JP5831571B2 - Information processing apparatus, control method thereof, and program - Google Patents

Description

The present invention relates to an information processing apparatus capable of easily changing the input content of an input form using a plurality of copied character string data, a control method thereof, and a program.

  Conventionally, the user repeatedly inputs the same character string from the keyboard when the standard form input is repeatedly performed.

  As a workaround in such a case, for example, a character string that needs to be repeatedly input is described in a text editor, prepared, and the character string is converted using the copy and paste function of the OS (Operating System). The procedure was to copy and paste it into an input form such as a text box.

  As described above, repeatedly inputting the same character string requires an inefficient procedure to be repeated, which hinders improvement in user operation efficiency.

  Furthermore, when performing the above procedure, the user may perform an incorrect operation when copying the character string, and the character string may not be copied correctly, which may lead to a decrease in the accuracy of the operation.

  Therefore, as a mechanism for copying image information displayed on the screen and temporarily storing it in a storage area on the memory, for example, Patent Document 1 can be cited.

JP 11-328193 A

  However, in the image information storage method described in Patent Document 1, the image information is stored in a storage area on the memory, and therefore it is impossible to visually confirm what image information the user has stored.

An object of the present invention is to provide a possible mechanism of changing easily input the contents of the input form using a plurality of character string data copied.

In order to achieve the above object, an information processing apparatus of the present invention comprises an item name consisting of character string data and an input form, and the item name and the input form corresponding to the item name have common attribute information. Storage means for storing the document data including, display means for displaying the document data stored in the storage means, and a plurality of character string data selected in batch by the user in the document data displayed by the display means And the acquisition means which acquires the 1st character string data which shows the said item name, and the 2nd character string data which shows the input content of the said input form, The 1st character string acquired by the said acquisition means it is determined and the attribute information of the item name is a data acquisition source, whether the said attribute information of said input form is retrieve the second character string data obtained by the obtaining unit matches And determine a constant section, in front SL-size constant means, when it is determined that the attribute information of the item name and the attribute information of the input form are matched, the first character string data and the second acquired by the acquisition unit Storage means for associating and storing the character string data in the storage means, and the display means stores the first character string data and the second character string data in the storage means in association with each other. The input content of the input form corresponding to the item name indicated by the first character string data is changed to the second character string data and displayed .

According to the present invention, that Do is possible to change easily input the contents of the input form using the copied multiple strings data.

It is a system configuration figure showing an example of a character string visualization system of the present invention. It is a block diagram which shows an example of the hardware constitutions of a server and a client terminal. It is a functional block diagram which shows an example of the module structure of a server and a client terminal. It is a flowchart which shows the general flow of the operation | movement in the prior operation of a character string visualization system in this invention, and a screen display. It is a flowchart which shows an example of the flow which displays the character string in this invention in an attribute work area. It is a block diagram which shows an example of a structure of the coordinate position information table in this invention. It is a block diagram which shows an example of the screen structure in this invention. It is a flowchart which shows an example of the flow of a process which changes the initial display of the pull-down in this invention to the attribute value of a structure attribute. It is a flowchart which shows an example of the flow of a process which changes the initial display of the selection form in this invention into the attribute value of a versus structure attribute. It is a block diagram which shows an example of a structure of HTML which shows a radio button. It is a block diagram which shows an example of a structure of HTML which shows a check box. It is a flowchart which shows an example of the flow of the process which memorize | stores the selected character string in this invention, and displays it on an attribute work area. It is a block diagram which shows an example of a structure of HTML containing the attribute which becomes a pair in this invention. It is a flowchart which shows an example of the flow which visualizes and displays the pair structure attribute in an attribute work area in this invention. It is a flowchart which shows an example of the flow which visualizes and displays the single structure attribute in an attribute work area in this invention. It is a flowchart which shows an example of the flow of the process which determines a coordinate position, in order to arrange | position the single structure attribute or a pair structure attribute in this invention in an attribute work area. It is a flowchart which shows an example of the flow of a process when the single structure attribute in this invention is dragged and dropped on the pull-down. It is a flowchart which shows an example of the flow of a process when the single structure attribute in this invention is dragged and dropped on a text box. It is a flowchart which shows an example of the flow of the process in which the defined process is performed with generation | occurrence | production of the mouse | mouth gesture in this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a configuration diagram showing an example of a configuration of a character string visualization system according to an embodiment of the present invention. The character string visualization system 103 includes a server 100 and a client terminal 101. The server 100 and the client terminal 101 are connected via a network 102 so as to be accessible. Note that the character string visualization system 103 may include the function of the server 100 in the client terminal 101 and be configured only by the client terminal 101.

  When the client terminal 101 stores the character string as a single structure attribute or a pair structure attribute, the client terminal 101 transmits coordinate position information described later to the server 100 by HTTP (HyperText Transfer Protocol). The server 100 receives the transmitted coordinate position information, and stores the received coordinate position information in a coordinate position information table described later.

  Next, an example of a hardware configuration of an information processing apparatus applicable to the server 100 and the client terminal 101 will be described with reference to FIG.

  FIG. 2 is a diagram illustrating a hardware configuration of various terminals according to the embodiment of the present invention.

  The CPU 201 comprehensively controls each device and controller connected to the system bus 204.

  Further, the ROM 202 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 to be described later are stored. The RAM 203 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 into the RAM 203 and executing the program.

  An input controller (input C) 205 controls input from a pointing device such as a keyboard 209 or a mouse (not shown).

  A video controller (VC) 206 controls display on a display device such as a CRT display (CRT) 210. The display device may be a liquid crystal display as well as a CRT. These are used by the administrator as needed. The present invention is not directly related.

  The memory controller (MC) 207 is an adapter to a hard disk (HD), flexible disk (FD) or PCMCIA card slot for storing boot programs, browser software, various applications, font data, user files, editing files, various data, and the like. Controls access to an external memory 211 such as a card-type memory connected via the.

  A communication I / F controller (communication I / FC) 208 is connected to and communicates with an external device via a network, and executes communication control processing in the network. For example, Internet communication using TCP / IP is possible.

  Note that the CPU 201 enables display on the CRT 210 by executing outline font rasterization processing on the display information area of the RAM 203, for example. In addition, the CPU 201 enables a user instruction with a mouse cursor (not shown) on the CRT 210.

  A program 212 for realizing the present invention is recorded in the external memory 211 and is executed by the CPU 201 by being loaded into the ROM 202 as necessary. Furthermore, a definition file and various information tables used by the program according to the present invention are also stored in the external memory 211, and a detailed description thereof will be described later.

  Next, a functional block diagram showing module configurations of the server 100 and the client terminal 101 will be described with reference to FIG. The client terminal 101 may include the function of the server 100.

  The coordinate position information transmission unit 301 receives coordinate position information indicating a coordinate position and a character string of a single structure attribute or a pair structure attribute newly added to the attribute work area 701 of the attribute display screen (see FIG. 7) of the client terminal 101. The data is transmitted to the coordinate position information receiving unit 302 of the server 100.

  The coordinate position information reception unit 302 receives the coordinate position information transmitted from the coordinate position information transmission unit 301 of the client terminal 101.

  The coordinate position information table storage unit 303 newly stores the coordinate position information received by the coordinate position information reception unit 302 in the coordinate position information table (see FIG. 6).

  The coordinate position information transmission unit 304 transmits the coordinate position information stored in the coordinate position information table (see FIG. 6) to the coordinate position information reception unit 305 of the client terminal 101.

  The coordinate position information reception unit 305 receives the coordinate position information stored in the coordinate position information table transmitted from the coordinate position information transmission unit 304.

  The screen configuration information storage unit 306 stores screen configuration information (not shown) necessary for configuring an attribute display screen such as a character string, an image, and HTML. Also, predefined mouse gesture information (not shown) used in the mouse gesture process (see FIG. 19) in which the type of mouse gesture and the content of mouse gesture execution corresponding to the type of mouse gesture are stored is stored.

  The screen display unit 307 displays an attribute display screen created based on the coordinate position information received by the coordinate position information receiving unit 305 and the screen configuration information (not shown) stored in the screen configuration information storage unit 306 on the CRT 210 or the like. Sent to the instrument and displayed.

  Here, terms used in the following description will be described.

  The attribute name is a character string representing an item name of information displayed on the screen. For example, in the attribute display screen (see FIG. 7), the contract manager 711, the contract manager No. 713... The responsible branch 717, etc. are shown. Is shown.

  The attribute value is a character string indicating a specific value corresponding to the attribute name. For example, in the attribute display screen, the attribute value whose attribute name corresponds to the contract manager 711 is Jiro Jiro (712), the attribute value whose attribute name corresponds to the contract management No. 713 is 123456, and “contract management” For “person in charge = application Jiro” 707, “application Jiro” is the attribute value.

  The single structure attribute is a character string composed of only an attribute name or an attribute value. For example, the pull-down change attribute 709 on the attribute display screen is a single structure attribute.

  The pair structure attribute is a character string obtained by concatenating an attribute name and an attribute value with “=”. For example, the attribute attribute of the attribute display screen is “contract manager in charge = application Jiro” 707.

  The attribute is a single structure attribute or a pair structure attribute.

  Next, using the client terminal 101 in the present embodiment, creation of an attribute display screen, initial display change of the attribute display screen, storage method of single structure attribute and pair structure attribute, and method of using single structure attribute and pair structure attribute A process related to the series of operations will be described with reference to the flowchart shown in FIG. In the present embodiment, description will be made based on the contract management system. However, since the HTML structure is used, the present invention can be applied to other systems and Web browsers.

  In addition, each step of S101 to S118 is performed under the control of the CPU 201 in the client terminal 101. Further, the client terminal 101 activates the contract management system in response to an operation from the user, and accepts the screen display request.

  In step S101, the client terminal 101 performs processing for creating an attribute display screen (see FIG. 7) to be displayed on the CRT 210. Details of the screen creation process are shown in FIG.

  In step S102, the client terminal 101 searches the attribute work area 701 from the HTML of the attribute work area 701 (see FIG. 7) existing on the attribute display screen created in step S101. Determine whether the attribute exists. If there is a pair structure attribute in the attribute work area, the process proceeds to step S103, and if not, the process proceeds to step S107.

  In step S103, the client terminal 101 searches the HTML structure of the attribute display screen created in step S101 and determines whether a pull-down menu (pull-down) exists. If a pull-down exists, the process proceeds to step S104. If not, the process proceeds to step S105.

  In step S <b> 104, the client terminal 101 performs processing for changing the initial display of the pull-down existing on the attribute display screen created in step S <b> 101 to the attribute value of the structure attribute existing in the attribute work area 701. Details of the pull-down initial display process are shown in FIG.

  In step S105, the client terminal 101 searches the HTML structure of the attribute display screen created in step S101, and determines whether there is a selection form indicating a selection type input area such as a radio button or a check box. To do. If the selected form exists, the process proceeds to step S106, and if not, the process proceeds to step S107.

  In step S <b> 106, the client terminal 101 performs a process of changing the initial display of the selection form on the attribute display screen created in step S <b> 101 to the attribute value of the structural attribute existing in the attribute work area 701. Details of the selection form initial display process are shown in FIG.

  In step S107, the client terminal 101 displays the attribute display screen created in step S101, step S104, or step S106 on the CRT 210, and accepts an operation from the user.

  In step S108, the client terminal 101 determines whether or not the storage button 702 (see FIG. 7) for the character string existing on the attribute display screen is pressed by an operation from the user. If it is determined that the character string storage button 702 has been pressed, the process proceeds to step S109. If it cannot be determined that the character string has been pressed, the process proceeds to step S110.

  In step S109, the client terminal 101 performs processing for displaying a character string in the attribute work area 701 as a single structure attribute or a pair structure attribute. Details of the attribute display process are shown in FIG.

  In step S110, the client terminal 101 determines whether the single structure attribute or the pair structure attribute existing in the attribute work area 701 is dragged and dropped to a place other than the attribute work area 701 by an operation from the user.

  Drag and drop is an act of using a pointing device such as a mouse to click on data such as characters and images existing on the attribute display screen, move it to another location while clicking, and release it at the target location. If it is determined that it has been dragged and dropped to a place other than the attribute work area 701, the process proceeds to step S111. If it cannot be determined that it has been dragged and dropped, the process proceeds to step S115.

  In step S111, the client terminal 101 determines whether or not a pull-down exists at the destination dragged and dropped in step S110. If it is determined that a pull-down exists, the process proceeds to step S112. If it cannot be determined that a pull-down exists, the process proceeds to step S113.

  In step S112, the client terminal 101 performs processing for changing the pull-down value that matches the single-structure attribute dragged and dropped in step S110 to the selected state. Details of the pull-down change process are shown in FIG.

  In step S113, the client terminal 101 determines whether a text box indicating an area in which a character string can be input exists at the destination dragged and dropped in step S110. If it is determined that the text box exists, the process proceeds to step S114. If it cannot be determined that the text box exists, the process proceeds to step S115.

  In step S114, the client terminal 101 performs processing for inputting the single structure attribute dragged and dropped in step S110 into the text box. Details of the text box input process are shown in FIG.

  In step S115, the client terminal 101 determines whether or not a mouse gesture has occurred on the screen due to an operation from the user. If it is determined that a mouse gesture has occurred on the screen, the process proceeds to step S116. If it cannot be determined that a mouse gesture has occurred, the process proceeds to step S117.

  The mouse gesture is to realize a specific function by combining operations of a pointing device such as a mouse. For example, the function of closing the Web browser is defined as “move down while pressing the right click” as a mouse gesture. Accordingly, when the “move down while pressing the right click” operation is performed on the Web browser, the Web browser can be closed, and the convenience of the user operation can be improved.

  In the embodiment of the present invention, an operation with a mouse gesture is performed as input assistance when the single structure attribute and the pair structure attribute displayed in the attribute work area 701 are used.

  In step S116, the client terminal 101 determines the type of mouse gesture, and performs an operation process of a single structure attribute or a pair structure attribute corresponding to the mouse gesture. Details of the mouse gesture processing are shown in FIG.

  In step S117, the client terminal 101 determines whether or not a completion button 721 (see FIG. 7) present on the screen has been pressed by an operation from the user. If it is determined that the completion button 721 has been pressed, the process proceeds to step S118. If it cannot be determined that the completion button 721 has been pressed, the process proceeds to step S108. Thus, the processing from step S108 to step S117 is repeated until it is determined that the completion button has been pressed.

  In step S118, the client terminal 101 determines whether the previous button 722, the next button 724, or the update button 723 (see FIG. 7) for switching the screen existing on the screen has been pressed by an operation from the user. . If it is determined that the previous button 722, the next button 724, or the update button 723 has been pressed, the process proceeds to step S101. If it cannot be determined that the button has been pressed, the process related to this series of operations is terminated.

  A previous button 722 and a next button 724 are buttons for displaying another screen, and an update button 723 is a button for updating the displayed screen. Thereby, the stored single structure attribute and the pair structure attribute can be displayed in the attribute work area 701 of another screen, and the single structure attribute and the pair structure attribute can be used.

  Next, processing relating to creation of an attribute display screen (see FIG. 7) displayed on the CRT 210 by the client terminal 101 will be described with reference to the flowchart shown in FIG. Note that the steps S201 and S203 to S206 are processed under the control of the CPU 201 in the client terminal 101, and the steps S202 are performed under the control of the CPU 201 in the server 100. .

  In step S <b> 201, the client terminal 101 acquires all the single structure attributes and the pair structure attributes to be displayed in the attribute work area 701 and the coordinate positions, and stores all of them stored in the coordinate position information table (see FIG. 6) for the server 100. The coordinate position information acquisition request is sent.

  The coordinate position information table (see FIG. 6) includes a display character string 601 indicating a character string of a single structure attribute or a pair structure attribute, a display order 602 indicating a display order displayed in the attribute work area 701, a single structure attribute or a pair structure attribute. Attribute width (width) 603 indicating the horizontal width when displaying the attribute, attribute height (height) 604 indicating the height when displaying the single structure attribute or the pair structure attribute, and coordinates of the upper left vertex of the rectangle of the attribute work area 701 An attribute display X coordinate position (left) 605 and an attribute display Y coordinate position (top) 606 indicating the display position of the X coordinate and the Y coordinate of the single structure attribute or the pair structure attribute when (0, 0) is set. To do.

  In step S202, the server 100 receives all coordinate position information stored in the coordinate position information table (see FIG. 6) from the coordinate position information transmission unit 304 in response to all coordinate position information acquisition requests in step S201. 101.

  In step S <b> 203, the client terminal 101 receives all the coordinate position information transmitted from the server 100 in step S <b> 202 by the coordinate position information reception unit 305 and stores it in the RAM 203.

  In step S <b> 204, the client terminal 101 reads screen configuration information (not shown) necessary for configuring an attribute display screen such as a character string, an image, and HTML from the screen configuration information storage unit 306 and stores it in the RAM 203.

  In step S205, the client terminal 101 displays an attribute display to be displayed on the CRT 210 from the coordinate position information table (see FIG. 6) stored in the RAM 203 in step S203 and the screen configuration information (not shown) stored in the RAM 203 in step S204. A screen (see FIG. 7) is created.

  In step S206, the client terminal 101 stores the attribute display screen created in step S205 in the RAM 203, and ends the screen creation process.

  Next, processing for changing the initial pull-down display of the attribute display screen (see FIG. 7) in which the attribute attribute is present in the attribute work area 701 will be described with reference to the flowchart shown in FIG. Note that steps S301 to S308 are performed under the control of the CPU 201 in the client terminal 101.

  In step S <b> 301, the client terminal 101 reads the attribute display screen stored in the RAM 203 in step S <b> 206, acquires one paired structural attribute existing in the attribute work area 701, and stores it in the RAM 203. Note that the order of the paired structural attributes to be acquired may use the display order 602 stored in the coordinate position information table (see FIG. 6), or may be extracted at random.

  In step S302, the client terminal 101 sequentially compares the attribute name of the pair structure attribute stored in the RAM 203 in step S301 with each item name of the item name group 710 (see FIG. 7) existing on the screen. It is determined whether or not the item content corresponding to the item name that matches is pull-down. If it is determined that the attribute name and the item name match, the process proceeds to step S303. If the attribute name cannot be determined to match, the process proceeds to step S308.

  For example, on the attribute display screen (see FIG. 7), the attribute name “in-charge branch” of the pull-down initial display attribute 705 and each item name of the item name group 710 are sequentially compared. As a result, it is determined that the attribute name “in charge branch” of the pull-down initial display attribute 705 matches the item name “in charge branch” 717. Furthermore, since the item content corresponding to the item name “branch office” 717 is a pull-down 718, the process proceeds to step S303.

  In step S303, the client terminal 101 determines the pull-down determined in step S302 as an initialization target. For example, on the attribute display screen (see FIG. 7), a pull-down 718 that is an item content corresponding to the item name “branch office” 717 determined to match as the processing result of step S302 is determined as an initialization target.

  In step S304, the client terminal 101 acquires one pull-down item constituting the pull-down determined as the initialization target in step S303 as a comparison target with the attribute value of the pair structure attribute stored in the RAM 203 in step S301. And stored in the RAM 203. Note that the order of the pull-down items to be acquired may be acquired in the order in which the pull-downs are configured, or may be extracted at random.

  In step S305, the client terminal 101 determines whether or not the pull-down item stored in the RAM 203 in step S304 matches the attribute value of the pair structure attribute stored in the RAM 203 in step S301. If it is determined that the pull-down item and the attribute value of the pair structure attribute match, the process proceeds to step S307. If it cannot be determined that they match, the process proceeds to step S306.

  In step S306, the client terminal 101 determines whether there is a pull-down item for which the processing in steps S304 and S305 is not performed in the pull-down determined in step S303. If it is determined that there is an unprocessed pull-down item, the process proceeds to step S304. If it cannot be determined that it exists, the process proceeds to step S308. Thereby, steps S304 to S306 are repeated until it is determined that all pull-down items have been processed or the attribute values of the structure attribute match.

  In step S307, the client terminal 101 rearranges the pull-down items determined to match in step S305 to the top of the pull-down. For example, since it is determined in step S305 that “Fukuoka branch office” which is the attribute value of the pull-down initial display attribute 705 and the pull-down item name “Fukuoka branch office” of the pull-down 718 corresponding to the item name “responsible branch office” 717 match. A process of rearranging the pull-down item name “Fukuoka branch” to the top of the pull-down 718 is performed.

  In step S <b> 308, the client terminal 101 determines whether or not a pair structure attribute that has not been subjected to the processes in steps S <b> 301 and S <b> 302 exists in the attribute work area 701. If it is determined that there is an unprocessed pair structure attribute, the process proceeds to step S301, and if it cannot be determined that it exists, the pull-down initial display process ends. Thereby, steps S301 to S308 are repeated until all the pair structure attributes are processed.

  Next, a process for changing the initial display of the selection form on the attribute display screen (see FIG. 7) in which the attribute work area 701 has a structure attribute will be described with reference to the flowchart shown in FIG. Note that the processes in steps S401 to S408 are performed under the control of the CPU 201 in the client terminal 101.

  Steps S401 to S406 are the same as steps S301 to S306 in FIG. The value attribute in step S405 is a value attribute that constitutes the selected form item acquired in step S404. For example, the value attribute “Low” 1001 of the selection form item “low” 714 (see FIG. 10) and the value attribute “xls” 1101 of the selection form item “Excel” 716 (see FIG. 11).

  In step S <b> 401, the client terminal 101 reads the attribute display screen stored in the RAM 203 in step S <b> 206, acquires one paired structural attribute existing in the attribute work area 701, and stores it in the RAM 203. Note that the order of the paired structural attributes to be acquired may use the display order 602 stored in the coordinate position information table (see FIG. 6), or may be extracted at random.

  In step S402, the client terminal 101 sequentially compares the attribute name of the pair structure attribute stored in the RAM 203 in step S401 and each item name of the item name group 710 (see FIG. 7) existing on the screen. It is determined whether or not the item content corresponding to the item name that matches is a selection form. When it is determined that the selected form matches the attribute name and the item name, the process proceeds to step S403. When it cannot be determined that the attribute name matches, the process proceeds to step S408.

  In step S403, the client terminal 101 determines the selection form determined in step S402 as an initialization target.

  In step S404, the client terminal 101 configures a selection form item constituting the selection form determined as the initialization target in step S403 as a comparison target with the attribute value of the pair structure attribute stored in the RAM 203 in step S401. One HTML is acquired and stored in the RAM 203. In addition, the order of the selection form items to be acquired may be acquired in the order in which the selection form is configured, or may be extracted at random.

  In step S405, the client terminal 101 determines whether or not the value attribute constituting the selection form item stored in the RAM 203 in step S404 matches the attribute value of the pair structure attribute stored in the RAM 203 in step S401. . If it is determined that the value attribute of the selected form item matches the attribute value of the structure attribute, the process proceeds to step S407. If it cannot be determined that the value matches, the process proceeds to step S406.

  The value attribute is a part of HTML constituting the selection form, as shown in the radio button structure diagram (see FIG. 10) and the check box structure diagram (see FIG. 11). The radio button structure diagram and the check box structure diagram are HTML sources constituting the radio buttons and check boxes of the attribute display screen (see FIG. 7).

  For example, in step S402, it is determined that the attribute name “priority” of the radio button initial display attribute 703 matches the item name “priority” 715, and the item content corresponding to the item name “priority” 715 is displayed in the selection form. Therefore, the selected form is determined as an initialization target in step S403.

  One HTML of the selection form item constituting the selection form determined in step S403 is acquired, and “Low” that is the attribute value of the radio button initial display attribute 703 and the value that constitutes the HTML of the acquired selection form item. Compare attributes sequentially. In step S405, it is determined that “Low” that is the attribute value of the radio button initial display attribute 703 matches the value attribute “Low” 1001 of the selection form item “low” 714.

  For the check box, for example, in step S402, it is determined that “attached file type” that is the attribute name of the check box initial display attribute 704 matches the item name “attached file type” 719, and the item name “attached file type”. Since the item content corresponding to 719 is a selection form, the selection form is determined as an initialization target in step S403.

  One HTML of the selected form item that constitutes the selection form determined in step S403 is acquired, and “xls” that is the attribute value of the check box initial display attribute 704 and the value that constitutes the HTML of the acquired selected form item. Compare attributes sequentially. In step S405, it is determined that “xls” that is the attribute value of the check box initial display attribute 704 matches the value attribute “xls” 1101 of the selection form item “Excel” 716.

  In step S406, the client terminal 101 determines whether there is a selection form item that has not been subjected to the processes in steps S404 and S405 in the selection form determined in step S403. If it is determined that there is an unprocessed selection form item, the process proceeds to step S404, and if it cannot be determined that it exists, the process proceeds to step S408. Thereby, steps S404 to S406 are repeated until it is determined that all selected form items have been processed or the attribute values of the structure attribute match.

  In step S407, the client terminal 101 sets the selection form item configured by the value attribute matched in step S405 to the selected state. For example, if the selected form is a radio button, it is determined that the attribute value “Low” of the radio button initial display attribute 703 and the value attribute “Low” 1001 match in step S405, and thus the value attribute “Low” 1001. The selection form item “low” 714 including “” is selected.

  If the selected form is a check box, it is determined that the attribute value “xls” of the check box initial display attribute 704 and the value attribute “xls” 1101 match in step S405, and thus the value attribute “xls” 1101. The selected form item “Excel” 716 including “” is selected.

  In step S <b> 408, the client terminal 101 determines whether the attribute work area 701 has a pair structure attribute for which the processes in steps S <b> 401 and S <b> 402 are not performed. If it is determined that there is an unprocessed pair structure attribute, the process proceeds to step S401, and if it cannot be determined that it exists, the selection form initial display process ends. Thus, steps S401 to S408 are repeated until all the pair structure attributes are processed.

  Next, a process for storing and displaying an attribute when the storage button 702 is pressed for a character string existing in the attribute work area 701 will be described with reference to a flowchart shown in FIG. Note that the steps of S501 to S508 are performed under the control of the CPU 201 in the client terminal 101.

  In step S501, the client terminal 101 determines whether a character string displayed on the attribute display screen (see FIG. 7) is selected by an operation from the user. If it is determined that it is selected, the process proceeds to step S502. If it cannot be determined that it is selected, the process proceeds to step S508. Note that there may be a plurality of selected character strings. For example, both the item name “contract management person in charge” 711 and the item contents “application Jiro” 712 may be selected, or the item name “contract management person in charge” 711, the item contents “application Jiro” 712 and the item name “ A plurality such as “contract management No.” 713 may be selected.

  In step S502, the client terminal 101 stores the character string determined to be selected in step S501 and the HTML portion of the attribute display screen including the character string in the RAM 203.

  The HTML portion of the attribute display screen including the character string indicates from the start tag to the end tag of the HTML including the character string. For example, in the attribute display screen (see FIG. 7), when it is determined that the item name “registration date” 725 is selected in step S501, the attribute display screen configuration diagram representing the HTML source of the attribute display screen (FIG. 13). TD tag registration date 1301 from <td> to </ td> is stored in the RAM 203.

  In step S503, the client terminal 101 determines whether or not a paired attribute is included in the HTML portion of the character string stored in the RAM 203 in step S502. If it is determined that a paired attribute is included, the process proceeds to step S504. If it cannot be determined that the attribute is included, the process proceeds to step S505.

  A paired attribute is a set of two character strings existing on the same line. For example, in the attribute display screen configuration diagram (see FIG. 13), since the TD tag registration date 1301 and the TD tag date 1302 are child elements of the TR tag 1303 indicating the same row, the TD tag registration date 1301 and TD A set of tag dates 1302 is a paired attribute.

  In step S504, the client terminal 101 performs processing for storing the character string stored in the RAM 203 in step S502 as a single structure attribute or a pair structure attribute. Details of the pair structure attribute storage processing are shown in FIG.

  In step S505, the client terminal 101 performs processing for storing the character string stored in the RAM 203 in step S502 as a single structure attribute. Details of the single structure attribute storage processing are shown in FIG.

  In step S506, the client terminal 101 performs processing for creating an attribute display screen (see FIG. 7) including the single structure attribute or the pair structure attribute stored in steps S504 and S505. Details of the screen creation process are shown in FIG.

  In step S507, the client terminal 101 causes the CRT 210 to display the attribute display screen (see FIG. 7) created in step S506, accepts an operation from the user, and ends the attribute display process.

  In step S508, the client terminal 101 displays on the CRT 210 an error message screen (not shown) notifying that a character string has not been selected, and ends the attribute display process.

  Next, processing for storing a character string stored in the RAM 203 as a single structure attribute or a pair structure attribute will be described with reference to the flowchart shown in FIG. Note that each step of S601 to S610 is performed under the control of the CPU 201 in the client terminal 101.

  In step S <b> 601, the client terminal 101 acquires a pair of attributes stored in the RAM 203 and stores them in the RAM 203. Note that the order of attributes to be acquired may be the order in which the attribute display screen (see FIG. 7) is constructed, or may be extracted at random.

  In step S602, the client terminal 101 determines whether or not the id values constituting the character strings of the paired attributes acquired in step S601 match. If it is determined that they match, the process proceeds to step S603. If it cannot be determined that they match, the process proceeds to step S605.

  The id value key [] is embedded in advance in the item name indicating the attribute name, and the id value value [] is embedded in the item content indicating the attribute value in advance. Further, an arbitrary common character string is input in advance in [] in order to associate two character strings.

  For example, in the attribute display screen configuration diagram (see FIG. 13), the TD tag contract manager 1304 and the TD tag application Jiro 1305 include key [ContractManager] 1306 and value [ContractManager] 1307, respectively, in the id values. Since the common character string is included, it is determined that the id values constituting the character strings of the paired attributes match.

  In step S603, the client terminal 101 connects the paired attributes determined to match the id values in step S602 with “=”, and stores them in the RAM 203 as a pair structure attribute. For example, in the attribute display screen configuration diagram (see FIG. 13), the TD tag contract management person in charge 1304 and the TD tag application Jiro 1305 have the same id value. Memorize in form.

  In step S604, the client terminal 101 performs a process of determining a coordinate position in order to display the pair structure attribute stored in step S603 in the attribute work area 701. Details of the coordinate position determination processing are shown in FIG.

  In step S605, the client terminal 101 performs a process of storing each pair of attributes determined as id values not matching in step S602 as single structure attributes. Details of the single structure attribute storage processing are shown in FIG.

  In step S606, the client terminal 101 determines whether or not an addition disable flag (not shown) indicating that the structural attribute could not be added to the attribute work area 701 in step S808 described later exists in the attribute work area 701. To do. If it is determined that there is an addition impossibility flag, the process proceeds to step S610. If it cannot be determined that there is an addition disable flag, the process proceeds to step S607.

  In step S <b> 607, the client terminal 101 determines whether there is a paired attribute in the RAM 203 that has not performed the processes in steps S <b> 601 and S <b> 602. If it is determined that there is an unprocessed paired attribute, the process proceeds to step S601. If it cannot be determined that the attribute exists, the process proceeds to step S608. As a result, Steps S601 to S607 are repeated until all the paired attributes are processed or the addition disable flag is set.

  In step S <b> 608, the client terminal 101 determines whether there is a character string other than the paired attribute in the RAM 203. If it is determined that the character string exists, the process proceeds to step S609. If it cannot be determined that the character string exists, the pair structure attribute storage process ends.

  In step S609, the client terminal 101 performs a process of storing a character string existing in the RAM 203 as a single structure attribute other than the attribute to be paired, and ends the pair structure attribute storage process. Details of the single structure attribute storage processing are shown in FIG.

  In step S610, the client terminal 101 displays on the CRT 210 an error message screen (not shown) notifying that the character string stored in the RAM 203 cannot be displayed any more in the attribute work area 701, and ends the structural attribute storage process. To do.

  Next, processing for storing a character string stored in the RAM 203 as a single structure attribute will be described with reference to the flowchart shown in FIG. In addition, each step of S701 to S705 is performed under the control of the CPU 201 in the client terminal 101.

  In step S <b> 601, the client terminal 101 acquires one single structure attribute stored in the RAM 203 and stores it in the RAM 203. The order of the single structure attributes to be acquired may be the order in which the attribute display screen (see FIG. 7) is configured, or may be extracted at random.

  Steps S702 to S703 are the same as steps S604 to S606 in FIG.

  In step S <b> 704, the client terminal 101 determines whether a single structure attribute that has not been subjected to the processes in steps S <b> 701 and S <b> 702 exists in the RAM 203. If it is determined that there is an unprocessed single structure attribute, the process proceeds to step S701. If it is not determined that there is an unprocessed single structure attribute, the single structure attribute storage process ends. As a result, steps S701 to S704 are repeated until all the single structure attributes are processed or the addition disable flag is set.

  In step S705, the client terminal 101 displays on the CRT 210 an error message screen (not shown) notifying that the character string stored in the RAM 203 cannot be displayed any more in the attribute work area 701, and ends the single structure attribute storage process. To do.

  Next, processing for determining the coordinate positions of the single structure attribute and the pair structure attribute displayed in the attribute work area 701 will be described with reference to the flowchart shown in FIG. The steps S801 to S802 and S804 to S808 are processed under the control of the CPU 201 in the client terminal 101, and the steps S803 and S809 are the elements under the control of the CPU 201 in the client terminal 101. Processing is performed.

  In step S <b> 801, the client terminal 101 acquires the horizontal width and height of the single structure attribute or the pair structure attribute and stores them in the RAM 203 in order to determine the coordinate position in the attribute work area 701. The unit of the width and height may be a pixel unit or other units.

  Steps S802 to S805 are the same as steps S201 to S204 in FIG.

  In step S806, the client terminal 101 determines the width and height of the single structure attribute or the pair structure attribute stored in the RAM 203 in step S801, and the attribute width (width) 603 of the coordinate position information table stored in the RAM 203 in step S804. Based on the attribute height (height) 604, the attribute display X coordinate position (left) 605, the attribute display Y coordinate position (top) 606, and the screen configuration information (not shown) stored in the RAM 203 in step S805, the attribute It is determined whether or not a new single structure attribute or pair structure attribute can be added to the empty area of the work area 701.

  If it is determined that it can be added, the process proceeds to step S807. If it cannot be determined that it can be added, the process proceeds to step S808. The method for determining whether or not a new single structure attribute or pair structure attribute can be added to the free area of the attribute work area 701 may be a method of confirming whether or not it can be added to the free area. The method may be used.

  In step S807, the client terminal 101 newly adds a display character string 601 of a single structure attribute or pair structure attribute to be newly added, an attribute width (width) 603 of the coordinate position information table, an attribute height (height) 604, In step S807, coordinate position information including the attribute display X coordinate position (left) 605 and the attribute display Y coordinate position (top) 606 determined to be able to add a new single structure attribute or pair structure attribute is transmitted to the server 100.

  In step S808, the client terminal 101 sets an addition impossible flag (not shown) indicating that no more single structure attribute and pair structure attribute can be added to the attribute work area 701, and ends the coordinate position determination process.

  In step S809, the server 100 newly adds the coordinate position information transmitted from the client terminal 101 in step S807 to the coordinate position information table (see FIG. 6) stored in the server 100, and ends the coordinate position determination process. To do. In the display order 602, numbers are newly assigned in the display order in the attribute work area 701.

  Next, processing for dragging and dropping a single structure attribute existing in the attribute work area 701 to a pull-down and changing the display will be described with reference to the flowchart shown in FIG. In addition, each step of S901 to S906 is performed under the control of the CPU 201 in the client terminal 101.

  In step S <b> 901, the client terminal 101 acquires the single structure attribute or the pair structure attribute determined to have been dragged and dropped in step S <b> 110 and stores it in the RAM 203.

  In step S902, the client terminal 101 determines whether what is stored in the RAM 203 in step S901 is a single structure attribute. If it is determined that the attribute is a single structure attribute, the process proceeds to step S903. If it is not determined that the attribute is a single structure attribute, the pull-down change process ends.

  Steps S903 to S906 are the same as steps S304 to S307 in FIG. However, in step S904, it is determined whether the pull-down item and the single structure attribute are equal.

  For example, by dragging and dropping a pull-down change attribute 709 existing in the attribute work area 701 to the pull-down 718, the display of the pull-down 718 is changed to a pull-down item that matches the pull-down change attribute 709.

  Next, processing for dragging and dropping a single structure attribute existing in the attribute work area 701 into a text box and inputting it will be described with reference to the flowchart shown in FIG. Note that steps S1001 to S1003 are performed under the control of the CPU 201 in the client terminal 101.

  Steps S1001 and S1002 are the same as steps S901 and S902 in FIG.

  In step S1003, the client terminal 101 inputs the single structure attribute stored in the RAM 203 in step S1001 to the input area of the text box, and ends the text box input process. For example, the text box input attribute 706 is input to the input area of the text box 720 by dragging and dropping the text box input attribute 706 existing in the attribute work area 701 to the text box 720.

  Next, FIG. 19 is a flowchart for processing for using the single structure attribute and the counter structure attribute existing in the attribute work area 701 for various processes when a mouse gesture is generated on the screen by an operation from the user. It explains using. Note that steps S1101 to S1103 are performed under the control of the CPU 201 in the client terminal 101.

  In step S <b> 1101, the client terminal 101 stores the type of generated mouse gesture in the RAM 203. For example, a mouse gesture operation such as “move down while pressing the right click” is stored.

  In step S1102, the client terminal 101 includes a mouse gesture that matches the mouse gesture stored in the RAM 203 in step S1101 in the defined mouse gesture information (not shown) stored in the screen configuration information storage unit 306. It is determined whether or not. If it is determined that a mouse gesture exists, the process proceeds to step S1103. If it cannot be determined that the mouse gesture exists, the mouse gesture process ends.

  In step S1103, the client terminal 101 executes the mouse gesture execution content corresponding to the predefined mouse gesture determined to match in step S1102, and ends the mouse gesture processing. For example, the aforementioned pull-down change process (see FIG. 17) may be defined as execution contents in advance.

  In addition, using the single structure attribute and the pair structure attribute existing in the attribute work area 701 as the object of the mouse gesture as a search condition, the data stored in the storage medium such as the external memory 211 of the server 100 corresponding to the search condition is used as the mouse gesture. It is also possible to set data to each item constituting the screen provided with the attribute work area 701 by acquiring at the occurrence timing.

  In this case, it is assumed that the logic for acquiring data from the server for the search condition is defined in advance, but only a mouse gesture is generated for the data displayed in the attribute work area 701 and displayed on the screen. Since it is possible to search the server 100 for data as much as possible, there is an effect of improving convenience for the user.

  As described above, according to the present invention, by determining the display format of the copied character string and visualizing it, the character string is displayed to the user and can be confirmed by the user. In addition, by applying the visualized character string to the input form, it is possible to assist the user in inputting, preventing erroneous input, and improving operability.

  It should be noted that the configuration and contents of the various data described above are not limited to this, and it goes without saying that the various data and configurations are configured according to the application and purpose.

  Although the embodiment has been described in detail above, the present invention can take an embodiment as an apparatus, method, program, storage medium, or the like.

  The program according to the present invention is a program that allows a computer to execute (read) each processing method, and the storage medium according to the present invention stores a program that allows the computer to execute each processing method.

  The program in the present invention may be a program for each processing method of each device.

  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 performing reading.

  In this case, the program itself read from the recording medium realizes the novel function of the present invention, and the recording medium storing 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 performs actual processing. It goes without saying that a case where the function of the above-described embodiment is realized by performing part or all of the above-described processing is also included.

  Furthermore, after the program read from the recording medium is written in a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, the function expansion board or It goes without saying that 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.

  Further, the present invention may be applied to a system composed of a plurality of devices or an apparatus composed of 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.

  Furthermore, by downloading and reading a program for achieving the present invention from a server, database, etc. on a network by 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.

100 Server 101 Client terminal 102 LAN
103 Character string visualization system 201 CPU
202 ROM
203 RAM
204 System Bus 205 Input Controller 206 Video Controller 207 Memory Controller 208 Communication I / F Controller 209 Keyboard 210 Display Device 211 External Memory

Claims (8)

Storage means for storing document data including attribute information common to the item name and the input form corresponding to the item name, comprising an item name consisting of character string data and an input form;
Display means for displaying document data stored in the storage means ;
A plurality of character string data collectively selected by the user in the document data displayed by the display means, the first character string data indicating the item name, and the second content indicating the input content of the input form Acquisition means for acquiring the character string data of
It said first and said attribute information of the item name is character string data acquisition source, the input form is a second character string data acquisition source acquired by the acquisition means is acquired by the acquisition unit and determine the constant means you determine whether the attribute information match,
In previous SL-size constant means, when it is determined that said item name attribute information and the input form attribute information match, the first character string data and the second character string data acquired by the acquisition unit Storing means for associating and storing in the storage means
With
The display means corresponds to the item name indicated by the first character string data when the first character string data and the second character string data are stored in the storage means in association with each other. An information processing apparatus , wherein the input content of the input form is changed to the second character string data and displayed . The display means, when updating the screen of the information processing apparatus, change the input content of the input form corresponding to the item name indicated by the previous SL first character string data to the second character string data The information processing apparatus according to claim 1 , wherein the information processing apparatus displays the information. The display means, and said first of said character string data second character string data stored in the storage unit in the storage means, and the first character string data and the second character string data the information processing apparatus according to claim 1 or 2, characterized in that to display in a predetermined area of the document data in association with. Said storage means, before SL-size constant means, when the attribute information of the item name and the attribute information of the input form determines not to match, the first character string data and the second acquired by the acquisition unit The information processing apparatus according to any one of claims 1 to 3 , wherein the information is stored in the storage unit without being associated with the character string data. It said storage means, before SL-size constant means, when it is determined that the attribute information of the item name and the attribute information of the input form are matched, the first character string data and the second acquired by the acquisition unit The first character string data and the second character string data are associated with each other and stored in the storage means by connecting the character string data with a predetermined symbol. 5. The information processing apparatus according to any one of 4 . The display means, when the first character string data or the second character string data stored in the storage unit without associating with said storage means is selected, the input content of the entering force form selected The information processing apparatus according to claim 4 , wherein the information is displayed by changing to the selected first character string data or second character string data . An information processing apparatus control method comprising: an item name including character string data; an input form; and a storage unit that stores document data including attribute information common to the item name and the input form corresponding to the item name. There,
A display step in which the display means of the information processing apparatus displays the document data stored in the storage means ;
The acquisition unit of the information processing apparatus is a plurality of character string data selected in a batch from a user in the document data displayed in the display step, the first character string data indicating the item name , An acquisition step of acquiring second character string data indicating the input content of the input form ;
Determine the constant unit of the information processing apparatus, the first and the attribute information of the item name is character string data acquisition source, the second character string data obtained by the acquisition unit acquired in the acquiring step and she determines the constant step wherein the attribute information the input form an acquisition source of the you determine whether coincident,
Storage means of the information processing apparatus, before SL-size constant step, when it is determined that the attribute information of the item name and the attribute information of the input form are matched, the first character string acquired by the acquisition unit A storage step of associating the data with the second character string data in the storage means ;
With
The display step corresponds to the item name indicated by the first character string data when the first character string data and the second character string data are stored in association with each other in the storage unit. A control method for an information processing apparatus, wherein the input content of the input form is changed to the second character string data and displayed . A control method for an information processing apparatus , comprising: an item name including character string data; an input form; and storage means for storing document data including attribute information common to the item name and the input form corresponding to the item name. An executable program,
The information processing apparatus;
Display means for displaying document data stored in the storage means ;
A plurality of character string data collectively selected by the user in the document data displayed by the display means, the first character string data indicating the item name, and the second content indicating the input content of the input form Acquisition means for acquiring the character string data of
It said first and said attribute information of the item name is character string data acquisition source, the input form is a second character string data acquisition source acquired by the acquisition means is acquired by the acquisition unit and determine the constant means you determine whether the attribute information match,
In previous SL-size constant means, when it is determined that said item name attribute information and the input form attribute information match, the first character string data and the second character string data acquired by the acquisition unit And function as a storage means for storing in the storage means in association with each other ,
The display means corresponds to the item name indicated by the first character string data when the first character string data and the second character string data are stored in the storage means in association with each other. A program characterized in that the input content of the input form is changed to the second character string data and displayed .

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