JP2012064232A - Information processor and drag control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve operability for drag operation of an object from one touch screen display to another touch screen display.SOLUTION: First movement control means selects an object on a first touch screen display according to a touch position on the first touch screen display, and moves the position of the selected object according to movement of the touch position on the first touch screen display. When the selected object is moved to an end portion of the first touch screen display facing the boundary between the first touch screen display and the second touch screen display, second movement control means moves the position of the selected object from the first touch screen display to the second touch screen display in order to display the selected object on the second touch screen display.

Description

  Embodiments described herein relate generally to an information processing apparatus having a touch screen display.

  In recent years, various portable personal computers have been developed. Recent personal computers realize a more intuitive operation by using a user interface using a touch screen display. In a computer equipped with a touch screen display, for example, a drag that moves a fingertip while moving a fingertip while touching a display object (eg, icon, window, etc.) on the screen with the fingertip. The operation can be performed.

  Recently, a system using a plurality of touch screen displays has begun to be developed.

JP 2008-216499 A

  However, when using a plurality of touch screen displays, it is difficult to move an object on the screen of one touch screen display to the screen of another touch screen display by a touch operation. Because the touch screen displays are usually physically separated, the movement of the fingertips is interrupted by the separation between the touch screen displays, and it is difficult to move the fingertips continuously across the touch screen displays. Because.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide an information processing apparatus and a drag control method capable of improving the operability of an object drag operation between touch screen displays. To do.

  According to the embodiment, the information processing apparatus includes a first touch screen display, a second touch screen display, a first moving unit, an alternative object display unit, and a control unit. The first moving means selects a first object on the first touch screen display according to a touch position on the first touch screen display, and the touch on the first touch screen display. The position of the first object on the first touch screen display is moved in accordance with the movement of the position. The substitute object display means is moved to an end on the first touch screen display where the first object faces a boundary between the first touch screen display and the second touch screen display. In the case of the replacement, the substitute object is displayed on the second touch screen display instead of the first object. The control means displays the first object instead of the substitute object according to a touch operation of the substitute object on the second touch screen display, and a touch position on the second touch screen display. The position of the first object on the second touch screen display is moved in response to the movement of.

FIG. 2 is a perspective view illustrating an appearance of the information processing apparatus according to the embodiment. The figure which shows the example of the usage condition of the information processing apparatus of the embodiment. The figure which shows the other example of the usage pattern of the information processing apparatus of the embodiment. 2 is an exemplary block diagram showing the system configuration of the information processing apparatus of the embodiment. FIG. 2 is an exemplary block diagram illustrating a configuration example of a drag control program used by the information processing apparatus of the embodiment. FIG. 6 is an exemplary diagram showing an example of a drag control process executed by the information processing apparatus of the embodiment. FIG. 6 is an exemplary view showing another example of the drag control process executed by the information processing apparatus of the embodiment. FIG. 4 is a diagram showing still another example of the drag control process executed by the information processing apparatus of the embodiment. FIG. 4 is a diagram showing still another example of the drag control process executed by the information processing apparatus of the embodiment. FIG. 4 is a diagram showing still another example of the drag control process executed by the information processing apparatus of the embodiment. FIG. 4 is a diagram showing still another example of the drag control process executed by the information processing apparatus of the embodiment. FIG. 4 is a diagram showing still another example of the drag control process executed by the information processing apparatus of the embodiment. FIG. 6 is an exemplary flowchart illustrating an example of a procedure of a drag control process which is executed by the information processing apparatus of the embodiment.

Hereinafter, embodiments will be described with reference to the drawings.
First, the configuration of an information processing apparatus according to an embodiment will be described with reference to FIG. This information processing apparatus is realized as, for example, a battery-driven portable personal computer 10.

  FIG. 1 is a perspective view of the computer 10 with the display unit opened. The computer 10 includes a computer main body 11 and a display unit 12. A display device composed of a liquid crystal display device (LCD) 13 is incorporated on the upper surface of the display unit 12, and the display screen of the LCD 13 is positioned substantially at the center of the display unit 12.

  The LCD 13 is realized as a touch screen display. The touch screen display is configured to detect a position (touch position) on the screen of the LCD 13 touched by a pen or a finger. Touch screen displays are also referred to as touch-sensitive displays. For example, a transparent touch panel may be disposed on the upper surface of the LCD 13. The above-described touch screen display is realized by the LCD 13 and the transparent touch panel. The user can select various objects (for example, icons representing folders and files, menus, buttons, windows, etc.) displayed on the display screen of the LCD 13 using a fingertip or a pen. Coordinate data indicating the touch position on the display screen is input to the CPU in the computer 10 from the touch screen display.

  The display unit 12 has a thin box-shaped housing, and the display unit 12 is rotatably attached to the computer main body 11 via a hinge portion 14. The hinge portion 14 is a connecting portion that connects the display unit 12 to the computer main body 11. That is, the lower end portion of the display unit 12 is supported by the hinge portion 14 at the rear end portion of the computer main body 11. The display unit 12 is attached to the computer main body 11 so as to be rotatable between an open position where the upper surface of the computer main body 11 is exposed and a closed position where the upper surface of the computer main body 11 is covered by the display unit 12. A power button 16 for powering on or off the computer 10 is provided at a predetermined position on the upper surface of the display unit 12, for example, on the right side of the LCD 13.

  The computer main body 11 is a base unit having a thin box-shaped housing, and a liquid crystal display (LCD) 15 is incorporated on the upper surface thereof, and the display screen of the LCD 15 is positioned substantially at the center of the computer main body 11. Yes. The LCD 15 is also realized as a touch screen display (that is, a touch-detectable display). This touch screen display is configured to detect a position (touch position) on the screen of the LCD 15 touched by a pen or a finger. For example, a transparent touch panel may be disposed on the upper surface of the LCD 15. The touch screen display described above is realized by the LCD 15 and the transparent touch panel.

  The LCD 15 on the computer main body 11 is a display independent of the LCD 13 of the display unit 12. These LCDs 13 and 15 can be used as a multi-display for realizing a virtual screen environment. In this case, two virtual screens managed by the operating system of the computer 10 may be assigned to the LCDs 13 and 15, respectively, or one virtual screen managed by the operating system of the computer 10 may be assigned to the LCDs 13 and 15. Good. In the latter case, one virtual screen includes a first screen area displayed on the LCD 13 and a second screen area displayed on the LCD 15. The first screen area and the second screen area are assigned to the LCDs 13 and 15, respectively. Arbitrary application windows, arbitrary objects, etc. can be displayed in each of the first screen area and the second screen area.

  The two LCDs 13 and 15 are physically separated by a hinge portion 14. In other words, the surfaces of the two touch screen displays are discontinuous, and these two discontinuous touch screen displays constitute one virtual screen.

  In this embodiment, the computer 10 can be used in either the horizontal position (landscape mode) shown in FIG. 2 or the vertical position (portrait mode) shown in FIG. In the landscape mode, the two touch screen displays in one virtual screen are used in a state where they are arranged in the vertical direction. On the other hand, in the portrait mode, the two touch screen displays in one virtual screen are used in a state where they are arranged in the left-right direction. Furthermore, the orientation of the screen image displayed on each touch screen display is automatically changed according to the mode used (landscape mode, portrait mode).

  As shown in FIG. 1, two button switches 17 and 18 are provided at predetermined positions on the upper surface of the computer main body 11, for example, on both sides of the LCD 15. An arbitrary function can be assigned to each of these button switches 17 and 18. For example, the button switch 17 can be used as a button switch for displaying a virtual keyboard on the LCD 13 or the LCD 15.

  In the above description, it is assumed that the computer 10 includes two discontinuous touch screen displays separated from each other. However, the computer 10 includes three or four discontinuous touch screen displays separated from each other. May be included.

  Next, the system configuration of the computer 10 will be described with reference to FIG. Here, it is assumed that the computer 10 includes two touch screen displays.

  The computer 10 includes a CPU 111, a north bridge 112, a main memory 113, a graphics controller 114, a south bridge 115, a BIOS-ROM 116, a hard disk drive (HDD) 117, an embedded controller 118, and the like.

  The CPU 111 is a processor provided to control the operation of the computer 10 and executes an operating system (OS), various application programs, and the like loaded from the HDD 117 to the main memory 113.

  The application program includes a drag control program 201. The drag control program 201 executes processing for dragging a display object (also simply referred to as an object) across a discontinuous movement source touch screen display and a movement destination touch screen display. More specifically, when a touch screen display (movement source touch screen display) is touched, the drag control program 201 selects an object on the movement source touch screen display according to the touch position. The drag control program 201 moves the position of the selected object on the movement source touch screen display in accordance with the movement of the touch position on the movement source touch screen display (movement of the fingertip). Then, when the selected object is moved to the end on the source touch screen display, the drag control program 201 determines the destination touch screen display. In this case, another touch screen display having an end opposite the end on the source touch screen display via the display boundary is determined as the destination touch screen display. Then, in order to display the selected object on the destination touch screen display, the drag control program 201 moves (skips) the position of the selected object from the source touch screen display to the destination touch screen display. Let In this case, the selected object may be moved from the end of the source touch screen display to, for example, the end of the destination touch screen display facing the display boundary.

  Therefore, although the movement operation of the fingertip is interrupted at the end of the source display, that is, before the display boundary, the object can be easily moved across the discontinuous source and destination displays. After the object is moved to the destination touch screen display, the user can continuously execute the drag operation of the object on the destination display.

The drag control program 201 includes, for example, the following functions in order to realize the above-described drag control process.
(1) Function for detecting dragging of display object using touch operation and moving display object (2) Function for detecting that display object approaches display boundary by dragging (3) Function for determining destination display (This determination function enables drag operations across multiple displays that are more than two screens)
(4) Function for moving the position of the selected object by a predetermined distance toward the destination touch screen display side (5) Function for determining the position of the display object to be displayed on the destination display from the movement trajectory of the display object The CPU 111 also executes a system BIOS (Basic Input Output System) stored in the BIOS-ROM 116. The system BIOS is a program for hardware control. The north bridge 112 is a bridge device that connects the local bus of the CPU 111 and the south bridge 115. The north bridge 112 also includes a memory controller that controls access to the main memory 115. The graphics controller 114 is a display controller that controls the two LCDs 13 and 15 respectively used as a display monitor of the computer 10. The graphics controller 114 executes display processing (graphics calculation processing) for drawing display data in a video memory (VRAM) based on a drawing request received from the CPU 111 via the north bridge 112. A storage area for storing display data corresponding to the screen image displayed on the LCD 13 and a storage area for storing display data corresponding to the screen image displayed on the LCD 15 are allocated to the video memory.

  A transparent touch panel 13 </ b> A is disposed on the LCD 13. A first touch screen display is realized by the LCD 13 and the touch panel 13A. Similarly, a transparent touch panel 15 </ b> A is disposed on the LCD 15. A second touch screen display is realized by the LCD 15 and the touch panel 15A. Each of the touch panels 13A and 15A is configured to detect a touch position on the touch panel (touch screen display) using, for example, a resistance film method or a capacitance method. Further, as each of the touch panels 13A and 15A, a multi-touch panel capable of simultaneously detecting a plurality of touch positions may be used.

  The south bridge 115 incorporates an IDE (Integrated Drive Electronics) controller and a Serial ATA controller for controlling the HDD 121. The embedded controller (EC) 118 has a function of powering on / off the computer 10 in accordance with the operation of the power button switch 16 by the user. The embedded controller (EC) 118 includes a touch panel controller 301 that controls each of the touch panels 13A and 15A.

  Next, the configuration of the drag control program 201 will be described with reference to FIG. The drag control program 201 receives touch position detection information from each of the touch panels 13A and 15A via a touch panel driver program in the operating system. The touch position detection information includes coordinate data indicating a touch position on the touch panel display touched by a pointing member (for example, a user's finger or pen).

  The drag control program 201 includes a drag detection unit 211, an object position determination unit 212, and an object movement control unit 213 as function execution modules. The drag detection unit 211 functions as a first movement control unit for detecting a drag of a display object by a touch operation and moving the display object.

  The drag detection unit 211 selects an object on the touch screen display according to the touch position on the touch screen display (LCD 13 or LCD 15). For example, the object displayed on the touch position is selected from the objects displayed on the touch screen display. The drag detection unit 211 moves the position of the selected object on the touch screen display via the display driver program. In this case, the drag detection unit 211 moves the position of the selected object on the touch screen display in accordance with the movement of the touch position on the touch screen display. Here, the movement of the touch position means a drag operation. The drag operation is an operation of moving a position (touch position) on the touch screen display touched by the pointing member while the pointing member (fingertip or pen) is in contact with the touch screen display. On the touch screen display, the position of the object is moved so as to follow the movement of the touch position.

  The object position determination unit 212 determines whether the object has been moved to an end on the touch screen display, for example, an end that touches the boundary between the displays. The object movement control unit 213 functions as a second movement control unit for moving the position of the object on the touch screen display (LCD 13 or LCD 15) via the display driver. More specifically, if the object position determination unit 212 determines that the object has been moved to the end on the touch screen display, the object movement control unit 213 determines the destination touch screen display. Then, the object movement control unit 213 moves (skips) the position of the object to the end of the destination touch screen display in contact with the boundary between the displays. More specifically, the object movement control unit 213 moves the position of the object by a predetermined distance toward the destination touch screen display. Although the movement distance may be a fixed value, for example, a distance associated with the size of the object may be used as the movement distance.

  The object is displayed, for example, at the end of the destination touch screen display. As described above, in this embodiment, when it is detected that the object is moved to the end of the movement source touch screen display by dragging using the touch operation, the position of the object is moved from the movement source touch screen display. Automatically changed to the first touch screen display.

  Next, an example of a drag control operation for dragging an object across touch screen displays, which is executed by the drag control program 201, will be described with reference to FIG. In FIG. 6, “Display A” represents a source touch screen display, and “Display B” represents a destination touch screen display. Here, it is assumed that the touch screen display 15 is a source touch screen display and the touch screen display 13 is a destination touch screen display.

  The uppermost part of FIG. 6 shows a state in which an object 301 displayed on the movement source touch screen display is touched with a fingertip and the object 301 is dragged. The user can move the position of the object 301 by moving the fingertip in a state where the fingertip is in contact with the movement source touch screen display, that is, by moving the touch position.

  The second from the top in FIG. 6 shows a state in which the object 301 is moved to the end of the source touch screen display by a drag operation. Here, the broken line on the movement source touch screen display represents the boundary position for determining the end of the movement source touch screen display. The boundary position may be set, for example, at a position that is offset from the end of the source touch screen display by a minute distance (for example, about several mm). For example, when the vicinity of the center of the object 301 overlaps the boundary position, a part of the object 301 protrudes outside from the movement source touch screen display and becomes invisible. At this time, the drag control program 201 determines that the object 301 has been moved to the end of the source touch screen display. In other words, when the ratio of the portion of the object 301 displayed on the movement source touch screen display to the entire object 301 is reduced to a predetermined threshold ratio smaller than 100%, the drag control program 201 sets the object 301 May have been moved to the end of the source touch screen display.

  If the movement source touch screen display and the movement destination touch screen display constitute one virtual screen, a part of the object 301 (invisible part) that disappears from the movement source touch screen display is the movement destination. May be displayed on a touch screen display. However, even in this case, if the size of the object 301 is small, only a small part of the object 301 is displayed on the destination touch screen display because the part that protrudes from the source touch screen display is very small. It may be very difficult for the user to touch this small portion on the destination touch screen display.

  When the object 301 is moved to the end of the movement source touch screen display, the drag control program 201 displays, for example, almost the entire object 301 on the movement destination touch screen display as shown in the third part from the top in FIG. The position of the object 301 is moved from the end on the source touch screen display to the vicinity of the end of the destination touch screen display so that it is displayed in the vicinity of the end. Thereby, for example, almost the entire object 301 is displayed on the destination touch screen display.

  The lowermost part of FIG. 6 shows a state in which the object 301 moved on the destination touch screen display is touched again with the fingertip and the object 301 is dragged on the destination touch screen display. The user can move (drag) the position of the object 301 by moving the fingertip with the fingertip in contact with the destination touch screen display, that is, by moving the touch position.

  The drag control program 201 drags the object 301 only when the object 301 is touched for a predetermined period from the time when the position of the object 301 is moved from the movement source touch screen display to the movement destination touch screen display. It may be continued. In this case, if the object 301 on the destination touch screen display is not touched by the user for a predetermined period (timeout), the drag control program 201 executes, for example, the following mode 1 or mode 2 processing: To do.

  Mode 1: The drag control program 201 returns the object 301 to the end area of the movement source touch screen display (returns to the state shown second from the top in FIG. 6).

  Mode 2: The drag control program 201 keeps the object 301 in the end area on the destination touch screen display (maintained in the third state from the top in FIG. 6).

  The drag control program 201 has a user interface that allows the user to select mode 1 or mode 2. By using this user interface, the user can designate in advance an operation to be executed at the time of timeout.

  In addition, although the example which moves the object 301 was demonstrated in FIG. 6 so that the whole object 301 may be displayed on a destination touch screen display, it is not restricted to this, For example, a part of object 301 is a destination touch screen. The object 301 may be moved so as to be displayed on the display. Also in this case, the drag control program 201 determines that the size of the part of the object 301 displayed on the destination touch screen display after the movement is larger than the size of the part of the object 301 protruding from the movement source touch screen display before the movement. The object 301 is moved by a predetermined distance toward the destination touch screen display so as to increase.

  In FIG. 7, the ratio between the part in the object 301 displayed on the movement source touch screen display and the part in the object 301 displayed on the movement destination touch screen display is a fixed ratio (for example, 50:50). Thus, an example of controlling the movement amount of the object 301 is shown.

  The uppermost part of FIG. 7 shows a state in which an object 301 displayed on the movement source touch screen display is touched with a fingertip and the object 301 is dragged.

  The second from the top in FIG. 7 shows a state in which the object 301 is moved to the end of the source touch screen display by a drag operation. When the ratio of the part of the object 301 displayed on the movement source touch screen display to the whole object 301 is reduced to a predetermined threshold ratio smaller than 100%, the drag control program 201 causes the object 301 to move to the movement source touch screen. Determine that it has been moved to the edge of the display.

  When the object 301 is moved to the end of the source touch screen display, the drag control program 201 moves the object 301 with the end of the source touch screen display as shown in the third part from the top in FIG. The ratio of the portion of the object 301 displayed on both ends of the previous touch screen display and displayed on the movement source touch screen display with respect to the entire object 301 is lower than the above threshold ratio. The position of the object 301 is moved from the source touch screen display toward the destination touch screen display. Here, the ratio between the part in the object 301 displayed on the movement source touch screen display and the part in the object 301 displayed on the movement destination touch screen display becomes a fixed ratio (for example, 50:50). In addition, the object 301 is moved to the destination touch screen display side.

  The bottom part of FIG. 7 shows a state in which the object 301 moved on the destination touch screen display is touched again with the fingertip, and the object 301 is dragged on the destination touch screen display.

  Next, still another example of the drag control operation executed by the drag control program 201 will be described with reference to FIG. In FIG. 8, when the object 301 is moved to the end of the source touch screen display by the movement of the user's finger, the drag control program 201 displays the alternative object 301 ′ in the end area on the destination touch screen display. To do.

  The top part of FIG. 8 shows a state in which an object 301 displayed on the movement source touch screen display is touched with a fingertip and the object 301 is dragged.

  The second from the top in FIG. 8 shows a state in which the object 301 is moved to the end of the source touch screen display by a drag operation. For example, when the ratio of the part of the object 301 displayed on the movement source touch screen display to the whole object 301 is reduced to a predetermined threshold ratio smaller than 100%, the drag control program 201 causes the object 301 to be moved. Determine that it has been moved to the edge of the touch screen display.

  When the object 301 is moved to the end of the source touch screen display, the drag control program 201 changes the position of the object 301 to the end of the destination touch screen display as shown in the third part from the top in FIG. While moving to the area, instead of the object 301, the substitute object 301 ′ is displayed in the end area on the destination touch screen display. The display of the substitute object 301 ′ is useful for alerting the user that the user is dragging. The substitute object 301 'may have any shape.

  When the substitute object 301 ′ on the destination touch screen display is touched with a fingertip or a pen, the drag control program 201 replaces the substitute object 301 ′ with the original object 301, as shown at the bottom of FIG. indicate. This object 301 is moved in accordance with the movement of the touch position on the destination touch screen display.

  FIG. 9 shows an example in which the bar 302 is displayed as an alternative object 301 ′ in FIG. 7 in the end area of the destination touch screen display.

  Next, still another example of the drag control operation executed by the drag control program 201 will be described with reference to FIGS. 10 and 11, it is assumed that the object to be dragged is a window. Usually, the area (drag operation area) that can be specified for a drag operation on a window is limited to only the bar (title bar) at the top of the window. Therefore, it is difficult for the user to drag the window from one of the two touch screen displays arranged vertically to the other by a touch operation.

  FIG. 10 is a diagram for dragging the window 401 from the upper source touch screen display to the lower destination touch screen display when the computer 10 is used in the horizontal position (landscape mode) described in FIG. A drag control operation is shown. Here, it is assumed that the touch screen display 13 is a source touch screen display (display A) and the touch screen display 15 is a destination touch screen display (display B).

  The leftmost part of FIG. 10 shows a state where the title bar of the window 401 displayed on the movement source touch screen display is touched with a fingertip and the window 401 is dragged. The user can move the position of the window 401 by moving the fingertip in a state where the fingertip is in contact with the movement source touch screen display, that is, by moving the touch position.

  The second from the left in FIG. 10 shows a state where the title bar of the window 401 has been moved to the lower end of the source touch screen display by a drag operation. When the title bar is moved to the lower end portion of the movement source touch screen display, the drag control program 201, as shown in the third part from the left in FIG. The position of the window 401 is moved from the lower end portion on the source touch screen display to the upper end portion side of the destination touch screen display so as to be displayed on the upper end portion. Thereby, for example, almost the entire window 401 is displayed on the destination touch screen display.

  The rightmost part of FIG. 10 shows a state where the title bar of the window 401 moved onto the destination touch screen display is touched again with the fingertip, and the window 401 is dragged on the destination touch screen display. . The user can move (drag) the position of the window 401 by moving the fingertip in a state where the fingertip is in contact with the destination touch screen display, that is, by moving the touch position.

  FIG. 11 shows a state where the computer 10 is used in the horizontal position (landscape mode) described in FIG. 2, and the window 401 is moved from the lower source touch screen display (display B) to the upper destination touch screen display (display B). A drag control operation for dragging to the display A) is shown. Here, it is assumed that the touch screen display 15 is a source touch screen display (display B) and the touch screen display 13 is a destination touch screen display (display A).

  The leftmost part of FIG. 11 shows a state where the title bar of the window 401 displayed on the movement source touch screen display is touched with a fingertip, and the window 401 is dragged. The user can move the position of the window 401 by moving the fingertip in a state where the fingertip is in contact with the movement source touch screen display, that is, by moving the touch position.

  The second from the left in FIG. 11 shows a state in which the title bar of the window 401 has been moved to the upper end of the source touch screen display by a drag operation. When the title bar is moved to the upper end of the source touch screen display, the drag control program 201 touches the destination bar at least for the entire title bar in the window 401 as shown in the third part from the left in FIG. The position of the window 401 is moved from the upper end portion on the movement source touch screen display to the lower end portion side of the movement destination touch screen display so as to be displayed on the lower end portion of the screen display.

  The rightmost part of FIG. 11 shows a state where the title bar moved on the destination touch screen display is touched again with the fingertip, and the window 401 is dragged on the destination touch screen display. The user can move (drag) the position of the window 401 by moving the fingertip in a state where the fingertip is in contact with the destination touch screen display, that is, by moving the touch position.

  Next, still another example of the drag control operation executed by the drag control program 201 will be described with reference to FIG. The drag control program 201 predicts the position of the object 301 to be displayed on the destination touch screen display based on the movement trajectory of the object 301 on the source touch screen display. For example, as shown in FIG. 12, on the lower destination touch screen display, the object 301 is moved diagonally right upward by a drag operation, and is positioned at the upper end of the destination touch screen display. In this case, the drag control program 201 determines, as the display position of the object 301, the position on the destination touch screen display that exists diagonally right above the position of the object 301 at the upper end of the source touch screen display. . Then, the drag control program 201 displays the object 301 on the determined display position on the destination touch screen display.

  Next, the procedure of the drag control process executed by the drag control program 201 will be described with reference to FIG.

  The drag control program 201 first determines whether or not dragging of an object on a touch screen display (moving source touch screen display) in the plurality of touch screen displays in the computer 10 has been started (step S101). If dragging of the object is started, that is, with the object selected by the user's fingertip or pen, the position of the fingertip or pen (touch position) is different from a certain position on the source touch screen display. If it is moved to (YES in step S101), the drag control program 201 moves the position of the object on the movement source touch screen display in accordance with the movement of the touch position (step S102).

  In other words, in steps S101 and S102, the drag control program 201 selects an object on the movement source touch screen display according to the touch position on the movement source touch screen display, and on the movement source touch screen display. In accordance with the movement of the touch position, the selected object is moved from one position on the movement source touch screen display to another position.

  If the selected object is released, that is, if the fingertip or the pen and the movement source touch screen display are in a non-contact state (YES in step S103), the drag control program 201 is selected. The object is dropped at the current position, and a predetermined process (action) associated with the drop position is executed (step S105). For example, the selected object may be an icon representing a file. If this icon is dropped on another icon representing a folder, the file is stored in that folder.

  While the selected object is being dragged, the drag control program 201 determines whether or not the selected object has approached the end of the source touch screen display (step S104). When the selected object approaches the end of the source touch screen display, that is, when the selected object is moved to the end on the source touch screen display by dragging, the drag control program 201 performs a plurality of touches. A destination touch screen display (target display) is determined from the screen display (step S106). In step S <b> 106, the drag control program 201 opposes the end to which the selected object is moved from the plurality of touch screen displays via a display boundary (non-touch detection area including the hinge 14). Is determined as the destination touch screen display.

  In order to display the selected object on the destination touch screen display, the drag control program 201 changes the position of the selected object from the end on the source touch screen display to the end of the destination touch screen display. (Step S107). In step S107, the drag control program 201 moves (shifts) the position of the selected object (for example, the position on the virtual screen) to the destination touch screen display side by, for example, a predetermined value (predetermined distance). . Furthermore, the drag control program 201 may move the object onto the destination touch screen display while maintaining the object in the selected state.

  Next, the drag control program 201 starts a timer and counts the time that has elapsed since the selected object was moved to the destination touch screen display (step S108).

  If the object moved on the destination touch screen display is touched by the fingertip or the pen before the elapsed time to be counted exceeds the threshold time (YES in step S109), the drag control program 201 displays the object. Dragging is resumed (step S110). The drag control program 201 moves the selected object from one position on the destination touch screen display to another position in accordance with the movement of the touch position on the destination touch screen display (step S102). If the selected object is released, that is, if the fingertip or the pen and the destination touch screen display are in a non-contact state (YES in step S103), the drag control program 201 is selected. The object is dropped at the current position, and a predetermined process (action) associated with the drop position is executed (step S105). If the selected object is moved to the end on the destination touch screen display by dragging (YES in step S104), the drag control program 201 again moves the selected object to the end on the source touch screen display. The process of moving to the part is executed (steps S106 and S107).

  On the other hand, if the object moved on the destination touch screen display is not touched before the counted elapsed time exceeds the threshold time, that is, if a timeout occurs (YES in step S114), dragging is performed. The control program 201 stops the drag control process (step S115). Then, the drag control program 201 determines whether the time-out operation mode is the above-described mode 1 or mode 2 (step S116). If the time-out operation mode is mode 1, the drag control program 201 returns the position of the object to the end of the source touch screen display, and displays the object on the end of the source touch screen display (step S117). If the timeout operation mode is mode 2, the drag control program 201 leaves the object as it is at the end on the destination touch screen display (step S118).

  As described above, according to the present embodiment, the first touch that opposes the display boundary between the object on the first touch screen display and the second touch screen display by dragging using the touch operation. When moved to an edge on the screen display, the position of the object is moved from the first touch screen display to the second touch screen display. Thus, the user can move the object onto the second touch screen display simply by dragging the object to the end of the first touch screen display by a touch operation. Therefore, the operability of the drag operation of the object straddling between the touch screen displays can be improved.

  Although the computer 10 of the present embodiment includes the main body 11 and the display unit 12, almost all of the components constituting the system of the computer 10 are not necessarily provided in the main body 11. For example, one of the components A part or almost all may be provided in the display unit 12. In this sense, it can be said that the main body 11 and the display unit 12 may be units of substantially the same relationship. Therefore, the main body 11 can also be considered as a display unit, and the display unit 12 can also be considered as a main body.

  In addition, since the drag control function of the present embodiment is realized by a computer program, the computer program is installed and executed on a computer having a plurality of touch screen displays through a computer-readable storage medium storing the computer program. Just by doing this, it is possible to easily obtain the same effect as the present embodiment.

  Further, the present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine a component suitably in different embodiment.

  DESCRIPTION OF SYMBOLS 10 ... Computer, 11 ... Main body, 12 ... Display unit, 13, 15 ... LCD, 13A, 15A ... Touch panel, 111 ... CPU, 201 ... Drag control program, 211 ... Drag detection part, 212 ... Object position determination part, 213 ... Object movement control unit.

Claims (4)

A first touch screen display;
A second touch screen display;
A first object on the first touch screen display is selected according to a touch position on the first touch screen display, and the first object is selected according to movement of the touch position on the first touch screen display. First moving means for moving the position of the first object on one touch screen display;
When the first object is moved to an end on the first touch screen display opposite a boundary between the first touch screen display and the second touch screen display, the first object A substitute object display means for displaying a substitute object on the second touch screen display instead of an object;
The first object is displayed instead of the substitute object in response to the touch operation of the substitute object on the second touch screen display, and the touch position on the second touch screen display is moved according to the movement of the touch position. An information processing apparatus comprising: control means for moving the position of the first object on the second touch screen display.   The information processing apparatus according to claim 1, wherein the substitute object display unit displays a bar on the second touch screen display as the substitute object. A drag control method for moving an object between a first touch screen display and a second touch screen display in an information processing apparatus,
Selecting a first object on the first touch screen display in response to a touch location on the first touch screen display;
Moving the position of the first object on the first touch screen display in response to movement of the touch position on the first touch screen display;
When the first object is moved to an end on the first touch screen display opposite a boundary between the first touch screen display and the second touch screen display, the first object Displaying an alternative object on the second touch screen display instead of an object;
Displaying the first object on the second touch screen display instead of the substitute object in response to a touch operation of the substitute object on the second touch screen display;
Moving the position of the first object on the second touch screen display in accordance with the movement of the touch position on the second touch screen display. A program for moving an object between a first touch screen display and a second touch screen display in a computer,
Selecting a first object on the first touch screen display according to a touch position on the first touch screen display;
Moving the position of the first object on the first touch screen display in response to movement of the touch position on the first touch screen display;
When the first object is moved to an end on the first touch screen display opposite a boundary between the first touch screen display and the second touch screen display, the first object Displaying a substitute object on the second touch screen display instead of an object;
Displaying the first object on the second touch screen display instead of the substitute object in response to a touch operation of the substitute object on the second touch screen display;
A program for causing the computer to execute a procedure for moving the position of the first object on the second touch screen display in accordance with the movement of the touch position on the second touch screen display.

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