JP3757670B2 - Progress display device and storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a progress display device that displays the progress of a plurality of processes.
[0002]
[Prior art]
Recently, information processing devices such as personal computers and portable information terminal devices have become highly functional, and those capable of simultaneously executing a plurality of application programs in the information processing devices are increasing. For example, in the multi-processing function using the window system, it is possible to execute a communication program in a window behind the database program while executing the database program in the front window.
[0003]
In addition, as a portable information terminal equipped with a processing function that specifies the purpose of use for business use, for example, a handy terminal used when a store clerk takes an order in a store or manages the inventory of goods has become widespread. Yes. Also in such handy terminals, those having a multi-processing function using a window system or the like are increasing as in the information processing apparatus.
[0004]
The information processing device and the portable information terminal have a progress status display function for displaying the progress status during the program processing, and display the percentage of the progress status of the single processing, the progress bar display, etc. Yes.
[0005]
[Problems to be solved by the invention]
However, the conventional information processing device and the portable information terminal have a display function for displaying the progress status during the program processing, and the progress of the processing for displaying the percentage of the progress status of the single processing, the progress bar display, etc. Although it had a display function, this progress status display function was only a progress display for a single process, so when multiple processes are progressing simultaneously, the progress status of the multiple processes is displayed simultaneously. There was a problem that it was difficult for the user to grasp the processing status.
[0006]
In addition, a host computer that manages a plurality of processing terminals connected to a communication network such as a LAN (Local Area Network) is equipped with a progress status display function that displays the progress status of processing in each processing terminal. However, it is difficult to display the progress status of a plurality of processing terminals at the same time, and it is difficult for the operator to grasp the processing status.
[0007]
An object of the present invention is to simultaneously realize an identification display function for the progress statuses of a plurality of processes, and to easily grasp the progress statuses of the plurality of processes.
[0008]
[Means for Solving the Problems]
The invention according to claim 1
A specifying means for specifying the number of processes to be executed;
Display area calculating means for obtaining each display area according to the number of processes specified by the specifying means;
Progress calculation means for obtaining the progress of each process when executing the process to be executed;
Progress display control means for displaying a display corresponding to the progress status of each process determined by the progress status calculation means in each display area determined by the display area calculation means;
It is characterized by having.
[0009]
According to the invention of claim 1,
The specifying unit specifies the number of processes to be executed, the display area calculating unit obtains each display area according to the specified number of processes, and the progress situation calculating unit executes the process to be executed When the progress status of each process is obtained while the process is being performed, the progress display control means displays the display corresponding to the progress status of each process obtained by the progress status calculation means, by the display area calculation means. Display in the display area.
[0010]
Therefore, it is possible to display the progress statuses of a plurality of processes to be executed at the same time by setting individual display areas, and to easily grasp the progress statuses of the plurality of processes.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
1 to 10 are diagrams showing an embodiment of a data processing system for managing a plurality of handy terminals to which the present invention is applied.
[0015]
First, the configuration will be described.
FIG. 1 is a block diagram showing a configuration of the entire system of a data processing system 1 in the present embodiment. In FIG. 1, a data processing system 1 includes a plurality of handy terminals (HT) 10, a host computer 20 that manages the processing status in the plurality of handy terminals 10, and each handy terminal 10 and a host computer (PC) 20. The host computer 20 and the plurality of I / O boxes 30 are connected by a communication cable C (wired), and each I / O box 30 performs data communication between them. The O box 30 and each handy terminal 10 are connected by optical communication (wireless). ◇
Accordingly, each I / O box 30 and each handy terminal 10 has an optical communication function using infrared rays or the like.
[0016]
As shown in the block diagram of FIG. 2, the handy terminal 10 includes a CPU 11, an input device 12, a RAM 13, an optical communication unit 14, a display device 15, a printing device 16, a storage device 17, and a storage medium 18. Each unit except for the storage medium 18 is connected to a bus 19.
[0017]
A CPU (Central Processing Unit) 11 develops a control program stored in the storage device 17 in a program area (not shown) in the RAM 13 and executes processing for controlling each part in the handy terminal 10. Various processes are executed in accordance with various instructions input, and the processing results are stored in the RAM 13 and displayed on the display device 15. Then, the processing results are stored in a designated storage location in the storage device 17.
[0018]
When the optical communication unit 14 detects that the mounting surface of the optical communication unit 14 of the handy terminal 10 is placed facing the optical communication unit (not shown) of the I / O box 30, the storage device 17 expands the communication control program stored in 17 to a program area (not shown) in the RAM 13 and executes data communication processing (described later with reference to FIG. 4) with the host computer 20 via the I / O box 30. To do.
[0019]
The input device 12 includes a key switch to which various input functions are assigned in advance, a touch panel formed integrally with the display screen of the display device 15 that changes the key arrangement according to the selected processing mode, and the like. Various instruction signals corresponding to various key operations and touch operations are output to the CPU 11.
[0020]
A RAM (Random Access Memory) 13 develops various processing control programs executed by the CPU 11 and forms a memory area for developing various data processed in each processing.
[0021]
The optical communication unit 14 is controlled by a communication control process executed by the CPU 11, and performs data communication with the optical communication unit in the I / O box 30, thereby allowing the host computer 20 via the I / O box 30. Data communication is executed with
[0022]
The display device 15 includes a liquid crystal display panel formed integrally with the touch panel of the input device 12 and the like, and displays processing results of various processing control programs executed by the CPU 11, data input from the input device 12, and the like. In addition, the data communication status and the like are displayed.
[0023]
The printing device 16 is controlled by a print control process executed by the CPU 11 and prints and outputs print data input from the CPU 11 on a built-in sheet.
[0024]
The storage device 17 includes a storage medium 18 in which programs, data, and the like are stored in advance, and the storage medium 18 includes a magnetic or optical recording medium or a semiconductor memory. The storage medium 18 is fixedly attached to the storage device 17 or is detachably mounted. The storage medium 18 has the above control program, communication control program, and data processed by each control program. Memorize etc.
[0025]
The program, data, etc. stored in the storage medium 18 may be received from the host computer 20 connected via the I / O box 30 and stored, and further via the I / O box 30. The host computer 20 connected in this manner may be provided with a storage device including the storage medium, and the program and data stored in the storage medium 18 may be used via the I / O box 30.
[0026]
As shown in the block diagram of FIG. 3A, the host computer 20 includes a CPU 21, an input device 22, a RAM 23, a display device 24, a printing device 25, a storage device 26, a storage medium 27, and a communication device 28. Each part except for the storage medium 27 is connected to a bus 29.
[0027]
CPU 21 (specification means and progress status calculation means according to claim 1, display area calculation means according to claims 1 and 2, processing type determination means according to claim 3, and progress status display according to claims 1 to 5 The handy terminal management control program stored in the storage device 26 is expanded in the work memory 234 in the RAM 23 (see FIG. 5B) and stored in the host computer 20. Processing for controlling each unit is executed, various processing is executed in accordance with various instructions input from the input device 22, the processing result is stored in the RAM 23 and displayed on the display device 24, and then the processing result is stored. The data is stored in a designated storage location in the device 26.
[0028]
When the CPU 21 confirms that each handy terminal 10 is wirelessly connected by optical communication via each I / O box 30, the CPU 21 stores the communication control program stored in the storage device 26 in the work memory in the RAM 23. The data communication process (see FIGS. 5 and 6), which will be described later, is executed with each handy terminal 10 via the I / O box 30.
[0029]
In this data communication process, the CPU 21 simultaneously displays the progress status of each data communication process for each of the plurality of handy terminals 10 connected for communication at the same time as a progress bar. Therefore, as the display attribute of the progress bar display, the data communication direction type and The bar display direction type corresponding to the data communication direction, the bar display color, and the drive type corresponding to the storage device 26 or the storage medium 27 in the host computer 20 to be processed at the time of data communication are arbitrarily set or defaulted. The setting contents are stored in the progress bar display setting memory 231 (see FIG. 3B) in the RAM 23, and further processed for each handy terminal 10 that is the data communication processing execution partner and each handy terminal 10. Target type (data communication direction type, drive type or file Another etc.) and is selected and determined, and stores the processed type information that selected the determined processing partner information in the work memory 234 in the RAM 23.
[0030]
Then, when the CPU 21 starts data communication processing in response to a transmission request from the handy terminal 10 or a communication processing start instruction from the input device 22, the CPU 21 sets the number of simultaneous communication terminals 10 selected as the current data communication processing partner. , The display thickness of each progress bar is calculated from the number of simultaneous communication, the processing target type information stored in the work memory 234 is read for all data communication processing partners, and the processing amount ( The total processing time for all data communication) is obtained, and the data communication processing is executed for each selected handy terminal 10.
[0031]
Then, the CPU 21 detects the end of the data communication process for each handy terminal 10 connected for communication, and if there is a handy terminal 10 for which the data communication process has been completed, the progress bar is displayed with the number of simultaneous communication reduced by the number of processed terminals. The thickness is recalculated, and the current processing completion rate is calculated from the current processing amount according to the progress of each data communication processing and the processing amount until the completion, and the progress corresponding to each data communication processing Bar display control is executed by a progress display process (see FIG. 7) described later.
[0032]
The input device 22 includes a keyboard and a mouse having cursor keys, numeric input keys, various function keys, and the like, and outputs a pressed signal of a pressed key and a mouse position signal to the CPU 21.
[0033]
As shown in FIG. 3B, the RAM 23 includes a progress bar display setting memory 231, a completed processing amount memory 232, a current end rate memory 233, and a work memory 234. The progress bar display setting memory 231 associates a data communication direction type, a bar display direction type corresponding to the data communication direction, and a bar display color as display attributes of the progress bar display set in the data communication process. Store. The completion processing amount memory 232 stores the completion processing amount of each data communication process obtained by the CPU 21 during the data communication process. The current end ratio memory 233 stores the current end ratio of each data communication process obtained by the CPU 21 during the data communication process. The work memory 234 stores various processing programs executed by the CPU 21 and various processing data, and also stores processing partner information and processing target type information selected and confirmed during the data communication processing.
[0034]
The display device 24 is configured by a CRT (Cathode Ray Tube) or the like, displays display data input from the CPU 21, and communicates with a handy connected in accordance with progress bar display data input from the CPU 21 during the data communication processing. The progress of data communication with the terminal 10 is displayed.
[0035]
The printing device 25 is controlled by a print control process executed by the CPU 21, and prints and outputs print data input from the CPU 21 on a built-in sheet.
[0036]
The storage device 26 includes a storage medium 27 in which programs, data, and the like are stored in advance, and the storage medium 27 includes a magnetic or optical recording medium or a semiconductor memory. The storage medium 27 is fixedly attached to the storage device 26 or is detachably attached. The handy terminal management control program, data communication processing program, progress display processing program are stored in the storage medium 27. And data processed by each processing program are stored.
[0037]
The program, data, and the like stored in the storage medium 27 may be configured to be received from other devices connected via a communication line or the like and stored, and further connected via a communication line or the like. A storage device including the above-described storage medium may be provided on the other device side, and the program and data stored in the storage medium 27 may be used via a communication line.
[0038]
Next, the operation of the present embodiment will be described.
First, data communication processing executed in the handy terminal 10 will be described based on the flowchart shown in FIG.
[0039]
When the optical communication unit 14 detects that the mounting surface of the optical communication unit 14 of the handy terminal 10 is placed opposite to the optical communication unit (not shown) of the I / O box 30, the CPU 11 4 is expanded in a program area (not shown) in the RAM 13 and the data communication process of FIG. 4 is started with the host computer 20 via the I / O box 30.
[0040]
In the data communication process of FIG. 4, the CPU 11 first checks whether or not a communication request has been received from the host computer 20 (step S <b> 1), and if it does not receive a communication request from the host computer 20, transmits it from the input device 12. It is confirmed whether or not an instruction signal has been received (step S2). If the transmission instruction signal is not received, it is determined whether or not the input instruction is input from the input device 12 (step S3). If the input instruction is not input, the process returns to step S1. Is executed (step S4), and the process returns to step S1.
[0041]
When receiving the transmission instruction signal, the CPU 11 transmits a transmission request signal to the host computer 20 via the optical communication unit 14 and the I / O box 30 (step S5), and transmits the transmission stored in the storage device 17. The data to be read is read and transmitted to the host computer 20 (step S6). Then, the CPU 11 monitors the data transmission state and confirms the end of data transmission (step S7), transmits an end notification signal to the host computer 20 (step S8), and returns to step S1.
[0042]
In step S1, when the communication request is received from the host computer 20, the CPU 11 proceeds to step S9 to check whether or not the communication request content is data reception. Is received via the I / O box 30 and the optical communication unit 14, the received data is stored in the storage device 17 (step S10), and an end notification signal is received from the host computer 20. If it confirms (step S11), it will return to step S1.
[0043]
Next, data communication processing executed in the host computer 20 will be described based on the flowcharts shown in FIGS.
[0044]
When the CPU 21 confirms that each handy terminal 10 is wirelessly connected by optical communication via each I / O box 30, the CPU 21 stores the communication control program stored in the storage device 26 in the work memory 234 in the RAM 23. The data communication process shown in FIGS. 5 and 6 is started with each handy terminal 10 via the I / O box 30.
[0045]
In this data communication process, the CPU 21 first displays a menu screen related to data communication including menu items of progress bar display setting, communication partner selection, and processing target type on the display device 24 (step S21). It is determined whether or not setting has been selected (step S22). If the progress bar display setting is not selected, the process proceeds to step S24 with the display attribute of the progress bar set to the default previously set in the progress bar display setting memory 231 in the RAM 23. If the progress bar display setting is selected, As the display attributes of the progress bar display, the data communication direction type, the bar display direction type corresponding to the data communication direction, the bar display color, the storage device 26 or the storage medium in the host computer 20 to be processed at the time of data communication The drive type corresponding to 27 is arbitrarily set, and the setting content is stored in the progress bar display setting memory 231 (step S24).
[0046]
Next, the CPU 21 processes the handy terminal 10 that is the data communication processing partner and the processing target type (data communication direction type (upload, download), drive type or file type of the data communication target) for each handy terminal 10. Are selected and confirmed (steps S24 to S26), and the processing partner information and the processing target type information that have been selected and confirmed are stored in the work memory 234 in the RAM 23.
[0047]
Then, when the CPU 21 starts data communication processing in response to a transmission request from the handy terminal 10 or a communication processing start instruction from the input device 22 (step S27), simultaneous communication of the handy terminal 10 selected as the current data communication processing partner is performed. The number of units is set, and the display thickness of each progress bar is calculated from the number of simultaneous communication (step S28).
[0048]
Next, the CPU 21 reads the processing target type information (data communication direction type, drive type, file type, etc.) stored in the work memory 234 for all data communication processing partners (steps S30 to S32), and the all data communication processing is performed. A processing amount until completion (processing time related to all data communication processing) is obtained, and the processing amount is stored in the completion processing amount memory 232 in the RAM 23 (step S33), and the handy terminal 10 of the selected processing partner is selected. Each time, each data communication process is executed by the communication device 28 in accordance with the read processing target type information (step S34).
[0049]
Then, the CPU 21 detects the presence / absence of the end of the data communication process for each handy terminal 10 connected for communication (step S35). If there is no completed data communication process, the CPU 21 proceeds to step S39, and there is an end data communication process. For example, it is confirmed whether the completed data communication process is a reception process (upload) or a transmission process (download) (step S36). If it is transmission processing, an end notification signal is transmitted to the handy terminal 10 connected to the corresponding I / O box 30 by the communication device 28 (step S37).
[0050]
If the data communication process ended in step S36 is a reception process, the CPU 21 determines whether or not the current all data communication process has ended after transmitting an end notification signal in step S37 (step S37). S38). If the current data communication process has been completed, this data communication process is completed.If the current data communication process has not been completed, the number of communication units obtained by subtracting the number of completed data communication processes The display thickness is recalculated (step S39).
[0051]
Next, the CPU 21 obtains the end rate of each data communication process up to the present from the current processing amount of each data communication process and the processing amount stored in the completed processing amount memory 232 in step S33, and presents the current amount in the RAM 23. Stored in the end rate memory 233 (step S40). Then, the CPU 21 uses the obtained completion rate of each data communication process up to the present as the corresponding progress bar display rate (step S41), and the progress bar display rate and the number of progress bars calculated in step S39. The progress bar display is displayed according to the display bar attribute (data communication direction type, bar display direction type corresponding to the data communication direction) corresponding to each data communication stored in the bar display thickness and the progress bar display memory 231. The progress display process displayed on 24 is executed (step S42).
[0052]
Details of the progress display processing executed by the CPU 21 will be described based on the flowchart shown in FIG.
In FIG. 7, the CPU 21 first secures a progress bar display area having a bar display thickness corresponding to the number of progress bars calculated in step S39 on the display screen of the display device 24 (step S421), and performs the first data communication process. The corresponding display bar attribute (data communication direction type, bar display direction type corresponding to the data communication direction) is designated and read from the progress bar display setting memory 231 (step S422).
[0053]
An example of setting display bar attributes corresponding to the data communication processing in the progress bar display setting memory 231 is shown in FIG. In this case, the data communication direction type of each data communication process is set in the “Processing status” column, the bar display direction type corresponding to each data communication direction is set in the “Display status” column, and the “Color” column. A progress bar display color corresponding to each data communication process is set.
[0054]
Therefore, in step S422, “upload”, “right to left”, and “red” are designated and read as display bar attributes corresponding to the first data communication process. Next, the CPU 21 determines whether the display movement direction of the read progress bar of the display bar attribute is “from right” or “from left” (step S423). By moving from the left at the current progress bar display ratio, the progress bar corresponding to the data communication process is displayed in the progress bar display area in the read display color (step S424). On the other hand, if “from right to left”, the progress bar display area is displayed in the display color in which the progress bar corresponding to the data communication process is read out by moving from the right at the current progress bar display ratio obtained in step S41. (Step S425).
[0055]
That is, if the display bar attribute corresponding to the first data communication process is “upload”, “right to left”, or “red”, in step S425, the progress bar display area displays the current progress bar display ratio from the right. By the movement, a progress bar corresponding to the data communication process is displayed in red.
[0056]
Then, the CPU 21 displays the data communication partner type (such as the identification number of the handy terminal 10) corresponding to the progress bar displayed in step S424 or S425 in the vicinity of the progress bar display (step S426). It is determined whether or not the number of progress bar display processes is the last, that is, whether or not the display process for the number of progress bar displays simultaneously displayed in the progress bar display area is completed according to the current data communication processing state (step S427). ). If the number of progress bar display processes is not the last, the display bar attribute corresponding to the next data communication process is designated and read from the progress bar display setting memory 231 (step S428), the process returns to step S423, and the next current A progress bar corresponding to the data communication processing state is displayed in the progress bar display area. If the number of progress bar display processes is the last, the CPU 21 returns to step S34 in FIG. 6 and repeats the progress display process in FIG. 7 to detect the end of each data communication process and the current process end ratio. Execute.
[0057]
By the progress display process executed during the data communication process in the host computer 20 as described above, as shown in FIG. 9A or FIG. 9B, the progress bar display for a plurality of handy terminals 10 during the data communication process simultaneously. It can be performed.
[0058]
FIG. 9A shows each progress bar in the progress bar display area set on the front screen of the display device 24 when data communication processing is simultaneously executed with the three handy terminals 10. ~ (3) is a diagram showing the display state, and according to the data communication direction, the progress bar indicated by the bar (1) is displayed in blue (see (c) in the figure) by moving from left to right. The progress bar indicated by bar {circle around (2)} is displayed in red when moving from left to right, and the progress bar indicated by bar {circle around (3)} is displayed when displayed in green by moving from right to left. Further, the display on the left side of FIG. 9A represents the processing target device (I / O box, etc.), the processing status (status: update, etc.), and the processing file name (file name: A, etc.). The percentage is expressed in%.
[0059]
FIG. 9B shows only the progress bar display portion, and the progress bar display set on the front screen of the display device 24 when data communication processing is simultaneously executed with the six handy terminals 10. It is the figure which showed the display state of each progress bar (1)-(6) in the area, the movement direction and the bar display color are set and displayed according to the data communication direction like FIG. ing.
[0060]
In the progress bar display examples in FIGS. 9A and 9B, the entire display screen of the display device 24 is used as a progress bar display area. However, processing screens other than data communication and processing screens related to data communication are already displayed. If so, a progress display area, that is, a progress bar display area may be set and displayed on a part of the display screen as shown in FIG.
[0061]
As described above, in the data processing system 1 that manages the plurality of handy terminals 10 in the present embodiment, the host computer 20 is connected to the plurality of handy terminals 10 that are wirelessly connected via the plurality of I / O boxes 30. When the data communication process is executed at the same time, the progress of each data communication process can be displayed simultaneously as a progress bar on the same display screen, so that the operator of the host computer 20 can communicate with a plurality of handy terminals 10. It is possible to grasp at a glance the progress of data communication processing being executed.
[0062]
In the above embodiment, an example in which a progress bar is displayed for data communication processing between a plurality of handy terminals 10 and the host computer 20 has been described. However, a target system for displaying the progress of processing is limited. For example, the progress display function according to the present invention can be applied to various processes executed between a server and a plurality of clients.
[0063]
In the above embodiment, the progress status of a plurality of processes is displayed simultaneously with a progress bar. However, the progress status of a plurality of processes is displayed only by a numerical value, a pie chart, or an object movement. You may make it do.
[0064]
Further, the progress status of a plurality of processes may be obtained by obtaining a process completion prediction time and a ratio of the process time up to the present with respect to the prediction time. In addition, the display sizes indicating the progress of the plurality of processes do not have to be uniform, and may be different depending on the processing content, the type of communication device, and the like.
[0065]
In addition, the progress of processing between the devices other than the processing related to the external communication terminal (for example, data writing from the floppy disk to the hard disk, etc.) may be displayed. The progress of processing with other external devices may be displayed.
[0066]
Also, if there are many progress status displays in the display area due to display size restrictions and cannot be displayed at a time, the display is switched at regular intervals to change the progress status display (one side is progress status 1). -10, 2 are progress statuses 11-20, etc.), a large number of progress statuses can be confirmed.
[0067]
Further, a progress bar of a fixed size may be displayed instead of automatically assigning the progress display bar so as to fit in the progress status display area.
[0068]
【The invention's effect】
According to the progress status display device of the invention described in claim 1 and the storage medium of the invention described in claim 6, it is possible to simultaneously display each progress status for a plurality of processes to be executed by setting individual display areas. It is possible to easily grasp the progress of a plurality of processes.
[0069]
According to the progress status display device of the second aspect, the progress statuses of a plurality of processes can be simultaneously displayed in a predetermined progress status display area.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the overall configuration of a data processing system 1 according to an embodiment to which the present invention is applied.
FIG. 2 is a block diagram illustrating a main configuration of the handy terminal 10 of FIG. 1;
3A is a block diagram showing a main configuration of the host computer 20 in FIG. 1, and FIG. 3B is a diagram showing a memory configuration in a RAM 23 in FIG.
4 is a flowchart showing a data communication process executed by a CPU 11 in the handy terminal 10 of FIG.
5 is a flowchart showing a part of data communication processing executed by a CPU 21 in the host computer 20 of FIG.
6 is a flowchart showing a part of data communication processing executed by CPU 21 following FIG. 5. FIG.
FIG. 7 is a flowchart showing a progress display process executed by CPU 21 in step S42 of FIG.
8 is a diagram showing a setting example in a progress bar display setting memory 231 referred to in the progress display process of FIG. 7;
9 is a diagram showing a display example of a progress bar displayed on the display device 24 in the progress display process of FIG. 7, wherein (a) is a diagram showing a display example of a progress bar when communicating with three devices simultaneously; (B) is a figure which shows the example of a display of a progress bar at the time of communicating with 6 units | sets simultaneously, (c) is a figure which shows the display color of each progress bar of the figure (a), (b).
10 is a diagram showing a setting example of a progress bar display area displayed on the display device 24 in the progress display process of FIG.
[Explanation of symbols]
1 Data processing system
10 Handy terminal
20 Host computer
11, 21 CPU
12, 22 Input device
13, 23 RAM
14 Optical Communication Department
15, 24 Display device
16, 25 Printing device
17, 26 Storage device
18, 27 Storage media
28 Communication equipment
19, 29 bus
231 Progress bar display setting memory
232 Completion amount memory
233 Current end rate memory
234 Work memory
30 I / O box

Claims (3)

A specifying means for specifying the number of processes to be executed;
Display area calculating means for obtaining each display area according to the number of processes specified by the specifying means;
Progress calculation means for obtaining the progress of each process when executing the process to be executed;
Progress display control means for displaying a display corresponding to the progress status of each process determined by the progress status calculation means in each display area determined by the display area calculation means;
A progress status display device characterized by comprising: The display area calculating means automatically assigns a plurality of display areas in a progress status display area of a predetermined size according to the number of processes specified by the specifying means,
The progress display control means displays a display corresponding to the progress status of each process obtained by the progress status calculation means in each display area automatically assigned in the progress status display area by the display area calculation means. The progress status display device according to claim 1. A storage medium storing a computer-executable program for displaying the progress of processing to be executed,
Program code executable by a computer to identify the number of processes to be executed;
Program code executable by a computer for determining the progress of the process when executing the process to be executed;
A storage medium storing a program including a program code executable by a computer for displaying a display corresponding to the obtained progress of each process in each of the obtained display areas.

Images