JP2019063090A - Computer program and game device - Google Patents

Abstract

To achieve activation of an overall game, enhance feelings of tension and excitation of a player, and increase amusement properties.SOLUTION: A computer program includes: an ally character behavior control part 38 and an enemy character behavior control part 39 for controlling a player's base, and behaviors of an ally character and an enemy character; a player's base moving part 32 for moving the player's base according to an operation of the player; a defeat processing part 37 for causing a player side to be in a defeated state in a game when parameters that change when the player's base suffers damage become a preset value, and a magic square performance part 35 for executing a performance to generate an effect advantageous to the player based on a status in a region associated with the player's base.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a computer program of a game and a game device.

  Conventionally, it is a kind of "real-time strategy" and intercepts an enemy character coming to the base of the player and protects the base by dispatching a character or setting up an artillery while protecting the base of the player. A so-called "tower defense game" to be aimed is known. There is also a game that aims at the fall of the enemy base in the derivative system (Non-Patent Document 1 etc.).

Author unknown, "Nyanko great war", [online], publication date unknown, Ponosu Inc., [August 28, 2017 search], Internet <URL: https://www.ponos.jp/games/thebattlecats/ 〉

  In a game like Non-Patent Document 1, the position of the base is generally fixed, and the above development is easy to predict because the attack means is likely to develop the physical quantity of characters to be dispatched and the pushing force by parameter reinforcement. Because the player's base is in a relatively safe position and the management elements of the character are also limited, there is a limit to the tension and excitement felt by the player.

  Therefore, an object of the present invention is to solve the above-mentioned problems, to activate the whole game, to increase the player's sense of tension and excitement, and to increase interest.

  In order to solve the problem, a first aspect of the present invention is a computer program which causes a computer to execute a game in which an enemy character attacks an own base protected by a player and the ally character intercepts and attacks the enemy character. Changes when the base receives damage, the action processing means for controlling the action of the base, the ally character, and the enemy character, the movement processing means for moving the base according to the operation of the player, and When the first parameter to be set reaches a preset value, an advantageous effect is generated for the player based on the game progress processing means for making the player side in a defeat state in the game and the situation in the area associated with the own base. And a computer program having effect processing means for performing an effect to be caused.

  In the second aspect of the present invention, it is preferable that the effect processing means changes an action relating to attack and defense of the character entering the area so as to be advantageous to the player.

  In the third aspect of the present invention, it is preferable that the effect processing means changes a second parameter that changes due to the offense and defense of the ally character entering the area.

  In the fourth aspect of the present invention, the effect processing means causes the ally character to damage the enemy character when the ally character entering the area does not damage the enemy character. It is preferable to make it larger.

  In the fifth aspect of the present invention, it is preferable that the effect processing means changes a third parameter that changes in the attack and defense of the enemy character that has entered the area.

  In the sixth aspect of the present invention, it is preferable that the game machine further includes an assortment processing means for causing a plurality of the ally characters to be dispatched from the own base in response to the operation of the player.

  In the seventh aspect of the present invention, it is preferable that the effect processing means causes the teammate character to activate a special battle action set in advance according to the operation of the player.

  In the eighth aspect of the present invention, the behavior control means dispatches an index indicating that the ally character is capable of dispatching either when time has elapsed or when a preset condition is satisfied. It is preferable to change in the possible direction.

  According to a ninth aspect of the present invention, there is provided a game apparatus for executing a game in which an enemy character attacks an own base protected by a player and the ally character intercepts and attacks the enemy character. The action processing means for controlling the action of the own base, the ally character, and the enemy character, the movement processing means for moving the own base according to the operation of the player, and the change when the own base receives damage When one parameter reaches a preset value, an effect that produces an advantageous effect for the player based on the game progress processing means that brings the player to defeat in the game and the situation in the area associated with the own base And an effect processing means for performing the process.

  According to the first and ninth aspects of the present invention, by moving the own base which is the defense target, the attack of the enemy character to the own base is avoided, or the own base is moved to a position where the enemy character is not attacked While moving the area corresponding to the own base to change the situation in the area to generate an advantageous effect for the player, and making the own base an important defensive goal while becoming an important defensive goal Can be compatible. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

  According to the second aspect of the present invention, it is possible to further enhance the interest of the game by changing the action related to the offense and defense of the character entering the area associated with the own base so as to be advantageous to the player. .

  According to the third aspect of the present invention, by changing the second parameter that changes due to the offense and defense of the ally character entering the area associated with the own base, the ally character enters the area associated with the own base Because the situation of the offense and defense changes, it is possible to further enhance the interest of the game.

  According to the fourth aspect of the present invention, the damage given to the enemy character by the ally character in the area associated with the own base is less than the damage given to the enemy character by the ally character when not in the area. By increasing the size, the attack and defense status of the teammate character that has entered the area associated with the own base changes, so it is possible to further enhance the interest of the game.

  According to the fifth aspect of the present invention, by changing the third parameter that changes due to the attack and defense of the enemy character that entered the area associated with the own base, the enemy character entered the area associated with the own base Because the situation of the offense and defense changes, it is possible to further enhance the interest of the game.

  According to the sixth aspect of the present invention, a plurality of ally characters can be dispatched from the own base in response to the operation of the player, whereby dispatch and instructions of the plurality of ally characters influence the development of the game. As a result, it is possible to enhance the player's sense of tension and excitement and to further enhance the interest of the game.

  According to the seventh aspect of the present invention, by causing the teammate character to activate the special battle action set in advance in accordance with the operation of the player, the player is set in advance at a timing considered to be advantageous to the offense and defense. It is possible to activate special combat action. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

  According to the eighth aspect of the present invention, an index indicating that the teammate character can be dispatched can be dispatched in a direction in which it can be dispatched more by either the passage of time or the satisfaction of the preset condition. By changing it, the player can dispatch the ally character at a timing considered to be advantageous to the offensive and defensive, while looking at an index indicating that the ally character displayed on the screen can be dispatched. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

FIG. 1 is a diagram showing an example of the configuration of a game device. FIG. 2 is a view showing an example of the appearance of the game apparatus. FIG. 3 is a diagram showing an example of the configuration of an online game system including a game device. FIG. 4 is a view showing a screen display example of the game. FIG. 5 is a block diagram showing an exemplary configuration of the processing unit. FIG. 6 is a flow chart showing an example of the base transfer process. FIG. 7 is a diagram showing an example of screen display when the front side of the own base is touched with a finger. FIG. 8 is a diagram showing an example of screen display when the back side of the own base is touched with a finger. FIG. 9 is a flowchart showing an example of the arrangement production process. FIG. 10 is a view showing an example of the screen display of the teammate character in a state where it can be dispatched. FIG. 11 is a diagram showing a screen display example in which an ally ground character dispatches from its own base FIG. 12 is a flowchart showing an example of the emission and firing effect processing. FIG. 13 is a view showing a screen display example of the cannon and the post-launch flight trajectory when the finger touch position is slid in the backward direction of the cannon. FIG. 14 is a view showing an example screen display of the cannon and the post-launch flight trajectory when the finger touch position is slid downward. FIG. 15 is a flow chart showing an example of the magic effect production process. FIG. 16 is a flowchart showing an example of the special move effect rendering process. FIG. 17 is a diagram showing an example of a screen display waiting for the activation of the special move. FIG. 18 is a flowchart showing an example of the defeat process. FIG. 19 is a diagram showing a screen display example of a battery which is disposed apart from the own base and moves in conjunction with the movement of the own base.

  Embodiments of the present invention will be described with reference to the drawings. The following embodiments are exemplifications for describing the present invention, and there is no intention to limit the present invention to only the embodiments. In addition, the present invention can be variously modified without departing from the scope of the invention.

  In the present embodiment, a game device is mentioned. The game devices are various computer game machines such as video game machines, portable game machines, arcade game machines, personal computers and the like. Hereinafter, a case where a portable game machine, in particular a mobile phone functions as a game apparatus by executing a game program, will be described as an example.

(Constitution)
FIG. 1 is a diagram showing an example of the configuration of the game apparatus 1.
As shown in FIG. 1, the game apparatus 1 includes a mobile communication unit 2, an Internet communication unit 3, a touch panel 10, a speaker 4, a microphone 5, a camera 6, an external interface 7 such as an audio output terminal, a storage unit 20, and processing. It has a part 30.

FIG. 2 is a view showing an example of the appearance of the game apparatus 1.
As shown in FIG. 2, the game apparatus 1 has a rectangular thin case 1a, and the touch panel 10 is disposed to occupy the entire surface (front) 1a1 of the case 1a. Further, the speaker 4 and the microphone 5 are provided on the surface 1a1 of the housing 1a on which the touch panel 10 is disposed. In addition, the external interface 7 and the like are provided on the side surface and the bottom surface (not shown) of the housing 1a. In addition, the camera 6 is provided on the back surface (not shown) of the housing 1a.

In the configuration as described above, the mobile communication unit 2 functions as performing telephone communication. The Internet communication unit 3 functions as performing communication with an external communication apparatus such as a server apparatus via an Internet line in a wired or wireless manner.
The touch panel 10 has the functions of both a display device and an input device. Therefore, as shown in FIG. 1, the touch panel 10 includes an image display unit (display screen) 11 that has an image display function on the touch panel 10 and a contact detection unit 12 that has an information input function on the touch panel 10. The image display unit 11 is configured of, for example, a general display device such as a liquid crystal image display unit or an organic EL (Electro Luminescence) image display unit. The contact detection unit 12 is configured to include an element disposed on the upper surface of the image display unit 11 for detecting a touch operation and a transparent operation surface stacked thereon. As a contact detection method of the contact detection unit 12, a general method such as an electrostatic capacitance type, a resistance film type (pressure-sensitive type), an electromagnetic induction type, or the like can be adopted.

  The touch panel 10 displays a game image when executing a game. In addition, the touch panel 10 detects an operation of a touch object (including a finger of a player, a touch pen, and the like; hereinafter, a representative example of the touch object will be described as a finger) touching the operation surface. Then, the information on the contact position is transmitted to the processing unit 30. The movement of the finger is detected as coordinate information indicating the position or area of the touch point, and the coordinate information is expressed as, for example, coordinate values on two axes in the short side direction and the long side direction of the touch panel 10.

  The storage unit 20 is, for example, a read only memory (ROM), a random access memory (RAM), or the like. In the present embodiment, the game program 21 is stored in the storage unit 20. The processing unit 30 executes various processes in the game device 1. The processing unit 30 includes, for example, a microcomputer and its peripheral circuits, and is configured of, for example, a CPU, a ROM, a RAM, and the like. One or more programs are stored in the ROM. The CPU executes various processes in accordance with one or more programs stored in the ROM. Then, the processing unit 30 executes various processes according to various data and various programs stored in the storage unit 20 as necessary.

FIG. 3 is a view showing a configuration example of the online game system 100 including the game apparatus 1.
As shown in FIG. 3, the game device 1 is configured such that various games are provided online from the server device 200, and constitutes a part of the online game system 100. Here, the server apparatus 200 collects play data such as a game executed on the game apparatus 1 via a network such as the Internet line 300, and stores and manages the play data, etc. Act as a server that

  In the online game system 100, by managing and providing play data corresponding to a plurality of types of game programs, it is possible to provide the player with fun as if playing various games of the game center. It is possible. Therefore, in the present embodiment, the game program 21 may be stored in the storage unit 20 as described above, or the server apparatus 200 may provide the game function online. Below, the case where it runs in the state where game program 21 is installed in game device 1 is explained.

(Game summary)
A game outline realized by the game apparatus 1 according to the present embodiment executing the game program 21 is as follows.
The game according to the present embodiment is a game in which an enemy character is attacked by an ally character (also referred to as a play character or a self character) whose player operates an action.

In this game, in the game space, a plurality of enemy characters attacking and attacking a plurality of enemy characters attacking the own base protected by the player by a plurality of ally characters the player manipulates.
In the game according to the present embodiment, a part of the own base has a battery which can be moved with a part of the turret, and an ally character protecting the own base is fired from a cannon of its own base and sent out to intercept and attack the enemy character. It consists of an ally character (hereinafter referred to as an ally flight character), and a plurality of ally characters (hereinafter referred to as an ally ground character) which move from the own base, walk on the ground to move, intercept and attack the ground.

FIG. 4 is a view showing a screen display example of the game.
In the screen display example shown in FIG. 4, a plurality of enemy characters (enemy zako characters) 2010A and 2010B are moving in order for the friendly flight character 1010 and the friendly ground characters 1020A, 1020B, 1020C and 1020D to attack their own base 1000. Attacks the enemy boss character 2000 while intercepting,. This screen display example is an example in which allied ground characters 1020A, 1020B, and 1020C intercept each other.

  In the following description, when a particular ally ground character among ally ground characters 1020A, 1020B, 1020C, 1020D is not meant, it is referred to as ally ground character 1020, and when a particular ally ground character is meant, A specific allied ground character 1020A, 1020B, 1020C, 1020D is written. Further, when a particular ally character among the ally flight character 1010 and the ally ground characters 1020A, 1020B, 1020C, and 1020D is not meant, the ally character is described. Moreover, when not meaning a specific enemy character among enemy characters 2010A, 2010B,..., It is written as an enemy character 2010, while, when meaning a specific enemy character, a specific enemy character 2010A, 2010B,. · · · · Write one.

Here, as shown in FIG. 4, the allied flight character 1010 is displayed at the lower left end of the screen and allied ground characters 1020A, 1020B, 1020C, and 1020D are displayed on the right side thereof as an allied character capable of dispatch. .
In addition, a endurance value gauge 1060 indicating the endurance value of the own site 1000 is set. Further, a endurance value gauge 2060 indicating an endurance value of the enemy boss character 2000 is also set. The endurance value decreases when the opponent's attack causes damage, and accordingly, the endurance gauges 1060 and 2060 shorten in length. In this example, each of the endurance value gauges 1060 and 2060 is displayed on the own base 1000 and the enemy boss character 2000, respectively.

  In the game, when the remaining amount of the endurance value gauge 1060 set in the own base 1000 becomes 0, the own base 1000 is destroyed, and the player side is defeated in this game stage. On the other hand, when the remaining amount of the endurance value gauge 2060 set in the enemy boss character 2000 becomes 0, the enemy boss character 2000 is destroyed, and the enemy side is defeated on this game stage.

The same processing can also be performed by using other kinds of parameters instead of the parameter such as the endurance value.
In addition, a parameter change area 1006 is formed at the foot of the own base 1000. In this example, the parameter change area 1006 is formed as a circular area centered on the own site 1000, and is drawn as a magic circle designed with a specific pattern. In the following description, the parameter change area 1006 is also referred to as a magic area 1006.

In the game, when the ally character steps into the magic circle area 1006, an effect of strengthening parameters (varying change parameters) of the ally character working in favor of the player occurs. For example, damage occurs when an ally character in the magic area 1006 attacks an enemy character.
Furthermore, on the screen, dispatch costs 1030, 1031, 1032, 1033, 1034, and costs available for dispatch (for example, cost and energy) 1040 for dispatch of the friendly flight character 1010 and friendly ground characters 1020A, 1020B, 1020C, 1020D, respectively. And the available energy 1050 is displayed at the available cost 1040. In the present embodiment, the dispatch costs 1030 to 1034 are displayed at the upper right of the display portions of the friendly flight character 1010 and the friendly ground characters 1020A, 1020B, 1020C, and 1020D, respectively. Also, available costs 1040 and refillable energy 1050 are displayed above the friendly flight character 1010. Moreover, the energy 1050 which can be replenished is displayed as a quantity of multiple types of objects 1050A, 1050B, 1050C,.

Here, the ally character is limited due to available cost and the like, and fights against the enemy in the limitation. On the other hand, as time goes by, the cost of dispatch is replenished.
By this, if the available cost 1040 is higher than the dispatch cost 1030-1034, it is possible to cause the allied character having the dispatch cost 1030-1034 to be dispatched by touching it with a finger on the screen. Also, by tapping the refillable energy 1050 (for example, the “CHARGE” portion) with the finger on the screen, the refillable energy 1050 can be refilled or converted into the available cost 1040. For example, the energy that can be replenished 1050 automatically increases at intervals of several seconds for a preset time, specifically, in the form of replenishing a new object.

  In such a screen, when an ally character that can be dispatched among the ally flight character 1010 and the ally ground characters 1020A, 1020B, 1020C, and 1020D is touched with a finger, the ally character is dispatched. This screen display example is an example in which the allied ground characters 1020A, 1020B, and 1020C have already been touched by a finger and have already dispatched from the base 1000.

  In addition, a durability value gauge indicating a durability value is set for the friendly flight character 1010 and the friendly ground characters 1020A, 1020B, 1020C, and 1020D that are dispatched. The endurance value decreases as damage is caused by the opponent's attack, and the length of the endurance gauge decreases accordingly. For example, the endurance value gauge is displayed on the dispatched character. In the screen display example shown in FIG. 4, the endurance value gauges 1070A, 1070B, and 1070C are displayed on the displayed allied ground characters 1020A, 1020B, and 1020C.

In the game, when the remaining amount of the durability value gauge set for the ally character becomes 0, the ally character is exhausted and is automatically repatriated to its own base 1000. That is, the teammate character is again in the state of waiting for launch.
The same processing can also be performed by using other kinds of parameters instead of the parameter such as the endurance value.

In addition, in the game, when the preset requirements are satisfied, the special character is activated to the allied character. For example, when a plurality of objects of the same type are replenished in the replenishable energy 1050, an ally character associated with the type of the object activates an attack or a special effect with a special move. As a result, when an allied character in dispatch is touched with a finger, the allied character activates a special move.
Hereinafter, the details of the configuration of the processing unit 30 and various processes related to the effects will be described.

(Specific example of processing unit)
FIG. 5 is a block diagram showing a configuration example of the processing unit 30. As shown in FIG.
As shown in FIG. 5, the processing unit 30 includes a game control unit 31, a base movement unit 32, a part-off effect unit 33, an ejection effect effect unit 34, a magic force effect unit 35, a special move effect unit 36 and a defeat processing unit 37. The teammate character action control unit 38, the enemy character action control unit 39, the time management unit 40, the contact detection processing unit 41, the image display processing unit 42, and the voice output processing unit 43.

  Here, the game control unit 31 starts the game and centrally controls the progress of the game. In addition, the base moving unit 32 executes base moving process of moving the base 1000 according to the operation of the player. Further, the parting effect unit 33 executes a parting effect processing for causing the allied flight character 1010 and the allied ground character 1020 to be dispatched. In addition, the emission and shooting assemblage unit 34 executes an emission and assembling rendering process that causes the friendly flight character 1010 to be dispatched from its own base 1000. In addition, the magic force production unit 35 executes magic force production processing to increase damage when an ally character in the magic force area 1006 attacks an enemy character. In addition, the special move effect presentation unit 36 executes a special move presentation process for causing the teammate character to activate the special move technique. In addition, the defeat processing unit 37 executes a defeat process on the player side. Further, the teammate character behavior control unit 38 controls and processes each movement, such as movement, attack, and defense, of each teammate character including the own base 1000. The enemy character action control unit 39 also controls movement, attack, and defense actions of each of the enemy characters 2010 including the enemy boss character 2000. In addition, the time management unit 40 manages that the time in the game always progresses (also referred to as real time). In this way, the game progresses simultaneously in real time, not a game that progresses one by one like shogi or alternates with the enemy. In addition, the touch detection processing unit 41 receives a signal from the touch detection unit 12 that has detected a touch of a finger on the touch panel 10 (hereinafter, also referred to as a screen), and cooperates with the respective units configuring the processing unit 30. In operation, a process of detecting the contact state of the finger on the touch panel 10 during the process of the respective units is performed. Further, the image display processing unit 42 executes a process of displaying an image on a screen based on the processing result of each of the units constituting the processing unit 30. Further, the audio output processing unit 43 executes a process of outputting an audio based on the above-described units constituting the processing unit 30. Then, each of these units executes each process at a predetermined processing time interval and simultaneously and in parallel with other processes. In the following, details of the own base moving process, the assortment effect process, the shooting and shooting effect process, the magic force effect process, the special move effect process, and the defeat process, which are the features of the present embodiment, will be described.

FIG. 6 is a flow chart showing an example of the base transfer process.
As shown in FIG. 6, in the process of step S1, the self-location moving unit 32 determines whether a touch of a finger is detected in the front-rear direction (left-right direction) of the self-location 1000 on the screen. When the own base moving unit 32 detects the touch of the finger in the front-rear direction of the own base 1000 on the screen, the process proceeds to step S2.

As the process of step S2, the own base moving unit 32 displays an arrow in the moving direction of the own base 1000 on the side of the screen touched by the finger in the front-rear direction of the own base 1000.
As the process of the subsequent step S3, the own base moving unit 32 performs display to move the own base 1000 to the side touched with the finger in the front-rear direction of the own base 1000 on the screen. For example, the own site 1000 moves by moving a foot. Then, the base moving unit 32 returns to the process of step S1 and continues the process.

  When the own base moving unit 32 detects a finger touch in the front-rear direction of the own base 1000 on the screen, for example, the own base movement processing as described above causes the screen to be touched with a finger in the front-rear direction of the own base 1000 An arrow pointing in the direction is displayed on the displayed side, and an own base 1000 moving in the direction is displayed. By this, for example, as long as the finger is touched, such an arrow and the movement of the self base 1000 continue to be displayed on the screen.

FIG. 7 is a diagram showing an example of a screen display when the front side of the own base 1000 is touched with a finger 4000, and FIG. 8 shows an example of a screen display when a rear side of the own base 1000 is touched with a finger 4000. FIG.
As shown in FIG. 7, when the front side of the own base 1000 is touched with a finger 4000, an arrow 3001 facing forward is displayed on the front side of the own base 1000 and moves forward. The own base 1000 is displayed.
As shown in FIG. 8, when the back side of the own base 1000 is touched with a finger 4000, an arrow 3002 pointing backward is displayed on the back side of the own base 1000 on the screen and moved backward. The own base 1000 to be displayed is displayed.

FIG. 9 is a flowchart showing an example of the arrangement production process.
As shown in FIG. 9, in the process of step S21, the parting effect part 33 determines whether or not an operation to dispatch the allied flight character 1010 and the allied ground character 1020 has been performed. Specifically, when the teammate effect unit 33 touches an ally character in a state where it can fire, it is determined that an operation to dispatch the ally character is performed. When the parting effect unit 33 determines that the operation for causing the ally character to be parted is performed, the processing proceeds to step S22. Here, an ally character that is ready to be dispatched is an ally character that has not been dispatched to the battlefield and that has a sufficient cost.

FIG. 10 is a view showing an example of the screen display of the teammate character in a state where it can be dispatched.
As shown in FIG. 10, highlight display is turned on in a display area 1038 in a predetermined range including an ally character in the state capable of dispatching, in this example, the ally ground character 1020C. On the other hand, the highlight display of each of the display areas 1035, 1036, 1037, and 1039 in a predetermined range including the ally characters which are not ready to be dispatched, in this example, the ally flight character 1010 and the ally ground characters 1020A, 1020B and 1020D, is turned off. There is. In this example, since the friendly flight character 1010 and the friendly ground characters 1020A and 1020D have insufficient cost, the highlight display is turned off so that they can not select the assault, and the friendly ground character 1020B is on the battlefield. Because of that, the highlight display is turned off so that you can not select the dispatch. As described above, when an ally character in a state capable of being dispatched in the screen is touched with a finger, the sequence rendering unit 33 determines that an operation of causing the ally character touched is made to be dispatched.

  In the process of step S22, the parting effect part 33 determines whether or not an operation to cause the allied ground character 1020 to be parted is performed. When it is determined that the operation for causing the allied ground character 1020 to be dispatched is performed, the parting effect unit 33 proceeds to step S23. On the other hand, if it is determined that an operation for dispatching an ally character that is not ally ground character 1020, ie, ally flight character 1010, has been performed, then the parting effect unit 33 proceeds to step S24.

In the process of step S23, the parting effect part 33 performs a display for causing the allied ground character 1020 subjected to the parting operation to be parted from the own base station 1000.
FIG. 11 is a view showing a screen display example in which the allied ground character 1020C dispatches from its own base 1000. As shown in FIG. As shown in FIG. 11, a part of the side surface of the self-location base 1000 is opened, and the friendly ground character 1020C appears from the opened portion 1002. Thereafter, the allied ground character 1020C is controlled by the allied character action control unit 38 to perform actions such as movement, attack, defense, etc., and a display corresponding thereto is made.

  On the other hand, in the process of step S24, the parting effect part 33 causes the friendly flight character 1010 to be dispatched from its own base 1000. By the process of step S24, the friendly flight character 1010 is stored in its own base 1000. Then, the processing for actually dispatching the ally flight character 1010 from the own base station 1000 is the ejection and emission presentation processing which will be described in detail later.

As a result of the above-described sort-to-order effect processing, the sort-to-place effect unit 33 causes each of the side flight characters 1010 and 1020 to emit fire in accordance with the sort operation operations.
FIG. 12 is a flowchart showing an example of the emission and firing effect processing.
As shown in FIG. 12, in the process of step S <b> 41, the emitting and shooting effect presentation unit 34 determines whether or not the friendly flight character 1010 is stored in its own base 1000. When the emission and presentation effect determination unit 34 determines that the friendly flight character 1010 is stored in the base 1000, the process proceeds to step S42. If the process of step S24 has already been executed, the emission and presentation effect unit 34 proceeds to the process of step S42 because the friendly flight character 1010 is in the state of being stored in its own base 1000.

  As the process of step S42, the emission and shooting assemblage unit 34 determines whether or not the pulling operation on the cannon 1001 of the own base 1000 has been detected. Here, the operation to pull the cannon 1001 of the own base 1000 is an operation where the cannon 1001 itself of the own base 1000 or the area behind the cannon 1001 is touched with a finger and the finger slides toward the rear of the cannon 1001 as it is It is. If it is determined that the pulling operation on the cannon 1001 of the self-location base 1000 has been detected, the ejection and presentation effect unit 34 proceeds to the process of step S43. On the other hand, when it is determined that the ejection operation of the cannon 1001 of the self-location base 1000 is not detected, the ejection and emission effect production unit 34 ends the ejection and injection shooting effect processing.

As the process of step S43, the emission and emission as-is effect unit 34 detects the displacement component and the displacement amount of the sliding movement of the finger in the pulling operation detected in the process of step S42.
Subsequently, as the process of step S44, the emitting and shooting effect presentation unit 34 determines the direction of the outlet of the cannon 1001 (the angle of the upward and downward direction) based on the displacement component and the displacement amount of the slide movement of the finger detected in the process of step S43. , And calculates the flight trajectory after the friendly flight character 1010 is fired from the cannon 1001 (hereinafter referred to as the post-launch flight trajectory) and displays it with an arrow. Here, the post-launch flight trajectory consists of an upwardly convex parabola starting from the launch opening of the cannon 1001.

  Specifically, the emission and emission effect part 34 changes the direction of the discharge opening of the cannon 1001 according to the vertical displacement component of the sliding movement of the finger, and further, the sliding movement of the finger in the back and forth (or left and right) direction The size of the parabola indicating the post-launch flight trajectory is changed according to the displacement component. Specifically, when the finger is slid downward, the ejection and emission effect part 34 changes the angle of the outlet of the cannon 1001 upward according to the amount of downward displacement, and the finger is upward. When it is slid in the direction, the angle of the discharge port of the cannon 1001 is changed downward according to the amount of displacement in the upward direction. In addition, the firing and emission effect part 34 enlarges the parabola of the flight trajectory after firing as the displacement amount of the cannon 1001 in the backward direction when sliding the finger is larger, that is, the flight distance and the range distance become longer. Let's do it. Such a display acts, for example, to increase the flying distance of the arrow by causing the arrow to be ejected after being released by increasing the amount of pulling the bow when the bow is pulled and the arrow is blown. It is similar to

  FIG. 13 and FIG. 14 are diagrams showing screen display examples of the cannon 1001 and the flight trajectory 1003 after launch. FIG. 13 shows a screen display example of the cannon 1001 and the flight trajectory 1003 after firing when the finger 4000 is slid in the backward direction of the cannon 1001, and FIG. 14 shows the slide in the downward direction of the finger 4000. The example of a screen display of the cannon 1001 and the flight trajectory 1003 after discharge is shown.

  As shown in FIG. 13, when the finger 4000 is touched on the cannon 1001 and slid backward as it is, the parabola of the flight trajectory 1003 becomes large after firing so that the flight distance becomes long. Further, as shown in FIG. 14, when the finger 4000 is slid downward, the launch opening 1001 a of the cannon 1001 and the flight trajectory 1003 after shooting become upward.

  Subsequently, in the process of step S45, the emission and shooting effect producing unit 34 determines whether the finger has left the screen. If it is determined that the finger has left the screen, the emission and presentation effect production unit 34 proceeds to the process of step S46. On the other hand, when the emission / emission assembling unit 34 determines that the finger is not separated from the screen, it returns to the process of step S43 and continues the process.

As the process of step S46, the shot and fired effect production unit 34 performs display at the time of artillery firing.
By the above-described shot and shot effect processing, the shot and shot effect section 34 performs the operation of pulling the cannon 1001 of the self base 1000 in a state in which the process of step S24 is executed and the friendly flight character 1010 is stored in the self base 1000. Is detected, and the post-launch flight trajectory 1003 after launching the friendly flight character 1010 from the cannon 1001 and the direction of the outlet 1001a of the cannon 1001 is displayed based on the displacement component and displacement amount of the sliding movement of the finger in the pulling operation. Do. Then, when the finger is released from the screen, the emitting and firing effect producing unit 34 performs a display for causing the cannon 1001 to fire the friendly flight character 1010.

  Note that the present embodiment is not limited to firing the friendly flight character 1010 by the pulling operation as described above. The friendly flight character 1010 can also be launched simply by a simple operation such as where to forward.

FIG. 15 is a flow chart showing an example of the magic effect production process.
As shown in FIG. 15, in the process of step S 61, the magic attraction effect unit 35 determines whether or not an ally character has entered the magic district area 1006 formed around the own base 1000. If it is determined that the ally character has entered the magic number area 1006, the magic number rendering unit 35 proceeds to the process of step S62. Here, since the magic force area 1006 is associated with the own base 1000, when the own base 1000 moves, it moves together with it.

  As the process of step S62, the magic-sink effect producing unit 35 executes a process of changing the parameter related to the teammate character. Specifically, the magic circle effect unit 35 executes processing to increase the damage to the enemy character when the ally character entering the magic circle area 1006 attacks the enemy character. As a result of this processing, the damage to the enemy character when the ally character that entered the magic circle area 1006 attacks the enemy character is that when the ally character attacks the enemy character while it is not in the magic circle area 1006. It will be greater than the damage of the enemy character. In addition, for example, when the ally character is in the magic number area 1006 for a time for damage increase determination, the magic number production unit 35 increases the damage given to the ally character. Here, damage means the damage that can be dealt to the attacked opponent. Further, the damage increase determination time is a time set in advance. Then, when the ally character goes out of the magic circle area 1006, the magic circle effect unit 35 maintains the maintenance determination time and the state in which the damage is increased. Here, the maintenance determination time is a time set in advance. Also, at this time, allies who maintain the state in which the damage is increasing even outside the magic character area 1006 (the friendly ground character 1020 C in the screen display example in FIG. 4) and the magic character area 1006 are maintained. An effect of displaying a light ring 1007 at the foot of the ground character can also be performed.

FIG. 16 is a flowchart showing an example of the special move effect rendering process.
As shown in FIG. 16, in the process of step S81, the special move effect presentation unit 36 requires an object corresponding to the ally character (ally character in dispatch) displayed in the renewable energy 1050 for the activation of the second move. It is determined whether a number has been stored (or not). Here, there are a plurality of types of objects displayed in the replenishable energy 1050, and various objects are associated with each ally character. Also, for example, depending on the type of allied character, one may be the number necessary to activate the special move, and a plurality may be the number necessary to activate the special move. Based on such a configuration, the special move directing part 36 determines whether or not the number of objects corresponding to the ally character (ally ally character in dispatch) displayed in the renewable energy 1050 is the number necessary for activating the special move. Is determined. When it is determined that the number of objects corresponding to the teammate character in dispatch has been accumulated for activating the special move, the special move effect directing unit 36 proceeds to the process of step S82.

In the process of step S82, the special move effect presentation unit 36 determines whether the character for which the special move should be activated has been selected. Specifically, the special move directing unit 36 activates the special move when the character in dispatch corresponding to the object determined to have accumulated the number necessary for activating the special move in the process of step S81 is touched with a finger. It is determined that the desired character is selected. If it is determined that the character for which the special move is to be activated has been selected, the special move effect directing unit 36 proceeds to the process of step S83.
As the process of step S83, the special move directing part 36 displays a waiting for activation of the special move.

FIG. 17 is a diagram showing an example of a screen display waiting for the activation of the special move.
As shown in FIG. 17, the special move effect presentation unit 36 displays a plurality of objects 1050C aligned corresponding to the allied ground character 1020A in dispatch as being prominent. For example, the special move effect rendering unit 36 lights a plurality of objects. In addition, the special move directing part 36 displays an explanation 1081 of the effect of the special move. In addition, the special move effect presentation unit 36 displays a button for enabling the player to activate the special move technique. In the present example, the special move effect rendering unit 36 displays an “Activate” button 1082 and a “Stop” button 1083.

  Subsequently, in the process of step S84, the special move effect directing unit 36 specifies a character to be subjected to a special move. Here, the target to which the special move is applied is an enemy character or a friend character. In addition, the special move effect rendering unit 36 moves a mark that specifies the character in accordance with the operation of the finger. For example, as shown in FIG. 17, the mark 1090 is a pillar of light (for example, a pillar of red light), and moves to the location of the enemy character according to the operation of the finger. In the present example, the mark 1090 has moved to the enemy character 2010.

  Subsequently, in the process of step S <b> 85, the special move effect presentation unit 36 determines whether an operation to activate the special move is performed. Specifically, when the “Activate” button 1082 as shown in FIG. 17 is touched with a finger, it is determined that the special move effect unit 36 has performed an operation to activate the special move. When it is determined that the special move directing unit 36 has performed an operation to activate the special move, the special move directing unit 36 proceeds to the process of step S86. In addition, when the “stop” button 1083 as shown in FIG. 17 is touched with a finger, the special move effect rendering unit 36 skips the process of step S86 and ends the special move effect process.

  In the process of step S86, the special move effect rendering unit 36 activates a special move on the character selected in step S84. For example, the special move directing unit 36 makes the attack by the enemy character be greater than normal while making the effect of displaying an attack different from the normal as activation of the special move, than the normal (the amount of reduction of the endurance value of the enemy character Do more than usual).

FIG. 18 is a flowchart showing an example of the defeat process.
As shown in FIG. 18, in the process of step S101, the defeat processing unit 37 determines whether or not the remaining amount of the endurance value of the own site 1000 has become 0. When the defeat processing unit 37 determines that the remaining amount of the endurance value of the own site 1000 has become 0, the process proceeds to step S102.

  As the process of step S102, the defeat processing unit 37 executes a defeat process. For example, the defeat processing unit 37 performs a process of displaying an explosion of the base 1000.

(Operation, action etc. of the whole game)
An example of a series of game flows will be described.
When the front and back direction of the own base 1000 is touched with a finger, while touching with a finger, on the screen, an arrow pointing in the direction in which the own base 1000 advances to the side touched with the finger in the front and rear direction of the own base 1000 As it is displayed, the self base 1000 moves in the direction of the arrow.

  Then, when the teammate character whose highlight display is on on the screen is touched with a finger, the teammate character touched appears on the screen from the own base station 1000 and is dispatched. Specifically, in the case of the ally ground character 1020, a part of the side surface of the self-location base 1000 is opened, and the ally ground character 1020 appears from the opened portion and is dispatched. On the other hand, in the case of the ally flight character 1010, first, the situation in which the ally flight character 1010 is instantaneously stored in the own base 1000 is displayed.

  Then, after the friendly flight character 1010 is stored in the own base 1000, when a pulling operation is performed on the own base 1000, the emission angle of the outlet 1001a of the cannon 1001 of the own base 1000 changes in accordance with the pulling operation on the screen. Furthermore, after launch, the flight trajectory is displayed, and its orientation and size change. Then, when the finger is released from the screen, on the screen, the friendly flight character 1010 is fired from the cannon 1001 in the flight trajectory after the firing at that time. After the launch, the friendly flight character 1010 travels and fires.

Thus, in the game, as long as the available cost 1040 allows, a plurality of allied characters can be dispatched.
In addition, when an ally character enters the magic circle area 1006, the damage given by the ally character increases. Also, as shown in FIG. 7 and FIG. 8, since the magic field area 1006 moves with the base 1000, the player can move the base 1000 to move the magic area 1006, so the intention is It is possible to put an ally character in the magic circle area 1006 and intentionally increase the damage given by the ally character.

  Further, when the necessary number of objects of the ally characters displayed in the supplementable energy 1050 is selected, and the corresponding ally character is selected, it is displayed awaiting activation of the special move. Then, when the target character is specified by the finger during the display and the “Activate” button is selected by the finger, the teammate character activates the special move against the target character.

  In addition, when the remaining amount of the endurance value of the own base 1000 reaches 0, the game executes a defeat process by a display etc. where the own base 1000 explodes.

(Effect in the embodiment)
(1) In the game, by moving the own base 1000 which is the defense target, the attack of the enemy character 2010 on the own base 1000 is avoided or the own base 1000 is moved to a position where the enemy character 2010 is not attacked. The magic circle area 1006 associated with the own base 1000 can be moved to change the situation in the magic circle area 1006 to generate advantageous effects for the player, and the own base 1000 is an important defense target, though it is important. It can be compatible with becoming a means to As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

(2) In the game, it is possible to further enhance the interest of the game by changing the action related to offense and defense such as the battle action of the character in the magic circle area 1006 so as to be advantageous to the player.
(3) In the game, changing the changing parameters of the ally character in the magic circle area 1006 changes the attack and defense status of the ally character in the magic circle area 1006. It can be raised more.

(4) In the game, the damage caused to the enemy character by the ally character in the magic circle area 1006 is greater than the damage to the enemy character by the ally character when outside the magic circle area 1006. Since the situation of the offense and defense of the teammate character that has entered the area associated with is changed, the interest of the game can be further enhanced.

(5) In the game, a plurality of ally characters can be dispatched from the own base 1000 according to the player's operation, so the dispatch and instructions of the plurality of ally characters will affect the development of the game, so tension of the player The feeling and excitement can be enhanced, and the interest of the game can be further enhanced.

(6) In the game, by causing the teammate character to activate the special move technique in accordance with the operation of the player, the player can activate a special battle action set in advance at a timing considered advantageous to the offense and defense. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

(7) In the game, it is possible to dispatch more by increasing the available cost 1040 indicating that the ally character can be dispatched as long as time elapses or a condition set in advance is satisfied. By changing the direction, it is possible for the player to dispatch the ally character at a timing considered to be advantageous to the offense and defense while looking at the index indicating that the ally character displayed on the screen can be dispatched. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

(8) In the game, the ally character is moved by moving its own base 1000, which is the defense target, to a position where the enemy character 2010 is not attacked or not attacked, and adjusting the dispatch position of the ally character or moving the magic circle area 1006. Can be supported, and both its own base 1000 can be an important defense goal, but it can both be an important means of entry and exit, thus creating a game of offense and defense, enhancing the player's sense of tension and excitement, and entertaining the game Can be raised more.

(9) In the game, grasp the situation such as positions and endurance values of multiple ally characters, and the situation of cost resources necessary for dispatch and special move techniques, so that the dispatch and instructions of ally characters affect the development of the game. Therefore, it is possible to enhance the player's sense of tension and excitement and to further enhance the interest of the game.

(10) In the game, it is necessary to judge the constantly changing situation and instruct the operation of the own base 1000 and the ally character, so the player's sense of tension and excitement are enhanced, and the interest of the game is further enhanced. Can.
In the above description of the embodiment, the teammate character behavior control unit 38 and the enemy character behavior control unit 39 constitute, for example, behavior processing means. Also, the own site moving unit 32 constitutes, for example, a movement processing unit. In addition, the defeat processing unit 37 constitutes, for example, a game progress processing unit. Also, the magic force effect unit 35 and the special move effect effect unit 36 constitute, for example, effect processing means. In addition, for example, the parting effect unit 33 constitutes a parting processing means. Further, the endurance value of the own site 1000 constitutes, for example, a first parameter. Further, the parameter related to the teammate character constitutes, for example, a second parameter that changes due to the attack and defense of the teammate character. Also, the renewable energy 1050 constitutes, for example, the cost required to activate a special move. Also, the special move constitutes, for example, a predetermined special battle action. In addition, the available cost 1040 constitutes an index indicating that the teammate character can be dispatched, for example, when time has elapsed or when a preset condition is satisfied.

(Other examples of this embodiment, etc.)
As another example of the embodiment, the launching or firing unit is not limited to a battery or gun, but may be a unit suitable for firing or firing, a tool generally used for firing or firing, etc. .
Further, as another example of the embodiment, the position at which the friendly flight character 1010 is launched or dispatched is not limited to the position on the own base 1000, but may be the own base 1000 as long as it moves in conjunction with the movement of the own base 1000. It may be a position not above. For example, the position where the friendly flight character 1010 fires or dispatches may be the position of an ejection unit such as a turret which is disposed apart from the own base 1000 but moves in conjunction with the movement of the own base 1000.

FIG. 19 is a view showing a screen display example of the gun 1005 which is disposed apart from the own base 1000 and moves in conjunction with the movement of the own base 1000.
As shown in FIG. 19, the gun 1005 is disposed apart from the self base 1000. Then, in the base transfer process, the gun 1005 moves together with the base 1000 when the base 1000 is moved. For example, as shown in FIG. 7, when the front side of the self-location 1000 is touched with the finger 4000, the battery 1005 moves in the forward direction together with the self-location 1000. Further, as shown in FIG. 8, when the back side of the self-location 1000 is touched by the finger 4000, the battery 1005 moves backward together with the self-location 1000. Then, in the shooting and shooting effect processing, the friendly flight character 1010 is fired or dispatched from the battery case 1005 by the pulling operation. At this time, the flight trajectory is extended after firing from the cannon of the turret 1005 in response to the pulling operation, and when the finger is released from the screen, the friendly flight character 1010 is fired or dispatched from the cannon of the turret 1005.

Further, as another example of the embodiment, the player's victory condition is not limited to the fall of the attack target, and it is possible to protect the own base 1000 for a certain period of time, and to set a certain distance as forward or backward.
Also, as another example of the embodiment, the shape, size and number of the parameter change areas 1006 moving in conjunction with the own base 1000 are not limited as long as they are established as areas moving in conjunction with the own base 1000 It can be done. For example, an expression may be made such that the headlights are illuminated in front of the self base 1000. For example, two or more parameter change areas 1006 having different effects can be interlocked at the same time.

  Further, as another example of the embodiment, the method of defining the parameter change area 1006 is limited as long as the parameter change area 1006 moving in conjunction with the own base 1000 is established as an area moving in conjunction with the own base 1000 It can not be done. For example, it can be defined as an invisible rectangle or the like. For example, it can be defined as a fixed distance from the own site 1000.

  Further, as another example of the embodiment, as long as the magic field area 1006 moving in conjunction with the own base 1000 is established as an area moving in conjunction with the own base 1000, the player is not limited to the effect of changing parameters. It can also be an effect that is advantageous to For example, the magic circle area 1006 may be a umbrella, and the character under the umbrella may not get wet. For example, the magic area 1006 can be described as a defense mechanism that mitigates or nullifies a specific attack that has entered the area. For example, the magic field area 1006 can be expressed as an effect such as reducing the offensive power or reducing the defensive power of an enemy character that has entered the area.

  In other words, it is also possible to change parameters relating to the defense of the teammate character entering the magic circle area 1006. For example, the damage given to the ally character in the magic number area 1006 by the enemy character is smaller than the damage given to the ally character from the enemy character while outside the magic number area 1006.

  Also, as another example of the embodiment, it is possible to change a parameter (third parameter) that changes due to the attack and defense of the enemy character that has entered the magic force area 1006. For example, the damage to the enemy character that has entered the magic circle area 1006 is dealt with by the ally character is greater than the damage that the enemy character has to deal with from the ally character while outside the magic circle area 1006.

Further, as another example of the embodiment, the endurance value of the own base or the ally character or the enemy character or the enemy boss character or a parameter similar to it may be a gauge other than the gauge remaining amount becoming 0 due to damage or the like. It can also be expressed as an outcome that determines the outcome when the remaining amount rises and reaches a certain value. For example, if your base is on the hot ground, the calorific gauge will rise and lose when it reaches a certain value.
In addition, as another example of the embodiment, the special move effect rendering unit 36 can activate the special move not only to the enemy character but also to the teammate character.

Further, in the present embodiment, the program may be stored in a storage medium. In this case, each device or the like reads the program stored in the storage medium and executes processing based on the read program.
Further, in the present embodiment, the game is a game apparatus in which the enemy character attacks the own base protected by the player, and the ally character intercepts and attacks the enemy character, and the game apparatus executes the own base, the ally character, and When the action processing means for controlling the action of the enemy character, the movement processing means for moving the own base in response to the operation of the player, and the first parameter which changes when the own base receives damage becomes a preset value A game having game progress processing means for making the player side in a defeat state in the game, and effect processing means for producing an effect for generating an advantageous effect for the player based on the situation in the area associated with the own base. The device is realized.

  Also, while embodiments of the present invention have been disclosed, it will be apparent that modifications can be made by one skilled in the art without departing from the scope of the present invention. All such modifications and equivalents are intended to be included in the following claims.

  1 game device, 10 touch panel, 11 image display unit, 12 contact detection unit, 20 storage unit, 21 game program, 30 processing unit, 31 game control unit, 32 own base moving unit, 33 parting effect unit, 34 shot shooting effect unit , 35 magic team effect unit, 36 special move effect unit, 37 defeat processing unit, 38 ally character action control unit, 39 enemy character action control unit, 40 time management unit, 41 contact detection processing unit, 42 image display processing unit, 43 Voice output processing unit

In order to solve the problem, a first aspect of the present invention is a computer program which causes a computer to execute a game in which an enemy character attacks an own base protected by a player and the ally character intercepts and attacks the enemy character. Changes when the base receives damage, the action processing means for controlling the action of the base, the ally character, and the enemy character, the movement processing means for moving the base according to the operation of the player, and Effect advantageous to the player based on the game progress processing means for making the player side in a defeat state in the game when the first parameter to be set becomes a preset value, and the situation in the area associated with the own base to be moved It has a, a presentation processing means for performing an effect that generates, the effect processing unit, the main character entry to the area When the first preset time has elapsed, the damage that the ally character enters into the area does not cause damage to the enemy character by the ally character when the area does not damage the enemy character It is a computer program that makes it bigger .

In the second aspect of the present invention, when the ally character goes out of the area, the effect processing means moves the ally character into the area for a second preset time. It is preferable to maintain a state in which the damage to the enemy character is greater than the damage to the enemy character when not in the area .

In the third aspect of the present invention, it is preferable that the effect processing means changes a third parameter that changes in the attack and defense of the enemy character that has entered the area.

In the fourth aspect of the present invention, it is preferable that the game machine further comprises an assortment processing means for causing a plurality of the ally characters to be dispatched from the own base in response to the operation of the player.

In the fifth aspect of the present invention, it is preferable that the effect processing means causes the teammate character to activate a special battle action set in advance according to the operation of the player.

In the sixth aspect of the present invention, the behavior control means dispatches an index indicating that the ally character is capable of dispatching either when time has elapsed or when a preset condition is satisfied. It is preferable to change in the possible direction.

According to a seventh aspect of the present invention, there is provided a game apparatus for executing a game in which an enemy character attacks an own base protected by a player and the ally character intercepts and attacks the enemy character. The action processing means for controlling the action of the own base, the ally character, and the enemy character, the movement processing means for moving the own base according to the operation of the player, and the change when the own base receives damage When one parameter reaches a preset value, an advantageous effect is generated for the player based on the game progress processing means for making the player side in a defeat state in the game and the situation in the area associated with the moving base. possess a presentation processing means for performing an effect to, the, the effect processing unit, when the main character is set in advance since the beginning of the region When but elapses, the damage the ally character entering the area given to the enemy character, the ally character when not in the said region is a game device for greater than damage to the enemy character.

According to the first and seventh aspects of the present invention, by moving the own base which is the defense target, the attack of the enemy character to the own base is avoided, or the own base is moved to a position where the enemy character is not attacked While moving the area corresponding to the own base to change the situation in the area to generate an advantageous effect for the player, and making the own base an important defensive goal while becoming an important defensive goal Can be compatible. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.
Further, according to the first and seventh aspects of the present invention, when a preset time elapses after the ally character enters the area associated with the own base, the ally character entering the area becomes the enemy character. By making the damage to be dealt greater than the damage to the enemy character by the ally character when it is not in the area, the situation of the offense and defense of the ally character entering the area associated with the own base changes, so the game is more played. Can enhance the interest of

According to the third aspect of the present invention, by changing the third parameter that changes due to the attack and defense of the enemy character that entered the area associated with the own base, the enemy character entered the area associated with the own base Because the situation of the offense and defense changes, it is possible to further enhance the interest of the game.

According to the fourth aspect of the present invention, a plurality of ally characters can be dispatched from the own base in response to the player's operation, whereby the dispatch and instructions of the plurality of ally characters influence the development of the game. As a result, it is possible to enhance the player's sense of tension and excitement and to further enhance the interest of the game.

According to the fifth aspect of the present invention, by causing the teammate character to activate the special battle action set in advance according to the operation of the player, the player is set in advance at a timing considered to be advantageous to the offense and defense. It is possible to activate special combat action. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

According to the sixth aspect of the present invention, the index indicating that the teammate character can be dispatched can be dispatched in a direction in which it can be dispatched more by either the passage of time or the satisfaction of the preset condition. By changing it, the player can dispatch the ally character at a timing considered to be advantageous to the offensive and defensive, while looking at an index indicating that the ally character displayed on the screen can be dispatched. As a result, a game of offense and defense is created, which can enhance the player's sense of tension and excitement and further enhance the interest of the game.

Claims (9)

A computer program that causes a computer to execute a game in which an enemy character attacks an own base protected by a player and the ally character intercepts and attacks the enemy character.
Action processing means for controlling the action of the own base, the ally character, and the enemy character;
Movement processing means for moving the own base according to a player's operation;
Game progress processing means for making the player side in a defeat state in the game, when the first parameter changing when the own base receives damage reaches a preset value;
Effect processing means for performing an effect for generating an advantageous effect for the player based on the situation in the area associated with the own base;
A computer program having   The computer program according to claim 1, wherein the effect processing means changes an action relating to attack and defense of the character entering the area so as to be advantageous to the player.   The computer program according to claim 1 or 2, wherein the effect processing means changes a second parameter that changes due to attack and defense of the ally character that has entered the area.   The effect processing means makes the damage given to the enemy character by the ally character entering the area greater than the damage given to the enemy character by the ally character when not in the area. The computer program according to any one of the above.   The computer program according to any one of claims 1 to 4, wherein the effect processing means changes a third parameter that changes due to attack and defense of the enemy character that has entered the area.   The computer program according to any one of claims 1 to 5, further comprising: a assortment processing means for causing a plurality of the ally characters to be dispatched from the own base in response to the operation of the player.   The computer program according to any one of claims 1 to 6, wherein the effect processing means causes the teammate character to activate a special battle action set in advance according to an operation of a player.   The action processing means changes an index indicating that the ally character is capable of dispatching in a direction in which it can be dispatched more easily, either when time passes or when a predetermined condition is satisfied. The computer program according to any one of 1 to 7. It is a game apparatus that executes a game in which an enemy character attacks the own base protected by the player and the ally character intercepts and attacks the enemy character.
Action processing means for controlling the action of the own base, the ally character, and the enemy character;
Movement processing means for moving the own base according to a player's operation;
Game progress processing means for making the player side in a defeat state in the game, when the first parameter changing when the own base receives damage reaches a preset value;
Effect processing means for performing an effect for generating an advantageous effect for the player based on the situation in the area associated with the own base;
A game device having

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