WO2016157540A1 - オブジェクト調整ツールおよびオブジェクト調整プログラム - Google Patents
オブジェクト調整ツールおよびオブジェクト調整プログラム Download PDFInfo
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- WO2016157540A1 WO2016157540A1 PCT/JP2015/060675 JP2015060675W WO2016157540A1 WO 2016157540 A1 WO2016157540 A1 WO 2016157540A1 JP 2015060675 W JP2015060675 W JP 2015060675W WO 2016157540 A1 WO2016157540 A1 WO 2016157540A1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/04845—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range for image manipulation, e.g. dragging, rotation, expansion or change of colour
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/04847—Interaction techniques to control parameter settings, e.g. interaction with sliders or dials
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/04842—Selection of displayed objects or displayed text elements
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/44—Arrangements for executing specific programs
- G06F9/445—Program loading or initiating
- G06F9/44505—Configuring for program initiating, e.g. using registry, configuration files
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F9/00—Arrangements for program control, e.g. control units
- G06F9/06—Arrangements for program control, e.g. control units using stored programs, i.e. using an internal store of processing equipment to receive or retain programs
- G06F9/44—Arrangements for executing specific programs
- G06F9/451—Execution arrangements for user interfaces
Definitions
- the present invention relates to an object adjustment tool and an object adjustment program for automatically adjusting the display state of objects displayed on a plurality of screens.
- a programmable display device having a function of connecting to a control device and displaying information of the control device and a function of setting the control device is used.
- the programmable display has a touch panel monitor having a user interface function. The user sets the position and size of an object such as a switch to be displayed on the programmable display using drawing software for creating screen data. Using the drawing software, the user can further set the function realized by the switch on the programmable display.
- the user checks the position, size and function of each object, or the user manually uses a tool with a list of object positions, sizes and functions. It was corrected by input. For example, if screen data with 100 pages is created, but there are multiple screen data created with the same layout specifications, the same screen data created with the same layout specifications It was necessary for an operator to manually check and correct whether or not the coordinates of the objects are unified.
- each project data which is a group of screen data for each programmable display
- the layout of an object is changed in one project data, and the same object in the other project data is to have the same layout, the same editing for the other project data is performed. Had to be done manually.
- Patent Document 1 relates to drawing software for a programmable display, and the position of a newly arranged component image is set to an appropriate position by using the arrangement position of the component image of already created screen data as a reference. Has been shown to change.
- the screen data already created is used as a reference, and a guide conforming to the reference is displayed during data creation, so that the user can efficiently create the screen data.
- the present invention has been made in view of the above, and an object of the present invention is to obtain an object adjustment tool capable of automatically adjusting setting information of an object of screen data already created.
- the present invention includes an adjustment target object included in the screen data and an adjustment target, an adjustment reference object included in the screen data and used as a reference for adjustment,
- a setting screen display unit that displays a setting screen that accepts setting information to be adjusted and setting information to be compared, setting information to be compared with an object of an adjustment reference, and setting information to be compared with an object to be adjusted , And the setting information to be adjusted of the adjustment reference object and the setting information to be adjusted of the object to be adjusted are matched, and the determination result is determined as the determination result.
- a comparison processing unit for outputting to the list.
- the setting information to be compared between the adjustment reference object and the adjustment target object matches based on the determination result list, and the setting information to be adjusted between the adjustment reference object and the adjustment target object does not match
- An adjustment processing unit that adjusts the setting information to be adjusted of the adjustment target object so as to match the adjustment setting information of the adjustment reference object, and an adjustment setting of the adjustment target object that has been adjusted by the adjustment processing unit
- a development unit that overwrites information on screen data including an object to be adjusted
- the object adjustment tool according to the present invention has an effect that it is possible to automatically adjust the setting information of the object of the screen data already created.
- the figure which shows schematic structure of the information processing apparatus concerning embodiment of this invention The figure which showed the relationship between the project data and programmable display concerning an embodiment
- summary of a structure of the project data concerning embodiment The figure which shows the hardware constitutions of the information processing apparatus concerning embodiment
- the figure which shows the function structure of the object adjustment tool concerning embodiment Flowchart for explaining the operation of the object adjustment tool according to the embodiment
- the figure which shows an example of the virtual data concerning embodiment The flowchart explaining the comparison process which the comparison process part concerning embodiment performs
- FIG. 1 is a diagram showing a schematic configuration of an information processing apparatus 10 according to an embodiment of the present invention.
- the information processing apparatus 10 is an information processing terminal such as a personal computer.
- the information processing apparatus 10 includes a drawing tool 90 that supports screen design of a programmable display, an object adjustment tool 100 that automatically adjusts display of objects on the screen, and a memory that holds project data created using the drawing tool 90. And an area 110.
- the object adjustment tool 100 may exist as a part of the function of the drawing tool 90, but may be a tool independent of the drawing tool 90.
- Project data is data that collects screen data corresponding to all screens displayed on the programmable display.
- the storage area 110 in FIG. 1 holds project data (1) 111, project data (2) 112, and project data (3) 113.
- FIG. 2 is a diagram illustrating a relationship between project data and a programmable display according to the embodiment.
- the devices A, B, and C are control devices such as laser processing machines, and are installed in different lines A, B, and C, respectively.
- Project data (1) 111 is project data of the programmable display of apparatus A.
- Project data (2) 112 is project data of the programmable display of apparatus B.
- Project data (3) 113 is project data of the programmable display of the device C.
- the programmable display of apparatus A displays a screen based on project data (1) 111
- the programmable display of apparatus B displays a screen based on project data (2) 112, and the programmable display of apparatus C. Displays a screen based on the project data (3) 113.
- FIG. 1 is project data of the programmable display of apparatus A.
- Project data (2) 112 is project data of the programmable display of apparatus B.
- Project data (3) 113 is project data of the programmable display of the device C.
- FIG. 3 is a diagram illustrating an outline of a configuration of project data according to the embodiment.
- Each of the project data (1) 111, the project data (2) 112, and the project data (3) 113 is composed of a plurality of screen data, and a plurality of objects are arranged on the screen indicated by each screen data. Yes.
- the project data (1) 111, screen data 111 1, 111 2, ..., contains 111 n.
- the screen data 111 1 includes objects 111 1a , 111 1b , 111 1c , 111 1d , 111 1e, and 111 1f .
- the programmable displays of the devices A, B, and C are connected to the information processing device 10 (not shown), and the project data (1) 111, project data (2) 112, and project data (3) after creation are created. 113 is transferred from the information processing apparatus 10 to each programmable display, and each programmable display displays a screen based on these. However, if each programmable display has another means for providing the project data (1) 111, the project data (2) 112, and the project data (3) 113, the respective programmable displays are not necessarily provided in the information processing apparatus 10. You do not need to be connected.
- FIG. 4 is a diagram illustrating a hardware configuration of the information processing apparatus 10 according to the embodiment.
- the information processing apparatus 10 includes an arithmetic device 11 such as a CPU (Central Processing Unit) that performs arithmetic processing, a memory 12 that the arithmetic device 11 uses as a work area, an HDD (Hard) that stores drawing software, an object adjustment program, and project data.
- a storage device 13 such as a disk drive, an input device 14 that is an input interface with the user, a display device 15 that displays information to the user, and a communication device 16 that has a communication function with a programmable display.
- the drawing software and the object adjustment program are programs that can be executed by a computer such as the information processing apparatus 10.
- the function of the drawing tool 90 is realized by the calculation device 11 executing the drawing software.
- the function of the object adjustment tool 100 is realized by the arithmetic device 11 executing an object adjustment program.
- the function of the storage area 110 is realized by the storage device 13.
- the object adjustment tool 100 may exist as a part of the function of the drawing tool 90.
- the object adjustment program is included in the drawing software.
- the object adjustment program may exist separately from the drawing software, and the object adjustment tool 100 may be a tool independent of the drawing tool 90.
- FIG. 5 is a diagram illustrating a functional configuration of the object adjustment tool 100 according to the embodiment.
- the object adjustment tool 100 compares objects with a setting screen display unit 101 that displays a setting screen on the display device 15, a virtual data creation unit 102 that creates virtual data that summarizes project data to be adjusted and adjustment targets, and the like.
- FIG. 6 is a flowchart for explaining the operation of the object adjustment tool 100 according to the embodiment.
- FIG. 6 is a flowchart assuming both the case where the object adjustment tool 100 is activated independently and the case where the object adjustment tool 100 is activated while the drawing tool 90 is activated.
- the setting screen display unit 101 displays a setting screen as a user interface on the display device 15 (step S11).
- the setting screen display unit 101 displays a setting screen as a user interface on the display device 15. Is displayed (step S21).
- the user's instruction during activation of the drawing tool 90 is executed by an operation such as the user pressing or selecting an option button on the toolbar shown on the display device 15.
- FIG. 7 is a diagram illustrating an example of a setting screen according to the embodiment.
- the setting screen display unit 101 displays the setting screen of FIG.
- the setting screen shown in FIG. 7 includes an “adjustment target selection” field in which the user designates project data, screen data, or an object to be adjusted, and a user designates project data, screen data, or an object to be adjusted.
- an “adjustment execution” button 70 is a diagram illustrating an example of a setting screen according to the embodiment.
- the objects included in the project data and screen data selected in the “Adjustment Target Selection” column and the objects selected in the “Adjustment Target Selection” column are all called adjustment target objects.
- the objects included in the project data and screen data selected in the “Adjustment source selection” column and the objects selected in the “Adjustment source selection” column are all called adjustment source objects.
- not all of the adjustment source objects are the reference for adjustment of the object to be adjusted.
- an object that is actually an adjustment reference among the adjustment source objects is referred to as an adjustment reference object.
- project data (1) 111, project data (2) 112, and project data (3) 113 are selected in the “adjustment target selection” column, and project data in the “adjustment source selection” column. (3) A state in which 113 is selected is shown.
- the unit of data selected by the user in the “Adjustment Target Selection” and “Adjustment Source Selection” fields is not limited to the project data unit, but may be the screen data unit constituting the project data, or the object unit in the screen. I do not care.
- the “adjustment target selection” column at least one object to be adjusted, which is an object for which setting information is to be adjusted, is selected.
- At least one adjustment reference object which is an object serving as a reference for adjusting the setting information, is selected.
- a user may drag a project data icon, a screen data in the project data may be specified by a user by inputting a screen number, or an object may be selected by clicking on an object.
- the situation in which the user selects in the “adjustment target selection” column and the “adjustment source selection” column is as follows.
- Each of B is operating, and the user has newly created project data (3) 113 of the programmable display mounted on the device C, and a screen based on the project data (1) 111 and project data (2) 112 Is improving the appearance and object design.
- the object displayed on the programmable display has setting information such as “coordinates”, “shape”, “color”, “function”, “nameplate”, and “memo” on the display screen.
- “Function” is setting information indicating which function the object has among functions such as a switch, a lamp, a meter, and a graph.
- the “name plate” is text information for displaying the “function” of an object such as “switch A” or “lamp A”.
- “Memo” is text information that is not used when displaying an object such as an engineer's comment.
- the background screen itself on which the object is arranged also has setting information such as a background color or a pattern. Therefore, the background screen itself can be handled in the same manner as an object, and can be a target of comparison processing and adjustment processing described below.
- the user can select the setting information item to be adjusted from the above object setting information. Specifically, for the same object on different screens, if you want to make adjustments so that the coordinates of the object to be adjusted are aligned with the coordinates of the object to be adjusted, in the “Select setting information to be adjusted” field, Selects the item "Coordinates". The selection is performed by a method in which the user clicks a “coordinate” button.
- the user sets setting information that is an item to be compared by the comparison processing unit 103 that determines whether or not the object is actually the same object to be adjusted. be able to. Specifically, as shown in FIG. 7, it is possible to select “other than the item selected by the setting information to be adjusted” and “custom setting”.
- items other than the setting information item selected in the “Selection of setting information to be adjusted” column are the setting information items to be compared.
- items such as “shape”, “color”, “function”, “nameplate”, and “memo” Compare objects. By comparing these items, it is possible to determine whether or not objects on different screens are the same object. Specifically, when the objects that match all items such as “shape”, “color”, “function”, “nameplate”, and “memo” are considered to be the same object, and the “coordinates” are different Can be aligned with the source object.
- a screen similar to the “Selecting Setting Information to be Adjusted” field is displayed on another screen such as a pop-up screen, and the user can select setting information to be freely compared.
- “Coordinates” is selected in the “Selection of setting information to be adjusted” field, “Shape”, “Function”, “Nameplate” are not considered. This is a case where it is desired to align the “coordinates” between objects whose items of “” and “memo” all match. That is, even when “coordinates” and “colors” are different, it is selected when it is desired to align “coordinates” between objects having the same “shape”, “function”, “nameplate”, and “memo” items.
- Step S11 When the setting screen is displayed in a state where the object adjustment tool 100 is activated independently (step S11), when the “adjustment execution” button 70 is pressed, the virtual data creation unit 102 creates virtual data. (Step S12). Specifically, the virtual data creation unit 102 creates virtual data on the memory 12 in which all project data specified in the “Adjustment Target Selection” field and the “Adjustment Source Selection” field are collected.
- the virtual data creation unit 102 has a function of creating new virtual data on the memory 12 and aggregating all the pieces of screen data of the adjustment source and project data to be adjusted and the setting information of the objects in the screen. Yes. That is, the virtual data is data including setting information of all adjustment source objects including the adjustment reference object and setting information of all objects to be adjusted.
- the purpose of creating the virtual data by the virtual data creating unit 102 is to adjust the project data without starting the drawing tool 90, without opening the project data, that is, without developing it on the memory 12. To enable comparison and adjustment across multiple project data.
- FIG. 8 is a diagram illustrating an example of virtual data according to the embodiment.
- Project data (1) 111, project data (2) 112, and project data (3) 113 are selected in the "Adjustment target selection" column of FIG. 7, and project data (3) is selected in the "Adjustment source selection” column. Since 113 is selected, the data in which the project data (1) 111, the project data (2) 112, and the project data (3) 113 are collected is virtual data.
- FIG. 8 shows virtual data when a plurality of project data is selected in the “Adjustment Target Selection” field and the “Adjustment Source Selection” field of FIG. 7, but the object adjustment tool 100 is activated independently.
- step S13 the comparison process (step S13) and the adjustment process (step S14) after step S12 are performed on the virtual data on the memory 12.
- step S22 it is determined whether or not a plurality of project data are selected in the “Adjustment Target Selection” field and the “Adjustment Source Selection” field on the setting screen of FIG. 7 (step S22).
- step S22: Yes the process proceeds to step S12, and the virtual data creation unit 102 creates virtual data in which the plurality of project data is collected on the memory 12.
- step S23 the process proceeds to step S23.
- the comparison processing in step S13 and step S23 is executed by the comparison processing unit 103.
- the object included in the project data or screen data specified in the “Adjustment Target Selection” field that is, whether or not the setting information of the adjustment target object needs to be adjusted is compared with the adjustment reference object. Determine by doing.
- the adjustment reference object is included in the adjustment source object, which is an object included in the project data or screen data specified in the “Adjustment source selection” field.
- the setting information to be compared is performed on the item selected by the user in the “selection of setting information to be compared” column.
- the comparison process in step S13 is performed on the virtual data on the memory 12, and the comparison process in step S23 is performed on the project data expanded on the memory 12, but the process contents are the same. is there.
- FIG. 9 is a flowchart for explaining comparison processing executed by the comparison processing unit 103 according to the embodiment.
- the operation subject in this flowchart is all the comparison processing unit 103.
- FIG. 10 is a diagram illustrating a state of comparison between objects in the comparison processing according to the embodiment.
- the project data (3) 113 is selected in both the “adjustment target selection” column and the “adjustment source selection” column.
- the adjustment source objects are the reference for adjustment of the object to be adjusted. This is the adjustment reference object.
- the comparison processing unit 103 reads setting information of an adjustment reference object that is an object to be actually used as an adjustment reference among the adjustment source objects specified in the “adjustment source selection” column. (Step S101). Since the project data (3) 113 is selected as the adjustment source in FIG. 7, all the objects on the first screen of the project data (3) 113 in FIG. Therefore, specifically, the setting information of “title” that is the first object of the first screen of the project data (3) 113 is read first. The order of the objects in one screen may be determined based on criteria such as the coordinates and function of the displayed position.
- the comparison processing unit 103 reads the setting information of the object specified in the “adjustment target selection” column, that is, the adjustment target object (step S102).
- the project data (3) 113 is selected as the adjustment target in FIG. 7
- all the objects on the first screen of the project data (3) 113 are the objects of the adjustment reference as described above. Must not. Therefore, specifically, the setting information of “title B”, which is the first object on the second screen of the project data (3) 113 in FIG. 10, is read first. That is, all objects included in the second and subsequent screens of the project data (3) 113 are initially handled as objects to be adjusted.
- the comparison processing unit 103 compares the adjustment reference object and the adjustment target object with respect to the setting information set in the “selection of setting information to be compared” column (step S103). Specifically, when “Coordinates” is selected in the “Selection of setting information to be adjusted” column and “Other than the item selected in the setting information to be adjusted” is selected, the adjustment reference object And “shape”, “color”, “function”, “nameplate” and “memo” of the object to be adjusted are compared.
- step S104 determines whether or not all the items of the setting information that have been compared match.
- step S104 it is determined whether the adjustment reference object and the adjustment target object can be regarded as the same object. If all match (step S104: Yes), it is considered that the objects are the same object, and whether or not the setting information to be adjusted selected in the “selection of setting information to be adjusted” field matches between both objects. Is determined (step S105).
- step S105 If the setting information to be adjusted does not match in step S105 (step S105: No), specifically, although the object to be adjusted is the same object as the adjustment reference object, the "coordinates" "Is different, it is determined that adjustment of" coordinates "is necessary (step S106).
- the object to be adjusted that is determined to require adjustment in this way is labeled “X” here.
- step S105 When the setting information to be adjusted matches in step S105 (step S105: Yes), specifically, the object to be adjusted is the same object as the adjustment reference object, and the “coordinates” also match between the two objects. If so, it is determined that the adjustment of “coordinates” is unnecessary (step S107). In this way, the object to be adjusted, which is the same object as the adjustment reference object and is determined to be unnecessary to be adjusted, is labeled “Y” here.
- step S104 If all of the compared setting information items do not match in step S104 (step S104: No), it is determined that the adjustment reference object and the adjustment target object are not the same and are different objects. It is determined that the adjustment of “coordinates” is unnecessary (step S107). In this way, the object to be adjusted, which is determined to be unnecessary because it is an object different from the adjustment reference object, is labeled “Z” here. There are two types of objects labeled “Z”. If the adjustment target object labeled “Z” is also the adjustment source object, it becomes a new adjustment reference object, and is further labeled “Z1”. If the adjustment target object labeled “Z” is not the adjustment source object, it is simply an object that does not require adjustment, and is further labeled “Z2”.
- step S101 is used as an adjustment reference object
- step S102 “title B” on the second screen of project data (3) 113 as a specific example of step S102. Since “name plate” is different between “title” and “title B”, “No” is determined in step S104, and “title B” is labeled “Z”. Further, since “title B” on the second screen of the project data (3) 113 is also an adjustment source object, it becomes a new adjustment reference object and is labeled “Z1”. “Switch C” on the second screen of the project data (3) 113 is also “Z1”. Thereafter, the project data (1) 111 and the project data (2) are used from the third screen of the project data (3) 113 using the adjustment reference objects including the objects that are newly determined as the adjustment reference objects. The comparison is performed using the object 112 as an object to be adjusted.
- step S104 When the “title” on the first screen of the project data (3) 113 is used as an adjustment reference object and the “title” on the first screen of the project data (1) 111 is used as an adjustment target object, the comparison is made in step S104. Although all items of the setting information match, the “coordinates” are different between the two objects, so “No” is determined in step S105, and the “title” on the first screen of the project data (1) 111 is labeled “X”. Is done. Similarly, “Switch A” and “Switch B” on the first screen of the project data (1) 111 are also “X”.
- step S104 When the “title” on the first screen of the project data (3) 113 is used as an adjustment reference object and the “title” on the first screen of the project data (2) 112 is used as an adjustment target object, the comparison is made in step S104. Since all the items of the setting information match, and the “coordinates” also match between the two objects, “Yes” is determined in step S105, and “title” on the first screen of the project data (2) 112 is “Y”. Labeled. “Lamp A” on the first screen of the project data (1) 111 is also “Y”.
- the project data (3) 113 is selected in both the “adjustment target selection” field and the “adjustment source selection” field, if the project data (3) 113 includes a plurality of screen data, Compare in ascending order of screen numbers. As described above, all the objects on the first screen of the project data (3) 113 are objects of the adjustment reference, so that the project data (1) 111 and the project data (2) 112 of the second and subsequent screens of the project data (3) 113 are included. Compare objects as objects to be adjusted.
- the comparison process has been described as a comparison between objects in the virtual data of FIG. 8, but the same applies to the case of comparing project data objects deployed on the memory 12.
- the first screen of them is one screen of the project data (3) 113 described above. Just like the eyes.
- the determination result list on the memory 12 is used as a determination result based on the comparison with the label “X”, “Y”, “Z1” or “Z2” corresponding to the object to be adjusted. Is output by the comparison processing unit 103 (step S108). Although the classification of the label “X”, “Y”, “Z1”, or “Z2” for the object to be adjusted does not necessarily have to be described in the determination result list, the contents of the determination results in steps S104 and S105 Is included.
- the determination result list is stored on the memory 12 and is overwritten by repeating the comparison process.
- an object that is determined to require adjustment and is marked with “X” is also associated with setting information that is adjusted for the adjustment reference object that is the reference for comparison in step S105.
- the “coordinate” of the adjustment reference object is also associated with the object having the “coordinate” that is different from the adjustment reference object and marked with “X”.
- step S109 it is determined whether there is an uncompared object to be adjusted. If there is an uncompared object to be adjusted (step S109: Yes), the next object to be adjusted is determined in step S102. Setting information is read. If there is no uncompared object to be adjusted (step S109: No), the comparison of one adjustment reference object whose setting information is read in step S101 is completed (step S110).
- step S110 it is determined whether there is an uncompared adjustment reference object (step S111). If there is an uncompared adjustment reference object (step S111: Yes), the next adjustment reference object is determined in step S101. Setting information is read. If there is no uncompared adjustment reference object (step S111: No), the comparison process is completed.
- the adjustment processing unit 104 executes the adjustment process in step S14 or step S24, respectively.
- the adjustment process in step S14 and the adjustment process in step S24 are processes having the same contents, and the adjustment target is virtual data on the memory 12, or screen data including the adjustment target object developed on the memory 12 The only difference is whether it is project data that is a collection of.
- the setting information of the adjustment target object labeled “X” is set to “X” based on the content at the end of the comparison process of the determination result list that has been overwritten in step S108 of FIG.
- the adjustment processing unit 104 performs adjustment so as to be the same as the setting information of the adjustment reference object compared at the time of labeling. That is, the adjustment processing unit 104 adjusts the setting information to be adjusted for the object to be adjusted so as to match the setting information to be adjusted for the adjustment reference object.
- the setting information to be adjusted of the adjustment reference object associated with the adjustment target object labeled “X” in the determination result list is copied to the setting information of the adjustment target object. If the setting information to be adjusted is “coordinate”, the “coordinate” of the adjustment reference object is copied to the “coordinate” of the adjustment target object labeled “X”. This automatically adjusts the "coordinates" of the objects to be adjusted that have the same "coordinates” even though they are the same objects as the adjustment reference objects, to be the "coordinates" of the adjustment reference objects. Is possible.
- the expanding unit 105 determines whether or not to overwrite the contents of the adjusted virtual data on one or more project data that is the source of the virtual data (step S15).
- the determination of overwriting may be performed based on the user's instruction at the time when the option screen is displayed on the display device 15 after the adjustment processing in step S14 is executed.
- overwriting is determined when the project data that is the source of virtual data is opened while the object adjustment tool 100 is running, the adjustment content is displayed on the display device 15 as a difference from the virtual data, and the user at that time It may be performed based on the instruction.
- step S15: Yes the expansion unit 105 overwrites the contents of the adjusted virtual data in the storage area 110 with one or more project data that is the source of the virtual data.
- Step S17 the expansion unit 105 overwrites the screen data including the adjustment target object so that the setting information to be adjusted of the adjustment target object becomes the setting information to be adjusted of the adjustment reference object.
- step S15: No the expanding unit 105 creates new project data in the storage area 110 by changing the file name based on the contents of the adjusted virtual data.
- Step S16 an option of canceling the adjustment without reflecting the content of the adjusted virtual data may be prepared.
- the expansion unit 105 determines whether or not to overwrite the adjusted contents of the project data including the adjustment target object expanded on the memory 12 with the project data held in the storage area 110. (Step S25). The determination of overwriting may be performed based on the user's instruction at the time when the option screen is displayed on the display device 15 after the adjustment processing in step S24 is executed.
- the development unit 105 overwrites the adjusted contents in the storage area 110 with the adjusted contents (step S26). That is, the expansion unit 105 overwrites the screen data including the adjustment target object so that the setting information to be adjusted of the adjustment target object becomes the setting information to be adjusted of the adjustment reference object.
- step S25 If it is not determined that the project data is to be overwritten (step S25: No), the development unit 105 creates new project data in the storage area 110 by changing the file name based on the adjusted contents (step S16). In this case as well, an option of canceling the adjustment without reflecting the adjusted content may be prepared.
- the object adjustment tool 100 and the object adjustment program according to the embodiment of the present invention by providing a user interface such as the setting screen of FIG.
- the range to be adjusted can be set with a high degree of freedom.
- the object adjustment tool 100 automatically extracts the object to be adjusted and adjusts the setting information in accordance with the user setting. That is, it is possible to efficiently execute automatic adjustment with the contents intended by the user on the setting information of the object of the screen data already created.
- the object adjustment tool 100 automatically performs checks such as subtle positional shifts or graphic differences caused by individual differences that occur when an operator creates screen data of a programmable display. Can be adjusted automatically. Therefore, it is possible to save a great deal of time and effort for creating and checking screen data after creation.
- object setting information can be changed across a plurality of screen data and between a plurality of project data in a crosswise manner, a plurality of screen data and a plurality of project data can be adjusted in parallel. As a result, the number of work steps for checking and correcting a plurality of screen data and project data can be greatly reduced, and the work time for creating and correcting screen data can be greatly reduced.
- the object adjustment tool 100 and the object adjustment program according to the embodiment have been described with respect to the object included in the screen data of the programmable display, but the object of the object adjustment tool 100 according to the embodiment is the target.
- the object is not limited to the object included in the screen data of the programmable display. That is, the present invention can also be applied to an object included in screen data other than the screen data of the programmable display.
- the object adjustment tool according to the embodiment is applied and set to the same object used in multiple pages of presentation software that uses multiple screen data such as PowerPoint (registered trademark). You can adjust the information.
- the configuration described in the above embodiment shows an example of the contents of the present invention, and can be combined with another known technique, and can be combined with other configurations without departing from the gist of the present invention. It is also possible to omit or change the part.
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Abstract
Description
図1は、本発明の実施の形態にかかる情報処理装置10の概略構成を示す図である。情報処理装置10は、パーソナルコンピュータといった情報処理端末である。情報処理装置10は、プログラマブル表示器の画面設計を支援する作画ツール90と、画面上のオブジェクトの表示を自動調整するオブジェクト調整ツール100と、作画ツール90を用いて作成したプロジェクトデータを保持する記憶エリア110と、を備える。オブジェクト調整ツール100は、作画ツール90の機能の一部として存在してもよいが、作画ツール90とは独立したツールであってもよい。
Claims (6)
- 画面データに含まれ調整の対象となる調整対象のオブジェクトと、画面データに含まれ調整の基準となる調整基準のオブジェクトと、調整される設定情報と、比較される設定情報と、を受け付ける設定画面を表示する設定画面表示部と、
前記調整基準のオブジェクトの前記比較される設定情報と、前記調整対象のオブジェクトの前記比較される設定情報と、が合致するか否かを判定し、前記調整基準のオブジェクトの前記調整される設定情報と、前記調整対象のオブジェクトの前記調整される設定情報と、が合致するか否かを判定し、判定結果を判定結果リストに出力する比較処理部と、
前記判定結果リストに基づいて、前記調整基準のオブジェクトと前記調整対象のオブジェクトの前記比較される設定情報が合致し、前記調整基準のオブジェクトと前記調整対象のオブジェクトの前記調整される設定情報が合致しない場合は、前記調整基準のオブジェクトの前記調整される設定情報に合致させるように前記調整対象のオブジェクトの前記調整される設定情報を調整する調整処理部と、
前記調整処理部により調整された前記調整対象のオブジェクトの前記調整される設定情報を、前記調整対象のオブジェクトを含んだ画面データに上書きする展開部と、
を備える
ことを特徴とするオブジェクト調整ツール。 - 前記調整対象のオブジェクトの設定情報と前記調整基準のオブジェクトの設定情報とを含んだ仮想データを作成する仮想データ作成部をさらに備え、
前記比較処理部による比較および前記調整処理部による調整は、前記仮想データに対して実行される
ことを特徴とする請求項1に記載のオブジェクト調整ツール。 - 前記調整対象のオブジェクトを含んだ画面データがメモリ上に展開されているときは、
前記比較処理部による比較および前記調整処理部による調整は、前記メモリ上で実行される
ことを特徴とする請求項1または2に記載のオブジェクト調整ツール。 - コンピュータに、
画面データに含まれ調整の対象となる調整対象のオブジェクトと、画面データに含まれ調整の基準となる調整基準のオブジェクトと、調整される設定情報と、比較される設定情報と、を受け付けるステップと、
前記調整基準のオブジェクトの前記比較される設定情報と、前記調整対象のオブジェクトの前記比較される設定情報と、が合致するか否かを判定し、前記調整基準のオブジェクトの前記調整される設定情報と、前記調整対象のオブジェクトの前記調整される設定情報と、が合致するか否かを判定するステップと、
前記判定するステップによる判定結果を判定結果リストに出力するステップと、
前記判定結果リストに基づいて、前記調整基準のオブジェクトと前記調整対象のオブジェクトの前記比較される設定情報が合致し、前記調整基準のオブジェクトと前記調整対象のオブジェクトの前記調整される設定情報が合致しない場合は、前記調整基準のオブジェクトの前記調整される設定情報に合致させるように前記調整対象のオブジェクトの前記調整される設定情報を調整するステップと、
前記調整するステップにより調整された前記調整対象のオブジェクトの前記調整される設定情報を、前記調整対象のオブジェクトを含んだ画面データに上書きするステップと、
を実行させることを特徴とするオブジェクト調整プログラム。 - 前記調整対象のオブジェクトの設定情報と前記調整基準のオブジェクトの設定情報とを含んだ仮想データを作成するステップをさらに備え、
前記判定するステップおよび前記調整するステップは、前記仮想データに対して実行される
ことを特徴とする請求項4に記載のオブジェクト調整プログラム。 - 前記調整対象のオブジェクトを含んだ画面データがメモリ上に展開されているときは、
前記判定するステップおよび前記調整するステップは、前記メモリ上で実行される
ことを特徴とする請求項4または5に記載のオブジェクト調整プログラム。
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