JP2019117634A - Display control program, display control method, and display control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display control program, a display control method, and a display control system for improving the operability of a game. SOLUTION: A display unit 12 for displaying a virtual space, an operation unit 10 for outputting input operation data in which a user's input operation is associated with coordinate information, and a storage unit 11 for storing input operation data are provided, and a character is provided. The information processing device 1 that executes the game to move the character by the input operation has a step of acquiring input operation data from the storage unit and moving the character in a predetermined direction when it is determined that the first input operation is performed. From the first movement step to execute the including control, the step to execute another movement control including moving the character in a predetermined direction when it is determined to be the second input operation, and the start point of the input operation. When the distance from the intermediate point to the end point or the start point in the predetermined direction is longer than the distance to the end point in the predetermined direction, the step of determining that the second input operation is performed is executed. [Selection diagram] Fig. 1

Description

  The present invention relates to a display control program, a display control method, and a display control system.

  There is known a game in which a character or the like disposed in a virtual space is moved and operated according to a user operation. For example, Patent Document 1 discloses a game in which a character operated by a user (hereinafter, referred to as a user character) is moved to fight a user character and an enemy character.

Japanese Patent Application Publication No. 2007-130367

  In recent years, a game is executed on an information processing apparatus provided with a touch panel, such as a smartphone. However, when the game operation is performed using the touch panel, the operability may not necessarily be sufficient. For example, a game in which a user character is moved in a virtual space (virtual game space) having a depth is known. When emphasizing an intuitive operation in such a game, the movement to the back side and the jump may be performed in response to the user's operation of moving the finger from the bottom to the top on the touch panel. Then, when the user intends to move the user character to the back side, an unintended jump operation may be performed.

  In the technique of Patent Document 1, the operation area is divided into a first area and a second area, and the operation of the first area and the operation of the second area are different actions of the user character (in the above example, movement to the back side) And jump) can be assigned. However, it is normal for a user who is playing a game to gaze at the area where the user character is displayed. Therefore, a user in game execution often operates without looking at the operation area. Then, since it is possible to erroneously operate the first area and the second area, it is difficult to eliminate confusion of different actions of the user character. Therefore, there is room for improvement in the operability of the game.

  An object of the present invention made in view of such circumstances is to provide a program, a control method, and an information processing apparatus for improving the operability of a game.

A display control program for solving the above-mentioned problems comprises a display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and a touch panel integrated with the display unit. A control unit connected to the display unit to display an image of the object on the display unit, a first axis and a second axis of the display unit, and a first virtual axis, a second virtual axis, and a second virtual axis of the virtual three-dimensional space Display control in which the first virtual axis and the second virtual axis among the three virtual axes are associated with each other, and the object is displayed on the display unit in a state of looking over the object from a predetermined eyebrow position of the second virtual axis A determination unit that determines whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation; and the determination unit determines the input operation by the determination unit. Said first A first movement control unit performing first movement control to move the object in a movement direction including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the operation is a force operation; When the determination unit determines that the input operation is the second input operation, the object is moved in a movement direction not including a direction parallel to the third virtual axis in the virtual three-dimensional space Function as a second movement control unit for performing a second movement control to be performed, and the determination unit determines that the input locus is the second input operation when the input locus is determined to be a V-shaped input locus When it is determined that the input locus is not a V-shaped input locus, it is determined that the input locus is the first input operation.
A display control program for solving the above-mentioned problems comprises a display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and a touch panel integrated with the display unit. A control unit connected to the display unit to display an image of the object on the display unit, a first axis and a second axis of the display unit, and a first virtual axis, a second virtual axis, and a second virtual axis of the virtual three-dimensional space Display control in which the first virtual axis and the second virtual axis among the three virtual axes are associated with each other, and the object is displayed on the display unit in a state of looking over the object from a predetermined eyebrow position of the second virtual axis A determination unit that determines whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation; and the determination unit determines the input operation by the determination unit. Said first A first movement control unit performing first movement control to move the object in a movement direction including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the operation is a force operation; When the determination unit determines that the input operation is the second input operation, the object is moved in a movement direction not including a direction parallel to the third virtual axis in the virtual three-dimensional space Function as a second movement control unit that performs a second movement control, and the determination unit determines the start point more than the distance along the second axis from the start point at which the input operation is started to the end point at which the input operation is ended. The input locus is a first input when the distance along the second axis from the midpoint to the end point to the endpoint and the distance along the second axis from the midpoint to the start point are short. It is determined that the operation is The distance along the second axis from the midpoint between the start point and the end point to the end point, or the distance along the second axis from the start point where the force operation was started to the end point where the force operation was ended When the distance along the second axis from the intermediate point to the start point is long, it is determined that the input operation is a second input operation.

The display control method for solving the above problems comprises an operation of receiving a user's input operation by configuring a display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen and a touch panel integrated with the display unit. A control unit connected to the display unit to display an image of the object on the display unit; a first axis and a second axis of the display unit; a first virtual axis of the virtual three-dimensional space; a second virtual axis; And displaying on the display unit the object in a state in which the first virtual axis and the second virtual axis of the three virtual axes correspond to each other and the object is viewed from the predetermined eyelid position of the second virtual axis. Determining whether the input operation is a first input operation or a second input operation based on an input locus by the input operation; and the input operation is the first input operation It was determined that To perform the first movement control to move the object in the movement direction including the direction parallel to the third virtual axis of the virtual three-dimensional space, and the input operation is the second input operation Performing second movement control to move the object in a movement direction not including a direction parallel to the third virtual axis of the virtual three-dimensional space, and the determination is performed The step determines that the input locus is the second input operation when it is determined that the input locus is a V-shaped input locus, and determines that the input locus is not a V-shaped input locus If it is determined that the input trajectory is the first input operation.
The display control method for solving the above problems comprises an operation of receiving a user's input operation by configuring a display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen and a touch panel integrated with the display unit. A control unit connected to the display unit to display an image of the object on the display unit; a first axis and a second axis of the display unit; a first virtual axis of the virtual three-dimensional space; a second virtual axis; Display control in which the first virtual axis and the second virtual axis among the three virtual axes are associated with each other, and the object is displayed on the display unit in a state of looking over the object from a predetermined eyebrow position of the second virtual axis Determining whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation and the input operation is performed by the determination unit; First input Performing a first movement control to move the object in a movement direction including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the input operation is performed; Performing second movement control to move the object in a movement direction not including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the second input operation is performed; Performing the determining step, the determining step includes: from an intermediate point to the end point between the start point and the end point than a distance along the second axis from the start point to the end point where the input operation is started When the distance along the second axis and the distance along the second axis from the intermediate point to the start point are short, it is determined that the input trajectory is the first input operation, and the input operation is started From the start point to the end The distance along the second axis from the midpoint between the start point and the end point to the end point, or the distance from the midpoint to the start point, rather than the distance along the second axis to the determined end point When the distance along the second axis is long, it is determined that the input operation is a second input operation.

A display control system for solving the above problems comprises a display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and a touch panel integrated with the display unit. A display control system connected to the display unit and displaying an image of an object on the display unit, the first axis and the second axis of the display unit, the first virtual axis of the virtual three-dimensional space, and the second virtual The first virtual axis and the second virtual axis of the axis and the third virtual axis are associated with each other, and displayed on the display unit in a state where the object is viewed from the predetermined eyelid position of the second virtual axis A determination unit that determines whether the input operation is a first input operation or a second input operation based on a display control unit that performs the input operation and the input trajectory by the input operation; Input operation A first movement control for moving the object in a movement direction including a direction parallel to the third virtual axis of the virtual three-dimensional space, when it is determined that the first input operation is performed; When it is determined by the movement control unit and the determination unit that the input operation is the second input operation, the object includes a direction parallel to the third virtual axis of the virtual three-dimensional space. And a second movement control unit for performing a second movement control to move in the movement direction, and the determination unit determines that the input locus is the input locus when the input locus is determined to be a V-shaped input locus. When it is determined that the input trajectory is the second input operation and it is determined that the input trajectory is not a V-shaped input trajectory, it is determined that the input trajectory is the first input operation.
A display control system for solving the above problems comprises a display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and a touch panel integrated with the display unit. A display control system connected to the display unit and displaying an image of an object on the display unit, the first axis and the second axis of the display unit, the first virtual axis of the virtual three-dimensional space, and the second virtual The first virtual axis and the second virtual axis of the axis and the third virtual axis are associated with each other, and displayed on the display unit in a state where the object is viewed from the predetermined eyelid position of the second virtual axis A determination unit that determines whether the input operation is a first input operation or a second input operation based on a display control unit that performs the input operation and the input trajectory by the input operation; Input operation A first movement control for moving the object in a movement direction including a direction parallel to the third virtual axis of the virtual three-dimensional space, when it is determined that the first input operation is performed; When it is determined by the movement control unit and the determination unit that the input operation is the second input operation, the object includes a direction parallel to the third virtual axis of the virtual three-dimensional space. And a second movement control unit for performing a second movement control to move in the no movement direction, wherein the determination unit is along the second axis from the start point at which the input operation is started to the end point at which the input operation is ended. When the distance along the second axis from the middle point between the start point and the end point to the end point and the distance along the second axis from the middle point to the start point are shorter than the distance, the input Determined that the trajectory is the first input operation A distance along the second axis from an intermediate point between the start point and the end point to the end point, rather than a distance along the second axis from the start point when the input operation is started to the end point when the input operation is started Alternatively, when the distance along the second axis from the intermediate point to the start point is long, it is determined that the input operation is a second input operation.

  According to the present invention, the operability of the game is improved.

It is a block diagram of an information processor concerning one embodiment of the present invention. It is a figure which illustrates the virtual space displayed on a display part. FIG. 3A and FIG. 3B illustrate the virtual space of the game of this embodiment. FIG. 4 (A) and FIG. 4 (B) are figures which illustrate the operation input used by the game of this embodiment. FIG. 5A and FIG. 5B are diagrams for explaining a determination method of normal flick operation and V-flick operation by the control unit. It is a flowchart which shows the control method which determines normal flick operation and V flick operation.

  Hereinafter, embodiments of the present invention will be described.

(Configuration of information processing apparatus)
An information processing apparatus 1 according to an embodiment of the present invention will be described with reference to FIG. The information processing apparatus 1 is, for example, a smartphone, a PC, or a game device, and can execute a game application (program). For example, the game application may be received from a predetermined application distribution server via the Internet, or may be stored in advance in a storage device such as a storage device provided in the information processing device 1 or a memory card readable by the information processing device 1. It may be stored.

  Here, an outline of a game application (hereinafter referred to as a game according to the present embodiment) executed by the information processing apparatus 1 according to the present embodiment will be described. The game of the present embodiment is, for example, an action role playing game or the like, and is a game in which a game medium is moved on a field in the game.

  The game medium is electronic data used for the game, and includes, for example, any medium such as a card, an item, a character, an avatar, and an object. Also, the game medium is electronic data that can be acquired, possessed, used, managed, exchanged, combined, enhanced, sold, destroyed, and / or given by the user in the game. For example, by associating the game content with the ID unique to the user, in the game, the game content is obtained, possessed, granted or transferred to the user. The mode of use of the game medium is not limited to the one specified in the present specification.

  The game of this embodiment includes the following contents as an outline. The user operates the user character to advance the game while searching the fields in the game. Specifically, the user character moves on the field according to the user operation. For example, a town and a battle stage are provided in the field. The user character can, for example, have a conversation with a resident character in town, a battle with an enemy character encountered in a battle stage, and the like. In the field in the game, various events occur depending on the area. As the event is executed, the main story of the game progresses. Also, for example, when winning the battle with the enemy character, game media such as an item, virtual currency, or character may be given to the user. The given game medium is usable by the user character.

  In the battle stage of the game of this embodiment, a passage through which the user character can move is provided. Specifically, a passage extending in the lateral direction of the screen is provided. In the present embodiment, the user character moves in the path in the direction and speed according to the user operation. Also, the passage has a certain width in the vertical direction of the screen. The user character can move in the passage not only in the horizontal direction of the screen but also in the vertical direction.

  Here, the user character can not only move in the passage but also jump. The user character can move quickly near the enemy character to be attacked by moving or jumping, and can avoid an attack from the enemy character. The information processing apparatus 1 according to the present embodiment appropriately determines whether the user's input operation is an instruction for step movement or an instruction for jumping to provide a game with good operability, but the details will be described. I will mention later. Here, the vertical direction of the screen corresponds to the predetermined direction of the present invention.

  Here, each component of the information processing apparatus 1 will be described. The information processing apparatus 1 includes an operation unit 10, a storage unit 11, a display unit 12, and a control unit 13.

  The operation unit 10 receives an input operation of the user, and outputs input operation data in which the input operation is associated with coordinate information. As described above, the information processing apparatus 1 executes a game in which the user character moves on the field in accordance with the user operation. The user's input operation is for the user to cause the user character in the virtual space to move on the field and perform a desired action, and includes an operation for instructing the action of the user character. In the information processing apparatus 1 according to the present embodiment, the operation unit 10 is a touch panel integrated with the display unit 12. For example, the information processing apparatus 1 has a configuration in which a transparent sensor layer that detects a change in capacitance that is the operation unit 10 is superimposed on an LCD (Liquid Crystal Display) layer that is the display unit 12 (a user To view the LCD layer). The operation unit 10 can detect the position touched by the user by detecting a change in capacitance. The operation unit 10 can also adopt a touch panel of a method other than the electrostatic capacitance method.

  The user instructs the action of the user character by touching the operation unit 10 using an instrument such as a finger or a stylus. In the game of the present embodiment, the user moves the user character on the field (passage) by swipe operation. The swipe operation is an operation in which the user touches the operation unit 10 with a finger or the like and moves the finger while touching the operation unit 10. Also, the user causes the user character to perform operations such as step movement and jump by flick operation. The flick operation is an operation in which the user touches the operation unit 10 with a finger or the like, moves the finger quickly while touching, and releases the finger. The flick operation includes a V-flick operation described later. In addition, step movement is movement of the user character faster than normal movement of the user character. Also, the user can attack the enemy character by the tap operation. The tap operation is an operation in which the user touches the operation unit 10 with a finger and then releases the finger without moving the finger. Here, when performing an input operation such as a swipe operation, a flick operation, or a tap operation, a point at which the user touches the operation unit 10 with a finger or the like to start the input operation is referred to as a start point. In addition, when ending the input operation, a point at which the user has released a finger or the like in contact with the operation unit 10 is referred to as an end point.

  The operation unit 10 associates the start point, the end point, the input trajectory of the swipe operation and the flick operation, and the like with coordinate information on the touch panel. The start point, the end point, the input trajectory and the like associated with the coordinate information are output to the storage unit 11 as input operation data. In the information processing apparatus 1 according to the present embodiment, coordinates of an orthogonal coordinate system in which the horizontal direction of the screen of the display unit 12 integrated with the operation unit 10 is X axis and the vertical direction is Y axis are used. The input operation data also includes information on the time from the start to the end of the input operation.

  The storage unit 11 is, for example, a storage device, and stores input operation data. In addition, the storage unit 11 stores various information and programs (game application) necessary for game processing. The storage unit 11 also stores various images (texture images) for projection (texture mapping) on various objects arranged in a three-dimensional virtual space. For example, the storage unit 11 stores an image of a user character. In addition, the storage unit 11 stores, for example, an image of a building, a wall, a tree, or an NPC (Non Player Character). In addition, the storage unit 11 stores, for example, a background image (background image) such as sky or distant view. The storage unit 11 also stores an image (field image) of a field such as a town and a battle stage. In the present embodiment, the storage unit 11 temporarily stores input operation data. The storage of data other than the input operation data is not temporary, and may be stored in the storage unit 11 until the game is uninstalled, for example.

  The display unit 12 displays a virtual space (virtual game space) in which the user character is arranged. In the present embodiment, the display unit 12 is an LCD (Liquid Crystal Display) layer of a touch panel, but is not limited thereto. For example, the display unit 12 may be a display device such as an organic EL display.

  The control unit 13 is a dedicated microprocessor or a CPU that implements a specific function by reading a specific program. The control unit 13 controls the operation of the information processing device 1. For example, the control unit 13 executes a game application in response to a user operation on the operation unit 10. Further, the control unit 13 executes various processes related to the game.

  The control unit 13 causes the display unit 12 to display a virtual space including, for example, a field, a user character, and the like. Further, the control unit 13 moves or operates the user character or the like relative to the field object such as the passage in the virtual space in accordance with the input operation of the user. Hereinafter, after the screen of the game of the present embodiment is described, a method of determining a user's input operation by the control unit 13 and movement control of a user character according to the determined input operation will be described.

(Example of game screen)
The virtual space displayed on the display unit 12 of the information processing device 1 according to the present embodiment will be described with reference to FIG. The display unit 12 has a first display area 121 and a second display area 120. The first display area 121 mainly displays a field including a user character, an enemy character and the like in the virtual space. The first display area 121 has a large area as compared to the second display area 120. The second display area 120 mainly displays fields in the virtual space that do not include user characters, enemy characters, and the like. The second display area 120 is mainly used as an area for receiving user's operation. The second display area 120 may display, for example, a menu selection icon for game setting, a user level, and the like. When the user performs an input operation in the second display area 120, a user character performing an action according to the input operation is displayed in the first display area 121. The second display area 120 is preferably provided below the first display area 121 (on the lower side in the vertical direction of the screen). By performing the input operation in the second display area 120, the user can avoid making the user character invisible and difficult to see by his operation. Further, by providing the operation area at the lower side closer to the user, the thumb reaches the operation area even when the information processing apparatus 1 is operated with one hand while holding it. Therefore, the user can easily operate even with one hand. As described above, the display unit 12 constitutes a touch panel integrated with the operation unit 10 as a whole. Therefore, the user can perform an input operation not only in the second display area 120 but also in the first display area 121. For example, when a plurality of enemy characters are displayed in the first display area 121, the user may attack by tapping one enemy character to be attacked.

  Here, a virtual XY plane created by the horizontal X axis of the screen and the vertical Y axis is set in the display unit 12. The operation unit 10 integrated with the display unit 12 associates the information on the coordinates of the XY plane with the input operation of the user to generate input operation data. In the example of FIG. 2, in order to move the user character, the user performs a swipe operation having a linear trajectory 124 from the start point 122 to the end point 123 in the positive X-axis direction. At this time, the operation unit 10 associates the start point 122 with the coordinates (X0, Y0), associates the end point 123 with the coordinates (X1, Y0), and at least one midpoint on the trajectory 124 between the start point and the end point. Input operation data is generated in association with the coordinates (Xa, Y0). The operation unit 10 outputs input operation data to the storage unit 11. The storage unit 11 stores input operation data. Then, the control unit 13 acquires input operation data from the storage unit 11, determines the content of the user's input operation from the coordinate information, and based on the content of the input operation (if necessary, also using the coordinate information) ) Calculate the change (action, movement, etc.) of the user character on the virtual space. Then, the display unit 12 displays the virtual space after the change of the user character. In the example of FIG. 2, the control unit 13 determines that the input operation is a swipe operation in the X-axis positive direction, and the user in the virtual space according to the distance (| X1-X0 |) between the start point 122 and the end point 123 The character is moved in the positive direction of the X axis and displayed on the display unit 12.

  As shown in FIGS. 3A and 3B, the virtual space of the game of this embodiment is a three-dimensional space. In the virtual space, a virtual camera is disposed so as to project a user character, and the virtual space viewed from the virtual camera is displayed on the display unit 12. Here, for the purpose of explanation, the x-axis in the left-right direction, the y-axis in the vertical direction, and the z-axis in the front-rear direction are set in the virtual space (at the viewpoint of the virtual camera). The x axis, the y axis, and the z axis of the virtual space are orthogonal to one another. In the game of this embodiment, the x-axis and y-axis of the virtual space are in a positional relationship such that they are parallel to the x-axis in the horizontal direction of the screen and the y-axis in the vertical direction. The virtual camera views the user character from a predetermined position (constant height) in the y-axis direction. In addition, the virtual camera also displays a passage through which the user character can move, surrounding objects (trees, buildings, etc.), enemy characters, and the like. In the game of this embodiment, the user character moves in the x-axis direction as the scenario progresses, but the virtual camera also moves in the virtual space in the x-axis direction in accordance with the movement. That is, the virtual camera moves parallel to the x-axis while maintaining a predetermined position in the y-axis direction.

  Here, in the game of the present embodiment, the user character can move in the virtual space in the z-axis direction (front-rear direction). FIG. 3A shows that the user character has moved the passage in the virtual space step by step from the front to the rear (from the near side to the far side). The z-axis direction corresponds to the first direction of the present invention. Further, in the game of the present embodiment, the user character can jump in the virtual space in the negative y-axis direction (upward). The jumped user character does not move in the z-axis direction. FIG. 3B shows the user character jumping. The y-axis direction corresponds to the second direction. Here, an image of a virtual camera that looks over the user character is displayed on the display unit 12 (see the first display area 121 of FIG. 3A and FIG. 3B). Therefore, for the user, both step movement from the front side to the back side of the user character and jump are seen as movement of the user character mainly in the Y direction (vertical direction) of the screen.

  If an intuitive operation is provided in accordance with the user's appearance, step movement from the near side to the far side of the user character and jump also move fingers etc. from the bottom to the top in the second display area 120. It is preferable to make corresponding operation. However, if one operation input is assigned to two different operations in the virtual space, the user can not execute the intended operation, which may reduce operability. Assuming that the second display area 120 is further divided into smaller areas and assigned to each operation as in the technology of Patent Document 1, confusion of operations may occur. The game of the present embodiment includes a battle with an enemy character. In the battle, the attack announcement range (range subject to damage) of the enemy character is displayed. The attack notification range has, for example, a predetermined width in the z-axis direction. It is important for the user to step the user character from the near side to the far side in order to avoid from the attack notice range. However, if motion confusion occurs and the user character jumps unintentionally, movement in the z-axis direction is not performed, and it can not be avoided from the attack notification range. If such a thing happens, the user may give an impression of poor operability, and the user may lose interest in the game itself. Therefore, the information processing apparatus 1 according to the present embodiment provides an interface that does not cause confusion of operations without reducing operability by making the two input operations described later correspond to the respective operations.

(V flick operation)
FIG. 4A is a diagram for describing an operation input corresponding to a step movement from the near side to the far side in the virtual space of the user character. As shown in the second display area 120 of FIG. 4A, when the user flicks from the start point 122 to the end point 123 in the Y-axis negative direction relative to the start point 122, the user character is from the near side Step move to the back side. In the game according to the present embodiment, for example, the user character can be moved stepwise by the flick operation in which the touch time on the touch panel is shorter than the swipe operation. Therefore, good operability can be realized particularly in a battle stage where quick movement is required to avoid an attack from an enemy. The distance of the step movement of the user character in the virtual space can be adjusted according to the distance between the start point 122 and the end point 123 in the flick operation. The first display area 121 of FIG. 4A is the same as the first display area 121 of FIG. In the second display area 120, when the user flicks from the start point 122 to the end point 123 in the Y-axis positive direction from the start point 122, the user character moves in the reverse direction (from the back side to the front side) ) Step move.

  FIG. 4B is a diagram for explaining an operation input corresponding to a jump in the virtual space of the user character. As shown in the second display area 120 of FIG. 4B, the user is from the starting point 122 through the middle point 134 which is in the positive Y-axis direction from the starting point 122 and is in the negative Y-axis direction from the starting point 122 When the flick operation is performed to the end point 123, the user character jumps. Here, although the operation input shown in FIG. 4 (B) is also a kind of flick operation, by having the intermediate point 134, the locus becomes V-like. Therefore, in order to distinguish from the normal flick operation shown in FIG. 4A, the flick operation of FIG. 4B is referred to as a V-flick operation in the present specification. In the game according to this embodiment, the user character can be jumped quickly by the V-flick operation in which the touch time on the touch panel is also shorter than the swipe operation or the like. Therefore, good operability can be realized particularly in the battle stage. The first display area 121 in FIG. 4B is the same as the first display area 121 in FIG. Also, how to adjust the direction (direction of movement) and the size of the jump in the virtual space of the user character by the V-flick operation will be described later.

(Judgment of V flick operation)
FIG. 5A and FIG. 5B are diagrams for explaining the determination method of the normal flick operation and the V-flick operation by the control unit 13. The control unit 13 acquires coordinates of the start point, the middle point, and the end point of the input operation of the user from the input operation data of the storage unit 11. Then, the start point and the end point, the middle point and the end point, and the distance in the predetermined direction of each of the middle point and the start point (the distance projected in the predetermined direction) are obtained by calculation and compared. Here, in the game of this embodiment, the predetermined direction is the direction in which the user character moves on the screen by jumping and step movement, that is, the Y-axis direction. The V-flick operation corresponds to the second input operation of the present invention. Moreover, the normal flick operation which is not the v-flick operation corresponds to the first input operation of the present invention.

  In the example of FIG. 5A, it is assumed that the control unit 13 acquires the coordinates (X0, Y0) of the start point 122, the coordinates (X1, Y1) of the end point 123, and the coordinates (Xa, Ya) of the middle point 134. The control unit 13 calculates a distance L0 (| Y1-Y0 |) between the start point 122 and the end point 123 in the Y-axis direction, a distance L1 (| Y1-Ya |) between the middle point 134 and the end point 123 in the Y-axis direction, A distance L2 (| Ya-Y0 |) in the Y-axis direction between 134 and the start point 122 is obtained. When the distance L1 or the distance L2 is longer than the distance L0, the control unit 13 determines that the flick operation by the user is a V-flick operation. Conversely, when the condition that “the distance L1 or the distance L2 is longer than the distance L0” does not hold, the control unit 13 determines that the flick operation by the user is a normal flick operation. In the example of FIG. 5A, since the distance L0 in the Y-axis direction between the start point 122 and the end point 123 is the longest, the condition that “the distance L1 or the distance L2 is longer than the distance L0” does not hold. Therefore, in the example of FIG. 5A, the control unit 13 determines that the flick operation by the user is a normal flick operation.

  Here, when there are a plurality of intermediate points, the control unit 13 calculates the distances L1 and L2 for each intermediate point. Then, when the distance L1 or the distance L2 is longer than the distance L0 for at least one intermediate point, the control unit 13 determines that the flick operation by the user is a V-flick operation. Then, when it is determined that the V-flick operation is performed, the control unit 13 sets one intermediate point at which the distance L1 in the predetermined direction (Y-axis direction) to the end point 123 is the longest as the specific intermediate point. The specific midpoint is also the midpoint at which the distance L2 in the Y-axis direction to the starting point 122 is the longest.

  In the example of FIG. 5B, it is assumed that the control unit 13 acquires the coordinates (X0, Y0) of the start point 122, the coordinates (X1, Y1) of the end point 123, and the coordinates (Xb, Yb) of the middle point 134A. The control unit 13 calculates a distance L0 (| Y1-Y0 |) between the start point 122 and the end point 123 in the Y-axis direction, a distance L1 (| Y1-Yb |) between the middle point 134A and the end point 123 in the Y-axis direction, A distance L2 (| Yb-Y0 |) between the point 134A and the start point 122 in the Y-axis direction is determined. In the example of FIG. 5B, the distance L1 in the Y-axis direction between the intermediate point 134A and the end point 123 is longer than the distance L0 in the Y-axis direction between the start point 122 and the end point 123. Since the condition that “the distance L1 or the distance L2 is longer than the distance L0” is satisfied, the control unit 13 determines that the flick operation by the user is a V-flick operation. Then, the control unit 13 causes the user character to jump in the virtual space.

  In the example of FIG. 5B, the locus from the start point 122 to the end point 123 has a local maximum value in the Y-axis positive direction at the middle point 134A. That is, in the trajectory from the start point 122 to the end point 123, the intermediate point 134A is a specific intermediate point at which the distance L1 in the Y-axis direction from the end point 123 is the longest. The control unit 13 adjusts the direction (direction of movement) and the size of the jump in the virtual space of the user character based on the relationship between the specific middle point (the middle point 134A in the example of FIG. 5B) and the end point 123. Do. Here, in the game of this embodiment, the height at which the user character jumps (displacement amount in the Y-axis direction) is constant. Therefore, when the size of the jump changes, the amount of movement of the jumped user character in the X-axis direction (direction orthogonal to the Y-axis direction which is the predetermined direction) changes. First, the control unit 13 sets the direction from the middle point 134A, which is the specific middle point, to the end point 123 as the direction of the jump of the user character. For example, when the end point 123 is obliquely upper right at an angle of 60 ° with respect to the middle point 134A with respect to the middle point 134A, the control unit 13 causes the user character to be Jump in the virtual space to jump diagonally upward to the right at an angle of 60 °. Further, the control unit 13 adjusts the size for moving the user character in accordance with the distance from the middle point 134A, which is the specific middle point, to the end point 123. Therefore, the control unit 13 causes the user character to jump larger as the midpoint 134A and the end point 123 are farther apart. When causing the user character to jump by the V-flick operation, the user can easily adjust the direction and the size of the jump by adjusting the positional relationship between the intermediate point 134A which is the specific intermediate point and the end point 123. The V-flick operation can be treated like a normal flick operation if the specific midpoint is considered as a new start point. Therefore, the user can make the user character jump with intuitive operation. Further, as described above, the control unit 13 determines the normal flick operation and the V-flick operation from the result of the mutual comparison of the distance L0, the distance L1, and the distance L2. Therefore, the load of operation processing is also small, and the control unit 13 can perform the determination processing quickly. Therefore, the present invention is particularly suitable for an action game like this embodiment in which a quick response of the user character is required according to the user's input operation.

(flowchart)
FIG. 6 is a flowchart showing a control method of determining a normal flick operation and a V-flick operation. The control unit 13 acquires input operation data from the storage unit 11 (step S1).

  The control unit 13 acquires the time from the start to the end of the input operation from the input operation data, and determines whether the predetermined time is exceeded (step S2). The predetermined time is, for example, one second. When the time from the start to the end of the input operation exceeds the predetermined time, that is, when the input operation continues even after the predetermined time, the control unit 13 does not perform the flick operation (for example, a swipe operation) This determination is made and the present determination processing is ended (Yes in step S2). When the time from the start to the end of the input operation does not exceed the predetermined time, the control unit 13 determines that the input operation is a flick operation, and proceeds to the process of step S3 (No in step S2).

  The control unit 13 obtains a distance L0 in the Y-axis direction between the start point and the end point, a distance L1 in the Y-axis direction between the middle point and the end point, and a distance L2 in the Y-axis direction between the middle point and the start point from the input operation data. Then, the control unit 13 determines whether the condition “the distance L1 or the distance L2 is longer than the distance L0” is satisfied (step S3). If the condition is satisfied, the control unit 13 determines that the input operation is a V-flick operation, and proceeds to the process of step S4 (Yes in step S3). When the condition is not satisfied, the control unit 13 determines that the input operation is a normal flick operation, and proceeds to the process of step S6 (No in step S3).

  When it is determined that the input operation is a V-flick operation, the control unit 13 detects a specific intermediate point at which the distance L1 in the Y-axis direction to the end point is the longest among the intermediate points. Then, the control unit 13 determines whether the direction from the specific midpoint to the end point is a predetermined direction (step S4). In the game of the present embodiment, the predetermined direction is the direction in which the user character can jump. Specifically, it is “the negative direction of the Y axis” (in the case of the display unit 12 of FIG. 2, the vertical direction of the paper surface). If the Y-axis component of the direction from the specific midpoint to the end point is a negative direction, the control unit 13 proceeds to the process of step S5 (Yes in step S4). If the Y axis component of the direction from the specific midpoint to the end point is not negative, the control unit 13 can not jump the user character, and thus the present determination processing ends (No in step S4).

  The control unit 13 executes the second movement control according to the direction and the distance between the specific midpoint and the end point, when it is determined that the input operation is a V-flick operation and it is determined that the user character can jump. Then (step S5), the present determination processing ends. Here, the second movement control is control for causing the user character to jump in the virtual space. Step S5 corresponds to the second moving step of the present invention.

  When it is determined that the input operation is a normal flick operation, the control unit 13 executes the first movement control (step S6), and ends the present determination processing. Here, the first movement control is control in which the user character is moved stepwise in the virtual space. Step S6 corresponds to the first moving step of the present invention.

  Here, when the control unit 13 determines that the input operation is not a flick operation (for example, a swipe operation) and terminates the present determination processing, the control unit 13 subsequently executes processing for moving the user character along the passage. (See Figure 2).

  As described above, the information processing apparatus 1 according to the present embodiment has two operations (e.g., step movement to the back side) including movement of the user character in a predetermined direction (e.g., Y-axis direction) by the above configuration. It is possible to improve the operability of the game by providing a user interface that can avoid confusion between

  Here, in the game of the present embodiment, normal flick operation and V-flick operation are assigned to two operations including movement in the Y-axis direction on the screen (for example, step movement to the back and jump). There is. That is, in the game of this embodiment, the movement direction of the user character is substantially the same on the game screen viewed by the user, but in the three-dimensional virtual game space, when there is an operation of different types, normal flick operation etc. And different input operations (V flick operations) are assigned to one operation. On the other hand, there is known a game in which different input operations are assigned to each of a number of operations such as, for example, a melee attack on an enemy character, a magic attack, a distant attack, and an avoidance action of an attack on the enemy character. However, such a game forces the user to store the action of the user character corresponding to the individual input operation. Also, if the user does not know the correspondence correctly, the behavior of the user character will not be as intended. In the game according to the present embodiment, V-flick operation is assigned to one of the two motions in which the moving direction of the user character is almost the same on the screen, so memorizing a large number of troublesome input operations for the user is necessary. Absent. In addition, the V-flick operation gives the user the same operation feeling as a normal flick operation when the specific midpoint is considered as a new start point. Therefore, the user can operate intuitively about the game of this embodiment.

  Although the present invention has been described based on the drawings and embodiments, it should be noted that those skilled in the art can easily make various changes and modifications based on the present disclosure. Therefore, it should be noted that these variations and modifications are included in the scope of the present invention. For example, each means, functions included in each step, etc. can be rearranged so as not to be logically contradictory, and it is possible to combine or divide a plurality of means, steps, etc. into one. .

  For example, in the above embodiment, the normal flick operation and the v-flick operation correspond to the step movement and the jump of the user character, respectively, but the correspondence may be reversed. In addition, the game setting screen may allow the user to select an operation of a user character that associates a flick operation and a V-flick operation.

  Also, for example, in the V-flick operation of the above embodiment, an input having a locus having a maximum value in the positive direction of the Y-axis at an intermediate point is used, but instead or together with this, the Y-axis at the intermediate point You may use the input which has a locus | trajectory which takes the local maximum of a negative direction. At this time, for example, the user character may perform an operation of squashing in response to the V-flick operation of the input having a locus taking the local maximum value in the Y-axis negative direction.

  Also, for example, in the V-flick operation of the above embodiment, the predetermined direction is the Y axis, but may be the X axis. At this time, the game is, for example, a racing game, and the user character may advance in the z-axis positive direction of the virtual space and change the course by moving in the x-axis direction. At this time, in the case of an input having a locus having a local maximum value in the X-axis positive direction or the X-axis negative direction at an intermediate point, it may be determined that the operation is a V-flick operation. For example, a normal flick operation may correspond to a course change to the left or right of the user character, and a V flick operation may correspond to an attack (disruption) on an enemy character traveling on the left or right of the user character.

  Also, for example, in the game of the above embodiment, the user character can step move steplessly in the z-axis direction of the virtual space, but the step movement may be a move to an adjacent lane. That is, the game may be a game in which the passage is composed of a plurality of lanes extending in the x-axis direction of the virtual space, and the user character moves on any of the lanes.

  Further, for example, in the above embodiment, the control unit 13 calculates the distances L0, L1, and L2 by calculation and then compares the lengths. However, in the normal flick operation and the determination process of the V flick operation, the values of the coordinates of the start point and the end point in the predetermined direction (Y axis) and the predetermined direction of the coordinates of the intermediate point (Y axis) are not calculated. You may compare with the value of. Referring again to FIG. 5B, the start point 122 and the end point 123 are located in the same direction of the Y axis (in the example of FIG. 5B in the negative direction) with respect to the intermediate point 134A, and the intermediate point 134A. When the start point 122 and the end point 123 are both different, it is possible to determine that the operation is a V-flick operation. For example, it is assumed that the control unit 13 acquires the coordinates (X0, Y0) of the start point, the coordinates (X1, Y1) of the end point, and the coordinates (Xa, Ya) of the middle point. The coordinates of the midpoint are different from the coordinates of the start point and the coordinates of the end point. At this time, when the value Ya of the Y coordinate of the intermediate point is smaller than the value Y0 of the Y coordinate of the start point and the value Y1 of the Y coordinate of the end point, the control unit 13 determines that the operation is a V flick operation. It is also good. At this time, the control unit 13 further reduces the calculation load of the determination process, and the determination can be made earlier.

  Further, for example, in the above embodiment, the display unit 12 includes the first display area 121 and the second display area 120. However, the display section 12 may not be divided into two display areas.

  Further, for example, in the above-described embodiment, the entire display unit 12 is integrated with the operation unit 10 to constitute a touch panel. However, only a part of the display unit 12 (for example, the second display area 120) may be integrated with the operation unit 10 to configure a touch panel.

  Also, for example, in the above embodiment, the operation unit 10 is a touch panel, and generates input operation data using a coordinate system defined on the touch panel. However, the operation unit 10 may generate input operation data from an operation of a virtual pad (for example, a virtual cross key) displayed on the touch panel. That is, the change in coordinates and the middle point may be specified from the direction key touched between the start point when the user's finger touches the virtual pad and the end point when the user's finger touches the virtual pad. Further, the operation unit 10 may be a controller provided with a physical cross key, a joystick, or the like.

  Also, for example, in the game according to the above-described embodiment, the height at which the user character jumps (displacement amount in the Y-axis direction) is constant. Therefore, according to the distance from the specific middle point to the end point of the V-flick operation, the movement distance in the X-axis direction of the jumped user character is adjusted. However, the jumping height may be adjusted instead of the moving distance of the user character in the X-axis direction or along with the moving distance in the X-axis direction by the V-flick operation.

  Further, in the above-described embodiment, a part of the various game screens is displayed on the web based on the data generated by the server device that can communicate with the information processing device 1, and the game screen is displayed. A part of (for example, an area in which a menu button is arranged) may be displayed as a native display displayed by a native application installed in the information processing apparatus 1. As described above, the game according to the above-described embodiment can be a hybrid game in which each of the information processing device 1 and the server device takes part of processing.

Moreover, in order to function as the information processing apparatus 1 according to the above-described embodiment, an apparatus capable of executing information processing, such as a computer or a mobile phone, can be suitably used. Such an apparatus is realized by storing a program in which processing contents for realizing each function of the information processing apparatus 1 according to the embodiment are stored in the storage unit of the apparatus and reading and executing the program by the CPU of the apparatus. It is possible.
In the following, the invention described in the original claim of the original application of the present application is appended.
[1] Display the virtual three-dimensional space in which the character is arranged with a viewpoint of a virtual camera that shoots through the eye, accept the input operation of the user moving the character, and output the input operation data in which the input operation is associated with coordinate information To an information processing apparatus including a touch panel to be selected and a storage unit storing the input operation data,
Acquiring the input operation data from the storage unit;
A first value which is a value of a coordinate in a predetermined direction of a start point at which the input operation is started, and a value of a coordinate of the end in the predetermined direction which is the end of the input operation, based on the input operation data; Acquiring a value of 2 and a third value which is a value of coordinates in the predetermined direction of an intermediate point on the locus from the start point to the end point;
Moving the character in a first direction of the virtual three-dimensional space corresponding to the predetermined direction when the third value is included in a range from the first value to the second value; And the third movement control is performed, and when the third value is not included in the range from the first value to the second value, the virtual tertiary corresponding to the predetermined direction is the character. A moving step of performing second moving control including moving the source space in a second direction different from the first direction.
[2] The program according to [1], wherein the moving step is not performed when the time from the start to the end of the input operation exceeds a predetermined time.
[3] In the moving step,
In the locus from the start point to the end point, a middle point having the third value at which the difference with the second value is largest is a specific middle point, and the third value is from the first value. Moving the character from the specific middle point on the display of the touch panel to the direction of the virtual three-dimensional space corresponding to the direction of the end point, when not included in the range up to the second value, [1] Or the program described in [2].
[4] In the moving step,
If the third value is not included in the range from the first value to the second value, the size for moving the character is adjusted according to the distance from the specific midpoint to the end point The program described in [3].
[5] The adjustment of the size is the adjustment of the movement amount of the character in the direction of the virtual three-dimensional space corresponding to the direction orthogonal to the predetermined direction on the display of the touch panel, as described in [4]. Programs.
[6] The program according to any one of [3] to [5], wherein the moving step is not performed when the direction from the specific middle point to the end point is not a predetermined direction.
[7] The first movement control corresponds to the step movement of the character in the first direction in the virtual three-dimensional space,
The second movement control corresponds to a jump in the second direction orthogonal to the first direction in the virtual three-dimensional space of the character according to any one of claims 1 to 6, program.
[8] Display the virtual three-dimensional space in which the character is arranged with a viewpoint of a virtual camera that shoots through the eye, accept the input operation of the user moving the character, and output the input operation data in which the input operation is associated with coordinate information A control method of a game executed by an information processing apparatus, comprising: a touch panel to be selected; and a storage unit storing the input operation data,
Acquiring the input operation data from the storage unit;
A first value which is a value of a coordinate in a predetermined direction of a start point at which the input operation is started, and a value of a coordinate of the end in the predetermined direction which is the end of the input operation, based on the input operation data; Acquiring a value of 2 and a third value which is a value of coordinates in the predetermined direction of an intermediate point on the locus from the start point to the end point;
Moving the character in a first direction of the virtual three-dimensional space corresponding to the predetermined direction when the third value is included in a range from the first value to the second value; And the third movement control is performed, and when the third value is not included in the range from the first value to the second value, the virtual tertiary corresponding to the predetermined direction is the character. Performing a second movement control that includes moving the source space in a second direction different from the first direction.
[9] Display the virtual three-dimensional space in which the character is arranged with a viewpoint of a virtual camera that projects the image, accept the input operation of the user moving the character, and output the input operation data in which the input operation is associated with the coordinate information Touch panel, and
A storage unit storing the input operation data;
And a control unit,
The control unit
Acquiring the input operation data from the storage unit;
A first value which is a value of a coordinate in a predetermined direction of a start point at which the input operation is started, and a value of a coordinate of the end in the predetermined direction which is the end of the input operation, based on the input operation data; Acquiring a value of 2 and a third value which is a value of coordinates in the predetermined direction of an intermediate point on the locus from the start point to the end point,
Moving the character in a first direction of the virtual three-dimensional space corresponding to the predetermined direction when the third value is included in a range from the first value to the second value; And the third movement control is performed, and when the third value is not included in the range from the first value to the second value, the virtual tertiary corresponding to the predetermined direction is the character. An information processing apparatus that performs second movement control that includes moving a source space in a second direction different from the first direction.

DESCRIPTION OF SYMBOLS 1 information processing apparatus 10 operation part 11 storage part 12 display part 13 control part 120 2nd display area 121 1st display area 122 start point 123 end point 124 locus 134 middle point 134A middle point (specific middle point)

Claims (12)

A display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and an operation unit that constitutes a touch panel integrated with the display unit and receives an input operation of a user A control unit to be displayed on the display unit;
The first virtual axis and the second virtual axis among the first virtual axis, the second virtual axis, and the third virtual axis of the virtual three-dimensional space are made to correspond to the first axis and the second axis of the display unit A display control unit that displays the object in a state of looking over the object from a predetermined eyebrow position;
A determination unit that determines whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation;
When the determination unit determines that the input operation is the first input operation, the object is moved in a moving direction including a direction parallel to the third virtual axis in the virtual three-dimensional space. A first movement control unit performing first movement control;
When the determination unit determines that the input operation is the second input operation, the object is moved in a movement direction not including a direction parallel to the third virtual axis in the virtual three-dimensional space Function as a second movement control unit that performs a second movement control to
The determination unit determines that the input locus is the second input operation when it is determined that the input locus is a V-shaped input locus, and the input locus is not a V-shaped input locus It is determined that the input trajectory is the first input operation when it is determined that the display control program. A display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and an operation unit that constitutes a touch panel integrated with the display unit and receives an input operation of a user A control unit to be displayed on the display unit;
The first virtual axis and the second virtual axis among the first virtual axis, the second virtual axis, and the third virtual axis of the virtual three-dimensional space are made to correspond to the first axis and the second axis of the display unit A display control unit that displays the object in a state of looking over the object from a predetermined eyebrow position;
A determination unit that determines whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation;
When the determination unit determines that the input operation is the first input operation, the object is moved in a moving direction including a direction parallel to the third virtual axis in the virtual three-dimensional space. A first movement control unit performing first movement control;
When the determination unit determines that the input operation is the second input operation, the object is moved in a movement direction not including a direction parallel to the third virtual axis in the virtual three-dimensional space Function as a second movement control unit that performs a second movement control to
The determination unit determines the second axis from the midpoint between the start point and the end point to the end point, based on the distance along the second axis from the start point at which the input operation is started to the end point at which the input operation is ended. When the distance along and the distance from the middle point to the start point along the second axis are short, it is determined that the input trajectory is the first input operation, and from the start point at which the input operation is started The distance along the second axis from the midpoint between the start point and the end point to the end point, or from the midpoint to the start point, rather than the distance along the second axis to the end point ended A display control program that determines that the input operation is the second input operation when the distance along the second axis is long.   The display control program according to claim 1 or 2, wherein the first movement control and the second movement control are executed only when the time from the start to the end of the input operation is within a predetermined time. In the second movement control,
An intermediate point at which the distance along the second axis direction from the end point of the input locus is the longest on the input locus is a specific intermediate point, and the object is determined to be the specific intermediate point in the display of the display unit The display control program according to any one of claims 1 to 3, wherein the direction of the end point is the direction of movement of the object. In the second movement control,
The display control program according to any one of claims 1 to 4, wherein a movement amount for moving the object is adjusted according to a distance from an intermediate point of the input trajectory to an end point of the input trajectory. The movement amount of the object in the direction parallel to the second virtual axis is constant, and the adjustment of the movement amount is adjustment of the movement amount in the direction parallel to the first virtual axis. Display control program. The first movement control corresponds to the step movement of the object in the virtual three-dimensional space in the direction of the third virtual axis,
The display control program according to any one of claims 1 to 6, wherein the second movement control corresponds to a jump of the object in the virtual three-dimensional space in the direction of the second virtual axis. The first movement control corresponds to a course change in the virtual three-dimensional space of the object in the direction of the third virtual axis,
The display control program according to any one of claims 1 to 6, wherein the second movement control corresponds to an attack on the opponent of the object. A display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and an operation unit that constitutes a touch panel integrated with the display unit and receives an input operation of a user The control unit displayed on the display unit is
The first virtual axis and the second virtual axis among the first virtual axis, the second virtual axis, and the third virtual axis of the virtual three-dimensional space are made to correspond to the first axis and the second axis of the display unit And displaying the object in a state of looking over the object from a predetermined eyebrow position on the display unit;
Determining whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation;
A first movement control for moving the object in a movement direction including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the input operation is the first input operation; The steps to be taken,
Second movement control for moving the object in a movement direction not including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the input operation is the second input operation Do the steps, and
The determining step determines that the input locus is the second input operation when it is determined that the input locus is a V-shaped input locus, and the input locus is a V-shaped input locus It is determined that the input locus is the first input operation when it is determined not to be present. A display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and an operation unit that constitutes a touch panel integrated with the display unit and receives an input operation of a user The control unit displayed on the display unit is
The first virtual axis and the second virtual axis among the first virtual axis, the second virtual axis, and the third virtual axis of the virtual three-dimensional space are made to correspond to the first axis and the second axis of the display unit And displaying the object in a state of looking over the object from a predetermined eyebrow position on the display unit;
Determining whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation;
A first movement control for moving the object in a movement direction including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the input operation is the first input operation; The steps to be taken,
Second movement control for moving the object in a movement direction not including a direction parallel to the third virtual axis of the virtual three-dimensional space when it is determined that the input operation is the second input operation Do the steps, and
In the determining step, the second axis from the intermediate point to the end point between the start point and the end point than the distance along the second axis from the start point to the end point where the input operation is started When it is determined that the input trajectory is the first input operation and the distance from the intermediate point to the start point is short, the start point at which the input operation is started The distance from the midpoint between the start point and the end point to the end point, or the distance from the midpoint to the end point rather than the distance along the second axis from the end point to the end point It is determined that the input operation is the second input operation when the distance along the second axis up to the point is long. A display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and an operation unit that constitutes a touch panel integrated with the display unit and receives an input operation of a user A display control system for displaying on the display unit;
The first virtual axis and the second virtual axis among the first virtual axis, the second virtual axis, and the third virtual axis of the virtual three-dimensional space are made to correspond to the first axis and the second axis of the display unit A display control unit that displays the object in a state of looking over the object from a predetermined eyebrow position;
A determination unit that determines whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation;
When the determination unit determines that the input operation is the first input operation, the object is moved in a moving direction including a direction parallel to the third virtual axis in the virtual three-dimensional space. A first movement control unit performing first movement control;
When the determination unit determines that the input operation is the second input operation, the object is moved in a movement direction not including a direction parallel to the third virtual axis in the virtual three-dimensional space And a second movement control unit for performing a second movement control to
The determination unit determines that the input locus is the second input operation when it is determined that the input locus is a V-shaped input locus, and the input locus is not a V-shaped input locus It determines with the said input locus being said 1st input operation, when it judges with. A display control system. A display unit for displaying an image of a virtual three-dimensional space including an object on a two-dimensional screen, and an operation unit that constitutes a touch panel integrated with the display unit and receives an input operation of a user A display control system for displaying on the display unit;
The first virtual axis and the second virtual axis among the first virtual axis, the second virtual axis, and the third virtual axis of the virtual three-dimensional space are made to correspond to the first axis and the second axis of the display unit A display control unit that displays the object in a state of looking over the object from a predetermined eyebrow position;
A determination unit that determines whether the input operation is a first input operation or a second input operation based on an input trajectory by the input operation;
When the determination unit determines that the input operation is the first input operation, the object is moved in a moving direction including a direction parallel to the third virtual axis in the virtual three-dimensional space. A first movement control unit performing first movement control;
When the determination unit determines that the input operation is the second input operation, the object is moved in a movement direction not including a direction parallel to the third virtual axis in the virtual three-dimensional space And a second movement control unit for performing a second movement control to
The determination unit determines the second axis from the midpoint between the start point and the end point to the end point, based on the distance along the second axis from the start point at which the input operation is started to the end point at which the input operation is ended. When the distance along and the distance from the middle point to the start point along the second axis are short, it is determined that the input trajectory is the first input operation, and from the start point at which the input operation is started The distance along the second axis from the midpoint between the start point and the end point to the end point, or from the midpoint to the start point, rather than the distance along the second axis to the end point ended A display control system that determines that the input operation is the second input operation when the distance along the second axis is long.