JP3091116B2 - XY coordinate display method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an XY coordinate display method. More specifically, the present invention relates to a method of displaying information selected from a plurality of pieces of information on an X-Y coordinate on a display such as a personal computer.

[0002]

2. Description of the Related Art Conventionally, when displaying information, for example, numerical data consisting of sales and the number of employees of a company, on a display of a personal computer or the like in XY coordinates, an operator first sets a coordinate area and then sets coordinates. It was necessary to enter the numerical values to be converted, and to enter the minimum and maximum values of the scale of each coordinate on the X-axis (horizontal axis, company sales) and Y-axis (vertical axis, number of employees of the company). .

[0003]

Therefore, the operator performs a complicated input operation before obtaining necessary information.
In addition, the coordinate scale must be set while calculating, which is very inconvenient. In addition, to incorporate new data, such as sales and employee numbers of other companies, the same process had to be repeated. Also X
Convert the axis and the Y axis, take the number of employees
A variety of information is combined, such as taking the company's sales on the axis, taking the company's sales or the number of employees of the company on the X-axis, and taking other numerical data (for example, the company's tax-included profit) on the Y-axis. Displaying the coordinates was very time-consuming and troublesome.

An object of the present invention is to provide an XY coordinate display method which can eliminate the complexity of the operator in the XY coordinate display and can display necessary information only by inputting a selection switch. is there.

It is another object of the present invention to provide an XY coordinate display method capable of making the coordinate display easier to see as a whole.

[0006] Still another object is to be able to practically use, for example, company information, although not particularly limited to this.

[0007]

In order to achieve the above object, an XY coordinate display method according to the present invention sets an X-axis and a Y-axis orthogonal to each other on a display and converts various data stored in a memory. In the XY coordinate display method for displaying coordinates, a maximum value of a coordinate scale is determined based on a maximum value of each numerical data element for at least two or more numerical data groups stored in a memory, and the maximum value of the coordinate scale is determined. Is stored in the memory for each numerical data group, and when the X-axis selection switch and the Y-axis selection switch provided corresponding to two or more numerical data groups are pressed, the numerical data selected by the X-axis selection switch Numerical data group selected from the memory by recalling the maximum value of the coordinate scale corresponding to the group, updating the X-axis coordinate scale with the X-axis position and size unchanged, and selecting the Y-axis selection switch The maximum value of the corresponding coordinate scale is called from the memory, the Y-axis coordinate scale is updated with the Y-axis position and size unchanged, and the numerical data of the numerical data group selected for the updated XY coordinates as you can coordinate display elements
And a new numerical data element is stored in said memory.
Then, the numeric data element is stored in the numeric data stored in memory.
And compare it with the maximum value of each numerical data element for each data group.
Is larger than the maximum value of each numerical data element for each numerical data group.
Large numerical data elements are further compared to a given limit
If the numerical data element is below the specified limit,
Numeric data of the numeric data group corresponding to the numeric data element of
The maximum value of the element, and the numeric data element is the specified limit value
If greater than, the numeric data element is displayed in XY coordinates.
It is characterized in that it is displayed individually without any
Item 1) .

[0008]

According to the XY coordinate display method of the present invention, the maximum value of the coordinate scale is determined based on the maximum value of each numerical data element for at least two or more numerical data groups stored in the memory in advance, The maximum value of the coordinate scale is stored in the memory for each numerical data group. Thereafter, when the X-axis selection switch and the Y-axis selection switch provided corresponding to the two or more numerical data groups are pressed, the maximum value of the coordinate scale corresponding to the respectively selected numerical data group is called from the memory, and X is selected. The coordinate scales of the axis and the Y axis are updated, and the numerical data elements of the numerical data group selected for the updated XY coordinates are displayed with the coordinates and position of the X and Y axes unchanged. That is, when displaying the coordinates of the numerical data element, the operator does not need to input the coordinate scale each time, and only needs to press the X-axis selection switch and the Y-axis selection switch. In addition, it is determined whether the new numerical data element stored in the memory satisfies a condition that is larger than the maximum value of each numerical data element for each numerical data group and is equal to or less than a predetermined limit value. Let the data element be the maximum value of the numerical data elements of the corresponding numerical data group.
That is, since the maximum value of the numerical data elements of the numerical data group can be automatically updated when a new numerical data element is input, immediately after the operator presses the X-axis selection switch and the Y-axis selection switch, The numerical data element is displayed on the XY coordinates of the coordinate scale that has been appropriately updated. If the numerical data element is larger than a predetermined limit value, the numerical data element is displayed individually without displaying the XY coordinates.
Fear that the numerical data element is concentrated in the lower when of displaying -Y coordinates have little.

[0009]

An embodiment of the present invention will be described with reference to the drawings. In this method, company information (company sales, company tax-included profit, company employees), which is a group of numerical data, is displayed on XY coordinates. FIG. 1 shows an outline of a basic configuration of a personal computer embodying the present invention. The personal computer has a CPU that controls the entire apparatus.
1, a ROM in which control data and the like are written, a RAM in which character information and the like are stored, a non-volatile memory in which company information and a maximum value of coordinate scales are stored, and a CPU connected via an operation control unit 5 And a display 9 connected to the CPU 1 via the display control unit 8, and a printer 11 connected to the CPU 1 via the output control unit 10.

FIG. 2 shows an example of a display screen of the display 9. At the top of the display 9, orthogonal XY coordinates of a certain size are displayed, and at the bottom of the display 9, the identification symbol of each company in the coordinate display, the X axis (horizontal axis)
Selection switches 21A, 21B, 21C for setting, selection switches 22A, 22B, 22 for setting the Y axis (vertical axis)
C and an input switch 2 for inputting company information
3 is displayed. Beside the XY coordinates, there is provided a portion for individually displaying data that deviates from the coordinates.
The selection switches 21A and 22A are switches for instructing the display of the company's sales, 21B and 22B are switches for instructing the display of tax-included profits of the company, and 21C and 22C are switches for instructing the display of the number of employees of the company. These selection switches 21A to 21C, 22A to 22C and the input switch 23 are selected by an operator pressing down on the screen using the mouse 7 or pressing down a corresponding key on the keyboard 6. A knitting is formed on the selected switch.

In FIG. 2, the sales amount of the company is selected on the X-axis, and the tax-included profit of the company is selected on the Y-axis.
The state indicated by the identification symbols of Δ and + is shown. In this embodiment, a CRT video display is used as the display 9, but an LCD or a gas plasma-based flat panel display may be used.

FIG. 3 shows an example of a memory map in the nonvolatile memory 4. In the memory area i, as company information,
Company name and address, etc. to CP _i area, A _i area to the companies of sales (billion yen), including tax benefits to the B _i region (Millions of yen),
Employees in C _i region (in person) is adapted to be stored. These data are input by operating the keyboard 6 after the operator presses the input switch 23. Also, the maximum value of the company's sales is stored in the MA area of the memory map, the maximum value of the company's tax-included profit is stored in the MB area, and the maximum number of employees of the company is stored in the MC area.
Each of the SA, SB, and SC areas stores the maximum value of a coordinate scale obtained from an expression described later based on the values of the MA, MB, and MC areas. Further, in the memory map, a predetermined identification symbol (○,
Δ, +, etc.) are stored.

In FIG. 3, numerical data elements of Kosha, Otsu and Heisha, A ₁ = 523, B ₁ = 1521, C ₁
= 945, A ₂ = 306, B ₂ = 820, C ₂ = 720,
A ₃ = 201, B ₃ = 408, C ₃ = 206 are input,
The value calculated based on these numerical data elements, MA
= 523, MB = 1521, MC = 945, SA = 60
0, SB = 2000, SC = 1100 are stored.

Next, the processing contents of the CPU 1 will be described with reference to FIGS. As shown in FIG.
1 performs initialization when the power is turned on (step 1;
"Hereafter, the word step is omitted in parentheses.") In initialization, internal registers, counters, and the like are set to initial values. At this time, 1 is set to a register i indicating a memory area in the nonvolatile memory 4 as shown in FIG. Also the data is set stored in SA region of the memory map (FIG. 3) in the register x ₀ and y ₀ the maximum value of the coordinate scale of the X-axis and Y-axis, register x indicating the value of X-coordinate and Y-coordinate _i, numerical data elements stored in the a _i area is set to y _i.

Then, the CPU 1 checks whether or not data is already stored in the memory area i (2), and increments the value of the register i by one every time there is data (3). Thus, the register i indicates the first area i in which no data is stored. Next, it is checked whether or not the input switch 23 for inputting new company information has been pressed (4). If not, it is determined whether or not any of the X-axis setting selection switches 21A to 21C has been pressed. Is checked (5). When the X-axis selection switch is pressed, the X-axis coordinate scale determination process shown in FIG. 5 is performed (6). Next, it is checked whether or not any of the Y-axis setting selection switches 22A to 22C is pressed (7). When the Y-axis selection switch is pressed, the Y-axis coordinate scale determination shown in FIG. Processing is performed (8).

Here, the contents of the X-axis coordinate scale determination processing (6) will be described. The CPU 1 first checks which of the X-axis setting selection switches 21A to 21C has been pressed (61). Is pressed the switch sets the data stored in the SA region in register x ₀ indicating the maximum value of the coordinate scale of the X axis if the switch 21A, the register x _i indicating the X-coordinate value of the numerical data element A _i Set the data stored in the area (62, 6
3). The long been depressed switch is the switch 21B, sets the data stored in the SB area in register x _0, sets the numerical data elements stored in B _i region in the register x _i (64,65). Alternatively, if the pressed switch is a switch 21C, the register x ₀ SC
Sets the data stored in the area, C _i into register x _i
Set the numerical data element stored in the area (66,
67).

Next, to determine the coordinates scale from a set in the register x ₀ data (68). That is, x ₀ is converted to X
Was determined as the maximum value of the coordinate scale axis, 1 times 10 divided value below _{x 0 (x 0/10)} , 2 -fold (2x _0/10),
3 times (3x _0/10), 4 times (4x _0/10), 5-fold (5
x _0/10), 6 times (6x _0/10), 7-fold (7x _0/1
0), eight times (8x _0/10), 9 times (9x _0/10), each coordinate scale of the X axis is determined by.

Similarly, with respect to the contents of the Y-axis coordinate scale determination processing (8), the CPU 1 operates the selection switch 22 for setting the Y-axis.
It is checked which one of the switches A to 22C has been pressed (81).
If A, a register y ₀ indicating the maximum value of the Y-axis coordinate scale
Is set to the data stored in the SA area, and Y of the data is set.
The numerical data element stored in the _Ai area is set in the register _yi indicating the coordinate value (82, 83). If the pressed switch is the switch 22B, the register y ₀ contains S
The data stored in the B area is set, and the numerical data element stored in the B _i area is set in the register y _i (8
4, 85). Alternatively, the pressed switch is switch 2.
If 2C, sets the data stored in the SC region register y _0, it sets the numerical data elements stored in the C _i region in the register y _i (86,87).

Next, to determine the coordinates scale from a set in the register y ₀ data (88). That is, y ₀ is Y
Was determined as the maximum value of the coordinate scale axis, 1 times 10 divided by the value of y ₀ less (y _0/10), 2-fold (2y _0/10),
3 times (3y _0/10), 4-fold (4y _0/10), 5-fold (5
y _0/10), 6-fold (6y _0/10), 7-fold (7y _0/1
0), 8-fold (8y _0/10), 9 times (9y _0/10), each coordinate scale of the Y axis is determined by. In this embodiment, the register x ₀ and the register y ₀ are each set to 10
Although the division is made, the division is not limited to this, and any division may be made. The degree of division may be changed according to the input company information.

Referring again to FIG. When the coordinate scale of the X axis and the Y axis is determined, the coordinate scale is updated (9). At this time, the positions and sizes (lengths) of the X axis and the Y axis are unchanged, and only the coordinate scale is updated. And as shown in FIG.
The contents of the data display process are performed (10). In the data display processing (10), the CPU 1 first stores the register i in the register R.
Is set, then 1 is set to the register i (1
01, 102). The value of the register x _i indicating the X-coordinate value of the numerical data element is less than the value of the register x ₀ indicating the maximum value of the coordinate scale of the X axis, and the numeric data element Y
It is checked whether or not the condition that the value of the register y _i indicating the coordinate value is equal to or less than the value of the register y ₀ indicating the maximum value of the coordinate scale of the Y axis is satisfied (103). Displays the coordinate data (x _i , y _i ) using the corresponding identification symbol (104). However, because sticks out from the X-Y coordinates set the coordinate data (x _i, y _i) to be individually displayed outside X-Y coordinate when the condition is not satisfied (105).

Next, the value of the register i is incremented by one (106), and until the value of i becomes larger than the value of the register R (107), the above-mentioned steps 103 to 104 are performed.
Alternatively, Step 105-Step 106-Step 1
07-Step 103... Are repeated.
As a result, the data of all the companies stored in the memory map are displayed for the items selected by the X-axis selection switch and the Y-axis selection switch. here,
Although not shown, the displayed data may be output to the printer 11. Incidentally, been set data stored in the SA region in register x ₀ and y ₀ in the initialization of Step 1 when the X-axis selection switch and the Y-axis selection switch is not pressed, the register x _i, y _i to A _i
Since the data stored in the area is set, data on the sales of all the companies stored in the memory map is displayed. In this case, since the coordinate item (sales of the company) and the coordinate scale are the same for both the X and Y axes, Y =
The data is displayed on the X straight line. afterwards,
Return to step 4.

Referring again to FIG. When the input switch 23 is depressed in step 4, data newly inputted by the operator (company information, company name / address, etc., sales, tax-included profit, number of employees) is read, and the data is stored in the area i (11, 11). 12). Next, the numerical data element stored in the _Ai area, that is, the newly entered company's sales is compared with the maximum value of the company's sales stored in the already input MA area (14), and is input. If the sales amount is larger than the existing sales maximum value, the input sales amount is further compared with the sales limit value LMA (in this embodiment, LMA is twice MA) (15). . Here, the limit value LMA of the sales is calculated as follows: when the input sales protrude from the sales already input and the value is large and the coordinates are uniformly displayed, the overall balance is broken and the sales already input is lost. The value is provided to prevent the value from being concentrated in the lower part and difficult to see.

Then, the inputted sales amount becomes the limit value LMA.
In the following cases, the SA determination processing shown in FIG. 8 is performed (16). In the SA determination processing (16), the CPU 1 first updates the maximum value of the company's sales stored in the MA area to the numerical data element stored in the _Ai area (161),
The number m of digits of the numerical data element is detected (162). Then, a minimum value n ₀ of n (n is an integer) that satisfies the following equation, (MA / 0.9) ≦ (n × 10 ^m−1 ) (Equation 1) is calculated (n ₀ ×
The value of 10 ^m-1 ) is determined as the maximum value of the coordinate scale when the sales amount is taken on the coordinate axis, and this value is input to the SA area (163, 164). The reason why MA is divided by 0.9 in the above equation 1 is to display the maximum value of sales in the vicinity of 90% of the coordinate scale when the maximum value of the coordinate scale is 100, so that the data can be easily viewed. In particular, the position is not limited to the 90% position, but is preferably set in the range of 70% to 100%. This is because if it is smaller than 70%, the data may be concentrated at the lower part and may be difficult to see. If the input sales is larger than the limit value LMA, step 1 in FIG.
03, the numerical data element is X-
They are displayed individually in step 105 without being displayed in the Y coordinate.

For example, as shown in the memory map of FIG. 3, if data of three companies (Ko, B, and Hei) are inputted, the sales 523 (100 million yen) of Kosha is set to MA as the maximum value of the sales. Stored in the area. Then, Equation 1 ((523 /
0.9) ≦ (n × 10 ^3-1 )), the minimum value n ₀ of n is calculated to be 6, and the value of 600 = (6 × 10 ^3-1 ) is the coordinate in the case where the sales are taken on the coordinate axis. S is determined as the maximum value of the scale.
Stored in area A. And steps 61-62-63
As shown at -68 (FIG. 5), when the operator presses the X-axis setting selection switch 21A, for example, as shown in FIG.
The coordinate scales 60, 120, 180, and 24 of the X axis shown in FIG.
0,300,360,420,480,540,600
Is determined.

Next, the numerical data element stored in the _Bi area, that is, the newly entered tax-included profit of the company is compared with the maximum value of the tax-included profit of the company stored in the already entered MB area (17). If the input tax-included profit is larger than the existing maximum value of the tax-included profit, the input tax-included profit is further compared with the limit value LMB of the tax-included profit (in this embodiment, LMB is twice MB). (18). Income tax limit L
If the entered tax-included profit is larger than the already-entered tax-included profit and the value is large, and the coordinates are displayed uniformly, the entire balance will be broken and the value of the already-included tax-included profit will be difficult to see. This is provided in order to prevent

Then, the input tax-included profit is equal to the limit value LM.
If it is less than B, the SB determination processing shown in FIG. 9 is performed (19). In the SB determination process (19), the CPU 1 first updates the maximum value of the tax-included profit of the company stored in the MB area to the numerical data element stored in the _Bi area (19).
1) detecting the number m of digits of the numerical data element (19)
2). Then, the minimum value n ₀ of n (n is an integer) that satisfies the following equation: (MB / 0.9) ≦ (n × 10 ^m−1 ) (Expression 2) is calculated (n ₀ ×
The value of 10 ^m-1 ) is determined as the maximum value of the coordinate scale when the tax-included profit is taken on the coordinate axis, and this value is input to the SB area (193, 194). The reason for dividing MB by 0.9 in Equation 2 above is the same as the reason for dividing MA by 0.9 in Equation 1 above. Note that the entered tax-included profit is the limit value LMB
If it is larger, the condition of step 103 in FIG. 7 is not satisfied, so this numerical data element is individually displayed in step 105 without being displayed in XY coordinates.

For example, assuming that data of three companies (Ko, Otsu, and Hei) are input (FIG. 3), the profit of Kosha including tax is 15
21 (million yen) is stored in the MB area as the maximum value of tax-included profit. Then, Equation 2 ((1521 / 0.9) ≦ (n
× 10 ^4-1 )), the minimum value n ₀ of n is calculated as 2, and 20
The value of 00 = (2 × 10 ^4-1 ) is determined as the maximum value of the coordinate scale when the tax-included profit is taken on the coordinate axis, and is stored in the SB area. Then, as shown in steps 81-84-85-88 (FIG. 5), when the operator presses the Y-axis setting selection switch 22B, for example, the Y-axis coordinate scales 200, 400, 600, and 200 shown in FIG. 800,100
0, 1200, 1400, 1600, 1800, 200
0 is determined.

Next, the numerical data element stored in the C _i area, that is, the newly entered number of employees of the company is compared with the maximum number of employees of the company stored in the already entered MC area (20). If the entered number of employees is greater than the maximum existing number of employees, the entered number of employees is further compared to a limit number of employees LMC (in this example, LMC was twice MC). (21). Limit L of the number of employees
MC, when the number of entered employees is greater than the number of already entered employees and the value is large, if the coordinates are evenly displayed, the overall balance is broken and the value of the already entered number of employees becomes difficult to see. This is provided in order to prevent

The input number of employees is equal to the limit value LM.
If it is less than or equal to C, the SC determination processing shown in FIG. 10 is performed (22). In the SC determination process (22), the CPU 1 first determines the maximum value of the number of employees of the company stored in the MC area as C _i.
After updating to the numerical data element stored in the area (22
1) detecting the number m of digits of the numerical data element (22)
2). Then, the minimum value n ₀ of n (n is an integer) that satisfies the following equation: (MC / 0.9) ≦ (n × 10 ^m−1 ) (Equation 3) is calculated (n ₀ ×
10 ^m-1 ) is determined as the maximum value of the coordinate scale when the number of employees is taken on the coordinate axis, and this value is input to the SC area (223, 224). The reason for dividing MC by 0.9 in Equation 3 above is the same as the reason for dividing MA by 0.9 in Equation 1 above. The entered number of employees is the limit value LMC
If it is larger, the condition of step 103 in FIG. 7 is not satisfied, so this numerical data element is individually displayed in step 105 without being displayed in XY coordinates.

For example, assuming that data of three companies (A, B, and C) are inputted (FIG. 3), the number of employees of the company A is 94.
5 (people) is stored in the MC area as the maximum number of employees. Then, Equation 3 ((945 / 0.9) ≦ (n × 10
^3-1 )), the minimum value n ₀ of n is calculated as 11, and 1100
= (11 × 10 ^3-1 ) is determined as the maximum value of the coordinate scale when the number of employees is taken on the coordinate axis and stored in the SC area. Then, for example, when the X-axis or Y-axis setting selection switch 21C or 22C is pressed by the operator, X
Coordinate scales 110, 220, 330, 44 of the axis or the Y axis
0,550,660,770,880,990,110
0 is determined.

Then, the value of the register i is incremented by 1 (23), and an area i for storing the next input data is secured, and the process returns to step 4.

In this embodiment, an example is shown in which the company information of the three companies A, B, and Hei is displayed. However, more companies can be displayed by adding the corresponding identification symbols. In addition, three items of numerical data, namely, sales, tax-included profit, and number of employees are listed, but sales / employee, tax-included profit / number of employees may be displayed from these, or the past 5
Enter yearly numerical data to increase sales,
It is also possible to display a tax-included profit growth rate, an employee number growth rate, an average sales growth rate, an average tax-included profit growth rate, and an average employee growth rate. Also, it can be used not only for corporate information but also for a wide range of information.

[0033]

As described above, according to the present invention, when the operator displays the coordinates of a desired numerical data element from among the numerical data elements of at least two or more numerical data groups stored in the memory, the operator is particularly required. It is not necessary to input each time while calculating the coordinate scale, etc., and the coordinates can be immediately displayed simply by pressing the X-axis selection switch and the Y-axis selection switch, so that the operability is excellent. For example, a group of company information indicating at least sales for each company in a numerical data group,
By including a group of company information indicating profits including tax and a group of company information indicating the number of employees, the company information can be compared immediately, so that it can be utilized for comprehensive management of company information. When the numerical data element is larger than a predetermined limit value, the numerical data element is individually displayed without displaying the XY coordinates. Therefore, when each numerical data element is displayed on the XY coordinates, each numerical data element is displayed. possibility that data elements are concentrated in the lower is not low.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a basic configuration outline of a personal computer that implements the present invention.

FIG. 2 is a state diagram showing an example of a display screen of a display 9 shown in FIG.

FIG. 3 is a plan view showing an example of a memory map in a nonvolatile memory 4 shown in FIG.

FIG. 4 is a flowchart showing processing contents of a CPU 1 shown in FIG. 1;

FIG. 5 is a flowchart showing the content of an X-axis coordinate scale determination process (6) shown in FIG.

FIG. 6 is a flowchart showing the contents of a Y-axis coordinate scale determination process (8) shown in FIG.

FIG. 7 is a flowchart showing the contents of a data display process (10) shown in FIG.

FIG. 8 is a flowchart showing the contents of SA determination processing (16) shown in FIG.

FIG. 9 is a flowchart showing the content of an SB determination process (19) shown in FIG.

FIG. 10 is a flowchart showing the contents of an SC determination process (22) shown in FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 CPU 4 Non-volatile memory 9 Display 21A, 21B, 21C Selection switch for X-axis setting 21A, 21B, 21C Selection switch for Y-axis setting 23 Input switch

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G06F 19/00 G06T 11/80 G06T 11/20 G06F 15/21-15/27

Claims (1)

(57) [Claims] 1. An XY coordinate display method for setting X and Y axes orthogonal to each other on a display and displaying coordinates of various data stored in a memory, wherein at least two or more numerical data stored in the memory are provided. The maximum value of the coordinate scale is determined based on the maximum value of each numerical data element for each group, and the maximum value of the coordinate scale is stored in the memory for each numerical data group. When the X-axis selection switch and the Y-axis selection switch provided are depressed, the maximum value of the coordinate scale corresponding to the numerical data group selected by the X-axis selection switch is called from the memory, and
The X-axis coordinate scale is updated while the position and size of the axis remain unchanged, and the maximum value of the coordinate scale corresponding to the numerical data group selected by the Y-axis selection switch is called from the memory to read the position and size of the Y-axis. Is a method for updating the coordinate scale of the Y axis in an invariable state, and displaying the numerical data elements of the selected numerical data group on the updated XY coordinates, wherein a new numerical data element is stored in the memory. Is stored,
Numerical data elements stored in the memory
By comparing with the maximum value of each numerical data element for each group,
Larger than the maximum value of each numeric data element for each numeric data group
If there is a numerical data element that is not
If the numeric data element is less than or equal to the specified limit, the number
Numeric data element of the numeric data group corresponding to the value data element
And the numeric data element is greater than the specified limit.
Is larger, the numerical data element is displayed in XY coordinates.
XY coordinates characterized by being displayed individually without any
Display method.