JP7085311B2 - Information processing equipment, information processing system, information processing method, information processing program - Google Patents

Description

The present invention relates to an information processing apparatus, an information processing system, an information processing method, and an information processing program.

Conventionally, a system that emulates an application on a network such as the Internet is known (see, for example, Patent Document 1).
The system described in Patent Document 1 is a system including a server computer (server) and a client. In this system, when the server receives a request from the client to start an application emulation session, the emulation server application determines the model of the emulated computer device specified by the client and provides an interface that includes a customized device interface. Generate and reply to the client. When the server receives an input command from the client, it provides it to the application in the wrapper, captures the execution content (media stream) of the application from the wrapper, and sends it to the client so that it can be displayed with a customized device interface. ..
As a result, for example, a client that executes various programs on a first operating system (for example, iOS®) can remotely transfer various programs of a second operating system (for example, Android®) executed on a server. It is possible to operate and execute it and display the result on the client.

Japanese Unexamined Patent Publication No. 2016-48561

By the way, for example, at a development site where an application program is developed, a program that can be executed by an operating system (hereinafter abbreviated as OS) that executes the application is developed. At this time, usually, it is often the case that an application program that can be executed by the latest version of the OS currently released is developed, and it becomes difficult to compare with the old OS released before that. For example, in the system described in Patent Document 1, in order to confirm the operation result of the application program on the latest version OS and the old version OS, the server is made to execute the application program on the latest version OS. After displaying the operation result on the client, it is necessary to switch the OS emulated on the server to the old version OS and execute the application program again to display the operation result on the client.

An object of the present invention is to provide an information processing device, an information processing system, an information processing method, and an information processing program that can easily confirm the emulation results in a plurality of operating systems.

The information processing device of the present invention is an information processing device that is communicably connected to a terminal device, and has an execution unit that reads an emulation program that emulates an operating system and deploys it in each of a plurality of work areas of the storage unit. A result transmission unit for transmitting emulation results in at least two or more work areas to the terminal device.

In the present invention, the operating system is deployed in each of a plurality of work areas. Then, at least two or more emulation results in these operating systems are transmitted to the terminal device. This makes it possible to easily confirm the emulation results of a plurality of operating systems in the terminal device.

The block diagram which shows the schematic structure of the information processing system including the server apparatus which is an information processing apparatus of this invention. The block diagram which shows the schematic structure of the server apparatus of this embodiment. The block diagram which shows the schematic structure of the terminal apparatus of this embodiment. The flowchart which shows the processing of the terminal apparatus in the information processing method of this embodiment. The flowchart which shows the processing of the server apparatus in the information processing method of this embodiment. The figure which shows an example of the guidance content of this embodiment. The figure which shows the display example of the emulation result of the simultaneous display format in this embodiment. The figure which shows the display example of the emulation result of the switching display format in this embodiment. The figure which shows the display example of the emulation result of the multi-tab display format in this embodiment. The figure which shows the display example of the emulation result of the Apr concurrency execution mode in this embodiment.

Hereinafter, an information processing apparatus according to an embodiment of the present invention will be described.
FIG. 1 is a block diagram showing a schematic configuration of an information processing system 1 including a server device 10 which is an information processing device of the present invention.
As shown in FIG. 1, the information processing system 1 is constructed by a server device 10 and a plurality of terminal devices 20 that are communicably connected to the server device 10 via a network (for example, the Internet or the like).

In the information processing system 1, the server device 10 emulates a plurality of operating systems based on the command information transmitted from the terminal device 20, and transmits the emulation result of each operating system to the terminal device 20. In this embodiment, an example in which the server device 10 receives information specifying a plurality of operating systems from the terminal device 20 and emulates the operating system will be described.

[Configuration of server device 10]
FIG. 2 is a block diagram showing a schematic configuration of the server device 10 of the present embodiment.
The server device 10 of the present embodiment is composed of a computer, and includes a communication unit 11, a storage unit 12, a control unit 13, and the like.
The communication unit 11 is connected to the network and communicates with the terminal device 20 and other devices on the network via the network.

The storage unit 12 is an information recording device (secondary storage device) composed of, for example, a memory, a hard disk, or the like. The storage unit 12 records an operating system (hereinafter abbreviated as OS) for controlling the server device 10, an application program (hereinafter abbreviated as Apr), and various information. In this embodiment, an example in which each emulation program, each Apr, and various information are stored in the storage unit 12 of the server device 10 is shown, but the present invention is not limited to this, and the server device 10 is communicably connected to the storage unit 12. These various programs and various information may be recorded in the data server.
Here, in the following description, the OS that controls the server device 10 will be referred to as the main OS, and each emulated OS will be referred to as the sub OS.

The application program (Appr) in the present embodiment is software that executes a predetermined process on the OS, and includes a set of programs for realizing a predetermined function and basic software incorporated in the OS. That is, for example, a program that operates the server device 10 according to an input key such as a command for moving a cursor indicating a position in a display area or a command for transmitting / receiving information via the Internet is also included in the application program according to the present embodiment. include.
Further, the Apr stored in the storage unit 12 also includes the information processing program according to the present invention. This information processing program is at least a program that can be executed on the main OS (that is, functions by using the API or ABI provided by the main OS).

This Apr includes an emulation program. A plurality of emulation programs are stored corresponding to a plurality of types of sub-OSs, sub-OSs of different versions, and the like. Each of these emulation programs includes a wrapper program, a capture program, and the like, in addition to the sub-OS to be emulated.

The wrapper program passes or extends data between the main OS and the sub OS. For example, information based on command information received by the main OS via a network is converted or expanded into information that can be processed by the secondary OS and output to the secondary OS, and the information input from the secondary OS is sent to the main OS. Converts or expands to processable information and outputs it.
The capture program captures the emulation result of the emulated secondary OS. That is, the capture program captures the video signal (including video and audio) output by the secondary OS and the video signal output by Apr executed on the secondary OS.

In addition, user management information is stored in the storage unit 12. The user management information includes, for example, a user ID, an OS history, a shared user ID, and the like.
The user ID is information that identifies the user who has instructed the server device 10 to emulate the sub OS.
The OS history is the past emulation execution history of the user identified by the user ID. The OS history may include Apr executed on the emulated sub-OS.
The shared user ID is information that identifies a user who shares a secondary OS emulated by the server device 10 by the user identified by the user ID.
As the user management information, the execution OS information regarding the secondary OS currently emulated by the user identified by the user ID in the server device 10 and the execution Apr information regarding the Apr executed on the secondary OS are recorded. You may be.

Further, the storage unit 12 is provided with a work area 12 _i (work area 12 ₁ , 12 ₂ ... 12 _N ) for emulating the sub OS. These work areas 12 _i are composed of, for example, a virtual storage area (virtual memory) allocated to the sub storage device of the storage unit 12 by the main OS. In this embodiment, one sub-OS is emulated for each work area _12i .

The control unit 13 is composed of an arithmetic circuit such as a CPU (Central Processing Unit) and a storage circuit such as a RAM (Random Access Memory). The control unit 13 expands the program stored in the storage unit 12 or the like into the RAM, and executes various processes in cooperation with the program expanded in the RAM. Then, the control unit 13 reads and executes the information processing program stored in the storage unit 12, and as shown in FIG. 2, the command acquisition unit 131, the user management unit 132, the emulation execution unit 133, and the capture unit 134. , And as a result transmitter 135.

The command acquisition unit 131 acquires command information from the terminal device 20. Examples of this command information include OS command information that specifies a sub OS to be emulated, application command information (Apr command information) that specifies an Apr to be executed on the sub OS, and the like.
The user management unit 132 manages the user who has ordered the emulation of the sub OS and the user who sends the emulation result, and updates the user management information.

The emulation execution unit 133 reads out the emulation program stored in the storage unit 12, expands it into a plurality of work areas _12i in the storage unit 12, and emulates the sub-OS. The sub-OS emulated in each work area _12i may be a sub-OS of a different type, a sub-OS of the same type but different versions, or the same sub-OS. .. The number of sub-OSs is set, for example, based on the command information transmitted from the terminal device 20. For example, when it is recorded in the OS command information received as the command information that the _three sub OSs are emulated, the emulation execution unit 133 secures the work areas 12 ₁ to 123 in the storage unit 12. Emulate a secondary OS in _each of the work areas 12 ₁ to 123.
Further, the emulation execution unit 133 executes, for example, an Apr specified by the user on the emulated sub-OS.

The capture unit 134 is functioned by the capture program included in the emulation program, and captures the emulated video signal (emulation result) of the sub-OS.

The result transmission unit 135 transmits the emulation result captured by the capture unit 134 to the terminal device 20. At this time, the result transmission unit 135 identifies the terminal device 20 to which the emulation result is transmitted based on the user management information, and transmits the emulation result to the terminal device 20. Further, when the emulation result is displayed on the terminal device 20, the result transmission unit 135 transmits display condition information or the like that defines the display method.

[Configuration of terminal device 20]
FIG. 3 is a block diagram showing a schematic configuration of the terminal device 20.
As described above, the terminal device 20 is a computer owned by the user, and is composed of, for example, a smartphone, a tablet terminal, a personal computer, or the like. As shown in FIG. 3, the terminal device 20 includes, for example, a display unit 21, an input operation unit 22, a terminal communication unit 23, a terminal storage unit 24, a terminal control unit 25, and the like.
The display unit 21 is composed of, for example, a liquid crystal display or the like, and displays a predetermined image under the control of the terminal control unit 25.
The input operation unit 22 may be configured by, for example, a touch panel integrally provided with the display unit 21, or may be configured by an input device such as a keyboard or a mouse. The input operation unit 22 outputs an operation signal corresponding to the operation to the terminal control unit 25 by being operated by the user.
The terminal communication unit 23 communicates with the server device 10 and a predetermined device on the network.

The terminal storage unit 24 is composed of a data recording device such as a memory or a hard disk. Various programs for controlling the terminal device 20 and the like are stored in the terminal storage unit 24.

The terminal control unit 25 is composed of an arithmetic circuit such as a CPU (Central Processing Unit) and a storage circuit such as a RAM (Random Access Memory), and controls each part of the terminal device 20. The terminal control unit 25 expands the program (software) stored in the terminal storage unit 24 or the like into the RAM, and executes various processes in cooperation with the program expanded in the RAM. Specifically, the terminal control unit 25 functions as a request acquisition unit 251, a command transmission unit 252, a result reception unit 253, and a display control unit 254 by reading and executing the above program.

The request acquisition unit 251 acquires various information based on the operation signal input by the operation of the user's input operation unit 22. Examples of various information include information for designating an OS and Apr, information for designating a display format, and the like.
The command transmission unit 252 generates OS command information regarding the sub OS to be emulated by the server device 10 and Apr command information regarding Apr to be executed on the sub OS based on various information acquired by the request acquisition unit 251. , Sent to the server device 10.

The result receiving unit 253 receives the emulation result transmitted from the server device 10.
The display control unit 254 controls the display of the display unit 21. For example, the display control unit 254 displays the received emulation result in the display area of the display unit 21.
Further, when the display condition information for specifying the display condition of the emulation result is received at the same time as the emulation result, the display control unit 254 displays the emulation result according to the display condition. For example, the emulation results in a plurality of sub OSs are arranged in parallel in the display area of the display unit 21 and displayed, or the displayed emulation results are switched according to the operation of the input operation unit 22.

[Operation of information processing system]
Next, the information processing method in the information processing system 1 in the present embodiment will be described.
4 and 5 are flowcharts showing the information processing method in the present embodiment, FIG. 4 shows processing in the terminal device 20, and FIG. 5 shows processing in the server device 10.

(Initial setting in emulation processing)
In the information processing system 1 of the present embodiment, when the user operates the terminal device 20 and accesses the server device 10, the server device 10 transmits the guidance content for guiding the OS emulation to the terminal device 20. This guidance content is content that can be viewed and operated by executing Apr such as a browser on the terminal device 20. When the terminal device 20 receives the guidance content, the terminal device 20 displays the guidance content on the display unit 21 and prompts the user to select an OS, a version, a display format, and the like (step S101).

FIG. 6 is a diagram showing an example of the guidance content 30.
As shown in FIG. 6, the guidance content 30 includes an OS designation unit 31, a display format designation unit 32, a shared user designation unit 33, an interlocking designation unit 34, a decision button 35, and the like.
The OS designation unit 31 is a portion for selecting an OS (secondary OS) to be emulated, and includes an OS selection field 31A, a version selection field 31B, and the like.
The OS selection field 31A is a part for selecting an OS, and for example, a list of OSs that can be selected by selecting (clicking) a button is displayed (so-called pull-down type). When the user operates the input operation unit 22 to select any of the listed OSs, that OS is selected as the emulation target.
As shown in FIG. 6, a plurality of OS selection fields 31A are provided in the OS designation unit 31, and it is possible to select different types of OS in each OS selection field 31A.

The version selection field 31B is arranged in the vicinity of the OS selection field 31A (for example, directly under the OS selection field 31A). The version selection field 31B is a portion where the version of the selected OS is displayed when the user selects an OS for the OS selection field 31A. In this version selection field 31B, for example, a selectable version is displayed in a list format. Then, by operating the input operation unit 22 by the user, it is possible to select a plurality of versions to be emulated from the OSs displayed in the list.

The display format designation unit 32 is a portion that specifies a display method of the emulation result, and it is possible to select one from a plurality of display formats. Examples of the display format that can be selected include "simultaneous display format", "switching display format", and "multiple tab format".
Here, the simultaneous display format is a format in which a plurality of emulation results are displayed side by side in the same display area. Further, the switching display format is a format in which the emulation result is switched and displayed by accepting a predetermined operation from the input operation unit 22. The multi-tab format is a format in which a plurality of emulation results are displayed in different areas (different windows) or different tabs.

The shared user designation unit 33 is an input field for selecting or inputting a user ID for transmitting the emulation result.

The interlocking designation unit 34 is an input field for designating whether or not each emulated OS is interlocked. For example, in the present embodiment, it is possible to specify "with interlocking" and "without interlocking", and in the case of "with interlocking", the OS to be further interlocked can be selected.
Further, in the case of "no interlocking", "Apr independent execution mode" and "Apr simultaneous execution mode" can be selected. The "Apr independent execution mode" is a mode in which when the user commands the execution of Apr to the secondary OS, the server device 10 is immediately transmitted to the Apr command information, and the result is reflected in the emulation result. On the other hand, the "Apr simultaneous execution mode" is a mode in which the execution of Apr for a plurality of sub OSs is collectively transmitted to the server device 10, and the Aprils are simultaneously executed by the plurality of sub OSs.

The decision button 35 is selected by the user after the user's input operation to the OS designation unit 31 and the display format designation unit 32 is completed. When the decision button 35 is selected, the OS to be emulated and the display format are determined.
As the guidance content 30, the initial value of each item may be selected in advance based on, for example, user management information. In this case, the server device 10 acquires the user ID when there is an access from the terminal device 20, and the sub OS emulated last time based on the OS history recorded in the user management information corresponding to the user ID. And its version, etc. Then, the server device 10 may transmit the guidance content 30 to the terminal device 20 with the sub-OS, version, display format, and the like selected.
Further, the guidance content shown in FIG. 6 is an example, and is not limited to this. For example, the screen configuration may be such that OS and version information can be input by text input, and the OS designation unit 31, the display format designation unit 32, the shared user designation unit 33, and the interlocking designation unit 34 are sequentially provided as independent guidance contents. It may specify a setting item.

After step S101, when the user inputs the OS designation unit 31 and the display format designation unit 32 and the enter button 35 is selected, the request acquisition unit 251 of the terminal device 20 is an OS including the selected OS and version. The command information including the command information and the display command information for specifying the display format is generated and transmitted to the server device 10 together with the user ID (step S102).

(OS emulation process)
On the other hand, in the server device 10, the command acquisition unit 131 acquires (receives) the command information transmitted from the terminal device 20 (step S201).
Then, the user management unit 132 extracts the corresponding user management information based on the user ID received together with the command information in step S201, and records the shared user ID recorded in the command information. That is, the user management unit 132 updates the user management information based on the obtained command information (step S202).

Next, the emulation execution unit 133 reads the emulation program corresponding to the sub-OS to be emulated from the storage unit 12 and executes it based on the OS command information included in the command information (step S203). As a result, the sub-OS designated in the work area _12i of the storage unit 12 is expanded and started.
For example, when the version 1.0 of the "A" OS and the version 3.0 of the "B" OS are selected as the OS information, the emulation execution unit 133 has the work area 12 ₁ and the work area 12 1 in the storage unit 12. The area ₁₂₂ is secured. Then, the "A" OS is expanded and emulated in the work area 12 ₁ , and the "B" OS is expanded and emulated in the work area 12 ₂ .

Although the above are OSs of different types, OSs of the same type but different versions may be deployed in each work area _12i . For example, when the version 1.0 of the "A" OS and the version 2.0 of the "A" OS are selected as the OS information, the emulation execution unit 133 displays the version of the "A" OS in the work area ₁₂₁ . Expand and emulate 1.0, and expand and emulate version _2.0 of the "A" OS in the work area 122.
Further, the emulation execution unit 133 may emulate a plurality of OSs of the same type and the same version. For example, version 3.0 of the “A” OS may be expanded and emulated for each of the plurality of work areas 12 _i .
Here, it is preferable that the emulation execution unit 133 simultaneously starts the sub OS in each work area _12i . That is, the emulation processing in each work area _12i is performed by parallel processing.

Further, in this step S203, the user management unit 132 associates the user with the sub-OS emulated in each work area _12i and records them in the user management information. As a result, the plurality of work areas _12i are associated with each user.

Then, the capture unit 134 captures the video signal (emulation result) output from each sub-OS emulated in step S203 (step S204). Further, the capture unit 134 compares the resolutions of the emulation results output from each sub-OS, and if the resolutions are different, performs image processing to make the resolutions of the respective emulation results uniform (for example, the emulation result having the highest resolution). Align with).

After that, the result transmission unit 135 identifies the user (command source user and shared user) to which the captured emulation result is transmitted based on the user management information, and transmits the emulation result to the corresponding terminal device 20. (Step S205).
The emulation result in the present embodiment is a moving image acquired by the capture unit 134 at a predetermined frame rate, and the images of the emulation result processed in step S203 are sequentially captured in step S204 and sequentially transmitted in step S205. To. That is, in step S205, the result transmission unit 135 transmits each emulation result in the terminal device 20 so that it can be streamed and reproduced.

Further, in step S205, the result transmission unit 135 generates display condition information in which the display format of each emulation result is specified based on the display format specification information included in the command information, and transmits the emulation result together with the display condition information. If the display format specification information includes "multiple tab display format", the result display content including the emulation result is generated and transmitted.

For example, when the "simultaneous display format" is specified as the display format specification information, the result transmission unit 135 generates display condition information including the display position coordinates of each emulation result.
That is, in the "simultaneous display format", in order to display a plurality of emulation results in parallel in the same display area (for example, in the display area of the browser), the display position coordinates of each emulation result in the display area are specified. Generate display condition information.

Further, when the "switching display format" is specified as the display format specification information, the result transmission unit 135 receives input of a predetermined operation signal in addition to the position coordinates indicating the display positions of a plurality of emulation results. , Generates display condition information including switching timing information for switching the emulation result to be displayed in the display area.
Here, it is preferable that the display position of each emulation result is the same position in the display area. For example, when the emulation result of the "A" OS is displayed in (x1, y1) to (x2, y2) at the (x, y) coordinates, the emulation result of the "B" OS is also (x1, y1) to (x2). , Y2), the display position coordinates are set, and the image size of each emulation result is adjusted.

When "multiple tab display format" is specified as the display format specification information, the result transmission unit 135 generates the result display content in which the emulation result is displayed at a predetermined display position according to each emulation result. It is transmitted to the terminal device 20. At this time, as in the switching display format, it is preferable that the display position of each emulation result is the same position in the display area.

In addition to this, the result transmission unit 135 further transmits each emulation result, an emulation ID for identifying the emulation result, information about the user who ordered the emulation process, and information about the shared user. As the information about the user who ordered the emulation process and the information about the shared user, for example, a user ID, a user name associated with the user ID, identification information of the terminal device 20 (for example, an IP address, etc.) and the like can be exemplified. Further, the emulation ID is information for identifying in which work area 12 _i the emulation result is the emulation result of the sub OS emulated.
Further, when the "Apr simultaneous execution mode" is selected in the interlocking designation unit 34 as the display command information, the result transmission unit 135 displays the information (execution icon) to display the Apr execution icon that specifies the execution timing of the Apr. Display information) is sent.

When the terminal device 20 receives the emulation result transmitted in step S204 by the result receiving unit 253 (step S103), the display control unit 254 displays the emulation result in a display area such as a browser (step S104).
In step S104, the display control unit 254 performs display based on the display condition information transmitted together with the emulation result.
FIG. 7 is a display example of the emulation result displayed in the simultaneous display format, FIG. 8 is a display example of the emulation result displayed in the switching display format, and FIG. 9 is a table of the emulation result displayed in the multi-tab display format. It is an example.

In the display in the simultaneous display format, the display position coordinates of each emulation result 41 are recorded as display condition information.
In this case, as shown in FIG. 7, for example, the display control unit 254 performs parallel display in which the emulation results 41 are arranged in the horizontal direction (X direction) in the display area 40 based on the display position coordinates. Not limited to the example of FIG. 7, each emulation result 41 may be displayed side by side in the vertical direction (Y direction) based on the display position coordinates.

Further, it is preferable that the display control unit 254 displays the display OS information 42 (for example, the OS name and version) regarding the sub-OS emulated in the vicinity of each emulation result 41. As shown in FIG. 7, the display position of the display OS information 42 may be below or above each emulation result 41. Further, the display OS information 42 may be displayed by superimposing it on each emulation result 41.
Further, each emulation result 41 is captured at the same resolution, or is image-processed so as to have the same resolution as the capture unit 134. Therefore, the image size (aspect ratio) in each emulation result 41 is the same. As a result, the user can easily see the difference between the emulation results 41.

Further, the display control unit 254 may display the command source user information 44 regarding the user who has ordered the emulation and the shared user information 45 indicating the shared user in the display area 40.

On the other hand, when the switching display format is selected, the switching timing information is included as the display condition information in addition to the display position coordinates of each emulation result 41.
In this case, as shown in FIG. 8A, the display control unit 254 displays one (or a predetermined number) emulation result 41A at the coordinate position based on the display position coordinates in the display area 40. Then, when a predetermined operation key is input by the operation of the user's input operation unit 22, the display control unit 254 switches the display to the emulation result 41B as shown in FIG. 8 (B). At this time, the next emulation result 41B is displayed at the same position as the previously displayed emulation result 41A. As a result, when the emulation result 41A is switched to the emulation result 41B, the user can easily visually recognize which position is different.
Further, as in the simultaneous display format, the display control unit 254 may display the display OS information 42, the command source user information 44, and the shared user information 45 indicating the shared user in the display area 40.
The example shown in FIG. 8 is a display example on a display display having a relatively large screen size connected to a PC (personal computer) or the like, but for example, on a display display having a small screen size such as a smartphone, the emulation result is obtained. 41A and 41B may be displayed in full screen.

Further, when the plurality of tab display formats are selected, a plurality of result display contents corresponding to each emulation result 41 (41A, 41B) are transmitted from the server device 10. Therefore, the display control unit 254 individually displays each received result display content.
At this time, as shown in FIG. 9, when a browser (so-called tab browser or the like) that can switch the display content to be displayed in the display area 40 by selecting tabs T1 to T3 is used in the terminal device 20, respectively. The result display content can be switched by switching tabs.
For example, as shown in FIG. 9A, when the tab T1 is selected, the result display content in which the emulation result 41A is arranged is displayed at a predetermined position in the display area 40. Then, for example, when tab T2 is selected by the operation of the user's input operation unit 22, the result display content in which the emulation result 41B is arranged at the same display position is displayed as shown in FIG. 9B. .. In this case, by switching the tabs, it is possible to switch and display a plurality of emulation results at the same position as in the above switching display format.
Further, as in the simultaneous display format, the display control unit 254 may display the display OS information 42, the command source user information 44, and the shared user information 45 indicating the shared user in the display area 40.
In addition, although the example of FIG. 9 is a display example in a tab browser, after displaying each result display content in a plurality of windows, these windows may be displayed in an overlapping manner or displayed in parallel. You may.

Further, FIG. 10 is an example of displaying the emulation result in the Apr simultaneous execution mode when the execution icon display information is transmitted in step S204.
When the display command information for selecting the Pr simultaneous execution mode is transmitted from the terminal device 20 to the server device 10 in step S102, the server device 10 transmits the execution icon display information to the terminal device 20 as described above. do.
In this case, the display control unit 254 of the terminal device 20 further displays the execution icon 46 as shown in FIG. The execution icon 46 is an icon for instructing the start of execution of Apr. That is, the user selects the execution icon 46 after performing an operation of instructing the execution of Apr to one or more of the emulation results 41. As a result, the terminal device 20 collectively transmits the execution command of Apr for each emulation result 41 input by the user to the server device 10.
The example shown in FIG. 10 is a display example in the "simultaneous display format", but the execution icon 46 may be displayed in the same manner in other display formats.

(Apr emulation process)
Next, the terminal device 20 determines whether or not the execution icon display information has been received (step S105). In step S105, if it is determined as No, it means that it is in the Apr independent execution mode, and if it is determined as Yes, it means that it is in the Apr simultaneous execution mode.

If No is determined in step S105, the terminal device 20 determines whether or not the operation for each emulation result 41 is accepted (whether or not the execution command of Apr is accepted) by the operation of the input operation unit 22 of the user. Determination (step S106). That is, the request acquisition unit 251 acquires request information to the effect that a predetermined Apr is executed for each emulation result 41 displayed in the display area 40.
On the other hand, when it is determined Yes in step S105, the terminal device 20 determines whether or not the operation for each emulation result 41 is accepted and the execution icon 46 is selected by the operation of the user's input operation unit 22. Determination (step S107).

In the present invention, as described above, the Apr includes a basic program possessed by the OS (secondary OS). For example, in an OS that controls a smartphone, tablet terminal, etc. (for example, Android), the displayed content is changed by performing an operation (so-called flick operation) in which a finger touching the display screen (touch panel) is moved in a predetermined direction. Have a basic program to let. In this case, the user performs a flick operation or a pseudo flick operation using an input device such as a mouse on the emulation result displayed in the display area 40. As a result, the request acquisition unit 251 receives the request information requesting the execution of the basic program.

Then, when it is determined Yes in step S106 or step S107, the command transmission unit 252 transmits the command information including the Apr command information for commanding the execution of Apr to the server device 10 (step S108).
When it is determined Yes in step S106, when an operation for requesting execution of Apr is input to one emulation result 41 (41A, 41B), the command transmission unit 252 immediately causes the Apr command information. Is transmitted to the server device 10. This Apr command information is information for instructing the execution of Apr on any one of the plurality of emulated sub-OSs.
On the other hand, when it is determined Yes in step S107, an operation for requesting execution of Apr is input to at least one emulation result 41 (or emulation result 41A or emulation result 41B), and then a user input operation. When the execution icon 46 is selected by, the Apr command information is transmitted to the server device 10. In this case, there may be a plurality of targets (emulation result 41) of the execution command of Apr. Further, a plurality of Apr execution commands may be input for one emulation result.

Further, the command transmission unit 252 transmits the emulation ID corresponding to the emulation result 41 in which the execution request of the Apr is input and the user ID together with the Apr command information.

When the server device 10 receives the command information transmitted in step S108 (step S206), the emulation execution unit 133 determines whether or not there are a plurality of received Apr command information (step S207).
If it is determined to be Yes in step S207, it is generated when the terminal device 20 accepts execution requests for a plurality of Aprs and the execution icon 46 is selected (generated when it is determined to be Yes in step S107). This is the Apr command information. In this case, the emulation execution unit 133 specifies a plurality of sub-OSs (work areas 12 _i ) to be executed by Apr as the execution target area based on the emulation ID received together with the Apr command information in step S108. Further, the emulation execution unit 133 specifies each Apr to be executed in each execution target area based on the Apr command information (step S208). That is, the emulation execution unit 133 distributes a plurality of _Aprs to sub-OSs expanded in different work areas 12i.
Even in the Apr simultaneous execution mode, if only the Apr command information for one emulation result is received, it is determined as No in step S207.

When No is determined in step S207, the terminal device 20 determines whether or not the interlocking designation included in the command information received in step S201 is "with interlocking" (step S209).
When it is determined Yes in step S209 (that is, when there is interlocking), the sub-OS selected as the interlocking target included in the command information received in step S201 corresponds to the emulation ID received in step S206. It is determined whether or not there is a secondary OS (step S210). That is, it is determined whether or not the sub-OS to be executed by Apr is the OS to be linked.
If Yes is determined in step S210, each work area _12i in which each sub-OS corresponding to the interlocking target is executed is specified as an execution target area of Apr, and an Apr to be executed based on the Apr command information is specified. Specify (step S211).
Further, when No is determined in step S209 or step S210 (that is, when the sub OS to be executed by Apr is not the OS to be linked), one sub OS corresponding to the emulation ID received in step S206 (that is, that is). , The work area 12 _i ) is specified as the execution target area, and the Apr to be executed is specified based on the Apr command information (step S212).

After that, the emulation execution unit 133 executes the specified Apr on the sub-OS emulated in the execution target area specified in any one of step S208, step S211, and step S212 (step S213). .. At this time, when there are a plurality of execution target areas of Apr, the emulation execution unit 133 causes Apr to be executed (parallel processing) at the same time for these plurality of execution target areas. For example, when the information that commands the execution of Apr on any one of a plurality of emulated sub-OSs is received as the Appr command information, and the specified sub-OS corresponds to the interlocking target. In the case of a sub-OS to be linked, all the sub-OSs to be interlocked are made to execute the specified Apr at the same time.
Further, when the Apr command information for individually instructing the execution of Apr to each of the plurality of sub OSs is received, the corresponding Apr is executed in each sub OS. In this case as well, each sub OS is executed. Make the execution timing of Apr in the same.
Then, as in step S204, the capture unit 134 captures the video signal (emulation result) output from each sub-OS emulated in step S213 (step S214), and the terminal device 20 receives the same as in step S205. In response to this, the captured emulation result is transmitted (step S215). In this case, the user who ordered the emulation process is the user corresponding to the terminal device 20 that transmitted the Apr command information.

When the terminal device 20 receives the emulation result transmitted in step S215 (step S109), the display control unit 254 displays the received emulation result in the display area 40 (step S110) as in step S104. That is, the emulation result displayed in the display area 40 is updated. At this time, the command source user is updated to the user of the terminal device 20 that has transmitted the Apr command information.
By the above processing, if there are multiple OSs to be linked, the emulation result 41 of these OSs is updated at the same time, and if it is not the target of the linked OS or if there is no linked OS, one OS. Only the emulation result 41 of is updated. Further, when the Apr simultaneous execution mode is selected, the emulation result 41 when different Aprs are started is simultaneously updated for the plurality of emulation results 41.
Further, in the present embodiment, as described above, each emulation result 41 is displayed at the same resolution. Therefore, the Apr processing operation in the emulation result 41 instructing the execution of the Apr and the Apr processing operation in the emulation result 41 corresponding to the linked OS are displayed at the same resolution. For example, the transition speed of the screen when the screen is flicked is faithfully reproduced in each emulation result 41.
Further, in the present embodiment, the display control unit 254 displays the emulation result transmitted from the server device 10 by streaming reproduction. Therefore, the execution status of Apr in each OS is updated in real time.
As described above, the user can easily compare and confirm not only the execution result of Apr in each OS but also the execution speed and the like.

After step S110, or when it is determined as No in step S106 or step S107, the terminal device 20 determines whether or not to continue the emulation process (step S111). When No is determined in step S111, for example, when the user selects "close the session" by operating the input operation unit 22, the reception of the emulation result is terminated. If Yes is determined in step S111, the process returns to step S105.

Further, when the terminal device 20 sends a command to end the process, the server device 10 terminates the sub-OS emulated by the user, terminates the emulation process, and secures the work area. 12 _i is released. The setting contents of each OS at the time of termination may be stored in the storage unit 12 in association with the user ID (for example, the user ID of the user who ordered the emulation of the OS). In this case, the next time the user emulates the OS, the previous settings can be read and the previous work can be continued.
Further, when a command to end the process is transmitted from the terminal device 20, if the user of the terminal device 20 is the user who ordered the emulation process of the sub OS, the emulation process is terminated as described above. You may let me. In this case, if the user of the terminal device 20 is not the user who ordered the emulation process of the sub OS, the user is excluded from the shared user. Therefore, the terminal device 20 of another shared user (a user who has not transmitted a command to end the process) continues to display the emulation result 41.

(Action and effect of this embodiment)
In the server device 10 of the present embodiment, the emulation execution unit 133 reads an emulation program and deploys it in a plurality of work areas 12 _i , thereby emulating an OS in each of the work areas 12 _i , and at least two or more. The emulation result of is transmitted to the terminal device 20.
In such a configuration, in the terminal device 20 operated by the user, it is possible to confirm the emulation results of a plurality of OSs that are simultaneously progressing (parallel processing).

Further, the emulation execution unit 133 executes the Apr on each sub-OS emulated in each work area _12i , and the emulation result at the time of executing the Apr is transmitted to the terminal device 20. As a result, the user can easily compare the operating status of Apr in each sub OS.

At this time, the server device 10 acquires the Apr command information transmitted from the terminal device 20 by the command acquisition unit 131, and the emulation execution unit 133 uses the Apr specified in the Apr information in each work area 12 _i . Run on the emulated secondary OS.
This makes it possible to easily confirm the operating status of Apr specified by the user.
For example, when a user develops an Apr corresponding to the "A" OS and the "B" OS, the server device 10 emulates the "A" OS in the first work area 12 ₁ and the second work area 12 Emulate to "B" OS in ₂ . Then, the Appr for the "A" OS developed by the user is introduced into the first work area 121, and the Appr for the "B" OS is introduced into the _{second work area 12 2 ,} and the Appr is executed in each environment. be able to. In this case, the emulation result of Apr in each of the work areas 12 ₁ and 12 ₂ is transmitted to the terminal device 20, and the operation when Apr is operated in each OS can be compared.

Further, when the Apr simultaneous execution mode is selected, the server device 10 can simultaneously execute the Apr in a plurality of work areas 12 _i by the command acquisition unit 131. For example, in the above example, the Apr for the "A" OS in the _first work area 121 that emulates the "A" OS and the "B" in the _second work area 122 that emulates the "B" OS. "Appr for OS and can be executed at the same time. This makes it possible to easily compare the operation confirmation and processing speed of Apr in each OS.
Further, it is possible to emulate the same OS (for example, version 3.0 of the “A” OS) for a plurality of work areas 12 _i , and execute different Aprs in each work area 12 _i . In this case, for example, in the development of Apr, it is possible to compare the Apr before the version upgrade with the Apr after the version upgrade.

Further, in the present embodiment, in the terminal device 20, it is possible to select the sub-OS to be interlocked with the plurality of sub-OS to be emulated. Then, in the terminal device 20, it is input that a predetermined Apr is executed for the emulation result of one of these interlocking target sub-OSs, and the Apr command information designating the execution of the Apr is the server device 10. When it is received in, the emulation execution unit 133 simultaneously executes the Apr in each work area _12i in which the target sub-OS is emulated, and transmits the emulation result to the terminal device 20.
As a result, the user can easily confirm the operating status of the Apr in a plurality of secondary OSs only by instructing the execution of the Apr to one secondary OS. For example, the operating state of one Apr in the version 2.0 of the "A" OS and the version 3.0 of the "A" OS (for example, in the OS after the version upgrade, the Apr is started or the startup speed is set. You can check if there is any problem etc.).

Further, the capture unit 134 captures each emulation result at the same resolution, or performs image processing so that each emulation result has the same resolution, and the result transmission unit 135 outputs the emulation result of the same resolution to the terminal device 20. Send.
In this case, it is possible to more appropriately compare the emulation results for each sub OS. For example, as described above, when instructing one of a plurality of sub-OSs to execute Apr and causing the other sub-OS emulated by the server device 10 to execute the Apr at the same time, each sub-OS is used. It is possible to properly compare the operating conditions of.
As a specific example, a case where the screen transition speed is compared in each sub OS when the screen is flicked is illustrated. In this case, if the resolution of each emulation result is different, even if the screen transition speed is the same, the screen transitions smoothly in the emulation result with high resolution, whereas the screen transitions smoothly in the emulation result with low resolution, so-called stuttering. Occurs. On the other hand, by making the resolution the same as described above, not only the transition speed of the screen transition but also the smoothness at the time of the screen transition can be appropriately compared.

In the present embodiment, when command information for displaying the emulation result in the "simultaneous display format" display format is transmitted from the terminal device 20, the result transmission unit 135 displays each emulation result in the display area of the terminal device 20. Display condition information including display position coordinates for arranging in parallel to 40 is transmitted.
As a result, in the terminal device 20, each emulation result 41 is displayed in parallel in the display area 40. As a result, the user can visually recognize the emulation results displayed in parallel at the same time, and can easily confirm the operating status of each emulation result.

In the present embodiment, when command information for displaying the emulation result is transmitted from the terminal device 20 in the display format of the "switching display format", the result transmission unit 135 sets the display position coordinates of each emulation result and the switching timing. Send display condition information including information.
As a result, in the terminal device 20, the emulation result 41A displayed in the display area 40 can be switched to another emulation result 41B by inputting a predetermined operation signal by the operation of the input operation unit 22 by the user. can. In this case, by sequentially switching the emulation results, the user can easily confirm the difference in each emulation result.

Further, in the present embodiment, the result transmission unit 135 not only emulates the terminal device 20 that commands the emulation of the OS, but also emulates a plurality of other terminal devices 20 owned by the user registered as a shared user. Send the result.
This allows a plurality of users to easily check the emulation result. For example, when a plurality of users develop an Apr, another user can easily confirm the development status of the Apr by one user.

[Modification example]
It should be noted that the present invention is not limited to the above-described embodiment, but also includes the modifications shown below to the extent that the object of the present invention can be achieved.

(Modification 1)
In the above embodiment, in step S201, an example in which the display format of each emulation result is determined by the received command information is shown, but the present invention is not limited to this.
That is, the display format of each emulation result (simultaneous display format, switching display format, multiple tab display format, etc.) may be changeable between a series of emulation processes. For example, the terminal device 20 may be configured to be able to receive an operation signal to change the display format by operating the input operation unit 22 of the user while displaying each emulation result. In this case, when the terminal device 20 receives the operation signal, it sends a display format change request to the server device 10. As a result, the server device 10 generates display condition information corresponding to the display format corresponding to the change request and transmits it to the terminal device 20.

Further, the display format may be different in each of the terminal devices 20 of each shared user. For example, when the change request as described above is received in one of the terminal devices 20 of the shared user whose emulation result is displayed, it is displayed as described above only for the terminal device 20 corresponding to the user. Condition information may be newly generated.
As a result, even if each user's display device (display unit 21) is different, the emulation result can be displayed according to each display device. For example, the terminal device 20 of the user who operates the PC can display the emulation result 41 in the simultaneous display format, and the terminal device 20 of the user who operates the smartphone can display the emulation result 41 in the switching format.

(Modification 2)
A plurality of emulation results may be displayed in the switching display format.
For example, when five emulation results are transmitted, the display control unit 254 displays the two emulation results 41A and 41B in parallel in the same display area. Then, by the operation of the input operation unit 22, one of the two displayed emulation results 41 (for example, the emulation result 41B) is selected, and an operation signal for switching the selected emulation result 41B is input. Then, the emulation result 41B is switched to another emulation result that is not displayed.
In this case, it is possible to sequentially compare one emulation result with a plurality of other emulation results.

(Modification 3)
In the above embodiment, a sub OS is specified by the user in the terminal device 20, and a plurality of sub OSs based on the OS command information transmitted from the terminal device 20 are expanded in the work area _12i . Not limited. The emulation execution unit 133 may emulate some preset sub-OSs in different work areas 12 _i .
The same applies to the Apr, and the emulation execution unit 133 may execute some preset Aprs in different work areas 12 _i .

(Modification example 4)
In the above embodiment, the server device 10 shows an example of transmitting the emulation result of each of the plurality of sub-OSs specified by the user to the terminal device 20, but some of these plurality of sub-OSs are used as the terminal device. It may be transmitted to 20. In this case, the terminal device 20 has a configuration in which a plurality of sub-OSs to be emulated and a sub-OS to be transmitted as an emulation result among them can be selected. Then, when the terminal device 20 requests the emulation result of another sub OS, the emulation result of the sub OS is transmitted.
In this case, the emulation is started in the work area _12i of the server device 10 even for the secondary OS to which the emulation result is not transmitted. Therefore, even if the user newly transmits a transmission request for the emulation result of the sub-OS that has not transmitted the emulation result to the server device 10 at an arbitrary timing, the emulation result can be immediately transmitted. That is, it is possible to display the emulation result of the OS desired by the user at the timing required by the user.

(Modification 5)
In the above embodiment, the server device 10 may be configured to include a feature detection unit that detects a common common part and a different difference part in each emulation result.
In this case, the result transmission unit 135 may generate display condition information for highlighting the difference portion or the common portion in the other emulation results with respect to the first emulation result.

(Modification 6)
In the above embodiment, when "without interlocking" is selected in the guidance content 30, "Apr simultaneous execution mode" and "Apr independent execution mode" can be selected, but "with interlocking" is selected. In this case, "Apr simultaneous execution mode" and "Apr independent execution mode" may be selectable. In this case, it is possible to execute a different Apr to a sub OS other than the interlocking target OS that is considered to have interlocking, and the execution result (emulation result) of the Apr on the interlocking target OS and another sub OS that is not interlocking. Can be processed synchronously.

(Modification 7)
In the above embodiment, the result transmission unit 135 of the server device 10 has shown an example of generating display condition information corresponding to the display format specified by the terminal device 20, but the present invention is not limited to this.
For example, the result transmission unit 135 of the server device 10 does not generate display condition information, but transmits only a plurality of emulation results to the terminal device 20, and the display control unit 254 of the terminal device 20 acquires a plurality of acquired results. The emulation result may be appropriately arranged and displayed on the display unit 21.
For example, when the "simultaneous display format" is set by the user, the display control unit 254 displays a plurality of emulation results 41 transmitted from the server device 10 in parallel in the display area 40.
When the "switching display format" is set by the user, the display control unit 254 arranges one of the plurality of emulation results 41 transmitted from the server device 10 in the display area 40. Display it. Then, when the input operation unit 22 is operated by the user and an operation signal for switching the emulation result to be displayed is input, the display control unit 254 switches the display to another emulation result.
In this case, the display control unit 254 may set the initial value of the display format in advance according to, for example, the size of the display area in the display unit 21. For example, in the terminal device 20 having the display unit 21 having a large screen such as a PC, the simultaneous display format is set as the initial value, and in the terminal device 20 having the display unit 21 having a small display area such as a smartphone, the switching display format is used. It may be the initial value.

(Modification 8)
In the above embodiment, the server device 10 exemplifies a configuration that emulates a plurality of OSs based on the command information transmitted from the terminal device 20, but is not limited thereto. For example, the terminal device can be made to function as the information processing device of the present invention.
That is, conventionally, when emulating a predetermined OS in a terminal device, the emulation result of the OS is displayed on the display unit of the terminal device by executing a program that emulates the OS. Therefore, when it is desired to compare the emulation results of a plurality of OSs, it is necessary to sequentially switch the programs to be emulated for each OS (for example, in Windows (registered trademark), the "Alt" key and the "tab" key are used. Press at the same time). In this case, the operation for displaying each emulation result is complicated, and it is difficult to compare a plurality of emulation results.

On the other hand, the terminal device 20 is configured to include an emulation execution unit 133 and a capture unit 134. In this case, the emulation execution unit 133 secures a plurality of work areas _12i in the terminal storage unit 24, and executes and emulates the sub-OS designated in each work area _12i . Further, the capture unit 134 captures each emulation result. Then, the display control unit 254 (output control unit) outputs emulation results in at least two or more of the work areas to the display area. That is, each captured emulation result is displayed in one display area 40 such as a browser.
At this time, the emulation execution unit 133 performs the same processing as that of the above embodiment. That is, when there are a plurality of interlocking target OSs, or when information requesting simultaneous execution of Apr in a plurality of sub-OSs is input by the input operation unit 22, the emulation execution unit 133 may perform the emulation execution unit 133. Emulation processing in each target work area _12i is executed at the same time (parallel processing). Thereby, when each emulation result is displayed in the simultaneous display format, the switching display format, the multiple tab display format, etc., the operating status of each emulation result can be easily compared.

In addition, the specific structure and procedure for carrying out the present invention can be appropriately changed to other structures and the like as long as the object of the present invention can be achieved.

1 ... Information processing system, 10 ... Server device (information processing device), 11 ... Communication unit, 12 ... Storage unit, 12 _i ... Work area, 13 ... Control unit, 20 ... Terminal device, 21 ... Display unit, 22 ... Input Operation unit, 23 ... Terminal communication unit, 24 ... Terminal storage unit, 25 ... Terminal control unit, 30 ... Guidance content, 31 ... OS specification unit, 31A ... OS selection field, 31B ... Version selection field, 32 ... Display format specification unit , 33 ... shared user designation unit, 34 ... interlocking designation unit, 35 ... decision button, 40 ... display area, 41, 41A, 41B ... emulation result, 42 ... display OS information, 44 ... command source user information, 45 ... shared user Information, 46 ... Execution icon, 131 ... Command acquisition unit, 132 ... User management unit, 133 ... Emulation execution unit, 134 ... Capture unit, 135 ... Result transmission unit, 251 ... Request acquisition unit, 252 ... Command transmission unit, 253 ... Result receiving unit, 254 ... Display control unit.

Claims (10)

An information processing device that is communicatively connected to a terminal device.
An execution unit that reads an emulation program that emulates an operating system and expands it into each of multiple work areas in the storage unit.
A result transmission unit that transmits emulation results in at least two or more work areas to the terminal device.
A command receiving unit that receives application command information that specifies an application program to be executed from the terminal device, and a command receiving unit.
Equipped with
The application command information includes information for instructing execution of a plurality of the application programs and information indicating the operating system for executing each of the application programs.
Based on the application command information, the execution unit distributes a plurality of the application programs to the operating system for executing the application program, and executes the distributed application program on each of the operating systems . In addition, the execution timing for executing the application program assigned to each operating system is the same.
An information processing device characterized by this. In the information processing apparatus according to claim 1,
The execution unit is an information processing apparatus characterized by deploying a plurality of emulation programs of the operating system having different versions in different work areas. In the information processing apparatus according to claim 1 or 2.
The result transmission unit is an information processing device that further transmits display position information for arranging at least two or more emulation results side by side in a display area of the terminal device. In the information processing apparatus according to claim 3,
The result transmission unit is an information processing device characterized in that at least two or more emulation results having the same resolution are transmitted to the terminal device. In the information processing apparatus according to claim 1 or 2.
The result transmission unit is characterized in that when a switching command for switching the emulation result is input in the terminal device, the switching condition information for switching the emulation result to be displayed in the display area of the terminal device is further transmitted. Information processing device. The information processing apparatus according to any one of claims 1 to 5.
The result transmission unit is an information processing device characterized in that the emulation result is transmitted to a plurality of the terminal devices. In the information processing apparatus according to claim 6,
The result transmission unit is an information processing apparatus characterized in that, together with the emulation result, terminal identification information for identifying the terminal device to which the application command information has been transmitted is further transmitted to a plurality of the terminal devices. The information processing apparatus according to any one of claims 1 to 7.
A terminal device that is communicably connected to the information processing device via a network,
An information processing system characterized by being equipped with. It is an information processing method in a computer that is communicably connected to a terminal device.
The computer includes an execution unit, a result transmission unit, and a command reception unit.
An execution step of reading an emulation program that emulates a plurality of operating systems and deploying it in each of a plurality of work areas of the storage unit by the execution unit.
A result display step of transmitting emulation results in at least two or more work areas to the terminal device by the result transmission unit.
The command receiving unit performs a command receiving step of receiving application command information that specifies an application program to be executed from the terminal device.
The application command information includes information for instructing execution of a plurality of the application programs and information indicating the operating system for executing each of the application programs.
In the execution step, a plurality of the application programs are distributed to the operating system for executing the application program based on the application command information, and the divided application programs are executed on each of the operating systems. In addition, the execution timing for executing the application program assigned to each operating system is the same.
An information processing method characterized by that. An information processing program that is read and executed by a computer.
An information processing program comprising the computer functioning as the information processing apparatus according to any one of claims 1 to 7.

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