JP2021074370A - Game machine - Google Patents

Abstract

To provide a game machine capable of enhancing interest.SOLUTION: In a Pachinko game machine, in a random information storage process, storage is performed in order from random number information having the smaller address in the assigned memory area, and in a read-ahead command generation process, reference is performed in order from the random number information having the smaller address in the assigned memory area, and a read-ahead command is generated on a basis of a reference result. In addition, random number information includes first random number information based on random numbers that are not updated during execution of the random information storage process and second random number information based on random numbers that are updated even during execution of the random information storage process. In the random information storage process, the second random number information is stored earlier than the storage of the first random number information.SELECTED DRAWING: Figure 6

Description

The present invention relates to a gaming machine.

Conventionally, in a gaming machine, random number information used for a winning lottery or the like is stored when the gaming ball enters the starting winning opening. In such a gaming machine, for example, as shown in Patent Document 1, a random number information is referred to, a command (hereinafter referred to as a look-ahead command) is generated based on the random number information, and a look-ahead command is generated based on the generated look-ahead command. There is a game machine that produces the effect.

Japanese Unexamined Patent Publication No. 2016-195912

In recent years, due to the sophistication of the look-ahead effect, the random number information referred to when generating a specific control command has increased, and the management of the random number information has become complicated.
An object of the present invention is to provide a gaming machine capable of suppressing complicated management of random number information.

The gaming machine that solves the above problems includes a holding means for holding each of the first special game and the second special game, a storage means for storing predetermined information, a control means for executing a predetermined control, and a predetermined control means. A random number generation means for generating a random number is provided, and the control means includes a random number information storage control for storing random information based on the predetermined random number in the storage means, and a look-ahead command for generating a look-ahead command based on the random number information. The control can be executed, and the random information includes the first random information based on the random number that is not updated during the execution of the random information storage control, and is updated even during the execution of the random information storage control. There is a second random number information based on a random number. In the random number information storage control, the address of the allocated storage area is stored in order from the smallest random number information, and in the look-ahead control, the random number with the smallest address of the allocated storage area. The information is referred to in order, the look-ahead command is generated based on the reference result, and the order in which the second random number information is stored is earlier than the order in which the first random number information is stored. It is a summary.

Regarding the game machine, the random number generating means may include a random number generating means for generating the first random number and a random number generating means for generating the second random number.
Regarding the game machine, the second random number information may be the jackpot random number information related to the jackpot lottery.

According to the present invention, it is possible to prevent the management of random number information from becoming complicated.

The perspective view which shows typically the pachinko game machine. The front view which shows the game board schematically. A block diagram showing an electrical configuration of a pachinko machine. A flowchart illustrating a special symbol input process. A flowchart illustrating a random number information storage process. Explanatory drawing explaining the random number information storage area. Explanatory drawing explaining the random number address storage area. (A) is a flowchart for explaining the first look-ahead command generation process, and (b) is a flowchart for explaining the second look-ahead command generation process. (A) to (e) are explanatory diagrams for explaining the first variation pattern distribution information storage area, and (f) and (g) are explanatory diagrams for explaining the second variation pattern distribution information storage area. (A) is a flowchart for explaining the first special game execution process, and (b) is a flowchart for explaining the second special game execution process. Explanatory drawing explaining the random number information storage area in 2nd Embodiment. Explanatory drawing explaining the random number address storage area in 2nd Embodiment. (A) is a flowchart explaining the first random number information storage process in the second embodiment, and (b) is a flowchart explaining the second random number information storage process in the second embodiment. The flowchart explaining the 2nd special game execution processing in 2nd Embodiment. The flowchart explaining the look-ahead command generation process in 3rd Embodiment.

(First Embodiment)
Hereinafter, an embodiment embodied in a pachinko gaming machine will be described with reference to FIGS. 1 to 10.
As shown in FIGS. 1 and 2, the pachinko gaming machine 10 as a gaming machine is provided with a gaming board YB. On the board surface of the game board YB, a game area YBa having a substantially circular shape when viewed from the front is defined. In the game area YBa, a game ball launched by the player operating the launch handle HD arranged on the front surface of the pachinko game machine 10 is guided down. Further, an image display device 11 having an image display area GH for displaying an image is provided substantially in the center of the game area YBa. The image display area GH of the image display device 11 is, for example, a liquid crystal display type display unit. The image display device 11 displays various display effects using images, such as a symbol variation game using an effect symbol (decorative symbol). In the following description, the symbol variation game may be abbreviated as a variation game.

Further, the pachinko gaming machine 10 is provided with a decorative lamp La that produces a light emitting effect. The decorative lamp La is arranged on a frame (for example, a front frame) or a game board YB constituting the pachinko gaming machine 10. Further, the pachinko gaming machine 10 is provided with a speaker (sound output unit) Sp that outputs various production sounds such as sound effects and music to produce sound effects.

As shown in FIG. 2, in the game area YBa of the game board YB, a plurality of winning openings (entry openings) through which game balls can enter are arranged. The winning openings include a first starting opening 12, a second starting opening 13, and a large winning opening 14.

The first start port 12 is an entry port where the start condition of the variable game can be satisfied by the entry of the game ball. Further, the first starting port 12 is an entry port where the conditions for paying out the prize ball are satisfied by the entry of the game ball. In this embodiment, the first starting port 12 is located below the image display device 11 and is always open so that a game ball can be inserted. A ball passage (not shown) for guiding the entered game ball to the back side of the game board YB is continuously provided in the first starting port 12, and the game ball entered in the first starting port 12 is detected in the ball passage. Means (starting sensor (switch) SE1 shown in FIG. 3) are arranged.

The second start port 13 is an entry port where the start condition of the variable game can be satisfied by the entry of the game ball. Further, the second starting port 13 is an entry port where the conditions for paying out the prize ball are satisfied by the entry of the game ball. In this embodiment, the second starting port 13 is located to the right of the first starting port 12. The second starting port 13 is closed so that the game ball cannot or is difficult to enter when the predetermined condition (winning of the normal symbol) is not satisfied. Then, when a predetermined condition (winning of a normal symbol) is satisfied, the second starting port 13 is opened so that the game ball can be entered or can be easily entered. The second starting port 13 receives power from an actuator (solenoid, motor, etc.) and opens. In this embodiment, the actuator that opens the second starting port 13 is the actuator AC1 shown in FIG. In addition, a ball passage (not shown) that guides the game ball that has entered the game board YB to the back side of the game board YB is continuously provided in the second start port 13, and the game ball that has entered the second start port 13 is connected to the ball passage. A means for detecting (starting sensor (switch) SE2 shown in FIG. 3) is provided. In this embodiment, the second starting port 13 is a starting port having an opening / closing member that opens and closes the ball entry port of the second starting port 13 and is operated by an actuator.

The large prize opening 14 is an entrance for which the conditions for paying out the prize ball are satisfied by the entry of the game ball. In this embodiment, the large winning opening 14 is located at the lower right of the image display device 11. The large winning opening 14 is closed so that a game ball cannot be entered when a predetermined condition (winning of a special symbol) is not satisfied. Then, the large winning opening 14 is opened so that a game ball can be entered when a predetermined condition (winning of a special symbol) is satisfied. The large winning opening 14 receives power from an actuator (solenoid, motor, etc.) and opens. In this embodiment, the actuator that opens the large winning opening 14 is the actuator AC2 shown in FIG. In addition, a ball passage (not shown) that guides the entered game ball to the back side of the game board YB is continuously provided in the large winning opening 14, and the game ball that has entered the large winning opening 14 is detected in the ball passage. Means (count sensor (switch) CS shown in FIG. 3) are arranged.

Further, an operating gate 18 is arranged in the game area YBa. In this embodiment, the operating gate 18 is a region on the right side of the game area YBa, and is located above the second starting opening 13 and the big winning opening 14. The operating gate 18 is always open with an open gate opening 18a so that a game ball can be inserted. A means (gate sensor (switch) GS shown in FIG. 3) for detecting a game ball entering and passing through is provided at the gate opening 18a. The gate opening 18a of the operating gate 18 is an entrance that can satisfy the starting condition of the variable game of the normal symbol using the normal symbol by the entry of the game ball. The second starting port 13 wins the winning lottery of the normal symbol performed by the game ball entering the operating gate 18, and after the winning symbol of the normal symbol is derived in the variable game of the normal symbol, it is closed. Operates in the open state.

In this embodiment, the first starting port 12, the second starting port 13, and the large winning opening 14 described above are ball-entry devices to be paid out by the entry of the game ball, and the entry of the game ball causes the prize to be paid out. The conditions for paying out the prize balls are satisfied. On the other hand, the operating gate 18 is not a ball entry device that is a target for paying out the prize ball when the game ball enters, and the condition for paying out the prize ball is not satisfied even if the game ball enters.

In this embodiment, the player adjusts the intensity of the firing intensity of the firing handle HD to hit the game ball into the left region and the right region, and hits the second starting port 13, the large winning opening 14, or the large winning opening 14. It is possible to insert a game ball into the operating gate 18. Specifically, when the game ball is launched by adjusting the firing intensity to be stronger (so-called right-handed), the game ball is easily guided down to the right area, and the second starting port 13 and the large winning opening There is a possibility of entering the ball 14 or the operating gate 18. Since it is necessary to fire the game ball vigorously in order to reach the region on the right side, right-handed striking is performed by adjusting the firing intensity to the maximum intensity or a strength slightly weaker than the maximum intensity.

On the other hand, when the game ball is launched by adjusting the firing intensity to be weak (so-called left-handed), the game ball is likely to be guided down to the left region and may enter the first starting port 12. is there. In addition, since it is not necessary to launch the game ball as vigorously as in the case of right-handed hitting, the strength of the left-handed hitting is adjusted so that the launched game ball does not reach the right region. In this embodiment, a flow path of the game ball is formed by a game component such as a game nail so that the game ball cannot enter the first starting port 12 at the time of right-handed hitting. The game parts may be arranged so as to restrict entry into the first starting port 12 when hitting right, or enter the first starting port 12 as compared with when hitting left. It may be arranged so that it is difficult to hit the ball (the probability of entering the ball is extremely low).

In this embodiment, the "left area" is an area located on the left side of the center line C that bisects the game area YBa to the left and right when the game board YB is viewed from the front. Further, in this embodiment, the "right region" is an region located on the right side of the center line C when the game board YB is viewed from the front. The game ball launched by the operation of the launch handle HD in the pachinko gaming machine 10 is guided by the launch passage 19 located on the left side when the game board YB is viewed from the front, and the reverse return prevention located at the most downstream of the launch passage 19. It passes through the valve 20 and reaches the game area YBa. Therefore, the "left area" is also an area closer to the launch passage 19, and conversely, the "right area" is also an area away from the launch passage 19. Then, the game ball that is guided down the left area passes through the left side of the image display device 11 located in the game area YBa and heads for the out port 21 located at the lowermost part of the game area YBa. Further, the game ball that is guided down the right area passes through the right side of the image display device 11 located in the game area YBa and heads for the out port 21.

Further, the game board YB is provided with special symbol display devices 23a and 23b, hold display devices 24a and 24b, and a normal symbol display device 25 shown in FIG. These display devices are located at a portion of the gaming board YB that is visible to the player when the pachinko gaming machine 10 is viewed from the front. For example, these display devices are arranged on a decorative member arranged in the game area of the game board YB, a corner decorative member of the game board YB, and the like.

The special symbol display devices 23a and 23b play a variable game using the special symbol, and in the variable game, a special symbol corresponding to the lottery result of the winning lottery of the special symbol is derived. The special symbol display device 23a is a display device that plays a first special symbol variation game, and the special symbol display device 23b is a display device that plays a second special symbol variation game. In the first special symbol and the second special symbol, a winning lottery for each special symbol is performed when the starting condition is satisfied, and the probability of winning a big hit in the winning lottery for the special symbol is the same probability. In addition, in the first special symbol and the second special symbol, the type of jackpot determined when a jackpot is won in the winning lottery of each special symbol and the determination ratio of the jackpot of the same type are different, so that each special symbol The advantage of winning a big hit in the winning lottery (for example, the number of prize balls, the period of granting the winning rate improvement state, etc.) may be different. In the following description, when the first special symbol variable game and the second special symbol variable game are not distinguished, they may be simply referred to as a special symbol variable game.

When the start condition is satisfied, a special symbol variable game is played on the special symbol display device 23a or the special symbol display device 23b in order to derive the lottery result of the special symbol winning lottery, and the special symbol is derived in the variable game. A variable game for deriving a result according to a special symbol is also performed in the image display device 11 by using the effect symbol.

The special symbol display devices 23a and 23b are display devices provided with a light emitting body. In the special symbol variation game, an arbitrary combination of light emitters constituting the display device is derived as a special symbol. The special symbol includes a jackpot symbol derived when a jackpot is won in the special symbol winning lottery and a missed symbol derived when the jackpot is not won in the special symbol winning lottery. That is, all the hits in this embodiment are big hits. In this embodiment, the jackpot symbol includes a normal jackpot symbol and a specific jackpot symbol.

In this embodiment, a big hit is won in a special symbol winning lottery, a jackpot symbol is derived in a special symbol variation game, and then a jackpot game is generated according to the type of the derived jackpot symbol. The jackpot game is performed a plurality of times, up to a predetermined number of rounds, in which a round game that allows a game ball to enter the big winning opening 14 is performed. When a jackpot game occurs, an opening time is set before the start of the first round game, and an opening effect indicating the start of the jackpot game is performed during the opening time. In addition, when a big hit game occurs, an ending time is set when the final round game ends, and an ending effect indicating the end of the big hit game is performed during the ending time.

The hold display device 24a is a display device that displays the number of fluctuating games (starting hold number) of the first special symbol whose execution is suspended, and the hold display device 24b is a change of the second special symbol whose execution is suspended. It is a display device that displays the number of games (number of pending starts). The ordinary symbol display device 25 plays a variation game of the ordinary symbol using the ordinary symbol, and in the variation game of the ordinary symbol, the ordinary symbol according to the lottery result of the winning lottery of the ordinary symbol is derived.

Next, the gaming state of the pachinko gaming machine 10 of this embodiment will be described.
The pachinko gaming machine 10 of this embodiment has a probability variation function. The probability fluctuation function is a function that can give a probability fluctuation state (hereinafter referred to as "probability change state") that changes the probability of winning a big hit from a low probability (normal probability) to a high probability in a special symbol winning lottery. is there. In the probabilistic state, the jackpot is won in the special symbol winning lottery as compared with the non-probability fluctuation state (hereinafter referred to as "non-probability changing state") in which the probability of winning the jackpot in the special symbol winning lottery is low. It is an easy and advantageous gaming state for the player. The probabilistic state is given until, for example, the next big hit is won in the special symbol winning lottery.

Further, the pachinko gaming machine 10 of this embodiment has a function of improving the ball entry rate. The ball entry rate improving function is a function capable of imparting a ball entry rate improvement state in which the entry rate of a game ball per unit time to the second starting port 13 as a predetermined entry port is improved. The ball entry rate improvement state is a so-called "electric support state" or "high base state". In the following description, a state in which the ball entry rate improvement state is not given may be referred to as a “non-ball entry rate improvement state”. The non-ball entry rate improvement state is a so-called "non-electric support state" or "low base state".

The ball entry rate improvement state can be realized, for example, by executing one control arbitrarily selected from the following four controls, or by executing a combination of a plurality of controls. The first control is a control for shortening the fluctuation time of the normal symbol, which shortens the fluctuation time of the fluctuation game of the normal symbol as compared with the case where the non-ball entry rate is improved. The second control is the probability fluctuation control of the normal symbol, which changes the probability of winning the winning lottery of the normal symbol (normal winning probability) with a higher probability than in the non-ball entry rate improved state. The third control is an opening time extension control in which the total opening time of the second starting port 13 based on winning the winning lottery of the normal symbol is made longer than in the non-ball entry rate improved state. As the opening time extension control, the number of times the second starting port 13 is opened based on winning the winning lottery of the normal symbol is increased as compared with the case where the non-ball entry rate is improved, and the winning lottery of the normal symbol is performed. It is preferable to execute at least one of the controls for making the opening time of the second starting port 13 based on the winning of the second starting port 13 longer than that in the non-ball entry rate improved state. The fourth control is a special symbol variation time shortening control that makes it easier for the variation time of the special symbol variation game (for example, the average variation time) to be shorter than in the non-ball entry rate improved state. When the fluctuation time reduction control of the special symbol is executed, the ball entry rate improvement state is the so-called "variation time reduction state".

The ball entry rate improvement state is, for example, the next time, until a big hit is won in the special symbol winning lottery, or after the ball entry rate improvement state is given, the special symbol variation game of the specified upper limit number of times (for example, 100 times) is executed. It will be awarded until it is won or until a big hit is won in the special symbol winning lottery before reaching the specified upper limit. In the case of the pachinko gaming machine 10 using the first special symbol and the second special symbol, the specified upper limit is the total number of the fluctuation game of the first special symbol and the fluctuation game of the second special symbol.

In the following description, the gaming state in which the non-probability change state and the non-ball entry rate are improved is indicated as "low probability time reduction", and the game state in which the non-probability change state and the ball entry rate is improved is "low probability". In some cases, "there is a time reduction" is shown, and the game state in which the probability change state and the ball entry rate is improved is shown as "there is a high probability time reduction". The pachinko gaming machine 10 of this embodiment does not have a gaming state in which the probability of change and the non-ball entry rate are improved.

In the pachinko gaming machine 10, after the jackpot game is completed, a gaming state according to the type of the jackpot symbol is given. Specifically, after the end of the jackpot game based on the normal jackpot symbol, the game state with low probability and shortening time is until the end of the variable game of the special symbol of the specified upper limit number or the next jackpot game is granted. Is given. On the other hand, after the end of the big hit game based on the specific big hit symbol, the game state with high accuracy and short time is given until the next big hit game is given. As described above, the low probability time reduction is a gaming state in which the probability variation function does not operate, while the ball entry rate improvement function operates. In addition, the high accuracy time reduction is a gaming state in which the probability fluctuation function and the ball entry rate improvement function are all activated. That is, the high probability time reduction is a gaming state that is advantageous to the player as compared with the gaming state with the low probability time reduction in which the probability fluctuation function is activated and the probability fluctuation function is not activated.

The pachinko gaming machine 10 is equipped with various boards including a main control board 30 and a sub control board 31 shown in FIG.
The main control board 30 can write and read necessary data, a main control CPU 30a capable of executing a control operation in a predetermined procedure, a main control ROM 30b storing a control program of the main control CPU 30a, and the like. It has a main control RAM 30c. Further, the main control board 30 has a random number generation circuit 30d.

The main control CPU 30a is adapted to input detection signals of various sensors SE1, SE2, CS, and GS. Further, the main control CPU 30a controls the display contents of various display devices (special symbol display devices 23a, 23b, hold display devices 24a, 24b, ordinary symbol display device 25, etc.) and operates the actuators AC1 and AC2. Control. The main control CPU 30a corresponds to a control means that executes a predetermined control.

The information stored in the main control ROM 30b includes a main control program for executing processing related to the game, information for specifying a variation pattern of a special symbol (hereinafter referred to as a main variation pattern), various determination values, and the like. There is. In the main fluctuation pattern, it is possible to specify the fluctuation time (effect time) from the start of fluctuation of the special symbol to the derivation of the special symbol. The main fluctuation pattern can be classified into a main fluctuation pattern for big hits and a main fluctuation pattern for misses. The jackpot fluctuation based on the main fluctuation pattern for the jackpot is an effect performed when the jackpot is won in the winning lottery of the special symbol, and the jackpot symbol is finally derived in the variable symbol game. The loss variation based on the main variation pattern for loss is an effect performed when a big hit is not won in the special symbol winning lottery, and the loss symbol is finally derived in the special symbol variation game. In this embodiment, the out-of-bounds fluctuations include the out-of-bound variation in which the reach effect is performed in the effect symbol symbol variation game (hereinafter referred to as the reach-out-out variation) and the out-of-reach variation in which the reach effect is not performed in the effect symbol symbol variation game. There are fluctuations (hereinafter referred to as non-reach out-of-reach fluctuations). Further, the various determination values include a big hit determination value used for the winning lottery of the special symbol, a normal hit determination value used for the winning lottery of the ordinary symbol, and the like. Further, the main control RAM 30c stores various information (random number information, timer value, flag, number of pending starts, etc.) that is appropriately rewritten during the operation of the pachinko gaming machine 10. The main control RAM 30c corresponds to a storage means for storing predetermined information.

The main control CPU 30a updates the values of various software random numbers at predetermined control cycles (interrupt cycles), and executes software random number generation processing to be stored in the main control RAM 30c. The software random numbers include a jackpot symbol random number used when determining a jackpot symbol of a special symbol, a variation pattern random number used when distributing a main variation pattern, and the like. The main control CPU 30a corresponds to a random number generation means for generating a predetermined random number.

The random number generation circuit 30d generates a hardware random number by updating the value by 1 every cycle of an internal system clock (for example, 10 MHz) supplied from a clock circuit (not shown) mounted on the microprocessor. That is, in this embodiment, the hardware random number is updated regardless of the processing status of various processes executed by the main control CPU 30a. The hardware random numbers include a winning random number used for a winning lottery of a special symbol, a normal winning random number used for a winning lottery of a normal symbol, and the like. The random number generation circuit 30d corresponds to a random number generation means for generating a predetermined random number. Further, the random number generation circuit 30d corresponds to a hardware random number generation means for generating a hardware random number.

The sub-control board 31 is electrically connected to the main control board 30 so that control information is output from the main control board 30 in one direction. The sub-control board 31 includes a sub-control CPU 31a that can execute a control operation in a predetermined procedure, a sub-control ROM 31b that stores a control program of the sub-control CPU 31a, and a sub that can write and read necessary data. It has a control RAM 31c and.

The sub-control CPU 31a of the sub-control board 31 performs control according to the control information based on the control information output from the main control board 30. For example, when the main control CPU 30a starts a variable game of special symbols, in addition to controlling the display contents of the special symbol display devices 23a and 23b, the main control CPU 30a transmits control information instructing the start of the variable game to the sub-control CPU 31a. To do. The sub-control CPU 31a that has received the control information controls the display content so that the image display device 11 plays a variable game of the effect symbol. Further, the sub-control CPU 31a controls the lighting / non-lighting of various decorative lamps La provided on the frame of the pachinko gaming machine 10 and the game board YB, and controls the audio output of the speaker Sp. The effect of these decorative lamps La and the speaker Sp is performed according to the changing game of the effect pattern, or is performed when the game is controlled to the standby state.

Next, a process (normal process) performed by the main control CPU 30a of the main control board 30 to control the game will be described.
First, the software random number generation process executed by the main control CPU 30a will be described. The software random number generation process is a standby process executed when a process based on an interrupt process such as a process executed at a predetermined control cycle is not executed. In the software random number generation process, the main control CPU 30a adds 1 to the software random number and updates it. Further, in the software random number generation process, the main control CPU 30a updates the software random number to the minimum value when the updated software random number exceeds the maximum value. In this embodiment, the software random number generation process is repeatedly executed until a new interrupt process is started. That is, the software random numbers are repeatedly updated until new interrupt processing is started. The initial value of the software random number may be fixed to the minimum value, or the initial value may be changed each time the initial value is updated to the final value.

Next, the special symbol input process will be described.
As shown in FIG. 4, in the special symbol input process, the main control CPU 30a determines whether or not the game ball has entered the first starting port 12 (step Sa01). In the process of step Sa01, the main control CPU 30a determines that the game ball has entered the first start port 12 by inputting the detection signal from the start sensor SE1. When a game ball has entered the first starting port 12 (step Sa01: YES), the main control CPU 30a has an upper limit of the number of start hold of the first special symbol stored in the main control RAM 30c (this). In the embodiment, it is determined whether it is less than 4) (step Sa02). When the number of start hold of the first special symbol is less than the upper limit number (step Sa02: YES), the main control CPU 30a adds 1 to the number of start hold of the first special symbol stored in the main control RAM 30c. Update (step Sa03). At this time, the main control CPU 30a controls the hold display device 24a so as to display the number of start hold of the first special symbol after the update. Further, the main control CPU 30a sets control information (holding designation command, etc.) capable of specifying the number of start hold of the updated first special symbol in the output buffer. In this embodiment, the control information set in the output buffer is output to the sub-control board 31 in the command output process performed by the main control CPU 30a. For example, the command output process is executed every predetermined control cycle or every time control information is output to the sub-control board 31. In the command output process, the control information set in the output buffer is output in the set order.

Next, the main control CPU 30a acquires a random number generated in the main control board 30, and executes a random number information storage process for storing the random number information based on the acquired random number in the main control RAM 30c (step). Sa04). The random number information stored in the main control RAM 30c in the random number information storage process of this embodiment is the hit random number information based on the hit random number, the jackpot symbol random number information based on the jackpot symbol random number, and the fluctuation pattern random number information based on the fluctuation pattern random number. is there. In the random number information storage process, the main control CPU 30a stores the random number information so that the random number information for the variable game of the first special symbol can be specified and the holding order of the variable game of the first special symbol can be specified. Let me. In this embodiment, by storing the random number information for the variable game of the first special symbol in the main control RAM 30c, the execution is suspended until the start condition of the variable game of the first special symbol is satisfied. be able to. As described above, in this embodiment, when the number of start hold of the first special symbol is less than the upper limit number, the game ball enters the first start port 12, and the entered game ball is detected by the start sensor SE1. By doing so, the holding condition of the variable game of the first special symbol is satisfied.

After that, the main control CPU 30a predetermines the content of the variable game of the first special symbol for which the hold condition is satisfied before the start condition of the variable game of the first special symbol is satisfied, and determines the pre-determination. The first look-ahead command generation process for generating control information (hereinafter, referred to as a look-ahead command) whose result can be specified is executed (step Sa05).

When no game ball has entered the first start port 12 (step Sa01: NO), when the number of start hold of the first special symbol is not less than the upper limit (step Sa02: NO), and the process of step Sa05 When finished, the main control CPU 30a determines whether or not the game ball has entered the second starting port 13 (step Sa06). In the process of step Sa06, the main control CPU 30a determines that the game ball has entered the second start port 13 by inputting the detection signal from the start sensor SE2. When the game ball has not entered the second starting port 13 (step Sa06: NO), the main control CPU 30a ends the special symbol input process.

When a game ball has entered the second starting port 13 (step Sa06: YES), the main control CPU 30a has an upper limit of the number of start hold of the second special symbol stored in the main control RAM 30c (this). In the embodiment, it is determined whether it is less than 4) (step Sa07). When the number of pending starts of the second special symbol is not less than the upper limit number (step Sa07: NO), the main control CPU 30a ends the special symbol input process.

When the number of start hold of the second special symbol is less than the upper limit number (step Sa07: YES), the main control CPU 30a adds 1 to the number of start hold of the second special symbol stored in the main control RAM 30c. Update (step Sa08). At this time, the main control CPU 30a controls the hold display device 24b so as to display the number of start hold of the second special symbol after the update. Further, the main control CPU 30a sets a hold designation command in the output buffer that can specify the number of start hold of the second special symbol after the update. As described above, in this embodiment, when the number of pending starts of the second special symbol is less than the upper limit, the game ball enters the second start opening 13, and the entered game ball is detected by the start sensor SE2. By doing so, the holding condition of the variable game of the second special symbol is satisfied.

Next, the main control CPU 30a executes the random number information storage process (step Sa09). In the random number information storage process, the main control CPU 30a stores the random number information so that the random number information for the variable game of the second special symbol can be specified and the holding order of the variable game of the second special symbol can be specified. Let me. In this embodiment, by storing the random number information for the variable game of the second special symbol in the main control RAM 30c, the execution is suspended until the start condition of the variable game of the second special symbol is satisfied. be able to.

After that, the main control CPU 30a predetermines the content of the variable game of the second special symbol for which the hold condition is satisfied before the start condition of the variable game of the second special symbol is satisfied, and determines the pre-determination. A second look-ahead command generation process for generating a look-ahead command whose result can be specified is executed (step Sa10). After that, the main control CPU 30a ends the special symbol input process. In this embodiment, the main control CPU 30a that executes the special symbol input process corresponds to the holding means for holding each of the first special symbol variation game and the second special symbol variation game. The variable game of the first special symbol corresponds to the first special game, and the variable game of the second special symbol corresponds to the second special game.

Hereinafter, the random number information storage process, the first look-ahead command generation process, and the second look-ahead command generation process will be described in detail.
First, the random number information storage process will be described.

As shown in FIG. 5, in the random number information storage process, the main control CPU 30a acquires the number of repetitions stored in the main control ROM 30b (step Sb01). The number of repetitions acquired in the process of step Sb01 of the random number information storage process corresponds to the number of random numbers referred to in the random number information storage process. In this embodiment, in the random number information storage process, a hit random number, a big hit symbol random number, a reach determination random number, a first variation pattern distribution random number, and a second variation pattern distribution random number are referred to. That is, in this embodiment, the number of repetitions is "5". When the process of step Sb01 is completed, the main control CPU 30a acquires the address of the random number address storage area (step Sb02). The random number address storage area is a storage area in which random number addresses related to random numbers acquired in the random number information storage process are stored. Further, the main control CPU 30a acquires the address of the random number information storage area (step Sb03). The random number information storage area is a storage area for storing random number information based on random numbers acquired in the random number information storage process.

The random number address storage area and the random number information storage area will be described.
First, the random number information storage area will be described.
As shown in FIG. 6, in this embodiment, the random number information storage area includes the special figure 1 random number information storage area for the variable game of the first special symbol and the special figure 2 random number for the variable game of the second special symbol. There is an information storage area. In the special figure 1 random number information storage area, the special figure 1 random number information storage area for storing the random information for the variable game of the first special symbol being executed and the random number for the variable game of the first special symbol pending are stored. Special figure 1 for storing information There is a random number information storage area. The special figure 1 random number information storage area in which the random number information for the pending first special symbol variation game is stored corresponds to each of the pending first special symbol variation games. That is, the main control RAM 30c has a special figure 1 random number information storage area having a number one larger than the upper limit number of start hold numbers of the first special symbol.

Further, in the special figure 2 random number information storage area, the special figure 2 random number information storage area for storing the random information for the variable game of the second special symbol being executed and the pending second special symbol for the variable game are stored. There is a special figure 2 random number information storage area in which the random number information of is stored. The special figure 2 random number information storage area in which the random number information for the pending second special symbol variation game is stored corresponds to each of the pending second special symbol variation games. That is, the main control RAM 30c has a special figure 2 random number information storage area having a number one larger than the upper limit number of the start hold number of the second special symbol.

In this embodiment, the plurality of special figure 1 random number information storage areas and the plurality of special figure 2 random number information storage areas are assigned to consecutive addresses in the main control RAM 30c. Specifically, in this embodiment, the special figure 1 random number information storage area for the variable game of the first special symbol being executed, the special figure 1 random number information storage area for the variable game of the first special symbol pending, and the execution. Addresses are assigned in the order of the special figure 2 random number information storage area for the variable game of the second special symbol in the middle and the special figure 2 random number information storage area for the variable game of the second special symbol pending. Further, the special figure 1 random number information storage area for the variable game of the first special symbol on hold has a smaller address assigned to the special figure 1 random number information storage area for the variable game whose holding order is earlier. Similarly, the special figure 2 random number information storage area for the variable game of the second special symbol on hold has a smaller address assigned to the special figure 2 random number information storage area for the variable game whose holding order is earlier. That is, in this embodiment, the special figure 2 random number information storage area for the second special symbol variable game being executed holds the first special symbol variable game, which is the upper limit of the number of start hold of the first special symbol. It is assigned to the address continuous with the special figure 1 random number information storage area for the last variable game among the variable games of the first special symbol pending in the situation. In the following description, when a specific special figure 1 random number information storage area is shown, the first special figure 1 random number information storage area to the fifth special figure 1 random number information storage area are shown according to the order of the assigned addresses, respectively. Shown. Similarly, when a specific special figure 2 random number information storage area is shown, it is shown as the first special figure 2 random number information storage area to the fifth special figure 2 random number information storage area according to the order of the assigned addresses. ..

In this embodiment, there are a plurality of types of random number information, and a plurality of types of random number information are stored in the special figure 1 random number information storage area and the special figure 2 random number information storage area. Further, the same type of random number information is stored in the same order in the special figure 1 random number information storage area and the special figure 2 random number information storage area. Specifically, the hit random number information, the jackpot symbol random number information, and the fluctuation pattern random number information are stored in the random number information storage area of 1. In this embodiment, the variation pattern random number information includes reach determination random number information based on reach determination random number, first variation pattern distribution random number information based on first variation pattern distribution random number, and second variation pattern distribution random number. There is a second variation pattern distribution random number information based on. In the random number information storage area of 1, random number information is stored in the order of hit random number information, jackpot symbol random number information, reach determination random number information, first variation pattern distribution random number information, and second variation pattern distribution random number information. That is, in the random number information storage area of 1, the random number information storage area of 1 is in the order of hit random number information, jackpot symbol random number information, reach determination random number information, first variation pattern distribution random number information, and second variation pattern distribution random number information. Consecutive storage area is allocated in. In this embodiment, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information are 1-byte information, and the hit random number information is 2 bytes. Information. On the other hand, a 2-byte storage area is allocated to the hit random number information, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information.

Next, the random number address storage area will be described.
As shown in FIG. 7, a plurality of random number addresses are stored in the random number address storage area. Specifically, in the random number address storage area, a hit random number address related to a hit random number, a big hit symbol random number address related to a big hit symbol random number, a reach judgment random number address related to a reach judgment random number, and a first fluctuation pattern related to a distribution random number. The distribution random number address and the second variation pattern distribution random number address related to the second variation pattern distribution random number are stored. In this embodiment, in the random number address storage area, the random number addresses are stored in the order of the hit random number address, the jackpot symbol random number address, the reach determination random number address, the first variation pattern distribution random number address, and the second variation pattern distribution random number address. ing. That is, in the random number address storage area, continuous storage in the random number address storage area in the order of the hit random number address, the jackpot symbol random number address, the reach determination random number address, the first variation pattern distribution random number address, and the second variation pattern distribution random number address. Space is allocated. In this embodiment, the information stored in the random number address storage area is not rewritten. For example, since the random number address storage area is a part of the storage area of the main control ROM 30b, the stored information may not be rewritten, and the process of rewriting the information stored in the random number address storage area is executed. The stored information may not be rewritten by not being rewritten. Further, in this embodiment, the random number addresses are all 2-byte information. Therefore, in the random number address storage area, the hit random number address, the jackpot symbol random number address, the reach determination random number address, the first variation pattern distribution random number address, and the second variation pattern distribution random number address are all 2 bytes. Storage space is allocated.

Returning to the description of the random number information storage process, in the process of step Sb03, the main control CPU 30a acquires the address of the random number information storage area corresponding to the newly reserved special symbol variation game. For example, when the newly held variable game of the special symbol is the variable game of the first special symbol and the number of pending starts of the first special symbol after the update is 3, the main control CPU 30a is the fourth. Special figure 1 Acquires the address of the random number information storage area.

As shown in FIG. 5, when the process of step Sb03 is completed, the main control CPU 30a uses the address (address of the random number address storage area) acquired in the process of step Sb02 as the first address for work in the random number information storage process. Set (step Sb04). Further, in the process of step Sb04, the main control CPU 30a sets the address (address of the random number information storage area) acquired in the process of step Sb03 as the second address for work. Next, the main control CPU 30a acquires a random number based on the random number address stored in the storage area indicated by the first working address (step Sb05). For example, when the random number address stored in the storage area indicated by the first working address is the hit random number address, the main control CPU 30a acquires the hit random number based on the hit random number address. When the random number is acquired, the main control CPU 30a stores the random number information based on the acquired random number in the storage area indicated by the second working address (step Sb06). The random number information may be the acquired random number itself, or may be information obtained by processing the random number by a predetermined method.

After that, the main control CPU 30a updates the first working address one unit next, and updates the second working address one unit next (step Sb07). In the process of step Sb07, the main control CPU 30a updates the work first address and the work second address to addresses that are two bytes larger. That is, in this embodiment, both the address for acquiring the random number and the address for storing the random number are updated by the same amount. Further, in this embodiment, both the address for acquiring the random number and the address for storing the random number are updated in the same direction.

Next, the main control CPU 30a is updated by subtracting 1 from the number of repetitions (step Sb08). After that, the main control CPU 30a determines whether or not the number of repetitions after the update is greater than zero (step Sb09). When the number of repetitions after the update is zero (step Sb09: NO), the main control CPU 30a ends the random number information storage process. When the number of repetitions after the update is larger than zero (step Sb09: YES), the main control CPU 30a returns to the process of step Sb05.

In this embodiment, the main control CPU 30a repeatedly executes the processes of steps Sb05 to Sb07, so that a plurality of random number information based on each of the plurality of random numbers is stored in the random number information storage area. That is, by repeating the processes of steps Sb05 to Sb07 based on the number of repetitions, a number of random numbers based on the number of repetitions is acquired, and random number information based on the number of repetitions is stored in the random number information storage area. Further, when the random number information is stored, in the random number information storage process, the address of the allocated storage area is stored in order from the smallest random number information.

The random number information stored in the random number information storage process is hit random number information, jackpot symbol random number information, reach determination random number information, first variation pattern distribution random number information, and second variation pattern distribution random number information. As described above, the hit random number information is random number information based on the hit random number as a hardware random number. On the other hand, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information are the jackpot symbol random number as software random numbers, the reach determination random number, and the first variation pattern. It is random number information based on the distribution random number and the second variation pattern distribution random number. Therefore, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information are random number information based on random numbers that are not updated during the execution of the random number information storage process. Hereinafter, it is referred to as the first random number information). On the other hand, the hit random number information is random number information based on a random number that is updated even during execution of the random number information storage process (hereinafter referred to as second random number information). Then, in the random number information storage process, the second random number information based on the updated random number is preferentially stored even during the execution of the random number information storage process. That is, the order in which the second random number information is stored is earlier than the order in which the first random number information is stored. The random number information storage process corresponds to random number information storage control in which random number information based on a predetermined random number is stored in the main control RAM 30c.

Next, the first look-ahead command generation process will be described.
As shown in FIG. 8A, in the first look-ahead command generation process, the main control CPU 30a acquires the address of the random number information storage area based on the number of pending starts of the first special symbol (step Sc01). In the process of step Sc01, the main control CPU 30a sets the address (address of the random number information storage area) acquired in the process of step Sc01 as the address for work in the first look-ahead command generation process. The main control CPU 30a refers to the winning random number information based on the working address (step Sc02). In the process of step Sc02, the main control CPU 30a refers to the information stored in the storage area indicated by the working address as random number information. Further, in the process of step Sc02, the main control CPU 30a predetermines whether or not to win a big hit in the winning lottery of the first special symbol based on the winning random number information.

Next, the main control CPU 30a refers to the jackpot symbol random number information based on the work address (address of the random number information storage area) in the first look-ahead command generation process (step Sc03). In the process of step Sc03, the main control CPU 30a updates the work address one unit next, and refers to the information stored in the storage area indicated by the updated work address as the jackpot symbol random number information. .. In the process of step Sc03, the main control CPU 30a predetermines the type of the special symbol based on the result of the pre-determination in the process of step Sc02 and the jackpot symbol random number information. Next, the main control CPU 30a generates a look-ahead command capable of specifying the result of the pre-determination in the process of step Sc02 and the result of the pre-determination in the process of step Sc03 (step Sc04). That is, the look-ahead command generated in the process of step Sc04 is information that can specify whether or not it is a big hit and the type of special symbol. In the process of step Sc04, the main control CPU 30a sets the generated look-ahead command in the output buffer.

When the process of step Sc04 is completed, the main control CPU 30a refers to the reach determination random number information based on the work address (address of the random number information storage area) in the first look-ahead command generation process (step Sc05). In the process of step Sc05, the main control CPU 30a updates the work address one unit next, and refers to the information stored in the storage area indicated by the updated work address as the reach determination random number information. To do. In the process of step Sc05, the main control CPU 30a determines whether or not the reach effect is executed in the symbol variation game of the corresponding effect symbol based on the result of the preliminary determination in the process of step Sc02 and the random number information for reach determination. Is determined in advance. Next, the main control CPU 30a acquires the address of the first variation pattern distribution information storage area based on the result of the pre-determination in the process of step Sc02 and the result of the pre-determination in the process of step Sc05 (step Sc06). ..

Here, the first fluctuation pattern distribution information storage area will be described.
As shown in FIGS. 9A to 9E, this embodiment has a plurality of types of first variation pattern distribution information storage areas. Specifically, the first variation pattern distribution information storage area includes a first variation pattern distribution information storage area for special figure 1 variation and a first variation pattern distribution information storage area for special figure 2 variation. is there. The first variation pattern distribution information storage area for special figure 1 variation includes a first variation pattern distribution information storage area for non-reach and loss variation and a first variation pattern distribution information storage area for reach and loss variation. And a first fluctuation pattern distribution information storage area for jackpot fluctuation. The first variation pattern distribution information storage area for special figure 2 variation includes a first variation pattern distribution information storage area for outlier variation and a first variation pattern distribution information storage area for jackpot variation. In the following description, of the first variation pattern distribution information storage area for special figure 1 variation, the first variation pattern distribution information storage area for non-reach loss variation is referred to as the first variation for lossless variation without reach. It may be referred to as a pattern distribution table. In addition, among the first fluctuation pattern distribution information storage areas for special figure 1 fluctuation, the first fluctuation pattern distribution information storage area for reach-and-miss fluctuation is set to the first fluctuation pattern distribution for reach-and-miss fluctuation. Sometimes referred to as a table. Further, in the case where the first fluctuation pattern distribution information storage area for jackpot fluctuation is shown as the first fluctuation pattern distribution table for jackpot fluctuation in the first fluctuation pattern distribution information storage area for special figure 1 fluctuation. There is. Further, in the case where the first fluctuation pattern distribution information storage area for deviation variation is shown as the first fluctuation pattern distribution table for deviation variation in the first fluctuation pattern distribution information storage area for special figure 2 variation. There is. Further, in the case where the first fluctuation pattern distribution information storage area for jackpot fluctuation is shown as the first fluctuation pattern distribution table for jackpot fluctuation in the first fluctuation pattern distribution information storage area for special figure 2 fluctuation. There is.

In this embodiment, the address of one or a plurality of second variation pattern distribution information storage areas is stored in the first variation pattern distribution information storage area. In this embodiment, different addresses of the second variation pattern distribution information storage areas are stored in each first variation pattern distribution information storage area.

The second fluctuation pattern distribution information storage area will be described.
As shown in FIGS. 9 (f) and 9 (g), this embodiment has a plurality of types of second variation pattern distribution information storage areas. Specifically, the second variation pattern distribution information storage area includes a second variation pattern distribution information storage area for special figure 1 variation, a second variation pattern distribution information storage area for special figure 2 variation, and the like. There is. In this embodiment, there are a plurality of types of second fluctuation pattern distribution information storage areas for special FIG. 1 fluctuation. In addition, there are a plurality of types of second fluctuation pattern distribution information storage areas for special figure 2 fluctuation. In this embodiment, one or more variation patterns are stored in the second variation pattern distribution information storage area.

Returning to the description of the first look-ahead command generation process, as shown in FIG. 8A, when the process of step Sc06 is completed, the main control CPU 30a uses the address (random number information storage) for work in the first look-ahead command generation process. The first variation pattern distribution random number information is referred to based on the region address) (step Sc07). In the process of step Sc07, the main control CPU 30a updates the work address one unit next, and the information stored in the storage area indicated by the updated work address is the first variation pattern distribution random number. Refer to as information. Next, the main control CPU 30a distributes the second variation pattern based on the address (the address of the first variation pattern distribution information storage area) acquired in the process of step Sc06 and the first variation pattern distribution random number information. The address of the minute information storage area is acquired (step Sc08). For example, the main control CPU 30a is used as the address of the second variation pattern distribution information storage area stored in the storage area indicated by the address (address of the first variation pattern distribution information storage area) acquired in the process of step Sc06. The determination value corresponding to each is compared with the first variation pattern distribution random number information. The main control CPU 30a acquires the address of the second variation pattern distribution information storage area based on the comparison result. The determination value corresponding to the address of each second variation pattern distribution information storage area may be stored in the first variation pattern distribution information storage area, and is stored separately from the first variation pattern distribution information storage area. It may be stored in the area.

Next, the main control CPU 30a refers to the second variation pattern distribution random number information based on the work address (address of the random number information storage area) in the first look-ahead command generation process (step Sc09). In the process of step Sc09, the main control CPU 30a updates the work address one unit next, and transfers the information stored in the storage area indicated by the updated work address to the second variation pattern distribution random number. Refer to as information. In the process of step Sc09, the main control CPU 30a performs the main variation based on the address (the address of the second variation pattern distribution information storage area) acquired in the process of step Sc08 and the second variation pattern distribution random number information. Predetermine the type of pattern. For example, the main control CPU 30a has a determination value corresponding to each main variation pattern stored in the storage area indicated by the address (address of the second variation pattern distribution information storage area) acquired in the process of step Sc08. The type of the main fluctuation pattern is preliminarily determined by comparing with the second fluctuation pattern distribution random number information. The determination value corresponding to each main variation pattern may be stored in the second variation pattern distribution information storage area, or may be stored in a storage area different from the second variation pattern distribution information storage area. .. After that, the main control CPU 30a generates a look-ahead command capable of specifying the result of the pre-determination in the process of step Sc09 (step Sc10). That is, the look-ahead command generated in the process of step Sc10 is information that can specify the type of the main fluctuation pattern. In the process of step Sc10, the main control CPU 30a sets the generated look-ahead command in the output buffer.

Next, the second look-ahead command generation process will be described.
As shown in FIG. 8B, in the second look-ahead command generation process, the main control CPU 30a acquires the address of the random number information storage area based on the number of pending starts of the second special symbol (step Sd01). In the process of step Sd01, the main control CPU 30a sets the address (address of the random number information storage area) acquired in the process of step Sd01 as the work address in the second look-ahead command generation process. The main control CPU 30a refers to the winning random number information based on the working address (step Sd02). In the process of step Sd02, the main control CPU 30a refers to the information stored in the storage area indicated by the working address as random number information. Further, in the process of step Sd02, the main control CPU 30a predetermines whether or not to win a big hit in the winning lottery of the second special symbol based on the winning random number information.

Next, the main control CPU 30a refers to the jackpot symbol random number information based on the working address (address of the random number information storage area) in the second look-ahead command generation process (step Sd03). In the process of step Sd03, the main control CPU 30a updates the work address one unit next, and refers to the information stored in the storage area indicated by the updated work address as the jackpot symbol random number information. .. In the process of step Sd03, the main control CPU 30a predetermines the type of the special symbol based on the result of the pre-determination in the process of step Sd02 and the jackpot symbol random number information. Next, the main control CPU 30a generates a look-ahead command capable of specifying the result of the pre-determination in the process of step Sd02 and the result of the pre-determination in the process of step Sd03 (step Sd04). That is, in the process of step Sd04, the look-ahead command generated can specify whether or not it is a big hit and the type of the special symbol. In the process of step Sd04, the main control CPU 30a sets the generated look-ahead command in the output buffer.

When the process of step Sd04 is completed, the main control CPU 30a acquires the address of the first variation pattern distribution information storage area based on the result of the preliminary determination in the process of step Sd02 (step Sd05). In the process of step Sd05, the main control CPU 30a updates the working address one unit next. When the process of step Sd05 is completed, the main control CPU 30a refers to the second variation pattern distribution random number information based on the work address (address of the random number information storage area) in the second look-ahead command generation process (step). Sd06). In the process of step Sd06, the main control CPU 30a updates the work address one unit next, and the information stored in the storage area indicated by the updated work address is the first variation pattern distribution random number. Refer to as information. As described above, in the process of step Sd05, after updating the work address, the main control CPU 30a does not refer to the information stored in the storage area indicated by the updated work address. After that, in the process of step Sd06, the main control CPU 30a further updates the work address updated one unit next in the process of step Sd05 to the next unit. As a result, in the second look-ahead command generation process, the main control CPU 30a is assigned an address larger than the address allocated to the storage area for storing the reach determination random number information without referring to the reach determination random number information. It is possible to refer to the random number information stored in the storage area.

When the process of step Sd06 is completed, the main control CPU 30a is based on the address (the address of the first variation pattern distribution information storage area) acquired in the process of step Sd05 and the first variation pattern distribution random number information. The address of the second fluctuation pattern distribution information storage area is acquired (step Sd07). Next, the main control CPU 30a refers to the second variation pattern distribution random number information based on the work address (address of the random number information storage area) in the second look-ahead command generation process (step Sd08). In the process of step Sd08, the main control CPU 30a updates the work address one unit next, and the information stored in the storage area indicated by the updated work address is the second variation pattern distribution random number. Refer to as information. In the process of step Sd08, the main control CPU 30a performs the main variation based on the address (the address of the second variation pattern distribution information storage area) acquired in the process of step Sd07 and the second variation pattern distribution random number information. Predetermine the type of pattern. After that, the main control CPU 30a generates a look-ahead command capable of specifying the result of the pre-determination in the process of step Sd08 (step Sd09). That is, the look-ahead command generated in the process of step Sd09 is information that can specify the type of the main fluctuation pattern. In the process of step Sd09, the main control CPU 30a sets the generated look-ahead command in the output buffer.

In this way, in the first look-ahead command generation process and the second look-ahead command generation process, in the process for acquiring the address of the random number information storage area, the number of pending starts of the first special symbol and the second special symbol It depends on which of the number of pending starts the address of the random number information storage area is acquired. On the other hand, in the first look-ahead command generation process and the second look-ahead command generation process, among the processes after acquiring the address of the random number information storage area, whether or not it becomes a big hit and the big hit symbol when it becomes a big hit are determined. The process for generating a identifiable look-ahead command is the same. Further, in the first look-ahead command generation process and the second look-ahead command generation process, in the process for acquiring the address of the first fluctuation pattern distribution information storage area, the first fluctuation pattern is based on the reach determination random number information. Whether or not to acquire the address of the distribution information storage area is different. On the other hand, in the first look-ahead command generation process and the second look-ahead command generation process, the process after acquiring the address of the first fluctuation pattern distribution information storage area, that is, the look-ahead command capable of specifying the type of the main fluctuation pattern. The process for generating is the same.

Further, in the second look-ahead command generation process, the reach determination random number information is not referred to among the random number information stored in the random number information storage area. On the other hand, in the second look-ahead command generation process, the reach determination random number information is not referred to, and an address larger than the address allocated to the storage area for storing the reach determination random number information is stored in the allocated storage area. It is possible to refer to random number information. Therefore, the random number information referred to in the second look-ahead command generation process is referred to in ascending order of the address of the allocated storage area. That is, in either of the first look-ahead command generation process and the second look-ahead command generation process, the addresses of the allocated storage areas are referred to in order from the smallest random number information, and the look-ahead is based on the reference result. The command is generated. In this embodiment, the first look-ahead command generation process and the second look-ahead command generation process correspond to read-ahead control for generating a look-ahead command based on random number information. In the following description, the look-ahead command generated in the process of step Sc04 and the process of step Sd04 may be referred to as a first look-ahead command. Further, the look-ahead command generated in the process of step Sc10 and the process of step Sd09 may be referred to as a second look-ahead command.

Next, a special game execution process for executing a variable game with a special symbol will be described.
In the special game execution process, the main control CPU 30a determines whether or not the start condition of the variable game of the special symbol is satisfied. In this determination, the main control CPU 30a determines that the start condition is satisfied when the special symbol variation game is not being executed and the jackpot game is not in progress, while the special symbol variation game is being executed or the jackpot is being hit. It is determined that the start condition is not satisfied when the game is in progress. Then, if the start condition is not satisfied, the main control CPU 30a ends the special game execution process.

When the above-mentioned start condition is satisfied, the main control CPU 30a reads out the number of start hold of the second special symbol, and determines whether the read number of start hold is larger than zero. Then, when the number of pending starts of the second special symbol is larger than zero, the main control CPU 30a shifts the special figure 2 random number information storage area and executes the variable game of the second special symbol. 2 Perform special game execution processing. On the other hand, when the number of start hold of the second special symbol is zero, the main control CPU 30a reads the number of start hold of the first special symbol and determines whether the read number of start hold is larger than zero. Then, when the number of pending starts of the first special symbol is larger than zero, the main control CPU 30a shifts the special figure 1 random number information storage area. The first special game execution process for executing the variable game of the first special symbol is performed.

Here, the first special game execution process and the second special game execution process will be described.
First, the first special game execution process will be described.
As shown in FIG. 10A, in the first special game execution process, the main control CPU 30a subtracts 1 from the number of pending starts of the first special symbol and updates it (step Se01). In the process of step Se01, the main control CPU 30a controls the hold display device 24a so as to display the start hold number of the first special symbol after subtraction. Further, in the process of step Se01, the main control CPU 30a sets a hold designation command in the output buffer that can specify the number of start hold of the first special symbol after subtraction.

Next, the main control CPU 30a acquires the address of the first special figure 1 random number information storage area (step Se02). In the process of step Se02, the main control CPU 30a sets the address (the address of the first special figure 1 random number information storage area) acquired in the process of step Se02 as the address for work in the first special game execution process. The main control CPU 30a refers to the winning random number information based on the working address (step Se03). In the process of step Se03, the main control CPU 30a refers to the information stored in the storage area indicated by the working address as random number information. Further, in the process of step Se03, the main control CPU 30a performs a winning lottery for the first special symbol based on the winning random number information and the jackpot determination value. Specifically, when executing the winning lottery of the first special symbol or the winning lottery of the second special symbol, the main control CPU 30a compares the winning random number information with the jackpot determination value, and in the winning lottery of the special symbol. Determine if you have won the jackpot. For example, the main control CPU 30a determines whether the value of the hit random number that can be specified from the hit random number information is smaller than the jackpot determination value, and when the value of the hit random number is smaller than the jackpot determination value. It is determined that a big hit has been won in the special symbol winning lottery. When determining whether or not a big hit has been won in the special symbol winning lottery, the main control CPU 30a determines whether the special symbol winning lottery is in a probabilistic state or not based on information that can identify the game state. It is determined whether or not it is in a probabilistic state, and based on the determination result, a determination is made so that the probability of winning a big hit in the special symbol winning lottery is different. For example, the main control CPU 30a performs a winning lottery for a special symbol based on a large hit determination value when the winning lottery for the special symbol is in the probabilistic state, as compared with the case where the special symbol is in the non-probable changing state.

Next, the main control CPU 30a refers to the jackpot symbol random number information based on the work address (the address of the first special figure 1 random number information storage area) in the first special game execution process (step Se04). In the process of step Se04, the main control CPU 30a updates the work address one unit next, and refers to the information stored in the storage area indicated by the updated work address as the jackpot symbol random number information. .. In the process of step Se04, the main control CPU 30a determines the type of the special symbol based on the lottery result of the winning lottery of the special symbol and the big hit symbol random number information. Specifically, when the main control CPU 30a does not win the big hit in the special symbol winning lottery, it determines the missing symbol of the special symbol, and when it wins the big hit in the special symbol winning lottery, it is based on the big hit symbol random number information. , Determine the type of jackpot symbol for special symbols. Next, the main control CPU 30a generates control information (hereinafter, referred to as a special symbol designation command) based on the determined type of special symbol (step Se05). The special symbol designation command is information that can specify whether or not a jackpot is achieved and the type of jackpot symbol in the case of a jackpot. In the process of step Se05, the main control CPU 30a sets the generated special symbol designation command in the output buffer.

When the process of step Se05 is completed, the main control CPU 30a refers to the reach determination random number information based on the work address in the first special game execution process (the address of the first special figure 1 random number information storage area). (Step Se06). In the process of step Se06, the main control CPU 30a updates the work address one unit next, and refers to the information stored in the storage area indicated by the updated work address as the reach determination random number information. To do. In the process of step Se06, the main control CPU 30a determines whether or not the reach effect is executed in the symbol variation game of the corresponding effect symbol based on the lottery result of the special symbol hit lottery and the reach determination random number information. To judge. Next, the main control CPU 30a acquires the address of the first variation pattern distribution information storage area based on the lottery result of the winning lottery of the special symbol and the determination result of whether or not the reach effect is executed (step). Se07).

When the process of step Se07 is completed, the main control CPU 30a uses the first variable pattern distribution random number based on the work address in the first special game execution process (the address of the first special figure 1 random number information storage area). Refer to the information (step Se08). In the process of step Se08, the main control CPU 30a updates the work address one unit next, and the information stored in the storage area indicated by the updated work address is the first variation pattern distribution random number. Refer to as information. Next, the main control CPU 30a distributes the second variation pattern based on the address (the address of the first variation pattern distribution information storage area) acquired in the process of step Se07 and the first variation pattern distribution random number information. The address of the minute information storage area is acquired (step Se09). At this time, the main control CPU 30a acquires the address of the second variation pattern distribution information storage area by performing the same processing as the processing of step Sc08.

Next, the main control CPU 30a refers to the second variation pattern distribution random number information based on the work address (the address of the first special figure 1 random number information storage area) in the first special game execution process (1st special figure 1 random number information storage area address). Step Se10). In the process of step Se10, the main control CPU 30a updates the work address one unit next, and transfers the information stored in the storage area indicated by the updated work address to the second variation pattern distribution random number. Refer to as information. In the process of step Se10, the main control CPU 30a performs the main variation based on the address (the address of the second variation pattern distribution information storage area) acquired in the process of step Se09 and the second variation pattern distribution random number information. Determine the type of pattern. At this time, the main control CPU 30a determines the type of the main fluctuation pattern by performing the same processing as the processing in step Sc09. After that, the main control CPU 30a generates control information (hereinafter, referred to as a fluctuation pattern command) that can specify the type of the main fluctuation pattern determined in the process of step Se10 (step Se11). In the process of step Se11, the main control CPU 30a sets the generated fluctuation pattern command in the output buffer.

Next, the second special game execution process will be described.
As shown in FIG. 10B, in the second special game execution process, the main control CPU 30a subtracts 1 from the number of pending starts of the second special symbol and updates it (step Sf01). In the process of step Sf01, the main control CPU 30a controls the hold display device 24b so as to display the start hold number of the second special symbol after subtraction. Further, in the process of step Sf01, the main control CPU 30a sets a hold designation command in the output buffer that can specify the number of start hold of the second special symbol after subtraction.

Next, the main control CPU 30a acquires the address of the first special figure 2 random number information storage area (step Sf02). In the process of step Sf02, the main control CPU 30a sets the address (the address of the first special figure 2 random number information storage area) acquired in the process of step Sf02 as the address for work in the second special game execution process. The main control CPU 30a refers to the winning random number information based on the working address (the address of the first special figure 1 random number information storage area) (step Sf03). In the process of step Sf03, the main control CPU 30a refers to the information stored in the storage area indicated by the working address as random number information. Further, in the process of step Sf03, the main control CPU 30a performs a winning lottery for the second special symbol based on the winning random number information and the jackpot determination value.

Next, the main control CPU 30a refers to the jackpot symbol random number information based on the work address (the address of the first special figure 2 random number information storage area) in the second special game execution process (step Sf04). In the process of step Sf04, the main control CPU 30a updates the work address one unit next, and refers to the information stored in the storage area indicated by the updated work address as the jackpot symbol random number information. .. In the process of step Sf04, the main control CPU 30a determines the type of the special symbol based on the lottery result of the winning lottery of the special symbol and the big hit symbol random number information. Specifically, when the main control CPU 30a does not win the big hit in the special symbol winning lottery, it determines the missing symbol of the special symbol, and when it wins the big hit in the special symbol winning lottery, it is based on the big hit symbol random number information. , Determine the type of jackpot symbol for special symbols. Next, the main control CPU 30a generates a special symbol designation command based on the determined type of special symbol (step Sf05). In the process of step Sf05, the main control CPU 30a sets the generated special symbol designation command in the output buffer. In the process of step Sf05, the main control CPU 30a updates the working address one unit next.

When the process of step Sf05 is completed, the main control CPU 30a acquires the address of the first variation pattern distribution information storage area based on the lottery result of the winning lottery of the special symbol (step Sf06). When the process of step Sf06 is completed, the main control CPU 30a uses the first variable pattern distribution random number based on the work address (the address of the first special figure 2 random number information storage area) in the second special game execution process. Refer to the information (step Sf07). In the process of step Sf07, the main control CPU 30a updates the work address one unit next, and the information stored in the storage area indicated by the updated work address is the first variation pattern distribution random number. Refer to as information. As described above, in the process of step Sf06, after updating the work address, the main control CPU 30a does not refer to the information stored in the storage area indicated by the updated work address. After that, in the process of step Sf07, the main control CPU 30a further updates the work address updated one unit next in the process of step Sf06 to the next unit. As a result, in the second special game execution process, the main control CPU 30a is assigned an address larger than the address allocated to the storage area for storing the reach determination random number information without referring to the reach determination random number information. It is possible to refer to the random number information stored in the storage area. In this embodiment, the reach determination random number information is non-influenced random number information that does not affect the processing result of the second special game execution process.

When the process of step Sf07 is completed, the main control CPU 30a is based on the address (the address of the first variation pattern distribution information storage area) acquired in the process of step Sf06 and the first variation pattern distribution random number information. The address of the second variation pattern distribution information storage area is acquired (step Sf08). At this time, the main control CPU 30a acquires the address of the second variation pattern distribution information storage area by performing the same processing as the processing in step Sd07.

Next, the main control CPU 30a refers to the second variation pattern distribution random number information based on the work address in the second special game execution process (the address of the first special figure 2 random number information storage area) (1st special figure 2 random number information storage area address). Step Sf09). In the process of step Sf09, the main control CPU 30a updates the work address one unit next, and the information stored in the storage area indicated by the updated work address is the second variation pattern distribution random number. Refer to as information. In the process of step Sf09, the main control CPU 30a performs the main variation based on the address (the address of the second variation pattern distribution information storage area) acquired in the process of step Sf08 and the second variation pattern distribution random number information. Determine the type of pattern. At this time, the main control CPU 30a determines the type of the main fluctuation pattern by performing the same processing as the processing in step Sd08. After that, the main control CPU 30a generates a variation pattern command capable of specifying the type of the main variation pattern determined in the process of step Sf09 (step Sf10). In the process of step Sf10, the main control CPU 30a sets the generated fluctuation pattern command in the output buffer.

In this way, in the first special game execution process and the second special game execution process, the address of the first special figure 1 random information storage area is acquired, or the address of the first special figure 2 random information storage area is acquired. Is different. On the other hand, in the first special game execution process and the second special game execution process, among the subsequent processes, the process for generating the special symbol designation command is the same. Further, in the first special game execution process and the second special game execution process, in the process for acquiring the address of the first variation pattern distribution information storage area, the first variation pattern is based on the reach determination random number information. Whether or not to acquire the address of the distribution information storage area is different. That is, the reach determination random number information is influence random number information whose information content affects the processing result of the first special game execution process, while it is non-influence random number information that does not affect the processing result of the second special game execution process. In this embodiment, the hit random number information, the jackpot symbol random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information have an influence that the information content affects the processing result of the first special game execution process. It is a random number, and is an influence random number whose information content affects the processing result of the second special game execution process. In this embodiment, either the random number information storage process executed triggered by the hold of the variable game of the first special symbol or the random number information storage process executed triggered by the hold of the variable game of the second special symbol. Random number information is stored in the same order regardless of whether the random number information is the influence random number information. As described above, the reach determination random number information is also the first random number information based on the random number that is not updated during the execution of the random number information storage process. That is, it can be said that the first random number information includes random number information whose information content does not affect the control result of one of the first special game execution process and the second special game execution process. The random number information may include non-influenced random number information that does not affect the processing results of either the first special game execution process or the second special game execution process.

Further, in the first special game execution process and the second special game execution process, the process after acquiring the address of the first variation pattern distribution information storage area, that is, the process for generating the variation pattern command is the same. Is. Further, in the first special game execution process and the second special game execution process, the random number information is referred to, and the variable game of the special symbol is executed based on the random number information. The first special game execution process and the second special game execution process correspond to game execution control for executing a variable game with a special symbol. Further, the first special game execution process corresponds to the first special game execution control for executing the first special game, and the second special game execution process corresponds to the second special game for executing the second special game. Corresponds to execution control.

When the first special game execution process or the second special game execution process is completed, the main control CPU 30a starts a variable game with a special symbol. Specifically, the main control CPU 30a controls the display contents of the special symbol display devices 23a and 23b so as to start the fluctuation of the first special symbol or the second special symbol. In this embodiment, the special symbol designation command and the variation pattern command are commands for starting the variation game of the special symbol and instructing the start of the production game.

Further, the main control CPU 30a measures the fluctuation time defined in the main fluctuation pattern determined in the first special game execution process or the second special game execution process. Then, the main control CPU 30a displays the special symbol so that the special symbol determined in the first special game execution process or the second special game execution process is derived when the fluctuation time defined in the main fluctuation pattern elapses. It controls the devices 23a and 23b. Further, the main control CPU 30a sets a control command (hereinafter, referred to as a game end command) capable of specifying the end of the special game in the output buffer when the fluctuation time defined in the determined main fluctuation pattern elapses. After that, the main control CPU 30a ends the special game execution process.

As described above, the pachinko gaming machine 10 of this embodiment is a specification in which the variable game of the first special symbol and the variable game of the second special symbol are not executed at the same time, and the variable game of the second special symbol is preferentially executed. Is. In this embodiment, the start condition of the variable game of the second special symbol is satisfied when the start condition of the variable game of the special symbol is satisfied and the number of pending starts of the second special symbol is larger than zero. .. Further, the start condition of the variable game of the first special symbol is the case where the start condition of the variable game of the special symbol is satisfied and the number of pending starts of the second special symbol is zero, and the first special It is established when the number of pending starts of the symbol is larger than zero. When both the number of pending starts of the first special symbol and the number of pending starts of the second special symbol are zero, the main control CPU 30a can control the standby state and identify the standby state. Set the control information (hereinafter referred to as the standby command) in the output buffer.

Next, a process relating to the progress of the jackpot game performed by winning the jackpot in the winning lottery of the special symbol will be described.
The jackpot game of this embodiment is composed of an opening accompanying the start of the jackpot game, a round game in which the jackpot 14 is opened, and an ending associated with the end of the jackpot game. In other words, the jackpot game progresses step by step in the order of opening → round game → ending. Then, the main control CPU 30a performs a jackpot information generation process for generating control information instructing the sub-control CPU 31a of the sub-control board 31 to control the game effect, and opens the jackpot as processing related to the progress of the jackpot game. Performs a jackpot game control process to close. In the jackpot information generation process, the main control CPU 30a generates an opening command as control information that can specify the start of the opening and sets it in the output buffer. Further, in the jackpot information generation process, the main control CPU 30a generates a round command as control information that can identify the start of each round game with the start of each round game, and sets it in the output buffer. Further, in the jackpot information generation process, the main control CPU 30a generates an ending command as control information that can specify the start of the ending and sets it in the output buffer.

Next, the processing related to the game state will be described.
In this process, the main control CPU 30a generates control information (hereinafter, referred to as a state designation command) capable of specifying the game state as control information, and sets it in the output buffer.

When the game state is set to no low probability time reduction, the main control CPU 30a generates a state 1 designation command as a state designation command that can specify that the game state has no low probability time reduction. Further, when the game state has a low probability time reduction, the main control CPU 30a generates a state 2 designation command as a state designation command capable of identifying that the game state has a low probability time reduction. Further, when the game state has a high accuracy time reduction, the main control CPU 30a generates a state 3 designation command as a state specification command capable of identifying that the game state has a high accuracy time reduction. Further, when the main control CPU 30a manages the granting period of the ball entry rate improved state by the number of fluctuations, the main control CPU 30a counts the number of executed special symbol fluctuation games, and when the end condition of the ball entry rate improved state is satisfied. Generates an end command as a state specification command that can specify the end of the ball entry rate improvement state.

In this embodiment, the generated state specification command is set in the output buffer when the power is turned on (when the power is restored) and when the gaming state changes. For example, when the game state after the end of the big hit game is set to have a high accuracy time reduction, the state 3 designation command is set in the output buffer with the end of the big hit game. The state designation command is not limited to the illustrated control information, and may be set for each game state that needs to be recognized by the sub-control CPU 31a.

Next, the normal symbol input process will be described.
The main control CPU 30a determines whether or not the game ball has passed (entered) the operating gate 18 based on whether or not the detection signal is input from the gate sensor GS. When the game ball passes through the operating gate 18, the main control CPU 30a determines whether or not the normal hold number stored in the main control RAM 30c is less than the upper limit number. When the normal hold number is less than the upper limit number, the main control CPU 30a adds 1 to the normal hold number stored in the main control RAM 30c and updates it. Next, the main control CPU 30a acquires a random number generated in the main control board 30, and stores random number information based on the acquired random number in the main control RAM 30c. In this case, the main control CPU 30a stores the random number information for a normal game so that the storage order of the random number information can be specified. For example, the random number is a normal hit random number used in a normal lottery.

Next, the normal game execution process for starting the variable game of the normal symbol will be described.
In the normal game execution process, the main control CPU 30a determines whether or not the start condition of the variable game of the normal symbol is satisfied. In this determination, the main control CPU 30a determines that the start condition is satisfied when the normal symbol variation game is not being executed and the normal symbol hit game is not in progress, while the normal symbol variation game is being executed. Alternatively, it is determined that the start condition is not satisfied when the hit game of the normal symbol is in progress. Then, if the start condition is not satisfied, the main control CPU 30a ends the normal game execution process.

When the above-mentioned start condition is satisfied, the main control CPU 30a reads the normal hold number and determines whether the read normal hold number is larger than zero. Then, when the normal hold number is larger than zero, the main control CPU 30a performs a predetermined process so as to start the normal symbol variation game. On the other hand, the main control CPU 30a ends the normal game execution process when the normal hold number is zero.

When starting the variable game of the normal symbol, the main control CPU 30a subtracts 1 from the normal hold number and updates it. Then, the main control CPU 30a acquires the random number information stored first among the random number information (ordinary hit random numbers) stored in the main control RAM 30c. Then, the main control CPU 30a compares the value of the normal hit random number specified from the acquired random number information with the normal hit determination value, and performs a winning lottery for the normal symbol. The pachinko gaming machine 10 of this embodiment has a function of improving the ball entry rate. Therefore, when the probability fluctuation control of the normal symbol is executed in the normal symbol winning lottery state, the main control CPU 30a in the normal symbol winning lottery is in the normal symbol winning lottery state. A winning lottery for ordinary symbols is performed with a winning probability that differs depending on whether the non-ball entry rate is improved.

In this embodiment, the winning probability in the non-ball entry rate improved state is set to zero (normally no hit), and the winning probability in the ball entry rate improved state is set to 100% (no loss). In addition, the winning probability of the winning lottery of the ordinary symbol can be defined by the ratio of the number of values (ordinary winning judgment value) to be won in the ordinary hit to the possible numerical value of the ordinary winning random number.

Returning to the explanation of the normal game execution process, the main control CPU 30a determines whether or not the value of the normal hit random number acquired from the main control RAM 30c matches the normal hit determination value in the winning lottery of the normal symbol. Then, when the value of the normal hit random number and the normal hit determination value match, the winning lottery of the normal symbol is won. When the winning lottery of the ordinary symbol is won, the main control CPU 30a performs the ordinary winning process. In the normal hit processing, the main control CPU 30a determines the hit symbol of the normal symbol and also determines the fluctuation pattern of the normal symbol that can specify the fluctuation time of the fluctuation game of the normal symbol. The winning symbol of the determined normal symbol becomes the fixed stop symbol derived in the fluctuation game of the ordinary symbol. On the other hand, if the main control CPU 30a does not win the winning lottery of the normal symbol, the main control CPU 30a normally performs the loss processing. In the normal deviating process, the main control CPU 30a determines the deviated symbol of the normal symbol and the variation pattern of the normal symbol. The determined out-of-order symbol of the normal symbol becomes the fixed stop symbol derived in the fluctuation game of the normal symbol.

Then, when the normal game execution process is completed, the main control CPU 30a performs a process different from the normal game execution process to execute the normal symbol variable game on the normal symbol display device 25 and elapse of the variable time. Later, the hit symbol of the normal symbol or the off symbol of the normal symbol is derived. Further, when the main control CPU 30a wins the winning lottery of the ordinary symbol, the ordinary winning game is generated after the end of the fluctuation game of the ordinary symbol. In the normal hit game, the second starting port 13 is opened in a predetermined opening pattern, so that a permissible state for allowing the game ball to enter is controlled.

Next, the prize ball processing performed by the main control CPU 30a will be described.
When the detection signals are input from the start sensors SE1 and SE2 and the count sensor CS, the main control CPU 30a controls so as to pay out a predetermined number of prize balls to each sensor. Specifically, in the prize ball processing, the main control CPU 30a generates and outputs a payout designation command (payout signal) to be output to a payout control board (not shown) included in the pachinko gaming machine 10. The payout control board into which the payout designation command is input operates a ball payout device (not shown) included in the pachinko gaming machine 10, and pays out a predetermined number of game balls as prize balls.

Next, various processes executed by the sub-control CPU 31a of the sub-control board 31 based on the effect control program will be described. When the sub-control CPU 31a inputs control information from the main control CPU 30a, the sub-control CPU 31a executes various processes according to the control information.

Specifically, the sub-control CPU 31a sets the input control information in the input buffer in the interrupt process generated when the control information of 1 is input from the main control CPU 30a. The sub-control CPU 31a executes various processes according to the control information set in the input buffer in the command input process executed at a predetermined timing. At this time, the sub-control CPU 31a executes various processes according to the control information in the order in which the control information is set in the input buffer.

Next, the effect symbol variation processing will be described.
In this embodiment, the sub-control CPU 31a executes the effect symbol variation processing when the commands are input in the order of the special symbol designation command and the variation pattern designation command. That is, the sub-control CPU 31a performs the effect symbol variation processing when the special symbol designation command and the variation pattern command are input in the same order in which the special symbol designation command and the variation pattern command are output to the sub-control board 31. Execute. In the effect symbol variation process, the sub-control CPU 31a determines the combination of the effect symbols to be derived in the effect symbol variation game based on the special symbol designated by the special symbol designation command. In the following description, the combination of the effect symbols is abbreviated as the symbol combination.

When the jackpot symbol of the special symbol is designated, the sub-control CPU 31a determines the jackpot symbol combination according to the type of the jackpot symbol of the special symbol. Further, when the out-of-order symbol of the special symbol is specified, the sub-control CPU 31a determines the symbol combination to be derived in the variation game of the effect symbol based on the main variation pattern specified from the variation pattern command. Specifically, the sub-control CPU 31a determines the combination of out-of-line symbols including the reach-forming symbol when the main variation pattern for out-of-reach variation is specified. Further, the sub-control CPU 31a determines the combination of outliers that does not include the reach-forming symbol when the main variation pattern for out-of-reach variation is specified.

In this embodiment, in the effect symbol variation game, a combination of three columns of effect symbols consisting of a left column, a middle column, and a right column is derived as a result of the effect symbol variation game. In this embodiment, the identification information constituting the symbol combination is composed of a design imitating Arabic numerals. Specifically, the identification information of each column is an Arabic numeral from [1] to [9]. As a result, the symbol combination becomes, for example, a combination such as [111] in which the identification information of all columns is the same, or a combination such as [479], [337], [121] in which the identification information of all columns is not the same. .. In the effect symbol variation game, a reach is formed by deriving the same effect symbol to a predetermined plurality of columns (two columns, a left column and a right column in this embodiment), and the remaining columns (medium in this embodiment). A reach effect is performed to derive one of the rows).

Further, when the sub-control CPU 31a receives the fluctuation start command, the sub-control CPU 31a determines a sub-variation pattern for controlling the display content of the image display device 11 based on the type of the main fluctuation pattern that can be specified from the command. .. The sub-variation pattern can specify the variation content (effect content) of the variation game of the production symbol.

The sub-control CPU 31a that has determined the sub-variation pattern controls the display content of the image display device 11 so that the variation game of the effect symbol is displayed with the variation content specified by the sub-variation pattern. Then, the sub-control CPU 31a controls the display content of the image display device 11 so as to end the variation game of the effect symbols and derive the combination of the effect symbols according to the passage of the variation time specified from the main variation pattern. In this embodiment, the variable game of the effect symbol is terminated when the game end command is received. However, the variation time specified from the main variation pattern is measured by the control of the sub-control CPU 31a to measure the effect symbol. You may want to end the variable game. That is, the end of the variable game of the effect symbol may be controlled without transmitting the game end command from the main control board 30.

Further, in the control of the image display device 11, the sub-control CPU 31a of the sub-control board 31 selects an image to be executed, and reads data necessary for the selected image from the ROM. The sub-control board 31 is provided with a character ROM in which character image data to be displayed on the image display device 11, specifically, a person, a character, a figure, or a symbol (including a decorative pattern) is stored in advance, and is required from the character ROM. Data may be read out. Then, the sub-control CPU 31a of the sub-control board 31 outputs the read data to the VDP (video display processor). The VDP executes display control based on the input data, and displays an image in the image display area GH of the image display device 11.

First, the look-ahead effect determination process will be described.
The look-ahead effect determination process is a process for determining whether or not to execute the look-ahead effect, and the effect mode of the look-ahead effect when the look-ahead effect is executed. For example, the look-ahead effect includes a zone look-ahead effect, a chance eye continuous effect, a hold change effect, and the like. In this embodiment, the sub-control CPU 31a executes the look-ahead effect determination process when the commands are input in the order of the hold designation command, the first look-ahead command, and the second look-ahead command. That is, the sub-control CPU 31a has the hold designation command, the first look-ahead command, and the second look-ahead command in the same order in which the hold designation command, the first look-ahead command, and the second look-ahead command are output to the sub-control board 31. Is entered, the look-ahead effect determination process is executed.

In the look-ahead effect determination process, the sub-control CPU 31a determines whether or not to execute the look-ahead effect based on the hold designation command, the first look-ahead command, and the second look-ahead command, and the effect mode of the look-ahead effect when executing. It is determined and the result is stored in the sub-control RAM 31c. After that, the sub-control CPU 31a ends the look-ahead effect determination process.

The sub-control CPU 31a refers to the processing result of the pre-reading effect determining process stored in the sub-control RAM 31c during the execution of the effect game, and determines whether or not to execute the pre-reading effect. When executing the look-ahead effect, the image display device 11 is controlled so as to execute the look-ahead effect based on the above-mentioned processing result.

In addition, when the sub-control CPU 31a receives a control command transmitted from the main control CPU 30a, the sub-control CPU 31a executes control according to the control command.
For example, during the jackpot game, a control command that can identify the jackpot game is transmitted to the sub-control CPU 31a. For example, such a control command includes an opening command that can specify the start of the opening, a round command that can specify the start of each round game, and an ending command that can specify the start of the ending. Then, the sub-control CPU 31a that has received these commands executes the opening effect, each round effect, and the ending effect in the image display area GH or the like.

As described in detail above, this embodiment has the following effects.
(1-1) In the above embodiment, in the random number information storage process, even during the execution of the random number information storage process, after the random number information based on the updated hit random number is stored, the random number information storage process is being executed. Is configured to store random number information based on the unupdated jackpot symbol random number, reach determination random number, first variation pattern distribution random number, and second variation pattern distribution random number. According to this, since the hit random number information based on the updated random number is stored first even during the execution of the random number information storage process, the hit random number information changes depending on the processing status of the random number information storage process. Can be suppressed.

(1-2) The pachinko gaming machine 10 of the above embodiment has a random number generation circuit 30d that generates a random number to be updated even during execution of random number information storage processing, and is updated during execution of random number information storage processing. It is provided with a main control CPU 30a that generates a big hit symbol random number that is not performed, a reach determination random number, a first variation pattern distribution random number, and a second variation pattern distribution random number. That is, the means for generating a random number that is updated even during the execution of the random number information storage process and the means for generating a random number that is not updated during the execution of the random number information storage process are different. As a result, the random numbers that are updated even during the execution of the random number information storage process and the random numbers that are not updated during the execution of the random number information storage process are generated without interfering with each other, so that the accuracy of the random numbers is further improved. ..

(1-3) In the above embodiment, the random number updated even during the execution of the random number information storage process is a winning random number related to the winning lottery of the special symbol. In general, the winning lottery of special symbols is the most important lottery in the gaming machine, and if the result of the winning lottery of special symbols is affected by the processing status of the random number information storage processing, the fairness of the game is impaired. There is a risk. In the above embodiment, in the above embodiment, the hit random number information based on the hit random number is not updated during the execution of the random number information storage process, the jackpot symbol random number, the reach determination random number, the first variation pattern distribution random number, and the random number. The second variation pattern is stored before the random number information based on the distribution random number. As a result, in the above embodiment, it is possible to suppress the change of the winning random number information depending on the processing status of the random number information storage processing, and as a result, the winning lottery of the special symbol is performed depending on the processing status of the random number information storage processing. It is possible to suppress the influence on the result of.

(1-4) In the above embodiment, the hit random number updated even during the execution of the random number information storage process is a hardware random number. On the other hand, the jackpot symbol random number, the reach determination random number, the first variation pattern distribution random number, and the second variation pattern distribution random number, which are not updated during the execution of the random number information storage process, are software random numbers. In general, a hardware random number has a faster update cycle than a software random number, and is therefore easily affected by the processing status of the random number information storage process. In the above embodiment, the random number information storage process is a random number that is easily affected by the processing status of the random number information storage process by storing the random number information based on the random number that is not updated during the execution of the random number information storage process. It is also possible to suppress the change of random number information based on the random number.

(1-5) In the above embodiment, the reference order of the random number information in the first look-ahead command generation process and the second look-ahead command generation process is the same as the storage order of the random number information in the random number information storage process, and any control thereof is made. However, the random number information with the smallest storage area address is processed in order. As a result, it is possible to prevent the management of random number information from becoming complicated.

(1-6) In the above embodiment, in the random number information storage process, the random number information is stored regardless of whether or not the random number information is the influence random number information. That is, in the random number information storage process, the random number information to be stored does not change depending on whether the hold of the first special game or the hold of the second special game triggers the execution of the random number information storage process. As a result, it is possible to prevent the management of random number information from becoming complicated.

(1-7) In the above embodiment, the random number information storage process executed when the hold condition of the variable game of the first special symbol is satisfied, and the hold condition of the variable game of the second special symbol are satisfied. The random number information storage process to be executed is the same process. As a result, the random number information storage process executed when the hold condition of the variable game of the first special symbol is satisfied, and the random number information storage process executed when the hold condition of the variable game of the second special symbol is satisfied. Since it is possible to make the above common, it is possible to prevent the random number information storage process from becoming complicated.

(1-8) In the above embodiment, the influence random number information that affects the processing result of the first special game execution process includes random number information that also affects the processing result of the second special game execution process. According to this, it is possible to share a part of the influence random number information that affects the first special game execution process and the second special game execution process, so that the management of the random number information is suppressed from becoming complicated. be able to.

(1-9) In the above embodiment, the number of influence random number information affecting the processing result of the first special game execution process is different from the number of influence random number information affecting the processing result of the second special game execution process. According to this, even if the number of affected random number information is different, the same random number information is stored in the same order in the random number information storage process, so that the management of the random number information can be suppressed from becoming complicated.

(1-10) In the above embodiment, in the first look-ahead command generation process, a look-ahead command is generated based on the influence random number information that affects the processing result of the first special game execution process, and in the second look-ahead command generation process, The pre-reading command is generated based on the influence random number information that affects the processing result of the second special game execution process. According to this, since only the look-ahead command based on the influence random number information is generated, it is possible to suppress that each of the first look-ahead command generation process and the second look-ahead command generation process becomes complicated.

(1-11) In the random number information storage process of the above embodiment, the order in which the influence random number information is stored is the order in which the influence random number information is referred to in the first look-ahead command generation process and the second look-ahead command generation process. It is the same. According to this, the management of the random number information becomes complicated by making the reference order of the random number information in the first look-ahead command generation process and the second look-ahead command generation process the same as the storage order of the random number information in the random number information storage process. It can be suppressed.

(1-12) In the above embodiment, a plurality of random number information based on each of the plurality of random numbers is stored. That is, the random number information of 1 is stored based on the random number of 1. Therefore, it is possible to prevent the control in the random number information storage process from becoming complicated.

(1-13) In the above embodiment, in step Sb07 of the random number information storage process, the address for acquiring the random number and the address for storing the random number are updated in the same amount and in the same direction. Therefore, it is possible to prevent the control in the random number information storage process from becoming complicated.

(Second embodiment)
Next, the pachinko gaming machine 10 of the second embodiment will be described. In the following description, the same configuration as the above-described embodiment and the same control may be designated by the same reference numerals, and the duplicated description may be omitted or simplified.

The second embodiment is different from the first embodiment in that a small hit can be won in the winning lottery of the second special symbol and a plurality of types of small hit symbols are provided as the small hit symbol of the special symbol. .. In the second embodiment, in the winning lottery of the first special symbol, the small winning is not won as in the first embodiment. Hereinafter, a detailed description will be given.

As shown in FIG. 11, in the winning lottery of the first special symbol, the small hit is not won. Therefore, in the special figure 1 random number information storage area, the same random number information as that of the first embodiment is in the same order as that of the first embodiment. It is remembered in. On the other hand, in the second special symbol winning lottery, the small hit is won, and since there are a plurality of types of small hit symbols in the special symbol small hit symbol, the random number information stored in the special diagram 2 random number information storage area is stored. It is different from the first embodiment. In this embodiment, in the special figure 2 random number information storage area, in addition to the hit random number information, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information. , Small hit symbol random number information based on the small hit random number for determining the small hit symbol is stored. In this embodiment, in the special figure 2 random number information storage area of 1, the hit random number information, the big hit symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, and the small Random number information is stored in the order of hit symbol random number information. That is, in the special figure 2 random number information storage area of 1, the hit random number information, the big hit symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, the small hit symbol random number In the order of information, a continuous storage area in the special figure 2 random number information storage area of 1 is assigned. The small hit symbol random number information is 1-byte information, while a 2-byte storage area is allocated.

Further, since the types of random information stored in the special figure 1 random number information storage area and the special figure 2 random number information storage area are different, the random number address storage area is the first one corresponding to the special figure 1 random number information storage area. There is a random number address storage area and a second random number address storage area corresponding to the special figure 2 random number information storage area.

As shown in FIG. 12, in the special figure 1 random number information storage area, the same random number information as in the first embodiment is stored in the same order as in the first embodiment. The same random number addresses as the random number address storage area in the first embodiment are stored in the same order as the random number address storage area in the first embodiment. On the other hand, in the second random number address storage area, in addition to the hit random number address, the big hit symbol random number address, the reach determination random number address, the first variable pattern distribution random number address, and the second variable pattern distribution random number address, the small hit symbol The small hit symbol random number address related to the random number is stored. In this embodiment, the second random number address storage area includes a hit random number address, a big hit symbol random number address, a reach determination random number address, a first variation pattern distribution random number address, a second variation pattern distribution random number address, and a small hit symbol. Random number addresses are stored in the order of random number addresses. That is, in the second random number address storage area, the hit random number address, the big hit symbol random number address, the reach determination random number address, the first variable pattern distribution random number address, the second variable pattern distribution random number address, and the small hit symbol random number address are in that order. A continuous storage area in the second random number address storage area is allocated.

Next, the random number information storage process in this embodiment will be described. As described above, in this embodiment, the type of random number information stored differs between the special figure 1 random number information storage area and the special figure 2 random number information storage area. Further, in this embodiment, the number of random number information stored differs between the special figure 1 random number information storage area and the special figure 2 random number information storage area. Therefore, in this embodiment, the random information storage process (hereinafter referred to as the first random information storage process) executed when the hold condition of the first special game is satisfied, and the hold condition of the second special game The random information storage process (hereinafter referred to as the second random information storage process), which is executed when the above is established, is different from the process. That is, in this embodiment, in the random number information storage process, the first random number information storage process executed when the hold condition of the first special game is satisfied and the hold condition of the second special game are satisfied. There is a second random number information storage process that is executed at the same time.

First, the first random number information storage process will be described with reference to FIG. 13 (a). The processing of steps Sg04 of the first random number information storage process and the processes of steps Sg05 to Sg07 are the same as the processes of steps Sb04 and steps Sb05 to Sb07 of the random number information storage process in the first embodiment. is there.

As shown in FIG. 13A, in the first random number information storage process, the main control CPU 30a acquires the first repetition number stored in the main control ROM 30b (step Sg01). The number of first repetitions acquired in the process of step Sg01 of the random number information storage process corresponds to the number of random numbers acquired in the first random number information storage process. In this embodiment, in the first random number information storage process, a hit random number, a big hit symbol random number, a reach determination random number, a first variable pattern distribution random number, and a second variable pattern distribution random number are referred to. That is, in this embodiment, the number of first repetitions is "5". Next, the main control CPU 30a acquires the address of the first random number address storage area (step Sg02). Further, the main control CPU 30a acquires the address of the special figure 1 random number information storage area corresponding to the newly reserved variable game of the first special symbol (step Sg03).

When the process of step Sg03 is completed, the main control CPU 30a sets the address (address of the first random number address storage area) acquired in the process of step Sg02 as the first address for work in the first random number information storage process (the address of the first random number address storage area). Step Sg04). Further, in the process of step Sg04, the main control CPU 30a sets the address (address of the random number information storage area in FIG. 1) acquired in the process of step Sg03 as the second address for work. Next, the main control CPU 30a acquires a random number based on the random number address stored in the storage area indicated by the first working address (step Sg05). When the random number is acquired, the main control CPU 30a stores the random number information based on the acquired random number in the storage area indicated by the second working address (step Sg06). After that, the main control CPU 30a updates the first working address one unit next, and updates the second working address one unit next (step Sg07). In the process of step Sg07, the main control CPU 30a updates the work first address and the work second address to addresses that are two bytes larger.

Next, the main control CPU 30a is updated by subtracting 1 from the number of first repetitions (step Sg08). After that, the main control CPU 30a determines whether or not the number of first repetitions after the update is greater than zero (step Sg09). When the number of first repetitions after the update is zero (step Sg09: NO), the main control CPU 30a ends the first random number information storage process. When the number of first repetitions after the update is larger than zero (step Sg09: YES), the main control CPU 30a returns to the process of step Sg05. In this embodiment, the main control CPU 30a repeatedly executes the processes of steps Sg05 to Sg07, so that a plurality of random number information based on each of the plurality of random numbers is stored in the special figure 1 random number information storage area. Then, by repeating the processes of steps Sg05 to Sg07 based on the number of first repetitions, a random number based on the number of first repetitions is acquired, and random number information based on the number of first repetitions is a random number in Special Figure 1. It is stored in the information storage area.

Next, the second random number information storage process will be described with reference to FIG. 13 (b). The processing of steps Sh04 of the second random number information storage process and the processes of steps Sh05 to Sh07 are the same as the processes of steps Sb04 and steps Sb05 to Sb07 of the random number information storage process in the first embodiment. is there. Further, the processing of steps Sh04 and the processing of steps Sh05 to Sh07 are the same as the processing of step Sg04 of the first random number information storage processing and the processing of steps Sg05 to Sg07.

As shown in FIG. 13B, in the second random number information storage process, the main control CPU 30a acquires the second repetition number stored in the main control ROM 30b (step Sh01). The number of second repetitions acquired in the process of step Sh01 of the random number information storage process corresponds to the number of random numbers acquired in the second random number information storage process. In this embodiment, in the second random number information storage process, a hit random number, a big hit symbol random number, a reach determination random number, a first variable pattern distribution random number, a second variable pattern distribution random number, and a small hit symbol random number are referred to. .. That is, in this embodiment, the number of second repetitions is "6". Next, the main control CPU 30a acquires the address of the second random number address storage area (step Sh02). Further, the main control CPU 30a acquires the address of the special figure 2 random number information storage area corresponding to the newly reserved variable game of the second special symbol (step Sh03).

When the process of step Sh03 is completed, the main control CPU 30a sets the address (address of the second random number address storage area) acquired in the process of step Sh02 as the first address for work in the second random number information storage process ( Step Sh04). Further, in the process of step Sh04, the main control CPU 30a sets the address (address of the random number information storage area in Special Figure 2) acquired in the process of step Sh03 as the second address for work. Next, the main control CPU 30a acquires a random number based on the random number address stored in the storage area indicated by the first working address (step Sh05). When the random number is acquired, the main control CPU 30a stores the random number information based on the acquired random number in the storage area indicated by the second working address (step Sh06). After that, the main control CPU 30a updates the first working address one unit next, and updates the second working address one unit next (step Sh07). In the process of step Sh07, the main control CPU 30a updates the work first address and the work second address to addresses that are two bytes larger.

Next, the main control CPU 30a is updated by subtracting 1 from the number of second repetitions (step Sh08). After that, the main control CPU 30a determines whether or not the number of second repetitions after the update is greater than zero (step Sh09). When the number of second repetitions after the update is zero (step Sh09: NO), the main control CPU 30a ends the second random number information storage process. When the number of second repetitions after the update is larger than zero (step Sh09: YES), the main control CPU 30a returns to the process of step Sh05. In this embodiment, the main control CPU 30a repeatedly executes the processes of steps Sh05 to Sh07, so that a plurality of random number information based on each of the plurality of random numbers is stored in the special figure 2 random number information storage area. Then, by repeating the processes of steps Sh05 to Step Sh07 based on the number of second repetitions, a random number based on the number of second repetitions is acquired, and the random number information based on the number of second repetitions is a random number in Special Figure 2. It is stored in the information storage area.

As described above, in this embodiment, the number of random number information stored differs between the first random number information storage process and the second random number information storage process. Further, a part of the stored random number information is different between the first random number information storage process and the second random number information storage process. Therefore, the random information includes random information stored in any of the first random information storage process and the second random information storage process (hereinafter referred to as normal random information) and the first random information storage process. , And random information (hereinafter referred to as specific random information) that is stored only in one of the second random information storage processes. Further, the normal random number information includes a winning random number information relating to a winning lottery and a variable pattern random number information relating to a variable pattern lottery. The specific random number information includes random number information that is different from both the hit random number information and the fluctuation pattern random number information.

Further, in this embodiment, the order in which the random number information is normally stored is the same regardless of whether the first random number information storage process or the second random number information storage process is performed. Further, in the first random number information storage process and the second random number information storage process, the variation pattern random number information is stored in the order in which the hit random number information is stored in the normal random number information in the order in which the normal random number information is stored. Before the order. When the specific random number information is stored by the second random number information storage process, the order in which the specific random number information is stored is usually later than the order in which the specific random number information is stored.

Further, as described above, the reach determination random number information as the normal random number information is the random number information whose information content affects the processing result of the first special game execution process, while it is the processing result of the second special game execution process. Random number information that does not affect. That is, in this embodiment, the normal random number information includes random number information whose information content does not affect the control result of one of the first special game execution process and the second special game execution process.

Next, the first look-ahead command generation process and the second look-ahead command generation process in this embodiment will be described.
First, the first look-ahead command generation process will be described.

As described above, in the special figure 1 random number information storage area, the same random number information as in the first embodiment is stored in the same order as in the first embodiment. Therefore, the first look-ahead command generation process is performed in the first embodiment. It is the same as the form. On the other hand, in the special figure 2 random number information storage area, in addition to the hit random number information, the big hit symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information, a small hit The symbol random number information is stored. However, in this embodiment, the look-ahead command based on the small hit symbol random number information is not generated. Therefore, the second look-ahead command generation process is the same as that of the first embodiment. That is, in this embodiment, the small hit symbol random number information is not referred to in the second look-ahead command generation process.

Next, the first special game execution process and the second special game execution process in this embodiment will be described.
First, the first special game execution process will be described.

As described above, in the winning lottery of the first special symbol, the small hit is not won, so that the first special game execution process is the same as that of the first embodiment. On the other hand, in the winning lottery of the second special symbol, the small hit is won and the small hit symbol of the special symbol has a plurality of types of small hit symbols, so that the second special game execution process is different from the first embodiment. ..

The second special game execution process in this embodiment will be described with reference to FIG. The processes of steps Si01 to Si04 of the second special game execution process in this embodiment are the same as the processes of steps Sf01 to Sf04 of the second special game execution process in the first embodiment. Further, the processes of steps Si05 to Si09 of the second special game execution process in this embodiment are the same as the processes of steps Sf06 to Sf10 of the second special game execution process in the first embodiment.

As shown in FIG. 14, in the second special game execution process of this embodiment, the main control CPU 30a is updated by subtracting 1 from the number of pending starts of the second special symbol (step Si01). In the process of step Si01, the main control CPU 30a controls the hold display device 24b so as to display the start hold number of the second special symbol after subtraction. Further, in the process of step Si01, the main control CPU 30a sets a hold designation command in the output buffer that can specify the number of start hold of the second special symbol after subtraction.

Next, the main control CPU 30a acquires the address of the first special figure 2 random number information storage area (step Si02). In the process of step Si02, the main control CPU 30a sets the address (the address of the first special figure 2 random number information storage area) acquired in the process of step Si02 as the address for work in the second special game execution process. The main control CPU 30a refers to the winning random number information based on the working address (the address of the first special figure 1 random number information storage area) (step Si03). In the process of step Si03, the main control CPU 30a refers to the information stored in the storage area indicated by the working address as hit random number information. Further, in the process of step Si03, the main control CPU 30a performs a winning lottery for the second special symbol based on the winning random number information and the jackpot determination value.

Next, the main control CPU 30a refers to the jackpot symbol random number information based on the work address (the address of the first special figure 2 random number information storage area) in the second special game execution process (step Si04). In the process of step Si04, the main control CPU 30a updates the work address one unit next, and refers to the information stored in the storage area indicated by the updated work address as the jackpot symbol random number information. .. Further, in the process of step Si04, the main control CPU 30a updates the working address one unit next.

When the process of step Si04 is completed, the main control CPU 30a acquires the address of the first variation pattern distribution information storage area based on the lottery result of the winning lottery of the second special symbol (step Si05). As described above, in this embodiment, in the winning lottery of the second special symbol, a small hit may be won. Therefore, in this embodiment, in addition to the first fluctuation pattern distribution information storage area for the deviation variation of the special figure 2 and the first fluctuation pattern distribution information storage area for the big hit variation of the special figure 2, the special figure 2 There is a first variation pattern distribution information storage area for small hit variation. When the process of step Si05 is completed, the main control CPU 30a uses the first variable pattern distribution random number based on the work address in the second special game execution process (the address of the first special figure 2 random number information storage area). Refer to the information (step Si06). In the process of step Si06, the main control CPU 30a updates the work address one unit next, and the information stored in the storage area indicated by the updated work address is the first variation pattern distribution random number. Refer to as information. As described above, in the process of step Si05, after updating the work address, the main control CPU 30a does not refer to the information stored in the storage area indicated by the updated work address. After that, in the process of step Si06, the main control CPU 30a further updates the work address updated one unit in the process of step Si05 to the next unit. As a result, in the second special game execution process, the main control CPU 30a is assigned an address larger than the address allocated to the storage area for storing the reach determination random number information without referring to the reach determination random number information. It is possible to refer to the random number information stored in the storage area.

When the process of step Si06 is completed, the main control CPU 30a is based on the address (the address of the first variation pattern distribution information storage area) acquired in the process of step Si05 and the first variation pattern distribution random number information. The address of the second fluctuation pattern distribution information storage area is acquired (step Si07). At this time, the main control CPU 30a acquires the address of the second variation pattern distribution information storage area by performing the same processing as the processing in step Sd07.

Next, the main control CPU 30a refers to the second variation pattern distribution random number information based on the work address in the second special game execution process (the address of the first special figure 2 random number information storage area) (1st special figure 2 random number information storage area address). Step Si08). In the process of step Si08, the main control CPU 30a updates the work address one unit next, and transfers the information stored in the storage area indicated by the updated work address to the second variation pattern distribution random number. Refer to as information. In the process of step Si08, the main control CPU 30a performs the main variation based on the address (the address of the second variation pattern distribution information storage area) acquired in the process of step Si07 and the second variation pattern distribution random number information. Determine the type of pattern. At this time, the main control CPU 30a determines the type of the main fluctuation pattern by performing the same processing as the processing in step Sd08. After that, the main control CPU 30a generates a variation pattern command capable of specifying the type of the main variation pattern determined in the process of step Si08 (step Si09). In the process of step Si09, the main control CPU 30a sets the generated fluctuation pattern command in the output buffer.

When the process of step Si09 is completed, the main control CPU 30a acquires the small hit symbol random number information based on the work address (the address of the first special figure 2 random number information storage area) in the second special game execution process. (Step Si10). In the process of step Si10, the main control CPU 30a determines the type of the special symbol based on the lottery result of the winning lottery of the special symbol, the big hit symbol random number information, and the small hit symbol random number information. Specifically, the main control CPU 30a determines the out-of-order symbol of the special symbol when neither the big hit nor the small hit is won in the winning lottery of the special symbol. Further, when the small hit is won in the special symbol hit lottery, the main control CPU 30a determines the small hit symbol of the special symbol based on the small hit symbol random number information. Further, when the big hit is won in the special symbol winning lottery, the main control CPU 30a determines the type of the special symbol jackpot symbol based on the jackpot symbol random number information. Next, the main control CPU 30a generates a special symbol designation command based on the determined type of special symbol (step Si11). In the process of step Si11, the main control CPU 30a ends the second special game execution process after setting the generated special symbol designation command in the output buffer.

As described in detail above, this embodiment has the following effects.
(2-1) When the number of random number information differs between the first random number information storage process and the second random number information storage process as in this embodiment, the management of random number information may become complicated. In this embodiment, the random number information is stored because the storage order of the random number information stored in both the first random number information storage process and the second random number information storage process is the same. It is possible to prevent the management of the information from becoming complicated. Further, the reference order of the random number information in the first look-ahead command generation process and the second look-ahead command generation process is the same as the storage order of the random number information in the first random information storage process and the second random information storage process. By storing the random number information in ascending order of the address of the storage area even in the processing of, it is possible to suppress the management of the random number information from becoming complicated.

(2-2) In this embodiment, of the first random number information storage process and the second random number information storage process, the random number information stored only in the second random number information storage process is the first random number information storage process and the second random number information storage process. 2 Random information is stored after the stored random information in any of the random information storage processes. Thereby, a part of the process for storing the random number information in the first random number information storage process and a part of the process for storing the random number information in the second random number information storage process can be shared.

(2-3) In this embodiment, when generating a look-ahead command capable of specifying a variation pattern in the first look-ahead command generation process and the second look-ahead command generation process, the jackpot random number information and the variation pattern random number information are referred to in this order. .. As a result, it is possible to prevent the management of random number information from becoming complicated when generating the look-ahead command.

(2-4) According to this, even if the information content does not affect the processing result of the second special game execution process among the first special game execution process and the second special game execution process, the second is By storing the random information by the random information storage process, it is possible to prevent the management of the random information from becoming complicated.

(2-5) The random number information stored in either the first random number information storage process or the second random number information storage process is assigned a storage area in which the addresses in the main control RAM 30c are continuous. As a result, it is possible to further suppress the management of random number information from becoming complicated.

(Third Embodiment)
Next, the pachinko gaming machine 10 of the third embodiment will be described.
In the third embodiment, the same look-ahead command generation process is executed regardless of whether the variable game for which the hold condition is satisfied is the variable game of the first special symbol or the variable game of the second special symbol. It is different from the second embodiment. In the look-ahead command generation process of this embodiment, the look-ahead command of 1 is generated based on the random number information of 1.

As shown in FIG. 15, in the look-ahead command generation process, the main control CPU 30a acquires the number of repetitions stored in the main control ROM 30b (step Sj01). The number of repetitions acquired in the process of step Sj01 of the look-ahead command generation process corresponds to the number of random number information referred to in the look-ahead command generation process. In this embodiment, in the look-ahead command generation process, the hit random number information, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, and the second variation pattern distribution random number information are referred to. That is, in this embodiment, the number of repetitions is "5".

Next, the main control CPU 30a acquires the address of the random number information storage area corresponding to the newly reserved variable game (step Sj02). For example, in the process of step Sj02, the main control CPU 30a determines whether the newly reserved variable game is the variable game of the first special symbol or the variable game of the second special symbol, and the number of pending starts thereof. The address of the random number information storage area is acquired based on. Further, in the process of step Sj02, the main control CPU 30a sets the address (address of the random number information storage area) acquired in the process of step Sj02 as the work address in the look-ahead command generation process.

When the process of step Sj02 is completed, the main control CPU 30a refers to the random number information stored in the storage area indicated by the working address (step Sj03). The main control CPU 30a generates a look-ahead command capable of specifying the referenced random number information (step Sj04). In the process of step Sj04, the main control CPU 30a sets the generated look-ahead command in the output buffer.

Next, the main control CPU 30a is updated by subtracting 1 from the number of repetitions (step Sj05). After that, the main control CPU 30a determines whether or not the number of repetitions after the update is greater than zero (step Sj06). When the number of repetitions after the update is zero (step Sj06: NO), the main control CPU 30a ends the look-ahead command generation process. When the number of repetitions after the update is larger than zero (step Sj06: YES), the main control CPU 30a returns to the process of step Sj03. In this embodiment, the main control CPU 30a repeatedly executes the process of step Sj03 and the process of step Sj04 to generate a plurality of look-ahead commands capable of specifying each of the plurality of random number information. Then, by repeating the process of step Sj03 and the process of step Sj04 based on the number of repetitions, the random number information of the number based on the number of repetitions is referred to, and the look-ahead command based on the number of repetitions is generated.

As described in detail above, this embodiment has the following effects.
(3-1) In this embodiment, the look-ahead command is generated regardless of whether the random number information is the influence random number information. That is, in the look-ahead command generation process, the look-ahead command to be generated does not change depending on whether the hold of the first special game or the hold of the second special game triggers the execution of the look-ahead command generation process. As a result, it is possible to prevent the management of random number information from becoming complicated.

Each of the above embodiments can be modified and implemented as follows. Each of the above embodiments and the following modified examples can be implemented in combination with each other within a technically consistent range.

-In each embodiment, in the random number information storage process executed when the variable game of the first special symbol is suspended, non-influenced random number information that does not affect the processing result of the first special game execution process is stored. You may do so. In this case, in the random number information storage process executed when the variable game of the first special symbol is suspended, the influence random number information that affects the processing result of the first special game execution process is stored in a predetermined order. After that, the non-influenced random number information that does not affect the processing result of the first special game execution process may be stored.

-In addition, in the random number information storage process executed when the variable game of the first special symbol is suspended, the non-influenced random number information that does not affect the processing result of the first special game execution process is stored. In this case, the non-influenced random number information that does not affect the processing result of the first special game execution process may be the first random number information that is not updated during the execution of the first special game execution process. Further, the non-influenced random number information that does not affect the processing result of the first special game execution process is the specific random number information that is not stored in the random number information storage process that is executed when the variable game of the second special symbol is suspended. You may.

-The process of step Sc03 of the first look-ahead command generation process in the first embodiment and the second embodiment may not be executed based on the result of the preliminary determination in the process of step Sc02. Specifically, in the process of step Sc02, when it is determined in advance that the big hit will not be won in the winning lottery, the process of step Sc04 may be executed without executing the process of step Sc03. In this case, in the process of step Sc04, it is preferable to generate a look-ahead command based on the result of the preliminary determination in the process of step Sc02. When the process of step Sc04 is to be executed without executing the process of step Sc03, the main control CPU 30a may update the work address one unit next in the process of step Sc04. As a result, the main control CPU 30a does not refer to the jackpot symbol random number information, but refers to the random number information stored in the storage area to which the address larger than the address assigned to the storage area for storing the jackpot symbol random number information is assigned. It becomes possible to do.

-The process of step Sd03 of the second look-ahead command generation process in the first embodiment and the second embodiment may not be executed based on the result of the preliminary determination in the process of step Sd02. Specifically, in the process of step Sd02, when it is determined in advance that the big hit will not be won in the winning lottery, the process of step Sd04 may be executed without executing the process of step Sd03. In this case, in the process of step Sd04, the look-ahead command may be generated based on the result of the pre-determination in the process of step Sd02. When the process of step Sd04 is executed without executing the process of step Sd03, the main control CPU 30a may update the work address by one unit in the process of step Sd04, and the process of step Sd05 may be performed. The working address may be updated by 2 units in the process. As a result, the main control CPU 30a is larger than the address assigned to the storage area for storing the jackpot symbol random information and the reach determination random information without referring to the jackpot symbol random information and the reach determination random information. It is possible to refer to the random number information stored in the storage area to which the address is assigned.

-In the first look-ahead command generation process in the first embodiment and the second embodiment, one look-ahead command is generated based on a plurality of random number information, but the present invention is not limited to this. For example, the look-ahead command of 1 may be generated based on the random number information of 1, or a plurality of look-ahead commands may be generated based on the random number information of 1. Further, in the first look-ahead command generation process, one look-ahead command based on one random number information, a plurality of look-ahead commands based on one random number information, and one look-ahead command based on a plurality of random number information are arbitrarily selected. You may want to generate one or more selected look-ahead commands.

-In the second look-ahead command generation process in the first embodiment and the second embodiment, one look-ahead command is generated based on a plurality of random number information, but the present invention is not limited to this. For example, the look-ahead command of 1 may be generated based on the random number information of 1, or a plurality of look-ahead commands may be generated based on the random number information of 1. Further, in the second look-ahead command generation process, one look-ahead command based on one random number information, a plurality of look-ahead commands based on one random number information, and one look-ahead command based on a plurality of random number information are arbitrarily selected. You may want to generate one or more selected look-ahead commands.

-The process of step Se04 of the first special game execution process in the first embodiment and the second embodiment may not be executed based on the lottery result of the winning lottery in the process of step Se03. .. Specifically, in the process of step Se03, when it is determined that the big hit is not won in the winning lottery, the process of step Se05 may be executed without executing the process of step Se04. In this case, in the process of step Se05, it is preferable to generate a special symbol designation command capable of specifying the outlier symbol of the special symbol based on the lottery result of the winning lottery. When the process of step Se05 is to be executed without executing the process of step Se04, the main control CPU 30a may update the work address one unit next in the process of step Se05. As a result, the main control CPU 30a does not refer to the jackpot symbol random number information, but refers to the random number information stored in the storage area to which the address larger than the address assigned to the storage area for storing the jackpot symbol random number information is assigned. It becomes possible to do.

-The process of step Sf04 of the second special game execution process in the first embodiment may not be executed based on the lottery result of the winning lottery in the process of step Sf03. Specifically, in the process of step Sf03, when it is determined that the big hit is not won in the winning lottery, the process of step Sf05 may be executed without executing the process of step Sf04. In this case, in the process of step Sf05, it is preferable to generate a special symbol designation command capable of specifying the outlier symbol of the special symbol based on the lottery result of the winning lottery. When the process of step Sf05 is to be executed without executing the process of step Sf04, the main control CPU 30a may update the work address by one unit in the process of step Sf05, and the process of step Sf06 may be performed. The working address may be updated by 2 units in the process. As a result, the main control CPU 30a is larger than the address assigned to the storage area for storing the jackpot symbol random information and the reach determination random information without referring to the jackpot symbol random information and the reach determination random information. It is possible to refer to the random number information stored in the storage area to which the address is assigned.

-The process of step Se05 of the first special game execution process in the first embodiment and the second embodiment is a random number for reach determination in addition to the lottery result of the winning lottery and the determination result of the big hit symbol of the special symbol. It may be executed informed. That is, the special symbol designation command generated in the first special game execution process may be information that can specify whether or not the reach effect is executed. In this case, the process of step Sc04 of the first look-ahead command generation process is also executed based on the reach determination random number information in addition to the result of the preliminary determination in step Sc02 and the result of the preliminary determination in step Sc03. You may.

The process of step Sf05 of the second special game execution process in the first embodiment is executed based on the random number information for reach determination in addition to the lottery result of the winning lottery and the determination result of the big hit symbol of the special symbol. May be good. That is, the special symbol designation command generated in the second special game execution process may be information that can specify whether or not the reach effect is executed. In this case, the process of step Sd04 of the second look-ahead command generation process is also executed based on the reach determination random number information in addition to the result of the preliminary determination in step Sd02 and the result of the preliminary determination in step Sd03. You may.

-In the process of step Se07 of the first special game execution process in the first embodiment and the second embodiment, in addition to the lottery result of the winning lottery and the determination result of whether or not the reach effect is executed, in addition to the determination result. The address of the first variation pattern distribution information storage area may be acquired based on the determination result of the jackpot symbol of the special symbol. That is, in the process of step Se07, when a big hit is won in the winning lottery, the address of the first variable pattern distribution information storage area is acquired based on the type of the big hit symbol of the special symbol, while the big hit is won in the winning lottery. If not, the address of the first variation pattern distribution information storage area may be acquired based on whether or not the reach effect is executed. In this case, the process of step Sc06 of the first look-ahead command generation process may also be executed based on the reach determination random number information in addition to the lottery result of the winning lottery and the big hit symbol random number information.

-In the process of step Se07 of the first special game execution process in the first embodiment and the second embodiment, even if a big hit is won in the winning lottery, the first is based on the reach determination random number information. The address of the variation pattern distribution information storage area may be acquired. In this case, the reach effect may not be executed based on the reach determination random number information, or a different type of reach effect may be executed based on the reach determination random number information. .. When the address of the first variation pattern distribution information storage area is acquired based on the reach determination random number information, the same may be applied to the process of step Sc06 of the first look-ahead command generation process.

-The process of step Si04 of the second special game execution process in the second embodiment may not be executed based on the lottery result of the winning lottery in the process of step Si03. Specifically, in the process of step Si03, when it is determined that the big hit is not won in the winning lottery, the process of step Si05 may be executed without executing the process of step Si04. In this case, in the process of step Si05, it is preferable to generate a special symbol designation command capable of specifying the outlier symbol of the special symbol based on the lottery result of the winning lottery. When the process of step Si05 is to be executed without executing the process of step Si04, the main control CPU 30a may update the work address by one unit in the process of step Si05, and the process of step Si06 may be performed. The working address may be updated by 2 units in the process. As a result, the main control CPU 30a is larger than the address assigned to the storage area for storing the jackpot symbol random information and the reach determination random information without referring to the jackpot symbol random information and the reach determination random information. It is possible to refer to the random number information stored in the storage area to which the address is assigned.

The process of step Si05 of the second special game execution process in the second embodiment is executed based on the random number information for reach determination in addition to the lottery result of the winning lottery and the determination result of the big hit symbol of the special symbol. May be good. That is, the special symbol designation command generated in the second special game execution process may be information that can specify whether or not the reach effect is executed. In this case, the process of step Sd04 of the second look-ahead command generation process is also executed based on the reach determination random number information in addition to the result of the preliminary determination in step Sd02 and the result of the preliminary determination in step Sd03. You may.

-The second embodiment is embodied in a gaming machine (so-called type 1 type 2 mixing machine) that grants a big hit game when the game ball passes through a specific area, but the present invention is not limited to this. For example, the second embodiment is embodied in a gaming machine in which it is possible to control a gaming state in which small hit games occur frequently, and in the game state, a large number of gaming balls can be acquired by frequent small hit games. May be good.

-In the second embodiment, the look-ahead command based on the small hit symbol random number information may be output to the sub-control board 31. In this case, the look-ahead command based on the small hit symbol random number information may be output before the hold designation command or after the hold designation command. Further, the look-ahead command based on the small hit symbol random number information may be output before the first look-ahead command, or may be output after the first look-ahead command. Further, the look-ahead command based on the small hit symbol random number information may be output before the second look-ahead command, or may be output after the second look-ahead command. When the look-ahead command based on the small hit symbol random number information is output to the sub-control board 31, the reference order of the random number information may be arbitrarily changed. For example, the small hit symbol random number information may be referred to before the hit random number information, or may be referred to after the hit random number information. Further, for example, the small hit symbol random number information may be referred to before the big hit symbol random number information, or may be referred to after the big hit symbol random number information. Further, for example, the small hit symbol random number information may be referred to before the reach determination random number information, or may be referred to after the reach determination random number information. Further, for example, the small hit symbol random number information may be referred to before the first variation pattern distribution random number information, or may be referred to after the first variation pattern distribution random number information. .. Further, for example, the small hit symbol random number information may be referred to before the second variation pattern distribution random number information, or may be referred to after the second variation pattern distribution random number information. .. When changing the reference order of the random number information, the storage order of the random number information may be changed so that the storage order of the random number information is the same as the reference order of the random number information.

-In the second embodiment, the first number of repetitions is acquired as the number of repetitions before the first random number information storage process is executed, and the second number of repetitions is acquired as the number of repetitions before the second random number information storage process is executed. You may try to do so. In this case, the first random number information storage process and the second random number information storage process may be the same process. Specifically, the first random number information storage process and the second random number information storage process may be the same as the processes of steps Sb02 to Sb09 of the random number information storage process in the first embodiment.

-In the second embodiment, the first variation pattern distribution information storage area may include a plurality of types of first variation pattern distribution information storage areas based on the types of small hit symbols. In this case, in the second look-ahead command generation process, it is preferable to refer to the small hit symbol random number information. Further, when the first variation pattern distribution information storage area has a plurality of types of first variation pattern distribution information storage areas based on the types of small hit symbols, in the second special game execution process, the first variation pattern distribution information It is preferable to refer to the small hit symbol random number information in the process before acquiring the address of the storage area.

-In each embodiment, the random number information of 1 is stored based on the random number of 1, but the present invention is not limited to this. A plurality of random number information based on one random number may be stored, or one random number information based on a plurality of random numbers may be stored. Further, one or more random number information arbitrarily selected from one random number information based on one random number, a plurality of random number information based on one random number, and one random number information based on a plurality of random numbers can be obtained. You may update it to remember it.

-In each embodiment, there may be non-influenced random number information that does not affect the processing result of the first special game execution process. In this case, in the first special game execution process, the influence random number information may be stored in a predetermined order, and then the non-influence random number information may be stored. In this case, in the first special game execution process, it is possible to refer only to the influence random number information by referring to the random number information based on the storage order of the random number information. Therefore, it is possible to prevent the first special game execution process from becoming complicated.

-In each embodiment, the hit random number information, the big hit symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, and the small hit symbol random number information are arbitrarily selected. The one or more random number information generated may be the first random number information based on a random number that is not updated during the execution of the random number information storage process.

-In each embodiment, the hit random number information, the big hit symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, and the small hit symbol random number information are arbitrarily selected. The generated one or more random number information may be the second random number information based on the random number to be updated even during the execution of the random number information storage process.

-In each embodiment, the hit random number information, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, and the small hit symbol random number information are arbitrarily selected. The generated one or more random number information may be an unaffected random number whose information content does not affect the processing result of the first special game execution process.

-In each embodiment, the hit random number information, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, and the small hit symbol random number information are arbitrarily selected. The one or more random number information generated may be an unaffected random number whose information content does not affect the processing result of the second special game execution process.

-In each embodiment, the hit random number information, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, and the small hit symbol random number information are arbitrarily selected. The one or more random number information generated may be an influence random number whose information content affects the processing result of the first special game execution process.

-In each embodiment, the hit random number information, the jackpot symbol random number information, the reach determination random number information, the first variation pattern distribution random number information, the second variation pattern distribution random number information, and the small hit symbol random number information are arbitrarily selected. The one or more random number information generated may be an influence random number whose information content affects the processing result of the second special game execution process.

-In each embodiment, part or all of the first random number information may be random number information based on the random number generation circuit 30d or a hardware random number generated by a random number generation circuit different from the random number generation circuit 30d. .. In this case, the main control CPU 30a may prevent the hardware random number from being updated when the random number information storage process is started.

-In each embodiment, a part or all of the second random number information may be a main control CPU 30a or a software random number generated by a control means different from the main control CPU 30a. When the second random number information is generated by the main control CPU 30a, for example, the main control CPU 30a updates the software random number in the process of interrupting and executing even during the execution of the random number information storage process. You may do so.

-In each embodiment, in the random number information storage process, the second address for work is updated to acquire various random numbers, but the present invention is not limited to this. For example, in the random number information storage process, the main control CPU 30a may acquire various random numbers based on the acquired address of the random number address storage area and the storage position of various random number addresses in the random number address storage area. .. For example, when acquiring a reach determination random number, the main control CPU 30a addresses the random number address storage area based on the acquired address of the random number address storage area and the storage position of the reach determination random number address in the random number address storage area. The information stored in the storage area indicated by the address obtained by adding 4 bytes to is acquired as a reach determination random number address.

-In each embodiment, in the random number information storage process, the second address for work is updated to store various random number information, but the present invention is not limited to this. For example, in the random information storage process, the main control CPU 30a may store various random information based on the acquired address of the random information storage area and the storage position of various random information in the random information storage area. Good. For example, when storing the first variation pattern distribution random information, the main control CPU 30a is based on the acquired address of the random information storage area and the storage position of the first variation pattern distribution random information in the random information storage area. , The first variation pattern distribution random number information is stored in the storage area indicated by the address obtained by adding 6 bytes to the address of the random number information storage area.

-In each embodiment, in the look-ahead command generation process, the working address is updated and various random number information is referred to, but the present invention is not limited to this. For example, in the look-ahead command generation process, the main control CPU 30a may refer to various random number information based on the acquired address of the random number information storage area and the storage position of various random number information in the random number information storage area. Good. For example, when referring to the first variation pattern distribution random information, the main control CPU 30a is based on the acquired address of the random information storage area and the storage position of the first variation pattern distribution random information in the random information storage area. , The information stored in the storage area indicated by the address obtained by adding 6 bytes to the address of the random number information storage area is referred to as the first variation pattern distribution random number information.

-In each embodiment, in the first special game execution process and the second special game execution process, the work address is updated and various random number information is referred to, but the present invention is not limited to this. For example, in the first special game execution process and the second special game execution process, the main control CPU 30a is based on the acquired address of the random number information storage area and the storage position of various random number information in the random number information storage area. Various random number information may be referred to. For example, when referring to the first variation pattern distribution random information, the main control CPU 30a is based on the acquired address of the random information storage area and the storage position of the first variation pattern distribution random information in the random information storage area. , The information stored in the storage area indicated by the address obtained by adding 6 bytes to the address of the random number information storage area is referred to as the first variation pattern distribution random number information.

-In each embodiment, the sub-control CPU 31a may execute the effect symbol variation processing when the variation pattern command is input before the predetermined time elapses after the special symbol designation command is input. Good.

-In each embodiment, the sub-control CPU 31a performs a look-ahead effect determination process when a first look-ahead command and a second look-ahead command are input before a predetermined time elapses after the hold designation command is input. You may want to do it.

-In each embodiment, the sub-control CPU 31a executes the look-ahead effect determination process when the second look-ahead command is input before the predetermined time elapses after the first look-ahead command is input. May be good.

-In each embodiment, the main control CPU 30a outputs the special symbol designation command and the variation pattern command to the sub control board 31 in this order, but the present invention is not limited to this. For example, the main control CPU 30a may output the fluctuation pattern command and the special symbol designation command to the sub control board 31 in this order. In this case, the main control CPU 30a may or may not arbitrarily change the reference order of the random number information from each of the above embodiments. When the order in which the special symbol specification command and the variation pattern command are output to the sub-control board 31 is changed, the sub-control CPU 31a performs the special symbol specification command and the variation in the same order as the order in which they are output to the sub-control board 31. It is advisable to execute the effect symbol variation processing when the pattern command is input.

-In each embodiment, the main control CPU 30a outputs the hold designation command, the first look-ahead command, and the second look-ahead command to the sub-control board 31 in this order, but the present invention is not limited to this. For example, the main control CPU 30a may output the hold designation command second or third. Further, for example, the main control CPU 30a may output the first look-ahead command first or third. Further, for example, the main control CPU 30a may output the second look-ahead command first or second. When changing the order in which the hold designation command, the first look-ahead command, and the second look-ahead command are output to the sub-control board 31, the main control CPU 30a arbitrarily changes the reference order of random number information from each of the above embodiments. It may or may not be changed. Further, when changing the reference order of the random number information, the storage order of the random number information may be changed so that the storage order of the random number information is the same as the reference order of the random number information. When changing the order in which the hold designation command, the first look-ahead command, and the second look-ahead command are output to the sub-control board 31, the sub-control CPU 31a is held in the same order as the order in which the sub-control board 31 is output. When a command, a first look-ahead command, and a second look-ahead command are input, the look-ahead effect determination process may be executed.

-Each first variation pattern distribution information storage area is configured to store different addresses of the second variation pattern distribution information storage area, but the present invention is not limited to this. For example, the address of the second variation pattern distribution information storage area stored in the first variation pattern distribution information storage area of 1 is the second variation stored in another first variation pattern distribution information storage area. It may be the same as a part or all of the address of the pattern distribution information storage area.

-In each embodiment, in addition to the sub-control board 31, a light emission control board that specially controls the decorative lamp La, a voice control board that specially controls the speaker Sp, and a display control board that specially controls the image display device 11 are provided. It may be provided. Further, the sub-sub-control board may include such a sub-sub-control board and a board for controlling other effects and notifications.

Further, the main control CPU 30a of the main control board 30 and the sub control CPU 31a of the sub control board 31 may be mounted on a single board. Further, in the above alternative example, the light emission control board, the voice control board, and the display control board may be arbitrarily combined to form a single board or a plurality of boards.

-As a pachinko game machine 10 equipped with a probability fluctuation function, in a winning lottery, a specification that grants a probability fluctuation state until the next big hit is won, and a specification that grants a probability fluctuation state until a fall lottery is won (fall machine). Alternatively, there is a specification (ST machine) in which a probability fluctuation state is given until a predetermined number of fluctuation games are completed. Further, the pachinko gaming machine equipped with the probability fluctuation function has a specification (V probability variation machine) in which a probability fluctuation state is given when the game ball passes through a specific area. The pachinko gaming machine 10 of the embodiment may be embodied in any of these specifications of the pachinko gaming machine. Further, the pachinko gaming machine 10 may be a pachinko gaming machine having specifications in which the above-mentioned falling machine and V probability changing machine are mixed.

The technical idea that can be grasped from the above-described embodiment and modified example will be described.
(B) A holding means for holding each of the first special game and the second special game, a storage means for storing predetermined information, a control means for executing a predetermined control, and a random number generation for generating a predetermined random number. The control means can execute random information storage control for storing random information based on the predetermined random number in the storage means and read-ahead control for generating a look-ahead command based on the random information. There are a plurality of types of the random number information, and in the random number information storage control, the address of the allocated storage area is stored in order from the smallest random number information, and in the look-ahead control, the random number with the smallest address of the allocated storage area. The pre-reading command is generated based on the reference result while being referred in order from the information, and the random number information storage control includes a first random number information storage control executed when the first special game is held. There is a second random number information storage control that is executed when the second special game is held, and the number of random number information stored in the first random number information storage control and the second random number information storage control. The random information is different from the normal random information stored in any of the first random information storage control and the second random information storage control, the first random information storage control, and the first random information storage control. There is a specific random number information that is stored only in one of the two random number information storage controls, and the normal random number information is stored in either the first random number information storage control or the second random number information storage control. The game machines are in the same order.

(B) When the specific random number information is stored by the random number information storage control, the order in which the specific random number information is stored may be later than the order in which the normal random number information is stored.

(C) The look-ahead command includes a look-ahead command capable of specifying a fluctuation pattern, and the normal random number information includes a jackpot random number information related to a jackpot lottery and a fluctuation pattern random number related to a fluctuation pattern lottery, and the fluctuation pattern includes a fluctuation pattern random number. , There are a fluctuation pattern of a big hit and a fluctuation pattern of an outlier, and the order in which the jackpot random number information is stored is earlier than the order in which the fluctuation pattern random number information is stored in the order in which the normal random number information is stored. It is good to be.

(D) The control means can execute game execution control for executing a special game, and in the game execution control, the random number information is referred to, and the special game is executed based on the random number information. The game execution control includes a first special game execution control for executing the first special game and a second special game execution control for executing the second special game, and the normal random number information includes the above. It is preferable that there is random number information whose information content does not affect the control result of one of the first special game execution control and the second special game execution control.

(E) In the random number information storage control, it is preferable that the normal random number information is assigned a storage area in which the addresses in the storage means are continuous.
(F) Holding means for holding each of the first special game and the second special game, a storage means for storing predetermined information, a control means for executing a predetermined control, and a hardware for generating a hardware random number. The control means includes a random number generation means, the control means generates a software random number generation control for generating a software random number, a random number information storage control for storing random number information in the storage means, and a look-ahead command based on the random number information. Pre-reading control and game execution control for executing a special game can be executed, and the random number information includes a first random number information based on the software random number and a second random number information based on the hardware random number. In the random number information storage control, the address of the allocated storage area is stored in ascending order from the smallest random number information, and in the look-ahead control, the address of the allocated storage area is referred to in order from the smallest random number information. The look-ahead command is generated based on the reference result, and the order in which the second random number information is stored is earlier than the order in which the first random number information is stored. In the game execution control, the random number information is stored. Is referred to, a special game is executed based on the random number information, and the game execution control includes a first special game execution control for executing the first special game and a second special game for executing the second special game. There are two special game execution controls, and the first random number information includes random number information whose information content does not affect one of the control results of the first special game execution control and the second special game execution control. ..

(G) A holding means for holding the first special game and the second special game, a storage means for storing predetermined information, a control means for executing a predetermined control, and a random number generating means for generating a predetermined random number. The control means can execute a random number information storage control for storing random information based on the predetermined random number and a game execution control for executing a special game based on the random number information. The information includes influence random number information in which the information content affects the control result of the game execution control and non-influence random number information in which the information content does not affect the control result of the game execution control. There are a first random number information storage control executed when the first special game is held, and a second random number information storage control executed when the second special game is held, and the game execution control. The first special game execution control for executing the first special game and the second special game execution control for executing the second special game are included in the first special game execution control and the second special game execution control. The influence random number information is different from the special game execution control, and in the first random number information storage control and the second random number information storage control, the random number regardless of whether or not the random number information is the influence random number information. A game machine in which information is stored in the same order.

(H) There are a plurality of types of influence random number information that affect the control result of the first special game execution control, and in the first random number information storage control, the plurality of types of influence random number information are stored in a predetermined order. After that, it is preferable that the unaffected random number information is stored.

(I) In the first random number information storage control and the second random number information storage control, the same control may be executed.
(N) The influence random number information that affects the control result of the first special game execution control may include random number information that also affects the control result of the second special game execution control.

(L) The number of influence random number information affecting the control result of the first special game execution control may be different from the number of influence random number information affecting the control result of the second special game execution control.
(W) The control means can execute a look-ahead control that generates a look-ahead command based on the random number information, and the look-ahead control is a first look-ahead control that is executed when the first special game is held. And a second look-ahead control that is executed when the second special game is held, and the same control may be executed in the first look-ahead control and the second look-ahead control.

(W) The control means can execute a look-ahead control that generates a look-ahead command based on the random number information, and the look-ahead control is a first look-ahead control that is executed when the first special game is held. And the second look-ahead control that is executed when the second special game is held, and the first look-ahead control is based on the influence random number information that affects the control result of the first special game execution control. It is preferable that the look-ahead command is generated, and in the second look-ahead control, the look-ahead command is generated based on the influence random number information that affects the control result of the second special game execution control.

(F) In the random number information storage control, the order in which the influence random number information is stored may be the same as the order in which the influence random number information is referred to in the look-ahead control.

10 ... Pachinko game machine, 11 ... Image display device, 30 ... Main control board, 30a ... Main control CPU, 30b ... Main control ROM, 30c ... Main control RAM, 30d ... Random number generation circuit, 31 ... Sub control board , 31a ... Sub-control CPU, 31b ... Sub-control ROM, 31c ... Sub-control RAM, GH ... Image display area.

Claims (3)

Reservation means for holding each of the first special game and the second special game,
A storage means for storing predetermined information and
A control means that executes a predetermined control, and
Equipped with a random number generation means for generating a predetermined random number,
The control means can execute random number information storage control for storing random number information based on the predetermined random number in the storage means and read-ahead control for generating a look-ahead command based on the random number information.
The random number information includes a first random number information based on a random number that is not updated during the execution of the random number information storage control, and a second random number information based on a random number that is updated even during the execution of the random number information storage control. There is
In the random number information storage control, the addresses of the allocated storage areas are stored in order from the smallest random number information.
In the look-ahead control, the address of the allocated storage area is referred to in order from the smallest random number information, and the look-ahead command is generated based on the reference result.
A gaming machine in which the order in which the second random number information is stored is earlier than the order in which the first random number information is stored. The gaming machine according to claim 1, wherein the random number generating means includes a random number generating means for generating the first random number and a random number generating means for generating the second random number. The gaming machine according to claim 1 or 2, wherein the second random number information is jackpot random number information related to a jackpot lottery.

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