WO2021234909A1

WO2021234909A1 - Picture drawing program, storage medium, picture drawing device, and simulation method

Info

Publication number: WO2021234909A1
Application number: PCT/JP2020/020115
Authority: WO
Inventors: 佳央川村; 優斗大松; 徹石黒
Original assignee: 三菱電機株式会社
Priority date: 2020-05-21
Filing date: 2020-05-21
Publication date: 2021-11-25
Also published as: JPWO2021234909A1; JP6811915B1; CN115698929A; DE112020006921T5

Abstract

This picture drawing program causes a computer to function as a picture drawing device used in creating a screen displayed on a display device. This picture drawing program causes a computer to execute: a step in which a preset object is displayed on a computer display and the size of the displayed object is changed in accordance with an input operation, during an adjustment for displaying, in full size on the display, a state in which a subject screen that is a created screen is displayed on a display device; a step in which the size of an image of the subject screen displayed on the display is calculated on the basis of an input operation for matching the size of the object to an object of a standard size; and a step in which an image having the calculated size is displayed on the display, and a state in which the subject screen is displayed on the display device is simulated.

Description

Drawing program, storage medium, drawing device and simulation method

The present disclosure relates to a drawing program, a storage medium, a drawing device, and a simulation method used to create a screen displayed on a display device.

The user of the drawing program creates the screen of the display device by arranging the parts that are the display elements on the editing screen of the drawing device that is the computer on which the drawing program is installed. When creating a screen for a programmable display, which is a display device, parts such as a meter for displaying data about an external device connected to the programmable display and a switch for accepting operations of the external device are arranged on the editing screen. Will be done.

Some drawing devices have a function of simulating how the created screen is displayed on the display device. Patent Document 1 discloses a drawing device capable of displaying a created screen and simulating a state in which an operation is accepted on the screen.

Japanese Unexamined Patent Publication No. 2010-218533

If it is possible to display the created screen on the display device in the actual size on the drawing device, the user of the drawing device can easily confirm the size of each part on the screen of the display device by simulation. Can be done.

The conventional drawing apparatus according to Patent Document 1 described above has an enlargement ratio for displaying a created screen in its original size based on information such as screen size, resolution, and pixel size of the display used in the drawing apparatus. Or calculate the scale ratio. In this case, the user of the drawing device needs to confirm the screen size, the resolution, and the pixel size of the display to be used, and input the confirmed information into the drawing device in advance. For this reason, according to the conventional technique, there is a problem that it takes time and effort to adjust the created screen to be displayed in the actual size.

The present disclosure has been made in view of the above, and an object thereof is to obtain a drawing program capable of displaying the created screen in the actual size by easy adjustment.

In order to solve the above-mentioned problems and achieve the object, the drawing program according to the present disclosure causes the computer to function as a drawing device used for creating a screen displayed on the display device. The drawing program according to the present disclosure displays a preset object on the display in the adjustment for displaying the created screen, which is the target screen, on the display device in the actual size on the computer display. , A step to change the size of the displayed object according to the input operation, and a step to calculate the size of the image of the target screen displayed on the display based on the input operation to match the size of the object to the object of the specified size. , An image of the calculated size is displayed on the display, and the computer is made to perform a step of simulating how the target screen is displayed on the display device.

The drawing program related to this disclosure has the effect that the created screen can be displayed in full size by easy adjustment.

The figure which shows the system which includes the drawing apparatus which concerns on Embodiment 1. The figure which shows the structure of the drawing apparatus which concerns on Embodiment 1. The figure which shows the structure for simulation among the drawing apparatus which concerns on Embodiment 1. A flowchart showing a first operation procedure by the drawing apparatus according to the first embodiment. The figure which shows the example of the adjustment screen displayed on the simulation display part of the drawing apparatus which concerns on Embodiment 1. A flowchart showing a second operation procedure by the drawing apparatus according to the first embodiment. The figure which shows the example which the contact area is superimposed and displayed in the drawing apparatus which concerns on Embodiment 1. A flowchart showing a third operation procedure by the drawing apparatus according to the first embodiment. The figure which shows the example which displays the target screen which reflected the environment in the drawing apparatus which concerns on Embodiment 1.

The drawing program, storage medium, drawing device, and simulation method according to the embodiment will be described in detail below based on the drawings.

Embodiment 1.
FIG. 1 is a diagram showing a system including the drawing apparatus according to the first embodiment. The system shown in FIG. 1 has a drawing device 1 and a display device 2. The drawing device 1 is a device used to create a screen displayed on the display device 2. The drawing device 1 and the display device 2 are communicably connected to each other via a network by wireless communication or a network by wired communication.

The display device 2 is an HMI (Human Machine Interface). In the first embodiment, the display device 2 is a programmable display device. The programmable display displays information about the status of external devices connected to the programmable display. In addition, the programmable display accepts operations and controls external devices according to the operations. In the first embodiment, the external device is a programmable logic controller (PLC).

The drawing device 1 creates project data. The project data describes a process for controlling the display of the screen on the display device 2. The project data includes screen data described later. The display device 2 executes control such as switching of the screen displayed on the display device 2 according to the process described in the project data. The drawing program is a program having a function to support the creation of project data.

The drawing device 1 creates the project data executed by the display device 2 based on the operation by the user, and sends the created project data to the display device 2. Further, the drawing device 1 changes the project data read from the display device 2 based on the operation by the user, and sends the changed project data to the display device 2. The created project data may be stored in the storage medium in the drawing device 1 and sent to the display device 2 via the storage medium. Illustration of such a storage medium is omitted.

Next, the configuration of the drawing device 1 will be described. FIG. 2 is a diagram showing a configuration of a drawing device according to the first embodiment. The drawing device 1 is a computer system in which a drawing program is installed. The computer system is a personal computer or a general purpose computer. FIG. 2 shows a hardware configuration of a computer system and a functional configuration realized by using the hardware configuration.

The drawing device 1 includes a processor 10 that executes various processes, a memory 11 that is a built-in memory, an input device 12 for input to the drawing device 1, a display 13 that displays information, and a storage that holds various information. It has a device 14 and a communication device 15 that communicates with a device outside the drawing device 1.

The processor 10 is a CPU (Central Processing Unit). The processor 10 may be a processing device, an arithmetic unit, a microprocessor, a microcomputer, or a DSP (Digital Signal Processor). The memory 11 is a RAM (Random Access Memory), a ROM (Read Only Memory), a flash memory, an EPROM (Erasable Programmable Read Only Memory) or an EEPROM (registered trademark) (Electrically Erasable Programmable Read Only Memory). The storage device 14 is an HDD (Hard Disk Drive) or an SSD (Solid State Drive). The drawing program is stored in the storage device 14. The processor 10 reads the drawing program stored in the storage device 14 into the memory 11 and executes it.

The input device 12 is a device such as a keyboard, a mouse, or a touch panel. The communication device 15 is a connection interface with an external device of the drawing device 1. The communication device 15 communicates with the display device 2. The display 13 displays information on the screen. The display 13 has a function of displaying an edit screen for creating a screen. The display 13 also functions as a simulation display unit that simulates how the created screen is displayed on the display device 2.

The drawing program may be stored in a storage medium that can be read by a computer system. The drawing device 1 may store the drawing program recorded on the storage medium in the memory 11. The storage medium may be a portable storage medium that is a flexible disk, or a flash memory that is a semiconductor memory. The drawing program may be installed in a computer system from another computer or server device via a communication network.

The drawing device 1 has a drawing processing unit 16 that performs processing for creating project data, and a simulation processing unit 17 that performs processing for simulating the created screen. In the following description, the screen created by the drawing device 1 may be referred to as a target screen. The drawing processing unit 16 generates screen data indicating the contents of the target screen according to the operation by the user. The simulation processing unit 17 performs processing for simulating how the target screen is displayed based on the generated screen data.

As a function for simulation, the drawing device 1 reflects a function of displaying the target screen in the actual size, a function of superimposing the contact area on the image of the target screen, and an environment in which the display device 2 is installed. It has a function to display the target screen.

The simulation processing unit 17 has a size adjustment unit 21 that makes adjustments for displaying the target screen in the actual size in the simulation. The simulation processing unit 17 has a superimposition processing unit 22 that performs processing for displaying the contact area by superimposing on the display of the target screen in the simulation. The contact area is an area of the target screen that the contact object comes into contact with for the operation of the display device 2. The contact object is a finger, a touch pen, or the like. Further, the simulation processing unit 17 has an environment reflection unit 23 that performs processing for displaying a target screen in which the environment in which the display device 2 is installed is reflected in the simulation.

Next, the configuration for simulation of the drawing device 1 will be described. FIG. 3 is a diagram showing a configuration for simulation among the drawing devices according to the first embodiment. The drawing device 1 has a simulation display unit 24 that simulates how the target screen is displayed on the display device 2, and a storage unit 25 that holds information used in the simulation. The simulation display unit 24 is a functional unit realized by using the display 13 described above. The storage unit 25 is a functional unit realized by using the above-mentioned storage device 14.

The size adjustment unit 21 is responsible for making adjustments for displaying the target screen in its original size. The size adjustment unit 21 includes an object display processing unit 31, a size calculation unit 32, and an actual size display processing unit 33.

The object display processing unit 31 causes the simulation display unit 24 to display and display a preset object in the adjustment for displaying the state in which the target screen is displayed on the display device 2 in the simulation display unit 24 in the actual size. Change the size of the object according to the input operation.

The size calculation unit 32 calculates the size of the image of the target screen displayed on the simulation display unit 24 based on the input operation of matching the size of the object with the object of the specified size. The actual size display processing unit 33 performs processing for displaying the target screen in the actual size according to the calculated size.

The environment reflection unit 23 has an illuminance calculation unit 34 and a reflection processing unit 35. The illuminance calculation unit 34 calculates the illuminance corresponding to the selected environment setting. The reflection processing unit 35 reflects the illuminance calculated by the illuminance calculation unit 34 on the brightness and contrast in displaying the image on the target screen. The storage unit 25 holds size data, screen data, contact area data, environment setting data, and display device setting data. Details of each data will be described later.

FIG. 4 is a flowchart showing a first operation procedure by the drawing apparatus according to the first embodiment. The first operation procedure is an operation procedure in the adjustment for displaying the target screen in the actual size. The user instructs the drawing device 1 to display the target screen in the actual size by operating the input device 12. When the user instructs the display of the target screen in the actual size, the drawing device 1 operates according to the first operation procedure. In the following description, the adjustment for displaying the target screen in the actual size may be referred to as "calibration". Further, the object to be displayed on the simulation display unit 24 in the calibration may be referred to as a "guideline".

In step S1, the drawing device 1 determines whether or not to execute calibration. The drawing device 1 does not perform the calibration if the display device 2 has been calibrated in the past. When the calibration is not executed (steps S1 and No), the drawing apparatus 1 ends the operation according to the procedure shown in FIG. The drawing device 1 displays the actual size of the target screen based on the result of the past calibration.

The drawing device 1 executes the calibration if the display device 2 has not been calibrated in the past. When performing calibration (steps S1 and Yes), in step S2, the drawing apparatus 1 displays a guideline on the adjustment screen. The adjustment screen is a screen displayed by the simulation display unit 24 when calibration is performed.

FIG. 5 is a diagram showing an example of an adjustment screen displayed on the simulation display unit of the drawing apparatus according to the first embodiment. FIG. 5 shows how the adjustment screen 40 is displayed on the display 13. The guideline 41 is displayed on the adjustment screen 40. Further, FIG. 5 shows a user holding a card 42, which is an object of a predetermined size, in front of the adjustment screen 40.

Guideline 41 is an object that encloses a rectangle with each corner deformed roundly, and is represented by a broken line. The shape enclosed by the guideline 41 and the shape of the card 42 are similar to each other. The object according to the guideline 41 is an object representing a shape similar to the shape of the card 42, and is preset in the drawing device 1.

The input device 12 accepts an operation for changing the size of the guideline 41 displayed on the adjustment screen 40. The size of the guideline 41 is the size of the shape surrounded by the guideline 41. By operating the input device 12, the user can freely enlarge and reduce the shape surrounded by the guideline 41.

The specified size of the card 42 is set in advance in the drawing device 1 as the size of the object used in the calibration. The card 42 may be a card having a standard size, and is not limited to a card 42 dedicated to calibration in the drawing apparatus 1. The card 42 may be a business card or a credit card as long as it has a standard size. The object used in the calibration may be an object other than the card 42. The guideline 41 may be an object represented by a line other than the broken line. The object may be a figure similar to the card 42.

In step S3, the drawing device 1 accepts operations for adjusting the size of the guideline 41 and determining the size of the guideline 41. The user adjusts the size of the guideline 41 to match the guideline 41 with the outer edge of the card 42. The user determines the size of the guideline 41 by operating the input device 12 with the guideline 41 aligned with the outer edge of the card 42. The user adjusts the size of the guideline 41 and determines the size of the guideline 41 by, for example, a drag-and-drop operation using the input device 12. The object display processing unit 31 outputs data indicating the determined size to the size calculation unit 32.

In step S4, the drawing device 1 calculates the size of the image of the target screen on the simulation screen. The simulation screen is a screen displayed by the simulation display unit 24 when the simulation is performed. Data indicating the size of the guideline 41 is input to the size calculation unit 32 from the object display processing unit 31. The size calculation unit 32 reads size data from the storage unit 25.

The size data includes the specified size data indicating the actual size of the card 42 and the screen size data indicating the actual size of the target screen. For example, the specified size data includes a value indicating the vertical length of the card 42 and a value indicating the horizontal length of the card 42. The screen size data includes a value indicating the vertical length of the target screen and a value indicating the horizontal length of the target screen.

The storage unit 25 may hold screen size data for each of the plurality of models. Based on the above project data, the simulation processing unit 17 recognizes the model of the display device 2 that is the target of screen creation by the user. The size calculation unit 32 reads screen size data from the storage unit 25 for the recognized model.

The size calculation unit 32 obtains the ratio between the actual size of the card 42 and the actual size of the target screen. As one example, the vertical length of the card 42 is 5 cm, the horizontal length of the card 42 is 10 cm, the vertical length of the target screen is 10 cm, and the horizontal length of the target screen is 20 cm. do. The ratio of the vertical length of the card 42 to the vertical length of the target screen is 1: 2, and the ratio of the horizontal length of the card 42 to the horizontal length of the target screen is 1: 2. In the case of this example, the ratio of the actual size of the card 42 to the actual size of the target screen is calculated to be 1: 2.

Next, the size calculation unit 32 calculates the size of the image of the target screen on the simulation screen based on the obtained ratio and the size of the guideline 41 on the simulation screen. Here, the size in the display on the simulation screen is expressed in units of pixels, that is, dots.

Since the size of the guideline 41 is adjusted according to the card 42, the size ratio between the card 42 and the target screen in the real space and the size ratio between the guideline 41 and the image of the target screen on the simulation screen are the same. By doing so, the target screen can be displayed in its original size. The size calculation unit 32 calculates the size of the image of the target screen based on the ratio between the size of the card 42 and the size of the target screen and the size of the guideline 41 in the simulation display unit 24.

In the above example, the size ratio between the card 42 and the target screen is 1: 2. In this case, assuming that the size of the guideline 41 is 1000 dots in the horizontal direction and 500 dots in the vertical direction, the size of the image on the target screen is 2000 dots in the horizontal direction and 1000 dots in the vertical direction. The size calculation unit 32 calculates the size of the image on the target screen in this way. The size calculation unit 32 outputs the size calculation result to the actual size display processing unit 33.

The actual size display processing unit 33 reads screen data from the storage unit 25. The actual size display processing unit 33 adjusts the size of the image on the target screen according to the calculation result input from the size calculation unit 32. The actual size display processing unit 33 outputs the screen data that has undergone size adjustment to the simulation display unit 24. The simulation display unit 24 displays the simulation screen based on the screen data. In this way, in step S5, the drawing device 1 displays the target screen of the calculated size on the simulation screen. The drawing device 1 displays the target screen in its original size. As a result, the drawing device 1 ends the operation according to the procedure shown in FIG.

FIG. 6 is a flowchart showing a second operation procedure by the drawing apparatus according to the first embodiment. The second operation procedure is an operation procedure for displaying the contact area by superimposing it on the image of the target screen. The user selects whether or not to display the contact area by operating the input device 12.

In step S11, the drawing device 1 determines whether or not the option for displaying the contact area is selected. When the option for displaying the contact area is not selected (steps S11, No), the drawing apparatus 1 ends the operation according to the procedure shown in FIG. The drawing device 1 displays a simulation screen that does not include the display of the contact area. On the other hand, when the option to display the contact area is selected (step S11, Yes), the drawing apparatus 1 advances the procedure to step S12.

In step S12, the drawing device 1 accepts the selection of the operation method. The operation method is a classification of a contact object used for an input operation to the display device 2. The superimposition processing unit 22 causes the simulation display unit 24 to display the operation method options. By operating the input device 12, the user selects an operation method from the displayed options. As the operation method, either a finger or a touch pen can be selected. In the case of finger operation, it may be possible to select more detailed conditions. The drawing device 1 may accept a selection of conditions such as, for example, whether the finger is an adult finger or a child finger, a left hand finger or a right hand finger, and a bare hand or a gloved state.

The storage unit 25 holds contact area data for each preset option. The contact area data is information indicating the size and shape of the contact area. The superimposition processing unit 22 reads out the contact area data for the selected operation method from the contact area data held in the storage unit 25. As described above, in step S13, the drawing device 1 reads out the information of the contact area corresponding to the selected operation method from the storage unit 25.

The superimposition processing unit 22 performs processing for superimposing the contact area on the image of the target screen based on the contact area data. The simulation display unit 24 displays the simulation screen based on the screen data processed by the superimposition processing unit 22. In this way, in step S14, the drawing device 1 superimposes and displays the contact area on the simulation screen. As a result, the drawing device 1 ends the operation according to the procedure shown in FIG.

FIG. 7 is a diagram showing an example in which the contact area is superimposed and displayed in the drawing apparatus according to the first embodiment. FIG. 7 shows how the simulation screen 50 is displayed on the display 13. An image 51 of the target screen is displayed on the simulation screen 50. The mark 53 representing the contact area is superimposed and displayed on the image 51 of the target screen. In the example shown in FIG. 7, the contact area when the finger is selected as the operation method is shown.

The user specifies the position to be touched for operation on the target screen by operating the input device 12. The mark 53 represents a contact area when the specified position is touched by the contact body. Further, the user can freely move the position by operating the input device 12. As the position moves, the mark 53 also moves.

By displaying the contact area superimposed on the image 51 of the target screen on the simulation screen 50, the drawing device 1 can present the contact area when operating the target screen to the user in an easy-to-understand manner. The user can intuitively grasp the contact area on the target screen from the display of the simulation screen 50. The user can easily confirm whether or not the size of parts such as switches on the target screen or the distance between the parts may interfere with the operation.

Further, as shown in FIG. 7, when displaying the contact area by the finger, the drawing device 1 may display the image 52 of the hand when operating the target screen together with the mark 53. As a result, the user can intuitively grasp that the displayed mark 53 represents the contact area. When displaying the contact area with the touch pen, the drawing device 1 may display the image of the touch pen when the target screen is being operated.

FIG. 8 is a flowchart showing a third operation procedure by the drawing apparatus according to the first embodiment. The third operation procedure is an operation procedure for displaying the target screen reflecting the environment in which the display device 2 is installed. The user selects whether or not to display the target screen reflecting the environment by operating the input device 12.

In step S21, the drawing device 1 determines whether or not the environment reflection option has been selected. When the environment reflection option is not selected (steps S21, No), the drawing apparatus 1 ends the operation according to the procedure shown in FIG. On the other hand, when the environment reflection option is selected (step S21, Yes), the drawing device 1 advances the procedure to step S22.

In step S22, the drawing device 1 accepts the selection of the environment setting. As the environment setting, one of indoor and outdoor, and one of daytime and nighttime can be selected. For the outdoors, it may be possible to select the weather such as sunny, cloudy, and rainy. For daytime, it may be possible to select the time zone such as morning, noon, and evening. The user specifies the environment in which the display device 2 is installed by the selection in step S22.

The storage unit 25 holds environment setting data for each environment setting registered in advance. The environment setting data is data indicating the illuminance. In the storage unit 25, for example, the illuminance for each of indoor and daytime, indoor and nighttime, outdoor and daytime, and outdoor and nighttime is stored in advance as environment setting data. The illuminance calculation unit 34 reads out the environment setting data for the selected environment setting from the environment setting data held in the storage unit 25. As a result, in step S23, the drawing device 1 calculates the illuminance corresponding to the selected environment setting.

The storage unit 25 holds the display device setting data. The display device setting data is information about the brightness of the screen in the display device 2, and includes data in the range of luminance and the range of contrast. The storage unit 25 may hold display device setting data for each of the plurality of models. Based on the above project data, the environment reflection unit 23 recognizes the model of the display device 2 that is the target of screen creation by the user. The reflection processing unit 35 reads out the display device setting data for the recognized model from the display device setting data held in the storage unit 25. As described above, in step S24, the drawing device 1 reads the display device setting data, which is the setting information of the display device 2, from the storage unit 25.

The reflection processing unit 35 specifies the brightness specified by the screen data from the range of the brightness indicated by the display device setting data. Further, the reflection processing unit 35 specifies the contrast specified by the screen data from the contrast range indicated by the display device setting data.

The reflection processing unit 35 performs a process of reflecting the specified brightness and contrast and the illuminance calculated in step S23 on the brightness and contrast in the display of the image on the target screen. As described above, in step S25, the drawing device 1 adjusts the brightness and contrast of the image on the target screen. The simulation display unit 24 displays the simulation screen 50 based on the screen data processed by the environment reflection unit 23. The drawing device 1 displays an image of the target screen reflecting the designated environment. As a result, the drawing device 1 ends the operation according to the procedure shown in FIG.

FIG. 9 is a diagram showing an example in which a target screen reflecting the environment is displayed in the drawing apparatus according to the first embodiment. FIG. 9 shows an example of the simulation screen 50 when "indoor" and "nighttime" are specified, and an example of the simulation screen 50 when "outdoor" and "daytime" are specified.

In the case of "indoor" and "night", the surroundings of the target screen are dark, so the brightness and darkness of the target screen becomes clear. By reflecting the "indoor" and "night" environment settings, the drawing device 1 displays the image 51 of the target screen in which the light and darkness is clarified. In the case of "outdoor" and "daytime", since the surroundings of the target screen are bright, both the dark part and the bright part of the target screen appear to be brighter. By reflecting the "outdoor" and "daytime" environment settings, the drawing device 1 displays the image 51 of the target screen whose brightness is increased as a whole.

By displaying the target screen that reflects the environment in which the display device 2 is installed on the simulation screen 50, the user can confirm how the target screen looks in the environment in which the display device 2 is installed. Compared to the case where the brightness and contrast parameters need to be adjusted by the user, the user can easily confirm the target screen in which the environment is reflected.

In the first embodiment, the display device 2 is not limited to the programmable display device. The display device 2 may be an information terminal such as a smartphone or a tablet terminal.

According to the first embodiment, the drawing program displays a preset object on the display 13 and changes the size of the displayed object according to the input operation. The drawing program calculates the size of the image of the target screen displayed on the display 13 based on the input operation of matching the size of the object with the object of the specified size. The drawing program automatically adjusts the display 13 to display the target screen in its original size by accepting an input operation for matching the size of the displayed object with the object of the specified size by the drawing device 1. Since the user can omit the confirmation of information such as the screen size, the resolution, and the pixel size of the display 13 and the input of the information to the drawing device 1, the user can display the created screen in the actual size. Adjustments can be made easily. Even a user who has little experience in creating a screen using a drawing program can intuitively understand the operation for adjustment and can easily use the actual size display function. As described above, the drawing program has the effect that the created screen can be displayed in the actual size by easy adjustment.

The configuration shown in the above embodiments is an example of the contents of the present disclosure. The configurations of the embodiments can be combined with other known techniques. It is possible to omit or change part of the configuration of the embodiments without departing from the gist of the present disclosure.

1 drawing device, 2 display device, 10 processor, 11 memory, 12 input device, 13 display, 14 storage device, 15 communication device, 16 drawing processing unit, 17 simulation processing unit, 21 size adjustment unit, 22 superimposition processing unit, 23. Environment reflection unit, 24 simulation display unit, 25 storage unit, 31 object display processing unit, 32 size calculation unit, 33 actual size display processing unit, 34 illuminance calculation unit, 35 reflection processing unit, 40 adjustment screen, 41 guideline, 42 card, 50 simulation screen, 51 target screen image, 52 hand image, 53 mark.

Claims

A drawing program that causes a computer to function as a drawing device used to create a screen displayed on a display device.
In the adjustment for displaying the created target screen, which is the screen, on the display device in the actual size on the display of the computer, a preset object is displayed on the display and displayed. Steps to change the size of the object according to the input operation,
A step of calculating the size of the image of the target screen displayed on the display based on an input operation of matching the size of the object to an object of a specified size, and
A step of displaying the image of the calculated size on the display and simulating how the target screen is displayed on the display device.
A drawing program characterized by causing the computer to execute the above.
The drawing program according to claim 1, wherein the size of the image of the target screen is calculated based on the ratio of the size of the target screen to the size of the object and the size of the object on the display.
The drawing program according to claim 1 or 2, wherein the computer executes a step of superimposing and displaying an area of contact with a contact object for operating the display device on an image of the target screen.
Any of claims 1 to 3, wherein the computer is made to perform a step of displaying the target screen in a state in which the environment is reflected on the display by designating the environment in which the display device is installed. The drawing program described in one.
A storage medium characterized in that the drawing program according to any one of claims 1 to 4 is stored and can be read by a computer.
A drawing device used to create a screen displayed on a display device.
A simulation display unit that simulates how the created target screen, which is the screen, is displayed on the display device, and
In the adjustment for displaying the display of the target screen on the display device in the actual size on the simulation display unit, a preset object is displayed on the simulation display unit, and the displayed object is displayed. An object display processing unit that changes the size according to the input operation,
A size calculation unit that calculates the size of the image of the target screen displayed on the simulation display unit based on an input operation that matches the size of the object with an object of a specified size.
A drawing device characterized by being equipped with.
It is a simulation method for simulating how the screen is displayed on the display device by the drawing device used for creating the screen displayed on the display device.
In the adjustment for displaying the created target screen, which is the screen, on the display device in the actual size, the preset object is displayed on the drawing device and displayed. The process of changing the size of the object according to the input operation,
A process of calculating the size of the image of the target screen displayed on the drawing device based on an input operation of matching the size of the object with an object of a specified size, and
A simulation method characterized by including.