JP2004246668A - Object display device and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an object display device where an auxiliary area is arranged separately from a normal object plotting area on a display picture, information associated with a group classified according to the attributes of an object is easily confirmed according to the display contents of the auxiliary area. <P>SOLUTION: When a plurality of pieces of group information obtained by classifying respective objects (a) to (f) based on the attributes(for example, layers) are assigned to the respective objects, an object display device displays on a display picture 1 an auxiliary area 3 where the group information is made to correspond to one coordinate axis in a plane coordinate system, and the display position information(for example, X coordinates) of the objects is made to correspond to the other coordinate axis with an object plotting area 2. Each simple graphic(for example, rectangle) 31 generated corresponding to the objects in the plotting area 3 is displayed at a part in the auxiliary area 3 specified according to the group information and display position information of the objects. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an object display device and a program for displaying a plurality of objects in a drawing area on a display screen at a location indicated by the display position information.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a data processing device equipped with drawing software or the like, in a state where various kinds of created objects are drawn on a display screen, various kinds of objects are operated by a button operation or a mouse operation on the screen. Operation was being performed. For example, when a plurality of objects are displayed in a hierarchically superimposed manner, since the plurality of objects are managed as layers, each object can be operated for each layer.
In this case, there has been known a configuration in which setting of object attributes can be easily performed for each layer. For example, when an arbitrary graphic element is selected for graphic data in which a plurality of graphic elements are superimposed and its display attribute is set, the graphic data is changed and displayed based on the set contents. Is known (Patent Document 1).
[0003]
[Patent Document 1]
JP-A-6-89325
[0004]
[Problems to be solved by the invention]
However, in the above-described related art, when setting a display attribute, a graphic element to be set is selected. For example, when the number of layers is large or a large number of graphic data are displayed on the same screen. If it is displayed, it is difficult to select a setting object, and there is a possibility that an incorrect setting is made.
By the way, the following problems generally occur in layer management in drawing software. FIG. 17 shows a plurality of objects a, b, and c hierarchically superimposed and displayed in a drawing area on the display screen, and a plurality of objects d, e, and f superimposed hierarchically. It is a figure showing a state. Here, the hierarchical order of each object is “c, b, a” and “f, d, e” from the front (front) to the back (rear). In this case, the object e is obscured by the objects d and f on it and cannot be actually seen. Therefore, there is a possibility that the existence of the object e may be overlooked. For example, if an operation of moving the objects d and f higher than the object e is performed, the object e moves together with the operation. Further, the operation of moving up one layer at a time from the top layer to confirm the existence of the object e becomes more troublesome as the number of layers increases. Furthermore, it is not easy to check which objects are in the same hierarchy, and there is a risk that they may be mistaken.
[0005]
An object of the present invention is to provide an auxiliary area on a display screen in addition to a normal object drawing area, so that information on a group classified according to the attribute of an object can be easily confirmed by the display content of the auxiliary area. It is.
[0006]
[Means for Solving the Problems]
According to the first aspect of the present invention, there is provided an object display apparatus for displaying a plurality of objects in a drawing area on a display screen at a position indicated by the display position information, wherein the plurality of objects are classified into a plurality of groups based on their attributes. Classifying means for assigning this group information to each object, and displaying an auxiliary area together with the drawing area, in which the group information is associated with one coordinate axis in the planar coordinate system and the display position information is associated with the other coordinate axis. First display control means for displaying on the screen, and group information and display of the arrangement location for arranging each simple figure generated corresponding to the object in the drawing area in the auxiliary area. Specifying means for specifying based on the position information; and Is intended to and a Shimesuru second display control means.
Further, the present invention provides a computer with a program for realizing the main functions shown in the first aspect of the invention (the invention of the fourteenth aspect).
[0007]
Therefore, according to the first and fourteenth aspects of the present invention, a plurality of group information in which each object is classified based on its attribute (for example, layer) is assigned to each object, and a group is assigned to one coordinate axis in the plane coordinate system. Each simple figure generated corresponding to the object in the drawing area in a state where the auxiliary area in which the information is associated and the display position information of the object is associated with the other coordinate axis is displayed on the display screen together with the object drawing area Is displayed at the position in the auxiliary area specified by the group information and the display position information of the object, so that the correspondence relationship between which object in the drawing area corresponds to which simple figure in the auxiliary area can be immediately determined. Objects that are difficult to know just by looking at the contents of the drawing area. Even if the information is related to the group classification of the group (for example, a layer), it can be easily confirmed only by looking at the contents of the auxiliary area, and the display in the auxiliary area is easy to see because of the simple figure (for example, a rectangle) Moreover, since the entire auxiliary area can be made compact, the display screen is not occupied unnecessarily.
[0008]
The invention described in claim 1 may be as follows.
When an input operation is performed on a simple graphic arranged in the auxiliary area, a process related to an object corresponding to the operated simple graphic is executed (the invention according to claim 2).
Therefore, according to the second aspect of the invention, in addition to having the same effect as the first aspect of the invention, the input operation on the simple figure in the auxiliary area is performed on the corresponding object in the drawing area. The object can be handled in the same manner as the object, and the execution of the process can be instructed even for an object that cannot be seen in the normal object drawing area.
[0009]
4. When the simple figure in the auxiliary area is moved in the coordinate axis direction corresponding to the group information, the attribute of the object corresponding to the simple figure is changed based on the destination group classification. Invention).
Therefore, according to the third aspect of the present invention, in addition to having the same effects as the first and second aspects of the present invention, a group of corresponding objects can be obtained by simply moving the simple graphic in the coordinate axis direction corresponding to the group information. Attribute) can be easily changed, and the group can be changed for each object.
[0010]
When the simple figure in the auxiliary area is moved in the coordinate axis direction corresponding to the group information and the simple figure is moved in the coordinate axis direction corresponding to the display position information, the destination group is moved. The attribute of the object corresponding to the simple figure is changed based on the classification, and the display position information of the object corresponding to the simple figure is changed based on the display position information of the destination (the invention according to claim 4). .
Therefore, according to the fourth aspect of the present invention, in addition to having the same effects as the first, second, and third aspects of the present invention, it is possible to quickly and simultaneously change an object group and change its display position. Thus, operability can be improved.
[0011]
When the objects overlap in the drawing area, the group information is information that is grouped based on the overlapping order, and is performed on the objects in response to an input operation to the simple figure. The process is a process of changing the display / non-display and the overlapping order of the objects in the drawing area (the invention according to claim 5).
Therefore, according to the fifth aspect of the present invention, in addition to having the same effect as the first and second aspects of the present invention, a desired object is selected from a plurality of objects overlapping in the drawing area in the auxiliary area. In addition, the user can easily select and specify the selected object, and can easily specify the display / non-display of the selected object and change the overlapping order.
[0012]
When an operation of selecting an arbitrary simple graphic in the auxiliary area is performed, an object corresponding to the selected graphic is set to a selected state as an object to be processed (claim 6).
Therefore, according to the invention described in claim 6, in addition to having the same effects as those of the inventions described in claims 1 and 2, it is possible to select a corresponding object in conjunction with a simple graphic selection operation.
[0013]
When one or more groups are designated on the auxiliary area, the objects belonging to the designated one or more groups are processed collectively (the invention according to claim 7).
Therefore, according to the seventh aspect of the invention, in addition to having the same effect as the first aspect of the invention, one or more objects on the auxiliary area can be displayed without individually specifying a plurality of objects to be processed. By simply specifying a group, objects belonging to the specified group can be processed collectively.
[0014]
In the state where the plurality of classified groups are ranked, by selecting and specifying a desired group position on the auxiliary area, all groups having higher or lower ranks than the specified group position are collectively collected. (The invention according to claim 8).
Therefore, according to the eighth aspect of the present invention, in addition to having the same effects as the first and seventh aspects of the present invention, only by designating a desired group position on the auxiliary area, the designated group is used as a reference. Processing for each object belonging to a plurality of groups can be easily and collectively performed.
[0015]
The group information is, when the objects overlap in the drawing area, information grouped based on the overlapping order (the invention according to claim 9).
Therefore, according to the ninth aspect of the present invention, in addition to having the same effect as the first aspect of the present invention, an object which is invisible and overlapped in the drawing area is easily confirmed by the corresponding simple graphic in the auxiliary area. be able to.
[0016]
The classification means classifies the plurality of objects into a plurality of groups based on a first attribute, and further classifies the plurality of objects into a plurality of groups based on a second attribute, and is classified based on the second attribute. A simple graphic color-coded by a display color that can distinguish the group classification is displayed (the invention according to claim 10).
Therefore, according to the tenth aspect of the invention, in addition to having the same effect as the first aspect of the invention, different groups classified from two viewpoints are simultaneously and easily confirmed by one auxiliary area. be able to.
[0017]
On the display screen, the auxiliary area is arranged adjacent to the drawing area, and coordinate axes associated with the display position information are arranged in parallel to the same coordinate axis in the drawing area. A simple graphic having a size corresponding to the actual size of the object in the coordinate axis direction is displayed in association with the object (the invention according to claim 11).
Therefore, according to the eleventh aspect of the present invention, in addition to having the same effect as the first aspect of the present invention, the correspondence relationship between which object in the drawing area corresponds to which simple figure in the auxiliary area. It will be even clearer.
[0018]
An auxiliary area vertically adjacent to the drawing area and an auxiliary area horizontally adjacent to the drawing area are provided, and a simple figure corresponding to each object in the drawing area is separately displayed in each auxiliary area ( The invention according to claim 12).
Therefore, according to the twelfth aspect of the invention, in addition to having the same effect as the first aspect of the invention, the auxiliary area adjacent to the drawing area in the vertical direction and the auxiliary area adjacent to the drawing area in the horizontal direction One object can be comprehensively confirmed by the auxiliary area 3 from two directions.
[0019]
The classifying unit classifies the plurality of objects into a plurality of groups based on a first attribute, and further classifies the plurality of objects into a plurality of groups based on a second attribute, and the auxiliary area vertically adjacent to the drawing area. Is associated with a group classified based on the first attribute, and an auxiliary area laterally adjacent to the drawing area is associated with a group classified based on the second attribute. Invention).
Therefore, according to the thirteenth aspect of the present invention, in addition to having the same effects as the first and twelfth aspects of the present invention, the auxiliary area related to the group classified based on the first attribute (for example, layer) of the object By providing an auxiliary area related to a group classified based on a second attribute (for example, a graphic type), two types of attributes of an object can be separately confirmed by a dedicated auxiliary area.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a diagram showing an example of a display screen of the object display device in this embodiment, and FIG. 2 is a diagram for explaining a coordinate system on the display screen.
This object display device displays a plurality of objects (various figures, character strings, and the like) created for each layer in a hierarchically superimposed manner. And an auxiliary region 3 are provided. In the three-dimensional coordinate system, the horizontal direction is associated with the X-axis direction, the vertical direction is associated with the Y-axis direction, and the vertical direction (layer direction) is associated with the Z-axis direction in the figure in the three-dimensional coordinate system. In the upper right corner of the drawing area 2, a drawing menu 4 is displayed. When a desired menu item is selected from the menu items such as “generate”, “colored”, and “edit” in the drawing menu 4, the processing corresponding to the selected item is started.
[0021]
In the illustrated display example, as in FIG. 17 described above, a plurality of objects a, b, and c are hierarchically superimposed, and a plurality of objects d, e, and f are hierarchically superimposed and displayed. FIG. 5 is a diagram showing a state in which the objects are in a hierarchical order of “c, b, a” from the front (front) to the back (rear) in the Z-axis direction, and “f, d, e ". Note that, as described above, the object e is obscured by the objects d and f thereon, and cannot be actually seen.
[0022]
The auxiliary area 3 is arranged adjacent to the drawing area 2 on the display screen 1 and guides and displays group information in which a plurality of objects in the drawing area 2 are classified based on their attributes (for example, layers). In the system, one of the coordinate axes is associated with the display position information (X coordinate or Y coordinate) of each object in the drawing area 2, and the other coordinate axis is associated with the group information of the object. That is, FIGS. 1 and 2 are display examples in which the auxiliary area 3 is adjacent to the lower part of the drawing area 2. The horizontal direction of the auxiliary area 3 is associated with the X-axis direction of the drawing area 2. Are associated with the Z-axis direction of the drawing area 2, that is, the order of the groups classified based on the object attributes (layers).
In FIG. 1, the numbers attached to the left margin of the auxiliary area 3 are group handles indicating the group order, and are “1”, “2”, “3”, and “4” in order from the highest hierarchy. (Note that the group handle is not shown in FIG. 2). Further, in the auxiliary area 3, simple graphics (rectangular in this embodiment) 31 generated corresponding to each object in the drawing area 2 are arranged and displayed. The simple graphic 31 is a graphic that specifies an object associated with the position of the X coordinate where the simple graphic 31 is arranged and also specifies the layer of the object by the position of the Z coordinate.
[0023]
FIG. 3 is a diagram showing a display example in the case where an auxiliary area 3 is provided on the left part of the drawing area 2 in addition to the lower part thereof. In this case, the auxiliary area 3 adjacent to the drawing area 2 in the vertical direction (Y-axis direction) guides the object attribute “layer” by group, but is adjacent to the drawing area 2 in the horizontal direction (X-axis direction). The auxiliary area 3 guides the object attribute “type” by group. When the object types are classified by type such as “circle”, “rectangle”, “character”, etc., The direction is associated with the group order (object type), and the vertical direction is associated with the Y-axis direction of the drawing area 2. In this case, the group handles (group order) are not shown, but the group handles of the auxiliary area 3 adjacent to the drawing area 2 in the horizontal direction (X-axis direction) are “1” and “2” in order from the right side in the figure. "3", "1" indicates "circle", "2" indicates "rectangle", "3" indicates "character", and "circle" and "rectangle" are associated with the group handle. , “Character” are displayed. In the case where the object is a rectangle, the two simple figures partially overlap as shown in the figure. In such a case, the object is identified by, for example, color-coded display, broken line display, reverse display, or the like. Is also good.
[0024]
On the other hand, in this embodiment, when an input operation is performed on a simple graphic in the auxiliary area 3, a process corresponding to the operation content is performed on an object in the drawing area 2 corresponding to the simple graphic. The operation on the simple figure in the auxiliary area 3 can be handled in the same manner as the operation on the corresponding object in the drawing area 2.
For example, when an arbitrary simple figure is selected and designated, the corresponding object is selected as a processing target, and designation of display / non-display and change of the overlapping order (layer) can be instructed for the selected object. When the simple figure in the auxiliary area 3 is moved in the coordinate axis direction corresponding to the display position information, the display position information of the object corresponding to the simple figure is changed based on the display position information of the movement destination. can do. Further, when the simple graphic in the auxiliary area 3 is moved in the coordinate axis direction (group order direction) corresponding to the group information, the attribute of the object corresponding to the simple graphic is changed based on the group classification of the destination. In addition, when one or a plurality of groups are designated on the auxiliary area 3, objects belonging to the designated one or a plurality of groups can be collectively processed. I have.
[0025]
FIG. 4 is a diagram showing the contents of the object management information 11.
The object management information 11 is management information relating to each object in the drawing area 2. For each object, "drawing information", "display position information", "display management information", "simple figure identification information",. have. Here, “drawing information” includes items of “type information”, “dot size in X direction”, “dot size in Y direction”, “color information”, and “drawing data”. Is information indicating which type belongs to when the type is classified into “circle”, “rectangle”, “character”, etc., and “X direction dot size” and “Y direction dot size” are objects. "Color information" indicates a designated color that is colored on an object, and "drawing data" indicates rectangular data, circle data, character data, and the like drawn in the drawing area 2. Is shown.
[0026]
The “display position information” is a point position (for example, upper left coordinate) serving as a reference when displaying an object. The “display management information” has items of “layer” indicating the hierarchical level of the object and “display state” indicating the display / non-display of the object. The “type information”, “color information”, and “layer” described above indicate object attributes when objects are classified into groups.
“Simple figure identification information” is a serial number for linking an object and a simple figure, and an updated value is set as simple figure identification information every time an object is generated.
[0027]
FIG. 5 is a diagram showing the contents of the simple figure management information 12.
The simple figure management information 12 has items of “simple figure identification information”, “drawing information”, “display position information”, and ‥‥ for each simple figure displayed in the auxiliary area 3. The simple figure management information 12 is automatically generated when a new object is created or edited, and the simple figure management information 12 described later, a simple figure management information 12, a group order management table 13, a simple figure The simple figure management information 12 is automatically generated for each object by referring to the contents of the display color management table 14 and the auxiliary area information 15.
[0028]
Here, “simple figure identification information” is simple figure identification information acquired from the object management information 11 every time an object is generated. “Drawing information” includes items of “type information”, “dot size in X direction”, “dot size in Y direction”, “color information”, and “drawing data”. In this embodiment, a case where the shape is fixed to “rectangle” is illustrated, but an arbitrary graphic type may be selected from a group of candidates prepared in advance and set. “X direction dot size” and “Y direction dot size” are information that defines the entire size of the simple figure, and “color information” indicates a designated color to be colored on the simple figure. “Drawing data” indicates rectangular data in this embodiment. The “display position information” is a coordinate position serving as a reference when a simple graphic is displayed. In the illustrated example, the “display position information” indicates a case of the auxiliary area 3 adjacent to the drawing area 2 in the horizontal direction (X-axis direction). The "display position information" is indicated by XZ coordinates.
[0029]
FIG. 6 is a diagram showing the contents of the group order management table 13.
The group order management table 13 defines the group order when each group classified based on the object attribute is arranged in the auxiliary area 3. For example, as shown in the figure, the object attributes "layer", " When grouped by “layer” of “type” and “object color”, grouped by “1”, “2”, “3”, ３, and grouped by “type” Are grouped by “rectangle”, “circle”, “character”, ‥‥, and if they are grouped by “object color”, “red”, “green”, “black”, ‥‥ This indicates that they should be arranged in group order.
[0030]
FIG. 7 is a diagram showing the contents of the simplified graphic display color management table 14.
The simplified graphic display color management table 14 is used to identify a group classified based on the first attribute of the object and a group classified based on the second attribute in one auxiliary area 3. , The display color of each simple figure belonging to the group classified based on the second attribute. In other words, it defines a display color for enabling different groups classified from two viewpoints to be simultaneously identifiable in one auxiliary area 3. For example, as shown in the drawing, the attribute "layer" of the object, When the second attribute of “type” and “object color” is “layer”, “red”, “green”, “1”, “2”, “3” “Black” and ‥‥ are defined, and in the case of “Type”, “Red”, “Green”, “Black”, and ‥‥ are associated with “Rectangle”, “Circle”, “Character”, and ‥‥. Is defined, and in the case of “object color”, “red”, “green”, “black”, and ‥‥ are defined in association with “red”, “green”, “black”, and ‥‥. . It should be noted that the simple graphic is entirely filled with the display color.
[0031]
FIG. 8 is a diagram showing the contents of the auxiliary area information 15.
The auxiliary area information 15 is for storing and managing generation information and the like for generating the auxiliary area 3 for each of the auxiliary areas 3. For each of the auxiliary areas 3, “auxiliary area number”, “adjacent direction”, and “horizontal dot size (XD)” , "Vertical dot size (YD)", "maximum number of groups (MG)", "attribute information for group order determination", "attribute information for simple figure display color determination", and "current group order" Have items.
The “auxiliary area number” is a unique number for identifying the auxiliary area 3, the “adjacent direction” indicates a portion adjacent to the auxiliary area 3, “horizontal dot size (XD)”, “vertical dot size”, The “direction dot size (YD)” indicates the entire size of the auxiliary area 3, and the “maximum number of groups (MG)” indicates the maximum number of groups arranged in the auxiliary area 3.
[0032]
The “group rank determination attribute information” is an attribute for determining the group rank of the auxiliary area 3. In FIG. 3, in the case of the auxiliary area 3 adjacent to the lower part of the drawing area 2, “layer” and “left” In the case of the auxiliary area 3 adjacent to the part, “type” is set. The “simple figure display color determination attribute information” indicates an attribute for determining a display color of a simple figure belonging to a group classified based on an attribute other than the attribute for determining the group order. In other words, the attribute for determining the display color for enabling different groups classified from two viewpoints to be simultaneously identifiable in one auxiliary area 3 is shown. On the other hand, the “current group order” is work information temporarily stored to control the display / non-display of an object. , The rank corresponding to the designated group is set. When an arbitrary current group order is specified in this way, all higher-order groups are collectively specified based on the specified group order, and all objects belonging to each specified group are changed to a non-display state. Is performed.
[0033]
FIG. 9 is a block diagram showing basic components of the object display device according to this embodiment.
The CPU 101 is a central processing unit that controls the overall operation of the object display device according to the operating system and various application software in the storage device 102. The storage device 102 has a program storage area and a data storage area. In the data storage area, the object management information 11, the simple figure management information 12, the group order management table 13, the simple figure display color management table 14, The auxiliary area information 15 and the like are stored, and are constituted by a magnetic, optical, semiconductor memory or the like and a drive system thereof. The recording device 102 may have a configuration in which a removable storage medium such as a CD-ROM or a DVD can be mounted in addition to a fixed memory such as a hard disk. The programs and data in the storage device 12 are loaded into a RAM (for example, a static RAM) 103 as necessary, or the data in the RAM 103 is saved in the storage device 102. The RAM 103 has a program execution area and a work area.
[0034]
Further, the CPU 101 can directly access and use a program / data of another electronic device via the communication device 104, and can receive a download via the communication device 104. The communication device 104 is, for example, a wired / wireless communication interface including a communication modem, an infrared module, an antenna, and the like. On the other hand, an input device 105 and a display device 106, which are input / output peripheral devices, are connected to the CPU 101 via a bus line, and the CPU 101 controls the operation according to an input / output program. The input device 105 is an operation unit that constitutes a keyboard, a touch panel, or a pointing device such as a mouse or a touch input pen, and inputs character string data and various commands. The display device 106 is a liquid crystal display device, a CRT display device, a plasma display device, or the like that performs full-color display.
[0035]
Next, the operation concept of the object display device in this embodiment will be described with reference to the flowcharts shown in FIGS. Here, the functions described in these flowcharts are stored in the form of readable program codes, and sequentially execute operations according to the program codes. Further, the operation according to the above-described program code transmitted via the transmission medium can be sequentially performed. That is, an operation specific to this embodiment can be executed using a program / data externally supplied via a transmission medium in addition to a recording medium.
FIG. 10 is a flowchart showing the operation when the auxiliary area information 15 is set.
First, when the execution of the setting process of the auxiliary area information 15 is instructed, the CPU 101 adds a new area for setting new auxiliary area information (step A1). In this state, when the “adjacent direction” indicating which part of the drawing area 2 the auxiliary area 3 is adjacent to is input, the input “adjacent direction” is set in the corresponding item in the new area. (Step A1). Hereinafter, input setting processing of “horizontal dot size” and “vertical dot size” indicating the entire area size (step A3), input setting processing of “maximum number of groups” (step A4), and “group rank determination attribute information” (Step A5), and the input setting process (step A6) of "simple figure display color determination attribute information".
[0037]
When the setting of one piece of auxiliary area information 15 is completed in this way, it is checked whether or not the setting end has been instructed (step A7), and the process returns to the first step A1 until the end instruction is issued. The setting process for the auxiliary area 3 is repeated. Note that up to four types of auxiliary area information 15 can be set. When the auxiliary area 3 is adjacent to each of the four sides of the drawing area 2, four types of auxiliary area information 15 may be set. The “horizontal dot size” and “vertical dot size” may be fixed sizes, and the “maximum number of groups” is automatically detected and set according to the addition or deletion of objects. You may make it.
[0038]
In the state where the auxiliary area information 15 is set in this way, when an object display is instructed, the drawing area 2 is displayed on the display screen 1 and the auxiliary area 3 is referenced by referring to the auxiliary area information 15. The display is output adjacent to the drawing area 2. That is, the CPU 101 determines the arrangement position based on the “adjacent direction” read from the auxiliary area information 15, and then determines the overall size based on the “horizontal dot size” and the “vertical dot size” to determine the auxiliary size. The area 3 is displayed. Then, the group order management table 13 is accessed based on the “attribute information for group order determination” read from the auxiliary area information 15, the group order is determined according to the definition, and the “maximum” read from the auxiliary area information 15 is determined. The number of groups according to the "number of groups" is allocated in the auxiliary area 3 according to the determination order. In this case, a group handle corresponding to the “maximum number of groups” is arranged and displayed outside the auxiliary area 3 in the auxiliary area 3 as shown in FIG.
[0039]
FIG. 11 and FIG. 12 are flowcharts showing the entire processing at the time of displaying an object, and the execution is started in response to an interruption by a key or mouse operation. Here, in a state where the drawing area 2 and the auxiliary area 3 are displayed on the display screen 1, when the CPU 101 detects an interrupt operation by a key or mouse operation, the CPU 101 determines whether the operated area is the drawing area 2 or the auxiliary area 3. Is determined (step B1). If the drawing area 2 is operated, the process proceeds to step B2 to check the contents of the instruction. If the object is to be generated, that is, from the drawing menu 4 in the drawing area 2, When "generate" is selected, the process of adding and creating new object management information 11 is started (step B3).
[0040]
Now, for example, if the type of the object is a graphic type, a graphic corresponding to the type is displayed at a designated position on the drawing area 2. When a size change operation is performed in this state, enlargement / reduction processing is performed to obtain an “X-direction dot size” and a “Y-direction dot size”. Various types of information, ie, “type information”, “dot size in X direction”, “dot size in Y direction”, “color information”, “drawing data”, “display position information”, “layer”, “display state (initial Value: display) "is set in the corresponding item in the object management information 11, and" simple figure identification information "is generated and additionally set.
When the new object is generated in this way, the process proceeds to the next step B4, and the process of generating the corresponding simple graphic management information 12 is started.
[0041]
FIG. 13 is a flowchart illustrating a process of generating the simplified graphic management information 12.
FIG. 13 shows the case where the simple figure management information is generated for the auxiliary area 3 adjacent to the lower part of the drawing area 2 and the simple figure management information for the auxiliary area 3 adjacent to the left part of the drawing area 2. This is an example of the generation process in the case where is generated. In the figure, of the “vertical (horizontal) direction” or “horizontal (vertical) direction” described in each step, the description outside the parentheses is The description of the auxiliary region 3 adjacent to the lower portion and the description in parentheses is for the auxiliary region 3 adjacent to the left portion.
[0042]
First, the CPU 101 accesses the object management information 11, reads out the "X-direction dot size" or "Y-direction dot size" of the newly created object, and determines the horizontal (or vertical) dot size of the simple graphic. It is set to the same value as the "X direction dot size" or "Y direction dot size" of the object (step C1). That is, in the case of the auxiliary area 3 adjacent to the lower part of the drawing area 2, the value of the horizontal dot size of the simple figure is set to the “X direction dot size” of the object, and In the case of the adjacent auxiliary area 3, a value obtained by matching the vertical dot size of the simple figure with the “Y direction dot size” of the object is set in the corresponding item of the simple figure management information 12.
[0043]
Next, the vertical (or horizontal) dot size of the simple figure is calculated according to the calculation formula of INT (YD / MG / 2) or INT (XD / MG / 2) (step C2). That is, in the case of the auxiliary area 3 adjacent to the lower part of the drawing area 2, “vertical dot size (YD)” and “maximum number of groups (MG)” are read from the auxiliary area information 15, and the “vertical dot size” is read. By dividing (YD) by the “maximum number of groups (MG)”, the vertical size per group is calculated, and this サ イ ズ size is calculated as the vertical size of the simple figure. The remaining half size is a blank space (line space) between simple figures in the vertical direction. “INT” indicates an integer conversion function (the same applies hereinafter).
[0044]
Similarly, in the case of the auxiliary area 3 adjacent to the left end of the drawing area 2, “horizontal dot size (XD)” and “maximum number of groups (MG)” are read from the auxiliary area information 15, The horizontal size per group is calculated by dividing the "dot size (XD)" by the "maximum number of groups (MG)", and this 1/2 size is calculated as the horizontal size of the simple figure. The dot size in the vertical direction (or horizontal direction) of the simple figure calculated in this way is set in the corresponding item of the simple figure management information 12.
[0045]
Then, the process proceeds to the next step C3, where it is checked whether or not “simplified graphic display color determining attribute information” is set in the auxiliary area information 15 currently focused on. The processing for determining the display color is started, but if there is no setting, the display color determination processing is skipped. If the “simple graphic display color determining attribute information” is set, the “simple graphic display color determining attribute information” is read from the auxiliary area information 15 and the object attribute is read from the object management information 11. Then, the simple graphic display color management table 14 is accessed to determine the display color corresponding to the object attribute. For example, if the “simple graphic display color determination attribute information” is “type” and the object attribute is “rectangle”, “green” is determined as the display color of the simple graphic corresponding to this object. The display color determined in this way is set in the corresponding item of the simple figure management information 12.
[0046]
Further, "rectangle" is set as "type information" in the simple figure management information 12, and based on the "type information", "dot size in X direction", "dot size in Y direction", and "color information", "Drawing data (rectangular data)" is created and set (step C4). Then, as the display position information for arranging the rectangular data in the auxiliary area 3, the position coordinates in the horizontal (vertical) direction are set to the same values as the position coordinates in the horizontal (vertical) direction, which is the display position information of the object. Set (step C5). That is, in the case of the auxiliary area 3 adjacent to the lower part of the drawing area 2, the value obtained by matching the horizontal position coordinates of the simple graphic with the “X coordinate” of the object, and the auxiliary area 3 adjacent to the left end of the drawing area 2 In the case of the auxiliary area 3, a value obtained by matching the vertical position coordinates of the simple figure with the “Y coordinate” of the object is set in the corresponding item of the simple figure management information 12.
[0047]
Next, while reading "attribute information for group order determination" from the auxiliary area information 15, the object attribute is read from the object management information 11 to access the group order management table 13, and the group order (Z) corresponding to this object attribute is accessed. Is specified (step C6). For example, if the “group order determination attribute information” is “layer” and the object attribute is “1”, “1” is specified as the group order (Z) corresponding to this object. If the “group order determination attribute information” is “type” and the object attribute is “circle”, “2” is specified as the group order (Z) corresponding to this object.
[0048]
Next, the vertical (or horizontal) position coordinates of the simple figure are calculated in accordance with a calculation formula of INT (YD / MG /) * Z or INT (XD / MG) * Z (step C7). That is, in the case of the auxiliary area 3 adjacent to the lower part of the drawing area 2, “vertical dot size (YD)” and “maximum number of groups (MG)” are read from the auxiliary area information 15, and the “vertical dot size” is read. (YD) ”by the“ maximum number of groups (MG) ”to calculate the vertical size per group, and multiply the calculated size by the group order (Z) to obtain the vertical position coordinates. calculate.
[0049]
Similarly, in the case of the auxiliary area 3 adjacent to the left end of the drawing area 2, “horizontal dot size (XD)” and “maximum number of groups (MG)” are read from the auxiliary area information 15, The horizontal size per group is calculated by dividing the “dot size (XD)” by the “maximum number of groups (MG)”, and the horizontal size is calculated by multiplying the calculated size by the group order (Z). Calculate the coordinates. The vertical (or horizontal) position coordinates of the simple figure calculated in this way are set in the corresponding items of the simple figure management information 12.
[0050]
When the process of generating the simplified graphic management information 12 is completed in this way, the process proceeds to step B5 in FIG. 11, where the objects are arranged in the drawing area 2 based on the object management information 11, and are superimposed and displayed. That is, with reference to the “display management information” in the simple figure management information 12, each “drawing data” other than “non-display” is sequentially read out from the lowest layer indicated by the “layer”, and the “display position information” It is arranged sequentially at the indicated position coordinates.
Next, the simple figure management information 12 is accessed with reference to the "simple figure identification information" in the simple figure management information 12, and each simple figure is sequentially allocated and displayed in the auxiliary area 3 (step B6). That is, each "drawing data (rectangular data)" is read from the simple graphic management information 12, and is sequentially arranged at the position coordinates indicated by the "display position information".
[0051]
Hereinafter, each time an object is newly generated, the above operation is repeated. Here, when "edit" is selected from the drawing menu 4 in the drawing area 2 in order to edit the object in the drawing area 2, the fact is detected in step B2, and the process proceeds to step B7. The user selects a new object to be edited from among the objects, additionally selects the object, or further narrows down the selection. For example, in a state where the objects a, b, and c and the objects d, e, and f are displayed in the drawing area 2 as shown in FIG. When specified, these objects a, b, and c are collectively specified as objects to be edited, or when only one object a is clicked, only the object a among them is specified. At this time, in a case where a plurality of objects belonging to layers 2 and 3 have already been selected as objects to be edited by a process described later, an area including the objects a, b, and c is designated by additional selection. In this case, the objects a and c are newly added to the object to be edited, and when the area including the objects a, b, and c is specified by further narrowing down, the objects a, b, and c Only the object b which is an object belonging to the layer 2 or the layer 3 is a final object to be edited. One or a plurality of finally selected objects are simultaneously changed to a selected state to clearly indicate a selection target.
[0052]
Then, the contents of the drawing menu 4 in the drawing area 2 are switched to an editing menu, and when any editing contents are designated from the editing menu, for example, object deformation, display position change, layer position change, coloring change Is instructed, the object to be edited is changed according to the contents of the instruction (step B8). Then, the process proceeds to the process of changing the simple figure based on the edited contents (step B9). In this case, basically the same process as the above-described step B4 (the process of FIG. 13) is performed. Thereafter, the process proceeds to an object display process (step B5) and a simple graphic display process (step B6).
[0053]
On the other hand, when an operation is performed on the auxiliary area 3 (step B1), it is determined whether the operated part is a simple graphic or a group handle (step B10 in FIG. 12). Here, if it is a simple graphic, the operation content is determined to be movement or selection (step B11). Now, when a simple graphic moving operation is performed, it is checked whether the moving direction is the group order direction or the coordinate axis direction parallel to the drawing area 2. A process of changing the object attribute based on the group is performed (step B12). For example, when the layer is changed, the “layer” of the object is changed to the “layer” associated with the destination group. It should be noted that processing for changing the display position information (coordinate values corresponding to the group order direction) of the simple figures according to the change in the object attribute is also performed.
[0054]
If the operation is a movement operation in the coordinate axis direction parallel to the drawing area 2, a process of changing the display position information of the corresponding object is performed in accordance with the movement (step B13). That is, when the simple figure in the auxiliary area 3 adjacent to the lower part of the drawing area 2 is moved in the X-axis direction, the X coordinate of the object is slid in the same direction by the movement amount, and the drawing area is changed. When the simple figure in the auxiliary area 3 adjacent to the left part of the object 2 is moved in the Y-axis direction, the Y coordinate of the object is slid in the same direction by the movement amount.
Note that processing for changing display position information (coordinate values in the coordinate axis direction parallel to the drawing area 2) of the simple figure according to the change in the display position of the object is also performed. If the movement in the coordinate axis direction parallel to the drawing area 2 is performed simultaneously with the movement in the group order direction, the display position information is changed together with the change in the object attribute (steps B12 and B13). .
[0055]
When the simple graphic is moved in the auxiliary area 3 as described above, the object display processing (step B5) and the execution of the simple graphic display processing will be described below in order to link the corresponding object with the movement of the simple graphic. (Step B6).
FIG. 14 illustrates a case where the simple graphic of the object e is moved from the position of the group handle “4” to the position of “1” by the drag operation of the mouse, and the layer of the object e is moved according to the movement of the simple graphic. Is changed from “4” to “1”, the object e is displayed at the forefront of the drawing area 2 as illustrated. The destination group handle is highlighted as shown in the figure.
[0056]
Further, when an operation of selecting one or a plurality of arbitrary simple figures in the auxiliary area 3 by a mouse click or the like is performed (step B11), the corresponding object is changed to a selected state in conjunction with the operation. The selection target is specified (step B14). For example, a blinking or inverted display of an object clearly indicates that the object is a selection target. If additional selection or further narrowing down of selection is performed in a state where a plurality of objects are already selected at the same time, the same selection processing as in step B7 described above is performed. One or a plurality of finally selected objects are simultaneously changed to a selected state to clearly indicate a selection target. By specifying the selection target in this manner, the existence of the object can be confirmed, and editing, display / non-display, layer change, and the like of the selected object can be instructed.
[0057]
If the operation portion for the auxiliary area 3 is a group handle (step B10), it is determined whether the operation content is "move", "select", or "designate the current group order" (step B15). Assuming that the operation of moving the group handle is performed, each simple graphic belonging to one or more groups specified to be moved is moved in a group unit, and all the object attributes corresponding to each simple graphic are changed. The change is made based on the destination group (step B16). It should be noted that, even in the case of such a movement in units of groups, processing for changing the display position information (coordinate values in the group order direction) of the simple figures according to the change of the object attribute is also performed. Then, an object display process (step B5) and a simple graphic display process are executed (step B6).
[0058]
FIG. 15 is a diagram showing a display example in a case where the group handle “4” is moved between “1” and “2” by dragging and dropping the mouse. In this case, the objects a and e having the layer “4” before the movement become the layer “2” after the movement, and the objects b and f having the layer “2” before the movement become the layer “3” after the movement. , And the object d, which was in the layer “3” before the movement, becomes the layer “1” after the movement.
[0059]
When an operation of selecting one or a plurality of arbitrary group handles is performed (step B15), all the objects corresponding to each simple figure belonging to the selected group are collectively changed to the selected state and selected. The target is specified (step B17). If additional selection or further narrowing down of selection is performed in a state where a plurality of objects are already selected at the same time, the same selection processing as in step B7 described above is performed.
[0060]
When an arbitrary group handle is designated in the current group order (step B15), the designated group position is temporarily stored in the auxiliary area information 15 as the current group order, and then is higher than the current group order. All objects belonging to the group handle are changed to a non-display state (step B18). In this case, each target object in the object management information 11 is accessed, and its “display state” is changed from “display” to “non-display”. Hereinafter, the process proceeds to the execution of the object display processing (step B5) and the simple graphic display processing (step B6).
FIG. 16 is a diagram showing a display example when the group handle “3” is specified in the current group order. In this case, all objects belonging to the group handles “2” and “1” higher than the position of the designated group handle “3” are changed to the non-display state.
[0061]
As described above, according to the object display device of this embodiment, a plurality of group information in which each object is classified based on its attribute (for example, layer) is assigned to each object, and one of the coordinate axes in the plane coordinate system is used. In the state where the auxiliary area 3 in which the other coordinate axes are associated with the display position information of the object is displayed on the display screen 1 together with the object drawing area 2, the group information is associated with the object in the drawing area 3. Since each generated simple figure is displayed at a position in the auxiliary area 3 specified by the object group information and the display position information, which object in the drawing area corresponds to which simple figure in the auxiliary area. You can immediately check the correspondence of Even information on the group classification of objects (for example, a layer) that is difficult to find can be easily confirmed only by looking at the contents of the auxiliary area, and the display in the auxiliary area is a simple figure (rectangle). In addition, the size of the auxiliary area can be reduced, so that the display screen is not wastefully occupied.
[0062]
In this case, each time a new object is generated, a corresponding simple figure is automatically generated, and each time an object is edited, the simple figure is automatically edited based on the editing contents. Can be linked with each other, and the operator does not need to be conscious of generating or editing a simple figure. In addition, the auxiliary area 3 is arranged adjacent to the drawing area 2 and a simple figure having a size similar to the actual size of the object is provided on a coordinate axis parallel to the X coordinate axis or the Y coordinate axis of the drawing area 2. Since the objects are displayed in association with the objects, the correspondence relationship as to which object in the drawing area 2 corresponds to which simple figure in the auxiliary area 3 becomes clearer.
[0063]
Further, a group classified based on a first attribute (eg, layer) of the object and a group classified based on a second attribute (eg, type) of the object can be identified in one auxiliary area 3. For this reason, each simple figure belonging to the group classified based on the second attribute is color-coded by a specific color. Therefore, different types of group classification classified from two viewpoints are included in one auxiliary area 3. Simultaneous and easy confirmation is possible.
[0064]
Further, an auxiliary area 3 adjacent to the drawing area 2 in the vertical direction and an auxiliary area 3 adjacent to the drawing area 2 in the horizontal direction are provided, and a simple figure corresponding to each object is separately displayed in each auxiliary area 3. Thus, one object can be comprehensively confirmed by the auxiliary areas 3 from two directions.
Further, as shown in FIG. 3, an auxiliary area 3 relating to a group classified based on the first attribute (layer) of the object and an auxiliary area 3 relating to the group classified based on the second attribute (type) of the object Are separately provided, the two types of attributes (layer, type) of the object can be separately confirmed by the dedicated auxiliary area 3.
If the size per group is calculated by the calculation formula of INT (YD / MG / 2) or INT (XD / MG / 2), all the simple figures are stored in the auxiliary area 3 even if the number of groups is large. Can be displayed, and since the groups are arranged at equal intervals, the displayed contents are orderly and the readability is improved.
[0065]
On the other hand, when an input operation is performed on a simple figure arranged in the auxiliary area 3, processing relating to an object corresponding to the operated simple figure is performed. An input operation on a simple figure can be handled in the same manner as an operation performed on a corresponding object in the drawing area 2, and instructs execution of processing on an object that cannot be seen in a normal object drawing area. be able to. That is, when an arbitrary simple figure in the auxiliary area 3 is selected by a mouse click or the like, the corresponding object is selected in conjunction therewith, so that the selected object is edited, displayed / hidden, layer changed, etc. Can be indicated.
[0066]
Further, when a simple figure in the auxiliary area 3 is moved in the group order direction, the attribute of the object corresponding to the simple figure is changed based on the destination group. By simply moving in the order direction, the group (attribute) of the corresponding object can be easily changed, and the group can be changed for each object. In this case, when the simple figure in the auxiliary area 3 is moved in the group order direction and the simple figure is moved in the coordinate axis direction corresponding to the display position information, the object group is changed and its display position is changed. Can be changed simultaneously and quickly, and the operability can be further improved. When an arbitrary simple figure is selected in the auxiliary area 3, the object corresponding to the selected figure is selected as a processing target, and the corresponding object is selected in conjunction with the simple figure selecting operation. be able to.
[0067]
Further, when a simple figure in the auxiliary area 3 is operated for each group unit, it is possible to collectively execute processing for all objects corresponding to each simple figure in the operation group. That is, when the operation of moving the group handle is performed, each simple graphic belonging to one or more groups specified to be moved is moved in a group unit, and all the object attributes corresponding to each simple graphic are changed. Since the change can be made based on the destination group, the objects can be collectively moved in group units.
In addition, when an operation of selecting an arbitrary group handle is performed, all objects corresponding to the respective simple figures belonging to the selected group are set to the selected state. It can be carried out. Further, when an arbitrary group handle is designated in the current group order, all objects belonging to a group handle higher than the designated group position can be set in a non-display state.
[0068]
In the above-described embodiment, the auxiliary area 3 relating to the group classified based on the object attribute (layer) is arranged adjacent to the lower part of the drawing area 2 or classified based on another object attribute (type). Although the auxiliary area 3 relating to the group is arranged adjacent to the left part of the drawing area 2, the arrangement position thereof is arbitrary. In this case, the “adjacent direction” of the auxiliary area information may be set arbitrarily.
[0069]
Further, a plurality of auxiliary areas 3 may be arranged adjacent to each other in a lower part or a left part of the drawing area 2 in parallel. That is, for example, two auxiliary areas 3 may be arranged in parallel below the drawing area 2 in the vertical direction, and each auxiliary area 3 may be grouped according to different object attributes. In this case, a plurality of pieces of auxiliary area information may be set, and the “adjacent direction” may be set to the same direction.
When a plurality of auxiliary areas 3 are arranged adjacent to each other as shown in FIG. 3, each auxiliary area 3 may be grouped by the same object attribute. In this case, "attribute information for group order determination" in a plurality of pieces of auxiliary area information may be set to the same attribute.
[0070]
In the above-described embodiment, “layer”, “type”, and “object color” are exemplified as the object attributes. However, as other attributes, for example, “creator”, “creation department”, “generation date” , "Distribution destination" or the like.
Furthermore, in the above-described embodiment, a composite object obtained by hierarchically composing a plurality of element objects has been exemplified. However, the present invention is not limited to a layer-structured object, and may be a planarly arranged object. It may be an object.
[0071]
In the above-described embodiment, when an arbitrary group handle is specified in the current group order, all objects belonging to a group handle higher than the specified group position are changed to a non-display state. All the objects in the group handle lower than the current group designated position may be hidden.
The object is not limited to various figures and characters, but may be image data such as an image, or may be a window (window-like display area).
[0072]
When a plurality of simple figures in the same group completely overlap in the auxiliary area 3 or when almost all parts overlap, the display positions of the simple figures may be shifted by a predetermined amount until the simple figures can be identified. .
When an arbitrary simple figure is selected in the auxiliary area 3, a range may be designated by a mouse operation or the like, and a plurality of simple figures existing in the designated range may be simultaneously selected.
[0073]
In the above-described embodiment, the object is specified by the display position and the size in the object management information. However, the object may be specified by two-point coordinates (minimum coordinates and maximum coordinates).
Further, in the above-described embodiment, the simple figure is “rectangular”, but the shape of the simple figure is not limited to this, and may be, for example, an ellipse, a thick line, a broken line, a line segment with arrows at both ends, and the like. Any shape can be used as long as the shape is simple and easy to see. In this case, for example, a plurality of simple figures can be easily formed in the same group by displaying the simple figure as a point-like figure and displaying any one of the left end, the center, and the right end of the object in association with the point-like figure. May not overlap.
[0074]
Further, the object display device of the above-described embodiment is not limited to the stand-alone type, and each component thereof is physically separated into two or more housings, and a wired transmission path such as a communication line or a cable or a radio wave, A distributed computer system for transmitting and receiving data via a wireless transmission path such as a microwave or an infrared ray may be configured.
[0075]
On the other hand, a recording medium (for example, a CD-ROM, a floppy disk, a RAM card, or the like) in which a program code for causing each of the above-described units to be executed may be provided to the computer.
That is, a recording medium having a computer-readable program code, wherein a plurality of objects are classified into a plurality of groups based on their attributes, and a function of assigning the group information to each object is provided. A function of displaying, on the display screen, an auxiliary area in which the group information is associated with the coordinate axis and the display position information is associated with the other coordinate axis, on the display screen, and the auxiliary area is generated corresponding to the object in the rendering area. A function of specifying the arrangement location based on the group information and the display position information of each object in order to arrange each simple graphic in the auxiliary area, and a function of displaying the simple graphic at each identified arrangement location. To provide a computer-readable recording medium on which a program for realizing the program is recorded Unishi may be.
[0076]
【The invention's effect】
According to the present invention (the first aspect of the present invention), a plurality of group information in which each object is classified based on its attribute is assigned to each object, and the group information corresponds to one coordinate axis in the plane coordinate system. In the state where the auxiliary area in which the display position information of the object is associated with the other coordinate axis is displayed on the display screen together with the object drawing area, each simple figure generated corresponding to the object in the drawing area is assigned to the object. Since the information is displayed at the position in the auxiliary area specified by the group information and the display position information, the correspondence relationship between which object in the drawing area corresponds to which simple figure in the auxiliary area is immediately confirmed. In addition, it is possible to classify objects that are difficult to know just by looking at the contents of the drawing area Information can be easily confirmed simply by looking at the contents of the auxiliary area, and the display in the auxiliary area is easy to see because of the simple figure, and the entire auxiliary area can be made compact. In addition, the display screen is not occupied uselessly.
[Brief description of the drawings]
FIG. 1 is a view showing an example of a display screen of an object display device, showing a display example in a case where an auxiliary area 3 is provided below a drawing area 2. FIG.
FIG. 2 is a diagram for explaining a coordinate system on a display screen.
FIG. 3 is a diagram showing a display example in a case where an auxiliary area 3 is provided on a left part of a drawing area 2 in addition to a lower part thereof.
FIG. 4 is a diagram showing contents of object management information 11;
FIG. 5 is a diagram showing the contents of simple graphic management information 12;
FIG. 6 is a diagram showing the contents of a group order management table 13;
FIG. 7 is a diagram showing the contents of a simplified graphic display color management table 14;
FIG. 8 is a diagram showing the contents of auxiliary area information 15;
FIG. 9 is a block diagram showing basic components of the object display device.
FIG. 10 is a flowchart showing an operation when setting auxiliary area information 15;
FIG. 11 is a flowchart showing an entire process at the time of displaying an object, which is started in response to an interruption by a key or mouse operation.
FIG. 12 is a flowchart following FIG. 11 showing the overall processing at the time of displaying an object;
FIG. 13 is a flowchart for explaining in detail a process of generating the simplified graphic management information 12 shown in FIG. 11;
FIG. 14 is a diagram showing a display example when a simple graphic of an object e is moved from a position of a group handle “4” to a position of “1” by a drag operation of a mouse.
FIG. 15 is a diagram showing a display example when a group handle “4” is moved to a position between “1” and “2” by dragging and dropping with a mouse operation.
FIG. 16 is a diagram showing a display example when a group handle “3” is designated in the current group order.
FIG. 17 is a view showing a display state of an object for explaining the related art.
[Explanation of symbols]
1 Display screen
2 Drawing area
3 auxiliary area
4 Drawing menu
11 Object management information
12 Simple figure management information
13 Group ranking management table
14 Simple graphic display color management table
15 Auxiliary area information
31 Simple figures
a, be objects
101 CPU
102 storage device
105 Input device
106 display device

Claims (14)

An object display device that displays a plurality of objects in a drawing area on a display screen at a location indicated by the display position information,
Classification means for classifying the plurality of objects into a plurality of groups based on their attributes, and assigning the group information to each object;
First display control means for associating the group information with one coordinate axis in the plane coordinate system and displaying an auxiliary area in which the display position information is associated with the other coordinate axis on a display screen together with the drawing area;
Specifying means for specifying, based on the group information and display position information of each object, an arrangement location for arranging each simple graphic generated corresponding to an object in the drawing area in the auxiliary area;
Second display control means for displaying the simplified graphic at each of the locations specified by the specifying means;
An object display device comprising: When an input operation is performed on a simple figure arranged in the auxiliary area, a process related to an object corresponding to the operated simple figure is executed.
2. The object display device according to claim 1, wherein: When the simple figure in the auxiliary area is moved in the coordinate axis direction corresponding to the group information, the attribute of the object corresponding to the simple figure is changed based on the destination group classification.
3. The object display device according to claim 2, wherein: When the simple figure in the auxiliary area is moved in the coordinate axis direction corresponding to the group information and the simple figure is moved in the coordinate axis direction corresponding to the display position information, the destination group is moved. Changing the attribute of the object corresponding to the simple figure based on the classification, and changing the display position information of the object corresponding to the simple figure based on the display position information of the moving destination;
4. The object display device according to claim 3, wherein: The group information is, when the objects overlap in the drawing area, information grouped based on the overlapping order,
The process executed on the object in response to the input operation on the simple figure is a process of changing the display / non-display and the overlapping order of the object in the drawing area.
3. The object display device according to claim 2, wherein: When an operation of selecting an arbitrary simple graphic in the auxiliary area is performed, an object corresponding to the selected graphic is set to a selected state as a processing target.
3. The object display device according to claim 2, wherein: When one or more groups are designated on the auxiliary area, the objects belonging to the designated one or more groups are collectively processed.
2. The object display device according to claim 1, wherein: In the state where the plurality of classified groups are ranked, by selecting and specifying a desired group position on the auxiliary area, all groups having higher or lower ranks than the specified group position are collectively collected. Specify
8. The object display device according to claim 7, wherein: The group information is information that is grouped based on the overlapping order when the objects overlap in the drawing area.
2. The object display device according to claim 1, wherein: The classification means classifies the plurality of objects into a plurality of groups based on a first attribute, and further classifies the plurality of objects into a plurality of groups based on a second attribute,
Displaying a simple figure which is color-coded with a display color capable of distinguishing the group classification classified based on the second attribute;
2. The object display device according to claim 1, wherein: On the display screen, the auxiliary area is arranged adjacent to the drawing area, coordinate axes associated with the display position information is arranged in parallel to the same coordinate axis in the drawing area,
Displaying a simple figure having a size corresponding to the actual size of the object in the coordinate axis direction of the auxiliary area in association with the object;
10. The object display device according to claim 9, wherein: An auxiliary area vertically adjacent to the drawing area and an auxiliary area horizontally adjacent to the drawing area are provided, and a simple figure corresponding to each object in the drawing area is separately displayed in each auxiliary area.
10. The object display device according to claim 9, wherein: The classification means classifies the plurality of objects into a plurality of groups based on a first attribute, and further classifies the plurality of objects into a plurality of groups based on a second attribute,
An auxiliary area vertically adjacent to the drawing area is associated with a group classified based on the first attribute, and an auxiliary area adjacent to the drawing area in a horizontal direction based on the second attribute. Map to categorized groups,
13. The object display device according to claim 12, wherein: Against the computer
A function of classifying a plurality of objects into a plurality of groups based on their attributes, and assigning the group information to each object;
A function of associating the group information with one coordinate axis in a plane coordinate system and displaying an auxiliary area in which the display position information is associated with the other coordinate axis on a display screen together with the drawing area;
A function of specifying an arrangement location based on group information and display position information of each object in order to arrange each simple graphic generated corresponding to an object in the drawing area in the auxiliary area;
A function of displaying the simple figure at each of the specified arrangement locations,
The program to realize.

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