component DB 111.

In step S904, the integrated package file creation unit 205 creates the integrated package file 113 for each role included in the environment data 110 for each role.

The integrated package file creation unit 205 selects one role included in the environment data 110 for each role and creates an empty integrated package file 113. The integrated package file creation unit 205 duplicates the environment construction batch file 301 included in the necessary environment construction component 913 and incorporates it into the empty integrated package file 113.

The integrated package file creation unit 205 performs a package 302 creation process for each environment data associated with the selected role. The integrated package file creation unit 205 selects one of the environment data included in the selected role from the environment data 110 for each role, duplicates the package 302 corresponding to the selected environment data from the environment construction component 913, and prepares the package 302. Incorporate into the integrated package file 113. The integrated package file creation unit 205 reflects the parameter setting values in the parameter list 307 included in the package 302 according to the contents of the selected environment data.

Further, the integrated package file creation unit 205 deletes the unnecessary setting file 308 included in the package 302 according to the contents of the selected environment data. Further, the integrated package file creation unit 205 changes the file name of the required setting file 308 to a name that can be referred from the package definition file 306 according to a certain rule.

The integrated package file creation unit 205 adds the identifier of the created package 302 to the package list 304 of the environment construction batch file 301. When the metadata 309 of the package 302 describes the restrictions on the introduction order, the integrated package file creation unit 205 may change the order of description in the package list 304. The above is the package 302 creation process, which is repeated for each environment data associated with the selected role.

When the integrated package file creation unit 205 completes the creation of the package 302 corresponding to all the environmental data associated with the selected role, the integrated package file creation unit 205 completes the creation of the integrated package file 113 for the selected role. The above is the process of creating the integrated package file 113, which is repeated for each role included in the environment data 110 for each role.

After completing the creation of the integrated package file 113 for all the roles, the integrated package file creating unit 205 outputs the integrated package file 113 for each created role to the file transfer unit 206, and transitions to S806 in FIG.

According to this embodiment, the software package management system of the present invention generates the integrated package file 113 based on the process of the project, and constructs the environment necessary for executing the process on the end user terminal 115 according to the project and the role. It becomes possible.

As described above, the software package management system of the present embodiment can shorten the construction time of the working environment required for executing the process even when the process is changed by tailoring.

Further, in the above embodiment, the process management system 101 and the package generation system 109 are executed by different computers, but they may be executed by the same computer.

Further, in the above embodiment, although the end user terminal 115 is operated by the end user 114, it may be a computer that builds software. In this case, the integrated package file 113 creates an environment for the build computer. Further, instead of the end user terminal 115, a terminal for specific work may be used.

The second embodiment will be described with reference to FIGS. 10A and 10B. In the second embodiment, a case where the data structure of the process data managed by the process management system 101 is different from that of the first embodiment will be described. Since other configurations and processes are the same as those in the first embodiment, description thereof will be omitted.

In this embodiment, by expanding the range of the data structure of the process data that can be handled by the software package management system of the present invention, the user of the software package management system of the present invention can use the format more suitable for the needs of the organization. It is possible to build an environment of the end user terminal 115 according to the process while managing the process data.

FIG. 10A is a diagram showing the correspondence between the data structure of the tailored process data 104 and the environmental data 110 for each role in the first embodiment shown in FIG.

The process data 104 in Example 1 includes at least one or more activities 105. The activity 105 is associated with at least one or more roles related to the activity 105 and the environmental data of each role.

FIG. 10B is a diagram showing the correspondence between the data structure of the tailored process data 104 in the second embodiment and the environmental data for each role. The data structure of Example 2 is shown as process data 1001.

The process data 1001 in Example 2 includes at least one or more activities. The activity 1002 shows an example of the activity included in the process data 1001. Activity 1002 is assigned roles A and B. Further, only one environmental data 1003 (T3) is associated with the activity 1002.

In the case of FIG. 10B, the environment data 1003 is regarded as the environment data that defines the necessary environment for all the roles assigned to the activity 1002, for example.

In this case, when the data analysis unit 204 of the package generation system 109 analyzes the process data 1001, the administrator or the like as shown in FIG. 9 so that the environment data 1003 is associated with all the roles assigned to the activity 1002. Create a data analysis script 911.

The result of extracting the environment data for each role by the data analysis unit 204 of the package generation system 109 using the data analysis script 911 is as shown in the environment data 1004 for each role.

Although the second embodiment has described an example of variations in the process data structure, other process data structures can also be adopted.

According to this embodiment, the range of the data structure of the process data that can be handled by the software package management system of the present invention is expanded, and the user of the software package management system of the present invention can use the process data in a format more suitable for the needs of the organization. It is possible to build an environment for the end user terminal 115 according to the process while managing the above.

Example 3 will be described with reference to FIG. FIG. 11 is a flowchart showing an example of processing performed by the software package management system. In the first embodiment, in step S803 of FIG. 8, the data output unit 208 of the process management system 101 transmits the tailored process data 104 to the package generation system 109. In the third embodiment, a process in which the process data acquisition unit 203 of the package generation system 109 requests the process management unit 207 of the process management system 101 to output the tailored process data 104 will be described. Since other configurations and processes are the same as those in the first embodiment, description thereof will be omitted.

In this embodiment, when the process data acquisition unit 203 of the package generation system 109 fails to receive the tailored process data 104 from the process management system 101, the tailored process data 104 can be reacquired. Is.

Since steps S801 and S802 of FIG. 11 represent the same processing as steps S801 and S802 of FIG. 8 described in the first embodiment, the description thereof will be omitted. After the tailoring process is completed by the process of step S802, the package generation system 109 starts the package generation process in step S1101.

In step S1101, the process data acquisition unit 203 of the package generation system 109 is started by the operation of the input / output device 221b by the process manager 102 or the process management unit 207 of the process management system 101.

In step S1102, the process data acquisition unit 203 of the package generation system 109 receives the input of the data acquisition instruction and transmits the output request of the tailored process data 104 to the process management unit 207 of the process management system 101.

The data acquisition command is issued, for example, by the operation of the input / output device 221b of the process manager 102 or by the process management unit 207 of the process management system 101. The data acquisition instruction includes information that can identify the tailored process data 104 to be output (hereinafter, output data identification information). The output request includes the output data identification information included in the data acquisition instruction.

In step S1103, the process management unit 207 of the process management system 101 receives the output request of the tailored process data 104 by the package generation system 109, and outputs the tailored process data 104 to the data output unit 208.

The data output unit 208 converts the input tailored process data 104 into a specific output format and transmits it to the process data acquisition unit 203 of the package generation system 109. The output format of the process data 104 may be any format as long as the activity, role, and environment data are included in a state in which their associations are maintained. After that, the transition to S804 in FIG. 8 occurs.

In step S1104, the process data acquisition unit 203 of the package generation system 109 receives the tailored process data 104 transmitted from the data output unit 208 of the process management system 101, and the data analysis unit 204 receives the tailored process data 104. Is output.

The process data acquisition unit 203 determines whether or not the reception is successful (S1105), and if the reception fails, proceeds to step S1102 and transmits the output request of the tailored process data 104 again. If the process data acquisition unit 203 succeeds in receiving the data, the process data acquisition unit 203 ends the reception of the tailored process data 104.

The process data acquisition unit 203 transitions to S902 in FIG. 9 after the reception of the tailored process data 104 is completed by the process of step S1104.

According to this embodiment, even if the process data acquisition unit 203 of the package generation system 109 fails to receive the tailored process data 104 from the process management system 101, the tailored process data 104 can be reacquired.

Example 4 will be described with reference to FIG. FIG. 12 is a flowchart showing an example of processing performed by the software package management system.

In the first embodiment, in step S808 of FIG. 8, the data output unit 208 of the process management system 101 transmits the integrated package file 113 to the end user terminal 115. In the fourth embodiment, the process in which the environment construction unit 210 of the end user terminal 115 requests the process management unit 207 of the process management system 101 to output the integrated package file 113 will be described. Since other configurations and processes are the same as those in the first embodiment, duplicate description will be omitted.

In this embodiment, the end user terminal 115 expands the range of methods for acquiring the integrated package file 113 from the process management system 101, and the end user 114 simply activates the environment construction unit 210 of the end user terminal 115. This makes it possible to build an environment for the terminal 115.

Since step S810 in FIG. 12 represents the same processing as S810 in FIG. 8 described in the first embodiment, the description thereof will be omitted.

In step S1201, the end user terminal 115 accepts the start operation of the environment construction unit by the end user 114 and activates the environment construction unit 210.

In step S1202, the environment construction unit 210 of the end user terminal 115 accepts the input of the integrated package file designation information by the operation of the input / output device 221c of the end user 114.

The integrated package file specification information includes information that can identify the tailored process data 104 to be output and the identification name of the role of the end user 114 as information necessary for identifying the integrated package file 113 to be acquired. included.

The environment construction unit 210 of the end user terminal 115 transmits an output request of the integrated package file 113 to the process management unit 207 of the process management system 101. The output request includes the integrated package file specification information.

In step S1203, the process management unit 207 of the process management system 101 receives the output request of the integrated package file 113 from the environment construction unit 210 of the end user terminal 115, and the integrated package file specified in the output request from the process management DB 209. 113 is read and output to the data output unit 208. The data output unit 208 transmits the input integrated package file 113 to the environment construction unit 210 of the end user terminal 115.

In step S1204, the environment construction unit 210 of the end user terminal 115 receives the integrated package file 113 transmitted from the process management unit 207 of the process management system 101.

The environment construction unit 210 of the end user terminal 115 reads the integrated package file 113 and executes the environment construction batch file 301 included in the integrated package file 113. After that, the transition to S810 in FIG. 8 occurs.

According to this embodiment, the range of methods for the end user terminal 115 to acquire the integrated package file 113 from the process management system 101 is expanded, and the end user 114 simply starts the environment construction unit 210 of the end user terminal 115, and the end user It is possible to build the environment of the terminal 115.

<Conclusion>

As described above, the package generation system 109 of the above embodiment can have the following configuration.

(1) A package generation device (package generation system 109) having a processor (CPU 202a) and a memory (201a), and a process data acquisition unit (203) that receives process data (104) in which one or more roles are defined. , The data analysis unit (204) that extracts the environment data (106) for each role included in the process data (104), and the environment construction element (environment construction component 112) corresponding to the extracted environment data (106). ) Are combined for each role to generate one or more packages (302), an environment construction batch file (301) in which the execution order of the packages (302) is set is generated, and the package (302) and the environment construction are generated. A package generation device including an integrated package file generation unit (205) that generates an integrated package file (113) including a batch file (301).

With the above configuration, the package generation system 109 can generate the integrated package file 113 based on the project process, and can build the environment necessary for executing the process on the end user terminal 115 according to the project and the role. Become.

(2) In the package generation device according to (1) above, the process data acquisition unit (203) receives the tailored process data (104), and the data analysis unit (204) receives the tailored process data (104). A package generation device that executes a preset analysis process (data analysis script 911) corresponding to the tailored process data (104).

With the above configuration, the package generation system 109 can shorten the construction time of the working environment required for executing the process even if the process is changed by tailoring.

(3) In the package generator according to (1) above, the data analysis unit (204) performs the role defined for each one or more activities (105) included in the process data (104). The integrated package file generation unit (205) extracts and acquires the environment construction element (112) corresponding to the environment data (106) from the preset environment construction element list (environment construction component list 912). A featured package generator.

With the above configuration, the package generation system 109 can extract the environment data for each role from the process data to which the activity is connected and generate the environment data 110 for each role.

(4) In the package generation device according to (3) above, the integrated package file generation unit (205) is used to build an environment with a computer (end user terminal 115) that executes the activity (105). A package generator, characterized in that an installation file (installation file list 310) specifying a necessary installation file is added to the integrated package file (113).

With the above configuration, the end user terminal 115 that executes the activity according to the role can construct the working environment by executing the software described in the installation file list 310 of the integrated package file 113.

(5) A process management device (process management system 101) having a processor (202b) and a memory (201b) to output process data, and an integrated package file (113) having a processor (202a) and a memory (201a). ), And a terminal (end user terminal 115) having a processor (202c) and a memory (201c) and executing the integrated package file (113). In the system, the package generation device (109) has a process data acquisition unit (203) that receives the process data (104) in which one or more roles are defined from the process management device (101), and the process data. The roll includes a data analysis unit (204) that extracts environmental data (110) for each role included in (104), and an environment construction element (environment construction component 112) corresponding to the extracted environmental data (110). One or more packages (302) are generated by combining each of them, an environment construction batch file (301) in which the execution order of the packages (302) is set is generated, and the package (302) and the environment construction batch file (301) are generated. The integrated package file generation unit (205) that generates the integrated package file (113) including the above, and the process management device (101) is the integrated package file (113) generated by the package generation device (109). ) Is included in the process management unit (207) that manages each role, and the terminal (end user terminal 115) acquires the integrated package file (113) corresponding to the role and creates an environment construction batch file (301). ), A package management system characterized by having an environment construction unit (210) that executes processing according to).

With the above configuration, the package generation system 109 can generate the integrated package file 113 based on the project process, and can build the environment necessary for executing the process on the end user terminal 115 according to the project and the role. Become. As a result, even if the process changes due to tailoring, it is possible to shorten the construction time of the work environment required when executing the process on the end user terminal 115.

(6) In the package management system according to (5) above, the process data (104) acquisition unit receives the tailored process data (104), and the data analysis unit (204) receives the tailored process data (104). A package management system characterized by executing a preset analysis process (911) corresponding to the tailored process data (104).

With the above configuration, the package generation system 109 can shorten the construction time of the working environment required for executing the process even if the process is changed by tailoring.

(7) In the package management system according to (6) above, the process data acquisition unit (203) requests the process management unit (207) to transmit the tailored process data (104). A package management system characterized by

With the above configuration, the package generation system 109 can acquire the tailored process data 104 from the process management system 101 in response to a request from the process data acquisition unit 203.

(8) The package management system according to (5) above, characterized in that the environment construction unit (210) requests the process management unit (207) to transmit the integrated package file (113). Package management system.

With the above configuration, the environment construction unit 210 of the end user terminal 115 can acquire the integrated package file 113 according to the role.

The present invention is not limited to the above-described examples, and includes various modifications. For example, the above-described embodiment is described in detail in order to explain the present invention in an easy-to-understand manner, and is not necessarily limited to the one including all the configurations described. Further, it is possible to replace a part of the configuration of one embodiment with the configuration of another embodiment, and it is also possible to add the configuration of another embodiment to the configuration of one embodiment. Further, for a part of the configuration of each embodiment, any of addition, deletion, or replacement of other configurations can be applied alone or in combination.

Further, each of the above configurations, functions, processing units, processing means and the like may be realized by hardware by designing a part or all of them by, for example, an integrated circuit. Further, each of the above configurations, functions, and the like may be realized by software by the processor interpreting and executing a program that realizes each function. Information such as programs, tables, and files that realize each function can be stored in a memory, a hard disk, a recording device such as an SSD (Solid State Drive), or a recording medium such as an IC card, an SD card, or a DVD.

In addition, the control lines and information lines indicate those that are considered necessary for explanation, and do not necessarily indicate all the control lines and information lines in the product. In practice, it can be considered that almost all configurations are interconnected.

101 Process management system 103 Standard process 104 Tailored process data 105 Activity 106 Environmental data 107 Environment construction activity 108a to 108c Environment data 109 Package generation system 110 Environment data for each role 111 Environment construction component DB
112 Environment construction parts 113 Integrated package file 115 End user terminal 116 Installation file DB
117 Installation file 118 Tool environment 201a-201c Memory 202a-202c CPU
203 Process data acquisition unit 204 Data analysis unit 205 Integrated package file creation unit 206 File transfer unit 207 Process management unit 208 Data output unit 209 Process management DB
210 Environment Construction Department

Claims (10)

A package generator with a processor and memory
A process data acquisition unit that accepts process data for which one or more roles are defined, and
A data analysis unit that extracts environmental data for each role included in the process data,
The environment construction elements corresponding to the extracted environment data are combined for each role to generate one or more packages, an environment construction batch file in which the execution order of the packages is set is generated, and the package and the environment construction are generated. An integrated package file generator that generates an integrated package file including a batch file,
A package generator characterized by having. The package generator according to claim 1.
The process data acquisition unit
Accepting the tailored process data,
The data analysis unit
A package generator characterized by executing a preset analysis process corresponding to the tailored process data. The package generator according to claim 1.
The data analysis unit
The role defined for each one or more activities included in the process data is extracted.
The integrated package file generator
A package generation device characterized by acquiring environment construction elements corresponding to the environment data from a preset environment construction element list. The package generator according to claim 3.
The integrated package file generator
A package generator that adds an installation file list that specifies installation files required to build an environment on a computer that executes the activity to the integrated package file. A process management device that has a processor and memory and outputs process data,
A package generator that has a processor and memory to generate an integrated package file,
A package management system having a processor, a memory, and a terminal for executing the integrated package file.
The package generator
A process data acquisition unit that receives the process data in which one or more roles are defined from the process management device, and a process data acquisition unit.
A data analysis unit that extracts environmental data for each role included in the process data,
The environment construction elements corresponding to the extracted environment data are combined for each role to generate one or more packages, an environment construction batch file in which the execution order of the packages is set is generated, and the package and the environment construction are generated. An integrated package file generator that generates the integrated package file including a batch file,
Have,
The process management device is
It has a process management unit that manages the integrated package file generated by the package generator for each role.
The terminal
A package management system comprising an environment construction unit that acquires the integrated package file according to the role and executes processing according to the environment construction batch file. The package management system according to claim 5.
The process data acquisition unit
Accepting the tailored process data,
The data analysis unit
A package management system characterized by executing a preset analysis process corresponding to the tailored process data. The package management system according to claim 6.
The process data acquisition unit
A package management system comprising requesting the process management unit to transmit the tailored process data. The package management system according to claim 5.
The environment construction department
A package management system characterized in that the process management unit is requested to send the integrated package file. A package generation method that generates a package on a computer that has a processor and memory.
A process data acquisition step in which the computer accepts process data in which one or more roles are defined, and
A data analysis step in which the computer extracts environmental data for each role included in the process data.
The computer combines the environment construction elements corresponding to the extracted environment data for each role to generate one or more packages, generates an environment construction batch file in which the execution order of the packages is set, and generates the package. And the integrated package file generation step to generate the integrated package file including the environment construction batch file,
A package generation method characterized by including. The package generation method according to claim 9.
The process data acquisition step is
Accepting the tailored process data,
The data analysis step
A package generation method characterized by executing a preset analysis process corresponding to the tailored process data.

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