JP2016029565A - Information processing apparatus and data management system, processing method of the same, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mechanism that can move attribute values of a plurality of types of attributes to be associated with data relative to each other.SOLUTION: There is provided an information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating the types of data, the information processing apparatus acquiring first display information including an attribute value of a first attribute and structure information for displaying the attribute value by using a structure and second display information including an attribute value of a second attribute and structure information for displaying the attribute value by using a structure, and displaying the attribute value of the first attribute and the attribute value of the second attribute by using the structure. The information processing apparatus moves an object indicating the attribute value of the first attribute, as the second attribute, to a display part of the attribute value of the second attribute according to a movement operation by a user, changes structure information on the second attribute, and displays the second attribute by using created display information on the second attribute.SELECTED DRAWING: Figure 8

Description

  The present invention relates to an information processing apparatus and a data management system for managing data, a processing method thereof, and a program.

  Conventionally, there is a mechanism for facilitating the search of these files by adding attribute values such as keywords to files such as image data and music data.

  Japanese Patent Application Laid-Open No. 2004-151561 describes a system that makes it easy to find target data in a data attribute display method that displays attribute information of data such as files in a hierarchical manner.

JP 2000-322167 A

  However, the system of Patent Document 1 is a system that searches for hierarchized attribute values, and has a problem that hierarchized attribute values cannot be easily maintained. Another problem is that attribute values cannot be moved to each other across multiple types of attributes (for example, categories and tags).

  Specifically, the attribute values “Category A” and “Category B” exist in the category attribute, the attribute values “Tag 1” and “Tag 2” exist in the tag attribute, and “Category A” and “Category B” exist in a large number of image files. When “Tag 1” and “Tag 2” are associated with each other, the association between the image file and the attribute value remains unchanged, and the tag attribute attribute value “Tag 2” is changed to the category attribute attribute value. I can't do it.

  For example, if there is “POP of this month” (810 in FIG. 8) as the attribute value of the tag attribute, the tag attribute “POP of this month” is changed to the category under the attribute value “Past POP” of the category attribute in the next month. There is a case where it is desired to move the attribute value across a plurality of types of attributes (here, category and tag), such as moving to the attribute value “POP in July 2014”.

Further, in the system of Patent Document 1, an attribute value of a certain attribute is associated with all image files associated with “Category A” such that “Tag 1” is collectively allocated. There is also a problem that it is not possible to assign attribute values of other attributes collectively to data.
Accordingly, an object of the present invention is to provide a mechanism that can move attribute values of a plurality of types of attributes associated with data to each other.

  An information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating data types with the data, and structure information for displaying the attribute values of the first attribute and the attribute values using a structure Display information acquisition means for acquiring first display information including: second display information including an attribute value of a second attribute and structure information for displaying the attribute value using a structure; An attribute for displaying the attribute value of the first attribute and the attribute value of the second attribute using a structure using the first display information and the second display information acquired by the display information acquisition unit And a second value displayed by the attribute value display means as the second attribute, the value display means and an object indicating the attribute value of the first attribute displayed by the attribute value display means in response to a user's movement operation. Move to the attribute value display section of the Structure change means for changing the structure information of the second attribute displayed by the attribute value display means, and display information of the second attribute is generated according to the structure information of the second attribute changed by the structure change means Display information generation means for performing display, and attribute value redisplay means for displaying the attribute value of the second attribute using a structure using the display information of the second attribute generated by the display information generation means. An information processing apparatus characterized by that.

  ADVANTAGE OF THE INVENTION According to this invention, the mechanism which can move the attribute value of the multiple types of attribute matched with data mutually can be provided.

The figure which shows an example of a structure of the data management system 100 of this invention. The figure which shows an example of the hardware constitutions of the information processing apparatus 101 The block diagram which shows an example of a function structure of the information processing apparatus 101 8 is a diagram showing an example of a data search list screen 400 in the information processing apparatus 101 FIG. 10 is a diagram showing an example of a detailed data information screen 500 in the information processing apparatus 101 8 is a diagram showing an example of a data search screen 600 in the information processing apparatus 101 The figure which shows an example of the data new creation screen 700 in the information processing apparatus 101 8 is a diagram showing an example of an attribute editing screen 800 in the information processing apparatus 101 10 is a diagram showing an example of deletion restrictions on the attribute editing screen 800 in the information processing apparatus 101. FIG. 10 is a diagram showing an example of an attribute edit confirmation screen 1000 in the information processing apparatus 101 A flowchart showing an example of attribute editing processing (first half) in the information processing apparatus 101 and the server 102 A flowchart showing an example of attribute editing processing (second half) in the information processing apparatus 101 and the server 102 The figure which shows an example of HTML of the attribute edit process in the information processing apparatus 101 The figure which shows an example of the script of the attribute edit process in the information processing apparatus 101 The figure which shows an example of the table regarding the data in the server 102, and an attribute 10 is a diagram showing an example of an attribute editing screen 1600 in the information processing apparatus 101 according to the second embodiment. 8 is a flowchart illustrating an example of attribute editing processing (first half) in the information processing apparatus 101 and the server 102 according to the second embodiment. 8 is a flowchart illustrating an example of attribute editing processing (second half) in the information processing apparatus 101 and the server 102 according to the second embodiment. FIG. 3 is a block diagram different from FIG. 3 showing an example of the functional configuration of the information processing apparatus 101

[First Embodiment]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram showing an example of the configuration of a data management system 100 of the present invention.

  As shown in FIG. 1, the data management system 100 has a configuration in which an information processing apparatus 101 and a server 102 are communicably connected via a network 103. The information processing apparatus 101 is a terminal such as a desktop PC, a mobile phone, a smartphone, a tablet terminal, a notebook PC, and a PDA terminal, and has a browser installed therein, and can communicate with the server 102 via the network 103. .

  A user of the data management system 100 performs data search processing of the data management system 100 and data and attribute value maintenance processing on the server 102 via a web browser or client software installed in the information processing apparatus 101. Do.

The server 102 performs processing in response to a request from the information processing apparatus 101 and transmits a processing result to the information processing apparatus 101. The communication between the information processing apparatus 101 and the server 102 may be an HTTP request / response or a web service request / response using SOAP or the like.
Hereinafter, a diagram illustrating an example of a hardware configuration of the information processing apparatus 101 illustrated in FIG. 1 will be described with reference to FIG.

  In FIG. 2, reference numeral 201 denotes a CPU that comprehensively controls each device and controller connected to the system bus 204. Further, the ROM 203 or the external memory 211 is necessary to realize a BIOS (Basic Input / Output System) or an operating system program (hereinafter referred to as an OS), which is a control program of the CPU 201, or a function executed by each server or each PC. Various programs are stored.

  A RAM 202 functions as a main memory, work area, and the like for the CPU 201. The CPU 201 implements various operations by loading a program necessary for execution of processing from the ROM 203 or the external memory 211 into the RAM 202 and executing the loaded program.

  An input controller 205 controls input from the input device 209 or the like. A video controller 206 controls display on a display device 210 such as a liquid crystal display. The display device is not limited to a liquid crystal display, and may be a CRT display or the like. These are used by clients as needed.

  A memory controller 207 is connected to the hard disk (HD), flexible disk (FD), or PCMCIA card slot for storing a boot program, various applications, font data, user files, editing files, various data, etc. via an adapter. The access to the external memory 211 such as a compact flash (registered trademark) memory is controlled.

  A communication I / F controller 208 is connected to and communicates with an external device via the network 103, and executes communication control processing on the network. For example, communication using TCP / IP is possible.

Note that the CPU 201 enables display on the display device 210 by executing outline font rasterization processing on a display information area in the RAM 202, for example. Further, the CPU 201 enables a user instruction with a mouse cursor (not shown) on the display device 210.
Various programs that operate on the hardware are recorded in the external memory 211 and are executed by the CPU 201 by being loaded into the RAM 202 as necessary.
It should be noted that not all devices have these configurations, and it is only necessary to provide necessary devices.

FIG. 3 is a block diagram illustrating an example of a functional configuration of the information processing apparatus 101.
The display information acquisition unit 301 is a functional unit that acquires display information including hierarchical information of attribute values.
The hierarchy display unit 302 is a functional unit that hierarchically displays attribute values using the display information acquired from the display information acquisition unit 301.
The hierarchical display change unit 303 is a functional unit that changes the hierarchical display by moving the attribute value displayed by the hierarchical display unit 302 according to a user operation.
The hierarchy information generation unit 304 is a functional unit that generates hierarchy information of attribute values from the hierarchy display changed by the hierarchy display change unit 303.
The hierarchy information output unit 305 is a functional unit that outputs the hierarchy information of attribute values generated by the hierarchy information generation unit 304.
The association determination unit 306 is a functional unit that determines whether data is associated with an attribute value.

  When it is determined that the attribute value to be displayed is not associated by the association determination unit 306, the hierarchy display unit 302 effectively displays a delete button for deleting the attribute value, and the attribute value to be displayed corresponds When it is determined by the attachment determination unit 306 that they are associated, this is a functional unit that disables the delete button for deleting the attribute value or suppresses the display of the delete button.

When the attribute value to be displayed is determined not to be associated by the association determination unit 306, the hierarchy display unit 302 enables a delete button for deleting an attribute value in a hierarchy higher than the hierarchy to which the attribute value belongs. When the attribute determination unit 306 determines that the attribute value to be displayed is associated with the attribute value to be displayed, the delete button for deleting the attribute value in the hierarchy higher than the hierarchy to which the attribute value belongs is invalidated. Or a function unit that suppresses the display of the delete button.
The lower correspondence determination unit 307 is a functional unit that determines whether or not data is associated with an attribute value of a hierarchy that is lower in the hierarchy to which the attribute value belongs.

When it is determined by the lower correspondence determination unit 307 that the attribute value to be displayed is not associated, the hierarchy display unit 302 effectively displays a delete button for deleting the attribute value, and the attribute value to be displayed is When it is determined by the lower correspondence determination unit 307 that the association is made, the function unit disables the delete button for deleting the attribute value or suppresses the display of the delete button.
The hierarchy display change unit 303 is a functional unit that inserts a dragged attribute value into an area dropped by a user operation.
The attribute value specifying unit 308 is a functional unit that specifies an attribute value as a search condition for searching for data.
The data extraction unit 309 is a functional unit that extracts data stored in association with the attribute value designated by the attribute value designation unit 308.

  When a plurality of attribute values are specified by the attribute value specifying unit 308, the data extraction unit 309 is a functional unit that extracts data stored in association with a plurality of attribute values specified by the attribute value specifying unit 308. is there.

FIG. 19 is a block diagram different from FIG. 3, illustrating an example of a functional configuration of the information processing apparatus 101, which shows features in the present embodiment.
The display information acquisition unit 1901 has the first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, and the attribute value and attribute value of the second attribute. It is a function part which acquires the 2nd display information containing the structure information for displaying using.

  The attribute value display unit 1902 uses the first display information and the second display information acquired by the display information acquisition unit 1901 to structure the attribute value of the first attribute and the attribute value of the second attribute. It is a functional part used and displayed.

The structure change unit 1903 displays the second attribute displayed by the attribute value display unit 1902 with the object indicating the attribute value of the first attribute displayed by the attribute value display unit 1902 as the second attribute in accordance with the user's movement operation. This is a functional unit that moves to the attribute value display unit of the attribute and changes the structure information of the second attribute displayed by the attribute value display unit 1902.
The display information generation unit 1904 is a functional unit that generates display information of the second attribute according to the structure information of the second attribute changed by the structure change unit 1903.

The attribute value redisplay unit 1905 is a functional unit that displays the attribute value of the second attribute using the structure using the display information of the second attribute generated by the display information generation unit 1904.
The attribute value display unit 1902 is a functional unit that displays attribute values of attributes having a hierarchical structure using the hierarchical structure.
The attribute value association unit 1906 is a functional unit that associates at least one of the attribute value of the first attribute and the attribute value of the second attribute with the data.
The data acquisition unit 1907 is a functional unit that specifies the attribute value of the first attribute or the attribute value of the second attribute and acquires data associated with the attribute value.

  The second attribute value batch association unit 1908 causes the attribute value display unit 1902 to set the object indicating the attribute value of the first attribute displayed by the attribute value display unit 1902 as the second attribute in response to the user's movement operation. When moved to the display unit of the attribute value of the displayed second attribute, the data acquired by the data acquisition unit 1907 is associated with the data associated with the attribute value of the moved first attribute. This is a functional unit that associates the attribute values of the second attribute together.

  The first attribute value batch association unit 1909 causes the attribute value display unit 1902 to set the object indicating the attribute value of the first attribute displayed by the attribute value display unit 1902 as the second attribute in response to the user's movement operation. When moved to the display section of the attribute value of the displayed second attribute, moved to the data associated with the attribute value of the second attribute of the movement destination acquired by the data acquisition section 1907 This is a functional unit that associates the attribute values of the first attribute together.

  The attribute value display unit 1902 effectively displays a delete button for deleting an attribute value determined that there is no data associated with the data acquisition unit 1907, and is associated with the data acquisition unit 1907. This is a functional unit that disables the delete button for deleting the attribute value determined to have data, or suppresses the display of the delete button.

  The attribute value display unit 1902 effectively displays a delete button for deleting an attribute value for which it is determined that there is no data associated with all the attribute values under the control by the data acquisition unit 1907. A function unit that disables the delete button for deleting an attribute value for which at least one attribute value has data associated with the data acquisition unit 1907 is determined to exist, or suppresses the display of the delete button. is there.

  The attribute value display unit 1902 is a functional unit that inserts the attribute value of the attribute dragged by the user's movement operation as the attribute value of the attribute displayed at the dropped position.

  FIG. 4 is a diagram illustrating an example of the data search list screen 400 in the information processing apparatus 101. FIG. 5 is a diagram illustrating an example of the detailed data information screen 500 in the information processing apparatus 101. FIG. 6 is a diagram illustrating an example of a data search screen 600 in the information processing apparatus 101. FIG. 7 is a diagram illustrating an example of a new data creation screen 700 in the information processing apparatus 101. FIG. 8 is a diagram illustrating an example of the attribute editing screen 800 in the information processing apparatus 101. FIG. 9 is a diagram illustrating an example of deletion restriction on the attribute editing screen 800 in the information processing apparatus 101. FIG. 10 is a diagram illustrating an example of the attribute edit confirmation screen 1000 in the information processing apparatus 101.

FIG. 11 is a flowchart illustrating an example of attribute editing processing (first half) in the information processing apparatus 101 and the server 102. FIG. 12 is a flowchart illustrating an example of attribute editing processing (second half) in the information processing apparatus 101 and the server 102.
The processing of the flowcharts of FIGS. 11 to 12 will be described with reference to the screens of FIGS.

In step S1101, the CPU 201 of the information processing apparatus 101 receives a login operation to the data management system 100 by the user, and notifies the server 102 that the login request has been made by the user.
In step S <b> 1102, the CPU 201 of the server 102 performs a login process to the data management system 100.

  In step S <b> 1103, the CPU 201 of the server 102 searches the item detail table 1501 (FIG. 15), creates an item list, and transmits it to the information processing apparatus 101. An item in this embodiment refers to an electronic file such as an image, a flyer, a document, a sound, or a video, but is not limited to these electronic files, and is not an electronic file format such as another electronic file or a record in a database. “Data” itself may be handled as an “item”. In the following, “data” and “item” are used interchangeably.

In step S <b> 1104, the CPU 201 of the information processing apparatus 101 displays the data search list screen 400 using the item list received from the server 102. Information such as item names and thumbnail images is displayed on the data search list screen 400. By pressing (clicking), for example, a thumbnail of the displayed item, the detailed data information screen 500 of FIG. 5 is displayed. . The detailed data information screen 500 displays item names and attribute values (category tags) associated with the items. From the detailed data information screen 500 of FIG. 5, it can be seen that five categories or tags are associated with this item.
Although deviating from the description of the flowchart, FIGS. 4 to 8 will be described.

  An item can be searched by inputting a search condition in the input field 402 on the left side of the data search list screen 400 and pressing a search button 403. The search result is a data search screen 600. The category / tag input field 601 on the left side of the data search screen 600 displays the category / tag search condition 602 input on the data search list screen 400, and the search result 603 searched on the search condition 602 on the right side of the screen. Is displayed. That is, this process is an example of a process of extracting data stored in association with a specified attribute value. This process is an example of a process for extracting data stored in association with a plurality of designated attribute values.

  When it is detected from the maintenance menu 401 at the upper right of the data search list screen 400 that the “new item registration” link (not shown) is pressed by the user, a new data creation screen 700 is displayed. Then, by selecting a category or tag from the category / tag select box 710, a new item associated with the attribute value of the category / tag such as 711 and 712 in FIG. 7 can be newly registered. That is, the category / tag select box 710 is a functional unit that shows an example of associating at least one of the attribute value of the first attribute and the attribute value of the second attribute with the data. Return to the description of the flowchart.

In step S <b> 1105, the CPU 201 of the information processing apparatus 101 presses a “category / tag edit” link (not shown) from the maintenance menu 401 at the upper right of the data search list screen 400 (item search list screen). Is detected and notified to the server.
In step S1106, the CPU 201 of the server 102 accepts that the category / tag edit link has been pressed.

  In step S1107, the CPU 201 of the server 102 searches all items in the category master table 1502 (FIG. 15) and acquires all records. The category master table 1502 stores two types of attribute values (category and tag) to be assigned to an item. Whether the record is a category attribute value depending on the value of the “type” column = The tag attribute value is distinguished.

  That is, the category master table 1502 can store attribute values for a plurality of types of attributes. The category master table 1502 has a “number of items” column, and stores the number of data associated with the record (that is, the attribute value of the category or the attribute value of the tag).

  Since the category master table 1502 has a “hierarchy” column, the attribute value can have a hierarchical structure. By setting all the values in the “hierarchy” column to the same value, it is possible to obtain an attribute value having a flat structure without a hierarchical structure. In other words, attributes in this embodiment can be displayed as a hierarchical structure by setting a hierarchical number to a value of a “hierarchy” column such as “category”, and an “hierarchy” column such as “tag”. By setting the same value as the value of, it is possible to display as information having no hierarchical structure.

  In addition, the “order 1” to “order 4” columns store the display order in each layer (up to four layers in this embodiment). In this embodiment, the number of hierarchies is limited to four. However, the present invention is not limited to this, and attribute values having more hierarchies can be stored by increasing the “order N” column. .

  In step S1108, the CPU 201 of the server 102 uses “category ID”, “order 1” to “order 4”, “hierarchy”, “number of items”, “category name (or tag name)”, and “type” obtained by the search. The category / tag list is created and transmitted to the information processing apparatus 101.

  In step S1109, the CPU 201 of the information processing apparatus 101 receives the category / tag list. That is, step S1111 is a step showing an example of processing for obtaining display information including hierarchy information of attribute values. In step S1111, the first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, the attribute value of the second attribute, and the attribute value are displayed. It is a step which shows an example of the process which acquires the 2nd display information containing the structure information for displaying using a structure.

  In step S1110, the CPU 201 of the information processing apparatus 101 analyzes the category / tag list, and stores the analyzed category / tag list in the RAM 202. Details of the analysis process will be described later.

  In step S <b> 1111, the CPU 201 of the information processing apparatus 101 displays a category / tag editing screen 810 on which a list of categories / tags is displayed using the analysis result of the category / tag list. Details of the analysis processing in step S1110 and the screen display in step S1111 will be described.

  The category and tag are distinguished from the category / tag list received in step S1109 using “type”, and “order 1” to “order 4” “hierarchy” “number of items” “category name (or tag name)”. ”In step S1110, and“ category name (or tag name) ”in step S1111 in the order of“ arrangement order 1 ”to“ arrangement order 4 ”using the <li> tag in FIG. A source (DOM hierarchy) 1315 is generated and output to the browser like a category / tag editing screen 1310. If the value of “category name (or tag name)” and “hierarchy” immediately before is changed, the <ol> tag is used to express that the hierarchy is different.

That is, step S1111 is a step showing an example of processing for hierarchically displaying attribute values using the acquired display information. Step S1111 uses the acquired first display information and second display information to display the attribute value of the first attribute and the attribute value of the second attribute using a structure. It is a step which shows an example. Step S1111 is a step showing an example of processing for displaying attribute values of attributes having a hierarchical structure using the hierarchical structure.
Further, the “number of items” associated with the “category name (or tag name)” is also displayed.

  In this embodiment, the information processing apparatus 101 analyzes the category / tag list to generate HTML. However, the present invention is not limited to this method, and the server 102 analyzes the category / tag list. HTML may be generated and the generated HTML may be transmitted to the information processing apparatus 101. In this embodiment, data is output to the browser by HTML. However, the data is not limited to HTML, and may be output by using other script languages.

  In step S1112, the CPU 201 of the information processing apparatus 101 receives a user operation, and when the delete button 814 is pressed, the process proceeds to step S1113. When a new record is input to the new record input field 811 and the new record input field 811 is dragged and dropped in the category information area or the tag information area, the process proceeds to step S1114. When the existing record input field (for example, 816 in FIG. 8) is dragged and dropped in the category information area or the tag information area, the process proceeds to step S1115. If the value in the existing record input field (for example, 816 in FIG. 8) has been changed, the process proceeds to step S1120. If the confirmation button 818 is pressed, the process advances to step S1201.

  In step S1113, the CPU 201 of the information processing apparatus 101 sets a deletion flag to the value of the category ID in the HTML source of the category or tag for which the delete button is pressed because it means that the existing record has been deleted.

  In step S1114, the CPU 201 of the information processing apparatus 101 means that a new record has been registered. Therefore, the value of the new record input field 811 and the category ID are set to a negative integer (eg, −1), and the HTML source To record. This processing is performed using JavaScript (registered trademark), dynamic HTML, a style sheet, or the like. Specifically, when the new record “test 1” is input to the new record input field 1311 in FIG. 13 and the new record input field 1311 is dragged and dropped in the category information area 1313, the position where the drop is detected. <Li> tag is added as in the HTML source 1322. As a result, the newly registered record is displayed at the dropped position by drag and drop.

  In step S1115, since the CPU 201 of the information processing apparatus 101 means that the hierarchy of the existing record has been moved, the display of the record is erased from the movement source and rendered at the movement destination. That is, step S1115 is a step showing an example of processing for changing the hierarchical display by moving the displayed attribute value in accordance with a user operation. With this process, it is possible to provide a mechanism that can easily maintain hierarchical attribute values.

  This processing is performed using JavaScript (registered trademark), dynamic HTML, a style sheet, or the like. Specifically, the <li> tag at the position where HTML dragging is started is deleted to delete the display of the record, and the drop position is described at the position where the drop is detected as in step S1114. <Li> tag is added as HTML source 1322.

  In FIG. 8, the existing record input field 816 is dragged and dropped onto the upper part of the existing record input field 817. As described above, in the present embodiment, the attributes straddle attributes of different types. The value can be moved. That is, it is possible to provide a mechanism that can easily move attribute values across multiple types of attributes.

  In step S <b> 1116, the CPU 201 of the information processing apparatus 101 detects the “arrangement order” numbers of the movement source and the movement destination in order to control the display / non-display of the delete button. This processing is performed using technologies such as JavaScript (registered trademark), dynamic HTML, and style sheets. Specifically, the value of “arrangement order” obtained by connecting “arrangement order 1” to “arrangement order 4” of the category / tag list stored in the RAM 202, the position where the drag is started, and the position where the drop is detected. Is used to obtain the "order" value of the record displayed at the position where the drag was started (movement source) and the "order" value of the record where the drop was detected (movement destination) To do.

  In step S <b> 1117, the CPU 201 of the information processing apparatus 101 acquires whether the items are associated with each of the records under the movement source and the movement destination in order to control the display / non-display of the delete button. To do. That is, step S1117 is a step showing an example of processing for designating the attribute value of the first attribute or the attribute value of the second attribute and acquiring data associated with the attribute value. Specifically, when the record 911 in FIG. 9 is dragged and dropped at the position 921, the delete button 912 that can be pressed before the move has been deleted. Disable the button 922 so that it cannot be pressed. This process uses the script source 913 and the script source 923 to control the validity / invalidity of the button depending on the number of items in the subordinate records. (Step S1118 to Step S1119)

  Note that in step S1118, if the number of items = 0 for the higher-level record of the source record, all delete buttons are enabled. In step S1119, when a record having the number of items is moved, all valid delete buttons in the upper hierarchy of the move destination are invalidated.

  That is, in steps S1118 to S1119, the delete button for deleting the attribute value determined to have no associated data is effectively displayed, and the attribute is determined to have the associated data. It is a step which shows an example of the process which invalidates the delete button for deleting a value, or suppresses the display of a delete button. Steps S1118 to S1119 effectively display a delete button for deleting an attribute value determined that there is no data associated with all the attribute values belonging to the subordinate attribute values. It is a step which shows an example of the process which invalidates the delete button for deleting the attribute value determined that the data with which at least one is matched exist, or suppresses the display of a delete button.

  In this embodiment, the delete button is controlled by determining the number of items for the upper hierarchy of the movement source / destination, but the method is not limited to this method. The delete button may be controlled by determining the number. Both methods are mechanisms for preventing an attribute value associated with an item from being deleted by a user.

  In step S1120, the CPU 201 of the information processing apparatus 101 means that the existing record has been renamed, and thus adds the changed value of the existing record input field 816 to the HTML.

  In step S1121, the CPU 201 of the information processing apparatus 101 has performed the HTML rewriting process by the processing of step S1113 to step S1115. Therefore, by recalculating the “arrangement order” for all records and rewriting the HTML source, The category / tag list on the tag editing screen 810 is redrawn.

  That is, step S1121 moves the object indicating the attribute value of the first attribute to the attribute value display unit of the second attribute displayed as the second attribute in accordance with the user's movement operation, It is a step which shows an example of the process which changes the structure information of an attribute. Step S1121 is a step showing an example of processing for generating display information of the second attribute according to the changed structure information of the second attribute. Step S1121 is a step showing an example of processing for displaying the attribute value of the second attribute using the structure, using the generated display information of the second attribute. More specifically, when the user moves 911 in FIG. 9 to 921 by drag and drop, by recalculating the “arrangement order”, 920 is obtained.

The flowchart of FIG. 12 will be described.
In step S <b> 1201, the CPU 201 of the information processing apparatus 101 performs analysis processing of the category / tag record of the HTML source. Specifically, the HTML source of the category / tag list portion is analyzed using the script source 1401 of FIG. Here, all <li> tags are acquired from HTML by the script source 1402.

  In step S1202, the CPU 201 of the information processing apparatus 101 repeats the processing in steps S1203 to S1209 for the number of <li> tags, that is, for the number of category tag records.

  In step S <b> 1203, the CPU 201 of the information processing apparatus 101 generates a category / tag record for transmission to the server 102. That is, step S1203 is a step showing an example of processing for generating hierarchical information of attribute values from the changed hierarchical display. Specifically, the script source 1407 is used to generate a record (M_CategoryMaster) having the same configuration as the category master table 1502 (FIG. 15).

  A process before executing the script source 1407 will be briefly described. The script source 1403 repeats the number of records of category / tag. The script source 1404 acquires the value of “arrangement order” of the record of the category tag currently analyzed. The script source 1405 obtains the value of the “hierarchy” of the category tag record currently being analyzed. The script source 1406 updates the “arrangement order” to the record to be analyzed next. As a result, the correct “arrangement order” value is assigned to the hierarchical structure of the category / tag records displayed on the screen.

In step S <b> 1204, the CPU 201 of the information processing apparatus 101 transmits the category / tag record generated from the HTML information to the server 102. Specifically, using the script source 1408, the generated category tag record (M_CategoryMaster) is embedded in the session and transmitted to the server 102. That is, step S1204 is a step showing an example of a process for outputting the hierarchy information of the generated attribute value.
In step S1205, the CPU 201 of the server 102 receives the category / tag record.

  In step S1206, the CPU 201 of the server 102 checks the value of the received category / tag record. Specifically, a validation check is performed to determine whether the value of each element included in the category tag record (M_CategoryMaster) is normal, and the check result is stored in the RAM 202.

In step S1207, the CPU 201 of the server 102 adds the received category / tag record to the category / tag list used to update the category master table 1502.
In step S <b> 1208, the CPU 201 of the server 102 transmits the check result to the information processing apparatus 101.
In step S1209, the CPU 201 of the information processing apparatus 101 receives the check result.
The processes in steps S1203 to S1209 are repeated by the number of <li> tags, that is, by the number of category tag records.

  In step S <b> 1210, the CPU 201 of the information processing apparatus 101 determines whether an error is included in the check result sent for the number of category tag records. If an error is included, the process proceeds to step S1211. If no error is included, the process proceeds to step S1212.

  In step S1211, the CPU 201 of the information processing apparatus 101 displays an error message (not shown) on the category / tag editing screen 810 because the check result includes an error, and the process returns to step S1112.

In step S <b> 1212, the CPU 201 of the information processing apparatus 101 indicates to the server 102 that there is no error in order to display the attribute editing confirmation screen 1000 (category / tag editing confirmation screen) because no error is included in the check result. Notice.
In step S <b> 1213, the CPU 201 of the server 102 receives a notification that there is no error.

In step S <b> 1214, the CPU 201 of the server 102 transmits the category / tag list used to update the created category master table 1502 to the information processing apparatus 101 in step S <b> 1207.
In step S1215, the CPU 201 of the information processing apparatus 101 receives the category / tag list.

In step S1216, the CPU 201 of the information processing apparatus 101 displays the received category / tag list. Specifically, the category / tag list 1001 is displayed on the attribute editing confirmation screen 1000 (category / tag editing confirmation screen) using the category / tag list.
In step S1217, the CPU 201 of the information processing apparatus 101 accepts that the user has pressed the completion button.
In step S1218, the CPU 201 of the server 102 accepts that the editing of the category / tag has been completed.

  In step S1219, the CPU 201 of the server 102 repeats the processing in steps S1220 to S1223 for the number of category tag records.

  In step S1220, the CPU 201 of the server 102 determines the value of the category ID of the category / tag record. If it is a negative integer, the process proceeds to step S1221. If a deletion flag is included, the process proceeds to step S1222. The category master table 1502 (FIG. 15) is searched for the category ID value, and if the same value already exists in the category ID column, the process proceeds to step S1223.

  In step S1221, the CPU 201 of the server 102 adds a category / tag record to the category master table 1502 because the record is newly added on the screen of the information processing apparatus 101.

  In step S1222, the CPU 201 of the server 102 deletes the record deleted from the screen of the information processing apparatus 101 from the category tag record in the category master table 1502.

In step S1223, the CPU 201 of the server 102 updates the category master table 1502 with the category tag record using the category ID as a key because the record is updated on the screen of the information processing apparatus 101.
As described above, the processes in steps S1220 to S1223 are repeated for the number of category tag records.
In step S1224, the CPU 201 of the server 102 notifies the information processing apparatus 101 that the update of the category master table 1502 has been completed.
In step S1215, the CPU 201 of the information processing apparatus 101 receives notification that the update of the category master table 1502 has been completed.

In step S1216, the CPU 201 of the information processing apparatus 101 displays an update completion screen (not shown) indicating that the update of the category master table 1502 has been completed.
The description of the flowchart showing an example of the attribute editing process (first half) in FIG. 11 and the flowchart showing an example of the attribute editing process (second half) in FIG.
As described above, it is possible to provide a mechanism that allows easy maintenance of hierarchical attribute values.

  Further, the hierarchized attribute values subjected to maintenance can be searched as search conditions on the data search list screen 400 by the processing of the flowcharts of FIGS.

[Second Embodiment]
Next, a second embodiment will be described with reference to FIGS.
FIG. 16 is a diagram illustrating an example of an attribute editing screen 1600 in the information processing apparatus 101 according to the second embodiment. FIG. 17 is a flowchart illustrating an example of attribute editing processing (first half) in the information processing apparatus 101 and the server 102 according to the second embodiment. FIG. 18 is a flowchart illustrating an example of attribute editing processing (second half) in the information processing apparatus 101 and the server 102 according to the second embodiment.

  In the second embodiment, the flowchart of FIG. 11 in the first embodiment is replaced with FIG. 17, and the flowchart of FIG. 12 in the first embodiment is replaced with FIG. 18, which is the same as the steps of the first embodiment. For the processing, the same step number is assigned and description thereof is omitted.

  In step S1112, the CPU 201 of the information processing apparatus 101 receives a user operation. If an existing category (for example, 1601 in FIG. 16) is dragged and dropped in the tag information area, the process proceeds to step S1701.

  In step S1701, the CPU 201 of the information processing apparatus 101 selects the category of the dragged category in order to collectively associate the drop-destination tag IDs with the items in the dragged category (items associated with the category ID). A tag ID of the drop destination is added to the end of the ID.

  In this embodiment, the existing category is dragged and dropped in the tag information area. However, the present invention is not limited to this, and conversely, an existing tag (for example, 1602 in FIG. 16) is dragged. Even when dropped in the category information area, the process may proceed to step S1701.

  In step S1220 of FIG. 18, the CPU 201 of the server 102 determines the value of the category ID of the category / tag record. If the tag ID is added to the end of the category ID, the process proceeds to step S1801.

  In step S1801, the CPU 201 of the server 102 associates tag IDs with the items associated with the category IDs in step S1220 in a lump. Specifically, the item_category association table 1503 (FIG. 15) is searched by the value of the category ID, a record is created by combining the item ID of the hit item and the tag ID to be assigned, and is registered in the category association table 1503. .

  That is, step S1801 is a step showing an example of processing for designating the attribute value of the first attribute or the attribute value of the second attribute and acquiring data associated with the attribute value. Further, in step S1801, when the object indicating the attribute value of the first attribute is moved to the display unit of the attribute value of the second attribute in accordance with the user's movement operation, the attribute of the moved first attribute It is a step showing an example of a process of associating the attribute value of the second attribute of the movement destination with the data associated with the value collectively.

In this embodiment, the drop-destination tag IDs are collectively associated with the items in the dragged category (items associated with the category ID). However, the present invention is not limited to this. On the contrary, the dragged category ID may be associated with the items in the drop destination tag ID (items associated with the tag ID) in a lump. That is, in step S1801, when the object indicating the attribute value of the first attribute is moved to the attribute value display unit of the second attribute in accordance with the movement operation of the user, the attribute of the second attribute of the destination is moved. It is a step which shows an example of the process which matches the attribute value of the moved 1st attribute collectively with the data with which the value is matched.
As described above, attribute values of other attributes can be collectively assigned to data associated with attribute values of a certain attribute.

  As described above, a recording medium that records a program that implements the functions of the above-described embodiments is supplied to a system or apparatus, and a computer (or CPU or MPU) of the system or apparatus stores the program stored in the recording medium. It goes without saying that the object of the present invention can also be achieved by reading and executing.

  In this case, the program itself read from the recording medium realizes the novel function of the present invention, and the recording medium recording the program constitutes the present invention.

  As a recording medium for supplying the program, for example, a flexible disk, hard disk, optical disk, magneto-optical disk, CD-ROM, CD-R, DVD-ROM, magnetic tape, nonvolatile memory card, ROM, EEPROM, silicon A disk or the like can be used.

  Further, by executing the program read by the computer, not only the functions of the above-described embodiments are realized, but also an OS (operating system) operating on the computer based on an instruction of the program is actually It goes without saying that a case where the function of the above-described embodiment is realized by performing part or all of the processing and the processing is included.

  Furthermore, after the program read from the recording medium is written to the memory provided in the function expansion board inserted into the computer or the function expansion unit connected to the computer, the function expansion board is based on the instructions of the program code. It goes without saying that the case where the CPU or the like provided in the function expansion unit performs part or all of the actual processing and the functions of the above-described embodiments are realized by the processing.

  The present invention may be applied to a system constituted by a plurality of devices or an apparatus constituted by a single device. Needless to say, the present invention can be applied to a case where the present invention is achieved by supplying a program to a system or apparatus. In this case, by reading a recording medium storing a program for achieving the present invention into the system or apparatus, the system or apparatus can enjoy the effects of the present invention.

  The form of the program may be in the form of object code, program code executed by an interpreter, script data supplied to an OS (operating system), and the like.

  Furthermore, by downloading and reading a program for achieving the present invention from a server, database, etc. on a network using a communication program, the system or apparatus can enjoy the effects of the present invention. In addition, all the structures which combined each embodiment mentioned above and its modification are also included in this invention.

DESCRIPTION OF SYMBOLS 100 Data management system 101 Information processing apparatus 102 Server 103 Network

Claims (14)

An information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating data types with the data,
The first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, the attribute value of the second attribute, and the attribute value are displayed using the structure. Display information acquisition means for acquiring second display information including structure information for
An attribute for displaying the attribute value of the first attribute and the attribute value of the second attribute using a structure using the first display information and the second display information acquired by the display information acquisition unit A value display means;
The attribute value of the second attribute displayed by the attribute value display means as the second attribute, the object indicating the attribute value of the first attribute displayed by the attribute value display means in response to the user's movement operation Structure changing means for changing the structure information of the second attribute displayed by the attribute value display means,
Display information generating means for generating display information of the second attribute according to the structure information of the second attribute changed by the structure changing means;
And an attribute value redisplay means for displaying the attribute value of the second attribute using a structure using the display information of the second attribute generated by the display information generating means. apparatus. At least one of the first attribute and the second attribute has a hierarchical structure,
The information processing apparatus according to claim 1, wherein the attribute value display unit displays attribute values of attributes having a hierarchical structure using the hierarchical structure. Attribute value association means for associating at least one of the attribute value of the first attribute and the attribute value of the second attribute with the data;
The data acquisition means for specifying the attribute value of the first attribute or the attribute value of the second attribute and acquiring data associated with the attribute value. 2. The information processing apparatus according to 2. The attribute value of the second attribute displayed by the attribute value display means as the second attribute, the object indicating the attribute value of the first attribute displayed by the attribute value display means in response to the user's movement operation The attribute value of the second attribute of the movement destination is bundled with the data associated with the attribute value of the moved first attribute acquired by the data acquisition means. The information processing apparatus according to claim 3, further comprising second attribute value batch association means for associating with each other. The attribute value of the second attribute displayed by the attribute value display means as the second attribute, the object indicating the attribute value of the first attribute displayed by the attribute value display means in response to the user's movement operation If the attribute value of the first attribute that has been moved is bundled with the data associated with the attribute value of the second attribute of the movement destination acquired by the data acquisition means, 5. The information processing apparatus according to claim 3, further comprising first attribute value collective association means for associating with each other. The attribute value display means effectively displays a delete button for deleting an attribute value determined that there is no data associated with the data acquisition means, and is associated with the data acquisition means. The information processing apparatus according to claim 3, wherein a deletion button for deleting an attribute value determined to have data is disabled or display of the deletion button is suppressed. . The attribute value display means effectively displays a delete button for deleting an attribute value determined that there is no data in which all attribute values belonging to the data are associated by the data acquisition means. The delete button for deleting the attribute value determined that the data associated with at least one of the attribute values possessed by the data acquisition means exists, or the display of the delete button is suppressed. The information processing apparatus according to any one of claims 3 to 6. The movement operation of the user is
2. The operation of dragging an object indicating an attribute value of an attribute displayed by the attribute value display unit and dropping the object on a display area of an attribute value of the attribute displayed by the attribute value display unit. The information processing apparatus according to any one of 1 to 7. 9. The information processing apparatus according to claim 8, wherein the attribute value display means inserts the attribute value of the attribute dragged by the user's movement operation as the attribute value of the attribute displayed at the dropped position. . An information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating data types with the data, and a data management system comprising a server that manages the data and the attribute values,
The information processing apparatus includes:
The first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, the attribute value of the second attribute, and the attribute value are displayed using the structure. Display information acquisition means for acquiring second display information including structure information for
An attribute for displaying the attribute value of the first attribute and the attribute value of the second attribute using a structure using the first display information and the second display information acquired by the display information acquisition unit A value display means;
The attribute value of the second attribute displayed by the attribute value display means as the second attribute, the object indicating the attribute value of the first attribute displayed by the attribute value display means in response to the user's movement operation Structure changing means for changing the structure information of the second attribute displayed by the attribute value display means,
Display information generating means for generating display information of the second attribute according to the structure information of the second attribute changed by the structure changing means;
Attribute value redisplay means for displaying the attribute value of the second attribute using a structure using the display information of the second attribute generated by the display information generating means,
The server
A data management system comprising display information transmitting means for transmitting display information of the attribute value. A processing method in an information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating data types with the data,
The information processing apparatus is
The first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, the attribute value of the second attribute, and the attribute value are displayed using the structure. Display information acquisition step for acquiring second display information including structure information for
An attribute for displaying the attribute value of the first attribute and the attribute value of the second attribute using a structure by using the first display information and the second display information acquired in the display information acquisition step. A value display step;
The attribute value of the second attribute displayed by the attribute value display step with the object indicating the attribute value of the first attribute displayed by the attribute value display step as the second attribute in accordance with the user's movement operation A structure change step for changing the structure information of the second attribute displayed by the attribute value display step,
A display information generating step of generating display information of the second attribute according to the structure information of the second attribute changed by the structure changing step;
A process of executing an attribute value re-displaying step of displaying the attribute value of the second attribute using a structure, using the display information of the second attribute generated by the display information generating step. Method. An information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating data types with the data, and a processing method in a data management system including a server that manages the data and the attribute values,
The information processing apparatus is
The first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, the attribute value of the second attribute, and the attribute value are displayed using the structure. Display information acquisition step for acquiring second display information including structure information for
An attribute for displaying the attribute value of the first attribute and the attribute value of the second attribute using a structure by using the first display information and the second display information acquired in the display information acquisition step. A value display step;
The attribute value of the second attribute displayed by the attribute value display step with the object indicating the attribute value of the first attribute displayed by the attribute value display step as the second attribute in accordance with the user's movement operation A structure change step for changing the structure information of the second attribute displayed by the attribute value display step,
A display information generating step of generating display information of the second attribute according to the structure information of the second attribute changed by the structure changing step;
An attribute value re-displaying step of displaying the attribute value of the second attribute using a structure using the display information of the second attribute generated by the display information generating step;
The server is
A display information transmission step of transmitting display information of the attribute value is executed. A program executable by an information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating data types with the data,
The information processing apparatus;
The first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, the attribute value of the second attribute, and the attribute value are displayed using the structure. Display information acquisition means for acquiring second display information including structure information for
An attribute for displaying the attribute value of the first attribute and the attribute value of the second attribute using a structure using the first display information and the second display information acquired by the display information acquisition unit A value display means;
The attribute value of the second attribute displayed by the attribute value display means as the second attribute, the object indicating the attribute value of the first attribute displayed by the attribute value display means in response to the user's movement operation Structure changing means for changing the structure information of the second attribute displayed by the attribute value display means,
Display information generating means for generating display information of the second attribute according to the structure information of the second attribute changed by the structure changing means;
A program that functions as attribute value redisplay means for displaying the attribute value of the second attribute using a structure, using the display information of the second attribute generated by the display information generating means. . An information processing apparatus capable of associating attribute values of a plurality of types of attributes indicating data types with the data, and a program executable by a data management system including a server that manages the data and the attribute values,
The information processing apparatus;
The first display information including the attribute value of the first attribute and the structure information for displaying the attribute value using the structure, the attribute value of the second attribute, and the attribute value are displayed using the structure. Display information acquisition means for acquiring second display information including structure information for
An attribute for displaying the attribute value of the first attribute and the attribute value of the second attribute using a structure using the first display information and the second display information acquired by the display information acquisition unit A value display means;
The attribute value of the second attribute displayed by the attribute value display means as the second attribute, the object indicating the attribute value of the first attribute displayed by the attribute value display means in response to the user's movement operation Structure changing means for changing the structure information of the second attribute displayed by the attribute value display means,
Display information generating means for generating display information of the second attribute according to the structure information of the second attribute changed by the structure changing means;
Using the display information of the second attribute generated by the display information generating means, function as an attribute value redisplay means for displaying the attribute value of the second attribute using a structure,
The server,
A program that functions as display information transmitting means for transmitting display information of the attribute value.

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