JP3282701B2 - Database information visualization application program development support system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention maps character and numerical information stored in a database to node-type objects and line-type objects on a screen, and forms shapes, colors, sizes, etc. of each object. Also, the present invention relates to a database information visualization AP development support system that supports development of an information visualization AP (Application Program) that generates and displays arrangement coordinates using attribute information of a database.

[0002]

2. Description of the Related Art Conventional systems for visualizing information in a database (hereinafter sometimes simply referred to as DB) include: (1) Character and numerical information of a table image of a relational database can be easily converted to a character by a screen operation. A database front system that can output information as a table and customize the screen. (2) A system that can display numerical data on a relational database or spreadsheet as a graph of various patterns by screen operation. (3)
Statistical processing package software, spreadsheet software, numerical information such as measurement results of the global environment etc. in multi-dimensional color display, numerical data visualization system capable of multi-dimensional analysis by various information filtering processing, (4) on the map Communication network,
Attach nodes and line objects such as railway networks,
A net information management tool for converting the color of an object or the like according to the state of an object in the real world, enlarging a selected area, selecting an object and displaying its detailed contents, (5) Expression based on graph theory There are graph display tools and the like that allow selection of an expression method corresponding to a pattern.

[0003]

However, a display entity, which is an arbitrary information unit, is selected from character / numerical information in a database, and the display entity is mapped to a node-type or line-type object to be represented graphically. An information visualization AP that can generate information on the shape and arrangement of the object based on the attribute of the target information is provided by the user in an interactive or pre-registered type. There is no conventional example in which an information visualization AP can be realized only by specifying parameters.

A first object of the present invention is to provide a database information visualization AP development support system in which a user can easily describe an information unit (display entity) definition of a graphic expression extracted from information stored in a DB. It is in.

A second object of the present invention is to define a mapping relating to what kind of figure a display entity is represented, that is, (1) a definition relating to a mapping between a display entity and a screen object type, and (2) a screen object. Definition of attribute information of the display entity used to generate attribute information with the method for generating attribute information on the shape of the
(3) An object of the present invention is to provide a database information visualization AP development support system in which a user can describe a method relating to arrangement coordinate conversion relating to the arrangement of screen objects and a definition relating to attribute information of a display entity used for the arrangement coordinate conversion by the method. .

A third object of the present invention is to provide a database information visualization AP development support system which allows a user to describe a scenario definition relating to when and in what order the definition relating to the graphic expression shown in the second object is to be executed. To provide.

A fourth object of the present invention is to provide a database information visualization AP development support system in which the user can define the definitions shown in the second and third objects in both an interactive mode and a pre-defined mode. It is in.

A fifth object of the present invention is to provide a user interface using graphics, for example, a GUI (Graphical
User Interface; GU, Gui) G to display
An object of the present invention is to provide a database information visualization AP development support system that allows a user to select a UI tool.

[0009]

In order to achieve the above object, a database information visualization application program development support system according to the present invention develops a database information visualization application program which graphically represents database information based on a user definition. In the support system, a display entity as an arbitrary information unit is input from a database and a display entity input means capable of arbitrarily converting a schema and a value of the display entity, and a screen object for selecting a node type and a line type graphic expression Type selecting means, mapping means for performing mapping definition regarding generation of graphic attribute information relating to shape and arrangement, display information generating means for generating graphic attribute information according to the mapping definition obtained by the mapping means, and the display Input by entity input means By providing the display information management means for managing the converted display information object, and input and output means for performing graphic display of definition input and conversion results from the user by 示実 body and the display information generating means,
The gist of the present invention is to display various graphic expressions combining a node type graphic and a line type graphic on a screen.

Further, in the database information visualization AP development support system of the present invention, when the display entity input means selects a display entity from character / numerical information stored in the database, the schema definition of the database on the input side can be used. The gist is that at least one of a means for describing and inputting a schema definition of a display entity on the output side and a mapping between the two schema definitions as a script or a means for selecting and inputting as a parameter on a screen is provided.

Further, in the database information visualization AP development support system according to the present invention, when the display entity input means graphically represents character / numerical information, the selected display entity is a rectangle on the screen of the display device. It is realized in correspondence with either a screen object which is a node type object represented by a cube or the like or a line type screen object which is represented by a straight line, a chain of straight lines or the like. Alternatively, the gist of the present invention is to provide at least one of a unit for describing and inputting a line type mapping as a script and a unit for selectively inputting as a parameter on a screen.

Database Information Visualization A of the Present Invention
The P development support system includes a display attribute generation method for generating a display attribute, and a display attribute generation method for generating a display attribute. The gist of the present invention is to provide at least one of a means for describing and inputting mapping of information to be used as a script and a means for selecting and inputting as a parameter on a screen.

Further, in the database information visualization AP development support system of the present invention, when the AP is described by the pre-registered type definition / execution means in the scenario definition means for executing the mapping definition and the order, the mapping definition is defined as The gist of the invention is to provide a means for describing and inputting, as a scenario, a macro definition of an execution order and an execution timing of the macro definition.

Further, in the database information visualization AP development support system according to the present invention, the input / output GUI tool selecting means converts the display information generated by the user into standard information independent of a unique GUI tool. It is defined as a display information object, and the gist is to perform two-stage information conversion of a display entity and a display information object, and a display information object and a screen object.

[0015]

In the database information visualization application program development support system of the present invention, a display entity, which is an arbitrary information unit, is input from a database by a display entity input means, and the schema and values of the display entity are arbitrarily converted to a screen. A node type and a line type graphic expression are selected by an object type selection unit. Next, according to the mapping definition regarding the generation of the attribute information on the shape and arrangement obtained by the mapping unit, the display information generating unit generates the attribute information of the graphic, and the display entity input by the display entity input unit. The display information object converted by the display information generating means is managed by the display information managing means, and further, the definition input from the user and the graphic display of the conversion result are performed through the input / output means, so that the node type graphic and the line are displayed. It is possible to easily develop an information visualization application program for displaying various graphic expressions on a screen in combination with a pattern graphic.

In the database information visualization AP development support system of the present invention, when a display entity is selected from the character / numerical information stored in the DB by the display entity input means, the schema definition and output of the input-side database are selected. Enter the schema definition of the display entity on the side and the mapping between the two schema definitions as a script or select and input as a parameter on the screen.

Further, in the database information visualization AP development support system of the present invention, when the display entity input means graphically represents character / numerical information, the selected display entity is a screen object or a node type object. This is realized in correspondence with one of the line-type screen objects, and the mapping between the display entity and the node type or the line type of the screen object is described and input as a script or selectively input as a parameter on the screen.

Database Information Visualization A of the Present Invention
In the P development support system, when a display attribute is generated by the display entity input means, a display attribute generation method for generating a display attribute and mapping of information used by the method for generating a display attribute are described and input as a script. Alternatively, select and input as a parameter on the screen.

Also, in the database information visualization AP development support system of the present invention, when the AP is described by the pre-registered type definition / execution means in the scenario definition means for the execution timing and order of the mapping definition, the execution order of the mapping definition is defined. Of the macro definition and the execution timing of the macro definition as a scenario.

Further, in the database information visualization AP development support system according to the present invention, the display information generated by the user in the input / output GUI tool selection means is converted into standard display information independent of the unique GUI tool. It is defined as an object, and performs two-stage information conversion of a display entity and a display information object, and a display information object and a screen object.

[0021]

An embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a database information visualization AP development support system according to one embodiment of the present invention. Database information visualization A shown in the figure
The P development support system includes an information source DB 101, a display entity input unit 102, a display information DB 103, a GUI (Graphica
l User Interface) input / output means 104, GUI device 10
5. End user 106, interactive input means 107, registration type input means 108, scenario definition translation 109, input definition translation 110, mapping definition translation 111, output definition translation 112, object operation communication control 113, display information generation method 114, E-object (display entity) 115, R
-object (display information object) 116, D-object
(Screen object) 117 and C-object (control object) 118.

The information source DB 101 is a DB that stores character / numerical information having a structure that is not particularly conscious of the substance of the display. When the display entity input means 102 is executed from the information source DB 101 in accordance with the execution format 110 in which the input definition is translated and output, an E-object 115 is obtained. R-object
116 is generated using the information of the E-object 115 based on the execution format 111 that is output by translating the mapping definition. Further, information (display attribute) necessary for displaying the D-object 117 is created on the R-object 116 by the display information generation method 114 operated via the object operation communication control 113 based on the mapping definition. You. The display attribute of the R-object 116 is based on the execution format 112 which is obtained by translating the output definition and outputting the D-o.
bject 117.

The user's AP definition includes an interactive input means 107 for selecting and inputting parameters interactively presented in a dialog box or a pop-up window from a dedicated window of a graphical screen interface, and displaying the result immediately, and a general-purpose graphical interface. A text-based scenario description created by a simple GUI tool is output to a file, and this file is registered in the C-object 118, and the C-object 118
The operation is performed in two modes of the registration type input unit 108 in which a graphic is displayed according to the scenario when the operation is performed.

FIG. 2 shows the configuration of the display entity input means 102 used in the database information visualization AP development support system of FIG. 1 (when the information source DB is an RDB).
FIG.

The input definition of the display entity is interactive input definition 2.
01 and a registration type input definition 202. The interactive input definition 201 includes an input schema definition, a conversion information definition &
There is a conversion script description and output schema definition,
These definitions are stored in DB search /
Converted to object creation statement file. This DB search statement file is executed by the DB search execution unit of the display entity input unit 204, and the E-object is output in a file format. Further, the object generation statement is executed by the object generation execution unit of the display entity input means 204, and the E-object in the file format is changed to the E-obj of the display information DB.
Registered as ect.

On the other hand, in the AP scenario description of the registration type input definition 202, an E-object input request can be described. This description is translated by the scenario definition translation 205, and when an E-object input request is detected, the input definition translation 2
03, a DB search / object creation statement file is requested. The scenario execution statement generated here is transferred to the GUI input / output unit 206, registered in the C-object 117, executed when the C-object is operated, and displayed as a D-object.

FIG. 3 is a diagram showing an input / output schema definition and a conversion script description example in the database information visualization AP development support system of the present invention. The definition required for the conversion includes an input schema definition 301 of the information source DB, a conversion information definition 302 required for the conversion, and an output schema definition 303 of the E-object. Conversion information definition 302
Consists of E-object key information definitions, E-object class relationship definitions, instance calculation information definitions, and attribute replacement definitions. The conversion contents are described in a conversion script 304. The basic structure of the conversion script is defined in three stages: attribute search, attribute editing, and object generation.

FIG. 4 is a diagram showing a configuration example of the conversion script syntax. The conversion script is classified into basic DB search, object generation, attribute editing, and field-specific search (an example of communication network information). The syntax is composed of an operator, an id number of a definition file to be referred to, and other additional information (search conditions and the like).

FIG. 5 is a diagram showing an example of inheritance definition of an object class in the database information visualization AP development support system of the present invention.

The object classes are roughly classified into a display information DB object class 401 constructed on the display information DB and a D-object (screen object) class 402 constructed on the screen of the display device. The display information DB object class 401 has an E-object (substance object) class 40 for storing information selected from the existing DB.
3, an R-object class (display information object) 404 to which the E-object is mapped, and a C-object (control object) class 405 for registering a scenario. The display object class is a rectangle on the GUI,
Node type object class 4 expressed by circles, cubes, etc.
06 and a line type object class 407 expressed by a straight line, a straight chain, or the like. The screen object class is inherited by each GUI product object class 408 corresponding to the product.

FIG. 6 is a diagram showing an example of an object class attribute / method definition in the database information visualization AP development support system of the present invention.

Examples of attributes and methods defined in the lowest class as a result of object inheritance include attributes / method definitions 501 of the E-object class, attributes of a node type object class which is a lower class of the R-object class, Method definition 502, attribute / method definition 50 of the line type object class which is a lower class of the R-object class
3. The attributes and method definitions 504 of the C-object class are shown separately. D-object is a subclass of the R-object class.
Attributes required for display of the display, reference attributes defining mappings indicating attribute relationships used by the display information generation method, E
Defines entity attributes that inherit the attributes of the -object class and various display information generation methods.

FIG. 7 is a diagram showing a configuration example of a mapping definition for generating display information in the database information visualization AP development support system of the present invention.

The information of the E-object 601 is E-object-
According to the R-object type mapping definition 602, it is mapped to a node type or line type R-object 603. The R-object 603 has an entity attribute 604 to which the attribute of the E-object is mapped, a display attribute 605 transferred to the D-object and used for display, and a reference indicating an entity attribute referred to by the display attribute generation method. It consists of attributes 606. In each display attribute generation method, it is fixedly determined which reference attribute is used to convert the information, and when the user describes the mapping between the entity attribute and the reference attribute,
The method generates display attributes using the mapped entity attributes. The mapping of the entity attribute to the reference attribute includes a method and mapping definition 607 relating to the shape of the D-object, and a method and mapping definition 608 relating to the arrangement of the D-object.

FIG. 8 is a diagram showing a configuration of translation / execution control of mapping definitions in the database information visualization AP development support system of the present invention.

The mapping definition includes an interactive mapping definition 701 in which a definition result is immediately executed by a graphical interface, and a registration type mapping which is defined as a part of a scenario in a text file interface and executed after registration in a C-object. It consists of the definition 702. The interactive mapping definition is executed immediately after the object operation communication control unit 704 transmits an object operation message generated by the mapping definition translation 703 to each object. On the other hand, the registration type mapping definition is translated by the scenario definition translation 705 into various mapping definitions embedded in the scenario, and the mapping definition requests the mapping definition translation 703 to translate and output an object operation message. The scenario execution format in which the scenario and the object operation message are combined is generated and registered as a C-object or D-object on the GUI device by the GUI input / output unit 706. This mapping definition is executed when the C-object or D-object is operated by the user's screen operation, by activating the object operation communication control unit.

FIG. 9 is a diagram showing a registration type mapping definition description example in the database information visualization AP development support system of the present invention.

The mapping definition description includes an object type assignment definition 801 that defines the type (node type, line type) of the R-object to which the E-object is mapped, and a reference that defines the entity attribute indicated by the reference attribute of the R-object. It comprises an attribute pointer setting definition 802 and a method operation definition 803 that defines the type of display information generation method to be used.

FIG. 10 is a diagram showing a description example of parameter definitions that need to be set uniquely for an operation method in the database information visualization AP development support system of the present invention, along with the method operation definition of FIG.

In a parameter definition example 901 for an operation method of an object shape such as determining the color of an object by the value of an entity attribute, the mapping method between the value of the entity attribute and the color is order type, and the step size is cut in numerical data.
value defines the order of mapped colors as color definiti
Define with on. In the order type, ascending order / descending order / alphabet order / internal code order / conversion table reference can be specified.
In a parameter definition example 902 for an operation method for arranging objects, such as determining the arrangement coordinates of an object based on the value of an entity attribute, the maximum coordinates to be arranged can be specified.

FIG. 11 is a diagram showing a registration type user scenario processing description example in the database information visualization AP development support system of the present invention.

In FIG. 11, an example scenario processing flow 1001 is based on an event, and case 1 is an E-object.
And the mapping definitions are updated, and cases 2 and 3 only update the mapping definitions. A description example of this scenario is shown in scenario definition 1002. In this scenario definition, it is indicated by an input / output definition and a mapping definition 1003.
E-object input definition 1004, R-object type definition 100
5, attribute mapping definition 1006, method operation definition 1
007 can be described and called in the flow. Note that the input / output definition and the mapping definition 1003 can be grouped by grouping a plurality of definitions using the description method shown in FIG.

FIG. 12 is a diagram showing the configuration of the GUI input / output means in the database information visualization AP development support system of the present invention.

The GUI input / output means 1101 includes a GUI transfer information conversion 1102, a GUI transfer information conversion definition 1103,
It comprises an object scenario registration 1104 and an event message reception 1105. When the GUI transfer information conversion request is described in the scenario execution format, the GUI transfer information conversion 1102 of the GUI information input / output unit 1101 is performed.
Translates the request and translates it into a GUI transfer information conversion definition 1.
103 to generate information to be transferred to the corresponding GUI. The information is registered in the object scenario registration 1104.
Is registered in C-object or D-object.
On the other hand, events caused by mouse and key operations on the GUI side
Event message reception 1 of GUI input / output unit 1101
105, and the object operation communication control unit
The -object method operation is performed.

FIGS. 13 to 15 are views showing examples of input screens of interactive input / output definitions and mapping definitions in the database information visualization AP development support system of the present invention. FIG. 13A shows an input / output schema definition screen, and FIG.
(B) shows an input / output conversion information definition screen. The input side is D
By inputting B _- NAME and TABLE _- NAME, a schema search result is automatically displayed. The input / output conversion information definition is set by cutting and pasting from the input / output definition screen. In the input / output conversion script definition, FIG.
Conversion from (b) input / output conversion operation selection dialog
operation can be selected. The mapping definition of the types (node type, line type) of E-object and R-object is shown in FIG.
(A) LINE of the object type mapping definition screen
All you have to do is check the NODE check button. The selection of the display attribute generation method of the R-object and the mapping definition between the reference attribute and the entity attribute are shown in FIG.
This can be done from the R-object reference attribute mapping definition screen of (a). A target menu, a selection method, and a mapping attribute can be easily selected by clicking a mouse on a corresponding portion to display a selectable menu. The entity attribute selection dialog of FIG. 15B is displayed when the item (R #) to be mapped to the reference attribute item name is clicked.

FIG. 16 is a diagram showing a typical example of an object arrangement method of the object arrangement coordinate generation processing in the database information visualization AP development support system of the present invention. The pattern is a pattern 1 (1301) for deciding a node arrangement based on relation information between entities, a node is arranged on a node arrangement line based on designated information, and a start / end point node is placed on a node passing line from both ends information of the line. / Passing node arranging pattern 2 (1302), arranging nodes on the node arranging area and arranging sub-nodes included in the nodes on the nodes based on the specified information, and connecting between the sub-nodes from the start / end point information of the line Pattern 3 (130
3) The four types of pattern 4 (1304) in which the relative position of the node is determined from the two specified attributes, the related node is extracted from the sub-lines constituting the line, and the line is arranged are shown.

FIG. 17 is a diagram showing an example of a variation of the visualization pattern obtained by changing the above-described mapping definition and definition of using the object operation method. First, assuming that an initial pattern diagram (1401) is set, an object type change pattern diagram (1402) obtained by changing an object type (node, line), obtained by changing an information source of a node arrangement. Node placement information source change pattern diagram (1403),
A line arrangement method change pattern diagram (1404) obtained by changing the line arrangement method, a node arrangement method change pattern diagram (1405) obtained by changing the node arrangement method, and a coordinate attribute (Z (Axis) is added, and the variation of the expression as shown in the coordinate attribute addition pattern diagram (1406) obtained in three dimensions can be selected in various ways. The above variations are selected according to a point that the user wants to pay attention to.

As described above, the database information visualization AP development support system of the present invention includes: (a) a schema definition of a database on the input side, a schema definition of a display entity on the output side, and a mapping description script between the two schema definitions. Means for generating a set of methods related to database search and editing of search results from (b), and (b) translating a user description relating to the following definition relating to what kind of figure the display entity is represented, and Means for transmitting a message to a display object; (1) a definition relating to mapping between a display entity and a screen object type; (2) a method relating to generation of attribute information relating to a shape of a screen object; Definition of information, (3) Screen object layout A definition related to a method related to placement coordinate conversion and attribute information of a display entity used for the placement coordinate conversion by the method, and (c) a scenario definition related to when and in what order the definition related to the graphic expression shown in (b) above is executed. Means for translating a user description about the object and registering it as a method of a corresponding object or menu; (d) providing an input screen for interactively inputting the definitions of (b) and (c) above; and input information Means for transmitting a message to the corresponding object or registering it as a method of the corresponding object or menu, or defining the definitions of (b) and (c) in advance in a description language and registering it as an AP Means that can be repeatedly executed, and (e) matching the information on the display created above with the GUI tool selected by the user. And convert the information to GU
I means for transferring the data.

In the database information visualization AP development support system of the present invention, an AP for visualizing node-type or line-type screen objects with graphic representations of general character / numerical information stored in a database is provided. The user can describe the mapping definition relating to the generation of the graphic information and the scenario definition relating to the execution order, so that the development can be easily performed without describing the detailed logic of generating the graphic information. Further, according to the input / output definition of the user, an arbitrary information unit can be made to correspond to a screen object from the database, and the screen object can be output to an arbitrary GUI tool.

[0050]

As described above, according to the present invention,
The user can selectively extract an appropriate information unit from a database that stores character / numerical information simply by describing an input / output schema definition and a conversion script, and display it as a screen object on a display device. . Also,
Whether the user should express the selected information unit as a line type or a node type, determine which attributes to use based on the object arrangement and object shape, and selectively operate which arrangement method in response to events , It is possible to realize various visual representations by combining a plurality of node-type and line-type screen objects and the positional relationship between the objects. G to be displayed
When the UI tool defines the information conversion for format conversion of the display attribute for each GUI tool, the selection of the GUI tool becomes possible by the scenario description.

As described above, in the database information visualization AP development support system of the present invention, an AP which expresses information of a character / numerical database by objects of nodes and lines and generates various expression patterns by using its attributes. Can be easily developed by a simple scenario description or interactive information definition.

According to the present invention, in the case of the display attribute generation method for determining the shape, color, size, etc. of the screen object, the user can use the display attribute generation method prepared by the system and the attributes of the display entity used for the method. Specify information. When the attribute information is numerical information, the parameter specifies whether the order is ascending or descending, and the value range. When the attribute information is character information, it specifies the user conversion table, alphabetical order, or internal code order of character information. Display attributes are created simply by specifying the table name. In this way, the user merely specifies the attribute information of the display entity to be referred to in the display information generation method and the display information generation and the parameters required for the display information generation method, and does not describe a detailed algorithm for generating the display attribute. In addition, there is an effect that a display attribute can be generated and a screen object can be automatically displayed.

Further, according to the present invention, in the case of display information generation for determining the arrangement coordinates of the screen object, the user specifies the arrangement coordinate conversion method prepared by the system and the attribute information of the display entity referred to by the method.

For a node type object, (a) a three-dimensional coordinate conversion method using three pieces of attribute information, and (b) a proportional coordinate conversion in which the attribute information is proportionally assigned to display coordinates. Method, (c) a relative coordinate conversion method that is relatively assigned based on the attribute information so as to prevent nodes from overlapping in the coordinates of the display space,
(D) Assignment coordinate conversion method assigned to the display area defined by the attribute information, (e) designation of coordinate conversion methods such as an ordinal coordinate conversion method arranged according to the order of the values of the attribute information, and the use of these conversion methods. Define the attribute information of the display entity to be referenced.

For a line type object, a linear line coordinate conversion method for connecting nodes with a straight line is used as a coordinate conversion method. An indirect line coordinate conversion method that selects and displays the start and end points from the connection points prepared on the diagonal line in advance on the node, and aggregates multiple line-type objects between nodes to 1
Aggregate line coordinate transformation method to be displayed in the book line type object, displayed above the node type object when the line type object passes through the node type object, and below the node type object when terminated with the node type object And the coordinate conversion methods such as the pass-type line coordinate conversion method to be displayed in the, and the attribute information of the display entity referred to by these conversion methods are defined.

As described above, the user merely specifies the coordinate conversion method and the attribute information of the display entity referred to by the method and the parameters necessary for the conversion method, without describing the algorithm for generating the display attribute information.
There is an effect that a display attribute can be generated and a screen object can be automatically displayed.

Further, according to the present invention, various designations relating to the generation of display information by the user can be registered and executed in advance by means of a mode which can be designated interactively on the screen of the display device and a scenario description in a text file format. By enabling the mode, there is an effect that it is possible to facilitate the function verification at the time of AP creation and shorten the time, and to facilitate the AP creation after the function confirmation and the time reduction.

Further, according to the present invention, various designations relating to the generation of display information by the user are defined in the state transition description of the AP event, so that the display entity can be selected from the database in response to the event, and the display entity can be selected. This makes it possible to describe the change of the graphic expression, and it is possible to continuously change the graphic expression and to change the graphic expression corresponding to the event.

Also, according to the present invention, various GUIs
It is possible to generate and convert the display entity to the information of the display information object independently of the tool. By adding the information conversion from the display information object to the screen object corresponding to the GUI tool, it can be extended to various GUIs. This has the effect of being easy.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a database information visualization AP development support system according to an embodiment of the present invention.

FIG. 2 is a diagram showing a configuration of a display entity input unit used in the database information visualization AP development support system of FIG. 1 (when the information source DB is an RDB).

FIG. 3 is a diagram showing an input / output schema definition and a conversion script description example in the database information visualization AP development support system of the present invention.

FIG. 4 is a diagram showing a configuration example of a conversion script syntax in the database information visualization AP development support system of the present invention.

FIG. 5 is a diagram showing an example of inheritance definition of an object class in the database information visualization AP development support system of the present invention.

FIG. 6 is a diagram showing an example of an object class attribute / method definition in the database information visualization AP development support system of the present invention.

FIG. 7 is a diagram showing a configuration example of a mapping definition for generating display information in the database information visualization AP development support system of the present invention.

FIG. 8 is a diagram showing a configuration of translation / execution control of a mapping definition in the database information visualization AP development support system of the present invention.

FIG. 9 is a diagram showing an example of a registration-type mapping definition description in the database information visualization AP development support system of the present invention.

FIG. 10 is a database information visualization AP of the present invention.
FIG. 9 is a diagram illustrating a description example of a parameter definition of an operation method in the development support system.

FIG. 11 is a database information visualization AP of the present invention.
It is a figure showing the example of registration type user scenario processing description in a development support system.

FIG. 12 is a database information visualization AP of the present invention.
FIG. 3 is a diagram illustrating a configuration of a GUI input / output unit in the development support system.

FIG. 13 is a database information visualization AP of the present invention.
It is a figure which shows the input-output schema definition screen and the input-output conversion information definition screen among the input screen examples of the interactive input-output definition / mapping definition in a development support system.

FIG. 14 is a database information visualization AP of the present invention.
It is a figure which shows the object type mapping definition and the input-output conversion operation selection dialog among the input screen examples of the interactive input-output definition / mapping definition in a development support system.

FIG. 15 is a database information visualization AP of the present invention.
It is a figure which shows the reference attribute mapping definition screen of R-object and the entity attribute selection dialog among the input screen examples of the interactive input-output definition / mapping definition in a development support system.

FIG. 16 is a database information visualization AP of the present invention.
FIG. 14 is a diagram illustrating a representative example of an object arrangement method of an object arrangement coordinate generation process in the development support system.

FIG. 17 is a diagram showing an example of a variation of a visualization pattern obtained by changing a definition of mapping and a definition of use of an object operation method.

[Explanation of symbols]

 Reference Signs List 101 Information source DB 102 Display entity input means 103 Display information DB 104 GUI input / output means 105 GUI device 106 End user 107 Interactive input means 108 Registration type input means 109 Scenario definition translation 110 Input definition translation 111 Mapping definition translation 112 Output definition translation 113 Object operation communication control 114 Display information generation method 115 E-object (display entity) 116 R-object (display information object) 117 D-object (screen object) 118 C-object (control object)

Continuation of the front page (56) References JP-A-1-206431 (JP, A) JP-A-5-324293 (JP, A) JP-A-6-119229 (JP, A) JP-A-5-342265 (JP) JP-A-63-280373 (JP, A) JP-A-5-282157 (JP, A) JP-A-2-181873 (JP, A) JP-A-5-108457 (JP, A) And a Pointer-Based Personal Database System, "Journal of Image Processing Society of Japan, October 25, 1990, Vol. 19, No. 5, p. 305-311 "UI system construction by object-oriented library GhostHouse", Mitsubishi Electric Technical Report, September 25, 1993, Vol. 67, no. 9, p. 21-25 (58) Fields investigated (Int. Cl. ⁷ , DB name) G06T 11/80 G06F 12/00 G06F 9/06 G06F 17/30 CSDB (Japan Patent Office)

Claims (3)

(57) [Claims] 1. A database information visualization application program development support system for graphically representing information in a database based on a user's definition. A display entity, which is an arbitrary information unit, is input from a database, and a schema or a value of the display entity is input. Can be arbitrarily converted, and when a display entity is selected from the character / numerical information stored in the database, the schema definition of the input-side database and the schema definition of the output-side display entity,
A display entity input means having at least one of an input means for describing and inputting a mapping between the two schema definitions as a script or an input means for selecting and inputting as a parameter on a screen; and a node type and line type graphic representation. Type selection means for a screen object to be selected; mapping means for performing mapping definition regarding generation of attribute information of the figure relating to shape and arrangement; display information generation means for generating attribute information of the figure according to the mapping definition obtained by the mapping means Display information management means for managing the display entity input by the display entity input means and the display information object converted by the display information generation means; and input / output for performing definition input from a user and graphic display of the conversion result Means and node type figures and line types Database information Visualization application program development support system, characterized in that the screen display a variety of graphical representation of a combination of shapes. 2. A database information visualization application program development support system for graphically representing information in a database based on a user's definition. A display entity, which is an arbitrary information unit, is input from a database, and a schema or a value of the display entity is input. A display entity input means capable of arbitrarily converting a character, a screen object type selecting means for selecting a node type and a line type graphic representation, a mapping means for performing a mapping definition relating to generation of attribute information of a shape and an arrangement, When generating attribute information of a figure in accordance with the mapping definition obtained by the mapping means and writing an application program, a macro definition of the execution order of the mapping definition and a trigger for executing the macro definition are input as a scenario. Display with input means to perform Report generation means; display information management means for managing a display entity inputted by the display entity input means and a display information object converted by the display information generation means; and a definition input from a user and a graphic display of a conversion result. A database information visualization application program development support system characterized in that it comprises: an input / output means for performing the operation; and a screen display of various graphic expressions in which a node type graphic and a line type graphic are combined. 3. A database information visualization application program development support system for graphically expressing information in a database based on a user's definition. A display entity, which is an arbitrary information unit, is input from a database, and a schema or a value of the display entity is input. A display entity input means capable of arbitrarily converting a character, a screen object type selecting means for selecting a node type and a line type graphic representation, a mapping means for performing a mapping definition relating to generation of attribute information of a shape and an arrangement, A display information generating unit that generates attribute information of the figure according to the mapping definition obtained by the mapping unit; and a display entity input by the display entity input unit and a display information object converted by the display information generating unit. Display information management means and definition input from user And the display information generated by the user is defined as a standard display information object independent of a unique GUI tool, and two-stage information of a display entity and a display information object, and a display information object and a screen object are defined. A database information visualization application characterized by comprising: input / output means for performing conversion and displaying a graphic of the conversion result, thereby displaying on the screen various graphic expressions combining node-type graphics and line-type graphics. Program development support system.